CN214682859U - High-speed tool steel apparatus for producing of powder convenient to improve hardness - Google Patents

Abstract

The utility model discloses a high-speed instrument steel apparatus for producing of powder convenient to improve hardness, including outer box and the interior box of setting in outer box inside, first spout has been seted up to the inner wall of second screening bucket, be equipped with first screening otter board and second screening otter board in the first spout, the bottom both ends of first screening otter board and second screening otter board are equipped with vibration mechanism, vibration mechanism is including first driving motor, first driving motor's output is connected with first action wheel, the bottom of first action wheel is connected with first from the driving wheel, first one side from driving wheel and first action wheel is connected with first rotation axis, the one end of first rotation axis is connected with the cam, the top of cam is connected with the spliced pole. The utility model discloses a start the work of first driving motor to make the cam pass through the spliced pole and drive first screening otter board and second screening otter board and shake from top to bottom along first spout, can select more meticulous powder, and then improve the hardness of high-speed tool steel.

Description

High-speed tool steel apparatus for producing of powder convenient to improve hardness

Technical Field

The utility model relates to a high-speed tool steel field, concretely relates to high-speed tool steel apparatus for producing of powder convenient to improve hardness.

Background

The high-speed steel is a tool steel with high hardness, high wear resistance and high heat resistance, also called high-speed tool steel or high-speed steel, commonly called white steel, and has good processing performance and good matching of strength and toughness, so that the high-speed steel is mainly used for manufacturing complex thin-edge and impact-resistant metal cutting tools, and can also be used for manufacturing high-temperature bearings, cold extrusion dies and the like.

When the existing high-speed tool steel is produced, the atomized powder needs to be screened, and the finer powder is selected, so that the hardness of the high-speed tool steel can be improved by the tool steel produced in subsequent production, but when the tool steel is actually used, the existing screening device cannot screen the finer powder, and the problem that the hardness of the high-speed tool steel produced in subsequent production is poor is caused.

Therefore, it is necessary to develop a powder high-speed tool steel production apparatus which facilitates the improvement of hardness to solve the above problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a high-speed tool steel apparatus for producing of powder convenient to improve hardness, through starting the work of a driving motor to make the top of cam drive first screening otter board and second screening otter board through the spliced pole and shake from top to bottom along first spout, can make first screening otter board and second screening otter board can select more meticulous powder, improve the screening efficiency, and then improve the follow-up hardness of producing high-speed tool steel, with the above-mentioned weak point in the solution technology.

In order to achieve the above object, the present invention provides the following technical solutions: a powder high-speed tool steel production device convenient for improving hardness comprises an outer box body and an inner box body arranged in the outer box body, wherein the inner box body is formed by sleeving a first screening barrel and a second screening barrel from top to bottom, a first chute is formed in the inner wall of the second screening barrel, a first screening net plate and a second screening net plate are sequentially arranged in the first chute from top to bottom, two ends of the bottoms of the first screening net plate and the second screening net plate are symmetrically provided with vibrating mechanisms, the two vibrating mechanisms respectively comprise a first driving motor which is horizontally arranged on one side of the outer box body, the output ends of the two first driving motors extend to the outer box body and are connected with a first driving wheel in a rotating mode, the bottom ends of the two first driving wheels are respectively connected with a first driven wheel through a belt in a rotating mode, and a first rotating shaft is respectively connected with the two first driven wheels and the center of one side, close to the inner box body, of the first driven wheel and the first driving wheel, four the one end of first rotation axis all runs through the second screening bucket and extends to first spout in-connection cam, four the top of cam all is connected with the spliced pole, four the spliced pole is two bisymmetry and is connected with the bottom of first screening otter board and second screening otter board respectively.

Preferably, the mesh screening size of the first screening mesh plate is larger than that of the second screening mesh plate, and the diameter size of the first screening barrel is larger than that of the second screening barrel.

Preferably, a discharge port at the bottom of the inner box body is provided with an electromagnetic valve.

Preferably, an observation window is arranged on the outer side of the outer box body.

Preferably, the external internal slewing mechanism that is equipped with of outer box, slewing mechanism is the second driving motor of perpendicular setting including setting up at the external box top, second driving motor's output runs through external box body coupling and has the second rotation axis, the bottom of second rotation axis extends to first screening bucket in-connection and has the connecting rod, every the one end of connecting rod all is connected with the scraper blade, and is a plurality of the scraper blade all contacts with the top inner wall of first screening bucket.

Preferably, the one end of second rotation axis runs through in proper order and rotates and be connected with second action wheel and third action wheel, the opposite one side of second action wheel and third action wheel extends to through the belt respectively and rotates between outer box inner wall and the first screening bucket outer wall to be connected with the second from the driving wheel and the third from the driving wheel, the second is all rotated through the pivot from the bottom of driving wheel and third from the driving wheel and is connected with the gear.

Preferably, the top outer wall of first screening bucket is connected with the rack, the rack is connected with gear engagement, the bottom of rack is equipped with a plurality of first pulleys and second pulley in proper order, and is a plurality of first pulley and second pulley are equidistant setting respectively on the centre and the bottom outer wall of first screening bucket.

Preferably, a sliding rail is arranged on the inner wall in the middle of the outer box body and is connected with the first pulleys in a sliding mode.

Preferably, the top of second screening bucket is equipped with the fixing base, the second spout has been seted up on the top of fixing base, second spout and a plurality of second pulley sliding connection.

In the technical scheme, the utility model provides a technological effect and advantage:

1. the first driving motor is started to work, so that the first driving wheel drives the first driven wheel to rotate through the belt, the first driven wheel and the first driving wheel drive the cam to rotate through the first rotating shaft, the top end of the cam drives the first screening net plate and the second screening net plate to vibrate up and down along the first sliding groove through the connecting column, the first screening net plate and the second screening net plate can screen finer powder, the screening efficiency is improved, and the hardness of the subsequently produced high-speed tool steel is improved;

2. through starting second driving motor work for the second rotation axis drives second action wheel and third action wheel and rotates, and second action wheel and third action wheel loop through the belt and drive the second from driving wheel and third from the driving wheel rotation, and the second drives gear rotation from driving wheel and third through the pivot, and the gear drives first screening bucket through the meshing rack and rotates, thereby makes first screening bucket and scraper blade rotation opposite direction, thereby can be with remaining powder clean up in the bucket.

Drawings

In order to more clearly illustrate the embodiments of the present application 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 described in the present invention, and other drawings can be obtained by those skilled in the art according to these drawings.

Fig. 1 is a schematic view of the overall mechanism of the present invention;

FIG. 2 is a cross-sectional view of the overall structure of the present invention;

fig. 3 is an enlarged view of the area a in fig. 2 according to the present invention;

fig. 4 is an enlarged view of the area B in fig. 2 according to the present invention;

fig. 5 is an enlarged view of the region C in fig. 2 according to the present invention.

Description of reference numerals:

1. an outer case; 11. an observation window; 12. a slide rail; 2. a vibration mechanism; 21. a first drive motor; 22. a first drive wheel; 23. a first driven wheel; 231. a first rotating shaft; 24. a cam; 25. connecting columns; 3. a rotating mechanism; 31. a second drive motor; 311. a second rotation shaft; 32. a second drive wheel; 33. a third driving wheel; 34. a second driven wheel; 35. a third driven wheel; 36. a connecting rod; 37. a squeegee; 38. a gear; 4. an inner box body; 41. a rack; 42. a first pulley; 43. a second pulley; 44. a first chute; 45. a first screening barrel; 46. a second screening barrel; 5. a first screening screen; 6. a second screening screen; 7. an electromagnetic valve; 8. a fixed seat; 81. a second runner.

Detailed Description

In order to make the technical solution of the present invention better understood by those skilled in the art, the present invention will be further described in detail with reference to the accompanying drawings.

The utility model provides a high-speed tool steel production device of powder convenient to improve hardness, as shown in figures 1-5, comprising an outer box body 1 and an inner box body 4 arranged inside the outer box body 1, wherein the outer side of the outer box body 1 is provided with an observation window 11 convenient for observing the working condition inside, and is convenient for preparing in advance, a discharge port at the bottom of the inner box body 4 is provided with a solenoid valve 7, the inner box body 4 is formed by sleeving a first screening barrel 45 and a second screening barrel 46 from top to bottom, the inner wall of the second screening barrel 46 is provided with a first chute 44, a first screening mesh plate 5 and a second screening mesh plate 6 are arranged in the first chute 44 from top to bottom in sequence, the two bottom ends of the first screening mesh plate 5 and the second screening mesh plate 6 are symmetrically provided with vibration mechanisms 2, and the two vibration mechanisms 2 comprise a first driving motor 21 which is arranged horizontally at one side outside the outer box body 1, two the output of first driving motor 21 extends to the internal rotation of outer box 1 and is connected with first action wheel 22, two the bottom of first action wheel 22 all is connected with first from driving wheel 23, two through the belt rotation first from one side center department that driving wheel 23 and first action wheel 22 are close to interior box 4 all is connected with first rotation axis 231, four the one end of first rotation axis 231 all runs through second screening bucket 46 and extends to first spout 44 in-connection and have cam 24, four the top of cam 24 all is connected with spliced pole 25, four spliced pole 25 is two bisymmetry and is connected with the bottom of first screening otter board 5 and second screening otter board 6 respectively.

Further, in the above technical solution, the mesh screening size of the first screen plate 5 is larger than the mesh screening size of the second screen plate 6, and the diameter size of the first screen barrel 45 is larger than the diameter size of the second screen barrel 46.

The implementation mode is specifically as follows: when the device is in actual use, powder firstly falls into the first screening screen plate 5 and the second screening screen plate 6 of the inner box body 4 for primary screening, then the two first driving motors 21 are started to work, the two first driving motors 21 drive the first driving wheel 22 to rotate, the two first driving wheels 22 drive the first driven wheel 23 to rotate through a belt, then, each first driven wheel 23 and the first driving wheel 22 drive the cam 24 to rotate through the first rotating shaft 231, the top end of each cam 24 drives the first screening net plate 5 and the second screening net plate 6 to vibrate up and down along the first chute 44 through the connecting column 25, thereby improving the screening efficiency by driving the first screening net plate 5 and the second screening net plate 6 to vibrate, so that the first screen 5 and the second screen 6 can screen out finer powder, this embodiment specifically addresses the inability to screen out very fine powder as is the case with prior art cams 24.

As shown in fig. 2, 4 and 5: be equipped with slewing mechanism 3 in the outer box 1, slewing mechanism 3 is the second driving motor 31 of perpendicular setting including setting up at 1 top of outer box, the output of second driving motor 31 runs through outer box 1 and is connected with second rotation axis 311, the bottom of second rotation axis 311 extends to first screening bucket 45 in-connection and has connecting rod 36, every connecting rod 36's one end all is connected with scraper blade 37, and is a plurality of scraper blade 37 all contacts with the top inner wall of first screening bucket 45, through starting second driving motor 31 work for second rotation axis 311 drives a plurality of connecting rod 36 and rotates, thereby drives scraper blade 37 through a plurality of connecting rod 36 and rotates, can scrape down the powder that the inner wall of inner box 4 bonded, resources are saved.

Further, in the above technical solution, one end of the second rotating shaft 311 is sequentially connected with a second driving wheel 32 and a third driving wheel 33 in a penetrating manner, one sides of the second driving wheel 32 opposite to one side of the third driving wheel 33 are respectively extended to the position between the inner wall of the outer box 1 and the outer wall of the first screening barrel 45 through a belt, and are rotatably connected with a second driven wheel 34 and a third driven wheel 35, and the bottom ends of the second driven wheel 34 and the third driven wheel 35 are rotatably connected with a gear 38 through rotating shafts.

Further, in above-mentioned technical scheme, the top outer wall of first screening bucket 45 is connected with rack 41, rack 41 is connected with gear 38 meshing, the bottom of rack 41 is equipped with a plurality of first pulleys 42 and second pulley 43 in proper order, and is a plurality of first pulley 42 and second pulley 43 are equidistant setting respectively on the middle of first screening bucket 45 and bottom outer wall, be equipped with slide rail 12 on the middle inner wall of outer box 1, slide rail 12 and a plurality of first pulley 42 sliding connection, the top of second screening bucket 46 is equipped with fixing base 8, second spout 81 has been seted up on the top of fixing base 8, second spout 81 and a plurality of second pulley 43 sliding connection.

The implementation mode is specifically as follows: this device is when in actual use, at first start second driving motor 31 work, second driving motor 31 drive second rotation axis 311 drives second action wheel 32 and third action wheel 33 and rotates, second action wheel 32 and third action wheel 33 loop through the belt and drive second from driving wheel 34 and third from driving wheel 35 and rotate, then second from driving wheel 34 and third from driving wheel 35 and drive gear 38 through the pivot and rotate, gear 38 drives first screening bucket 45 through meshing rack 41 and rotates, thereby make first screening bucket 45 and scraper blade 37 rotation direction opposite, thereby can remain the powder clean up in the bucket, this embodiment has specifically solved and has remained the problem of the unclean problem of clearance in the powder bucket that exists among the prior art.

This practical theory of operation:

referring to the attached drawings 1-5 of the specification, the powder is primarily screened by the first screening mesh plate 5 and the second screening mesh plate 6, the two first driving motors 21 are started to work, the first driving motor 21 drives the first driving wheel 22 to rotate, the first driving wheel 22 drives the first driven wheel 23 to rotate through a belt, so that the first driven wheel 23 and the first driving wheel 22 drive the cam 24 to rotate through the first rotating shaft 231, the top end of the cam 24 drives the first screening mesh plate 5 and the second screening mesh plate 6 to vibrate up and down along the first sliding chute 44 through the connecting column 25, so that the screening efficiency is improved by driving the first screening mesh plate 5 and the second screening mesh plate 6 to vibrate, the first screening mesh plate 5 and the second screening mesh plate 6 can screen finer powder, and the hardness of the subsequently produced high-speed tool steel is improved;

referring to the attached fig. 2, 4 and 5 of the specification, by starting the second driving motor 31 to operate, the second driving motor 31 drives the second rotating shaft 311 to drive the second driving wheel 32 and the third driving wheel 33 to rotate, the second driving wheel 32 and the third driving wheel 33 sequentially drive the second driven wheel 34 and the third driven wheel 35 to rotate through the belt, the second driven wheel 34 and the third driven wheel 35 drive the gear 38 to rotate through the rotating shaft, the gear 38 drives the first screening barrel 45 to rotate through the meshing rack 41, so that the first screening barrel 45 and the scraper 37 rotate in opposite directions, and thus the residual powder in the barrel can be cleaned.

While certain exemplary embodiments of the present invention have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that the described embodiments may be modified in various different ways without departing from the spirit and scope of the present invention. Accordingly, the drawings and description are illustrative in nature and should not be construed as limiting the scope of the invention.

Claims (9)

1. The utility model provides a high-speed tool steel apparatus for producing of powder convenient to improve hardness, includes outer box (1) and sets up inside interior box (4) of box (1) outside, its characterized in that: the inner box body (4) is formed by sequentially sleeving a first screening barrel (45) and a second screening barrel (46) from top to bottom, a first chute (44) is formed in the inner wall of the second screening barrel (46), a first screening screen plate (5) and a second screening screen plate (6) are sequentially arranged in the first chute (44) from top to bottom, vibration mechanisms (2) are symmetrically arranged at two ends of the bottoms of the first screening screen plate (5) and the second screening screen plate (6), the two vibration mechanisms (2) respectively comprise first driving motors (21) which are horizontally arranged at one side of the outer part of the outer box body (1), the output ends of the two first driving motors (21) extend to the outer box body (1) and are rotationally connected with first driving wheels (22), and the bottom ends of the two first driving wheels (22) are respectively rotationally connected with first driven wheels (23) through belts, two first from driving wheel (23) and first action wheel (22) are close to one side center department of interior box (4) and all are connected with first rotation axis (231), four the one end of first rotation axis (231) all runs through second screening bucket (46) and extends to first spout (44) in-connection cam (24), four the top of cam (24) all is connected with spliced pole (25), four spliced pole (25) are two bisymmetry and are connected with the bottom of first screening otter board (5) and second screening otter board (6) respectively.

2. The apparatus for producing a powder high-speed tool steel facilitating an increase in hardness according to claim 1, wherein: the mesh screening size of the first screening mesh plate (5) is larger than that of the second screening mesh plate (6), and the diameter size of the first screening barrel (45) is larger than that of the second screening barrel (46).

3. The apparatus for producing a powder high-speed tool steel facilitating an increase in hardness according to claim 1, wherein: and an electromagnetic valve (7) is arranged at a discharge outlet at the bottom of the inner box body (4).

4. The apparatus for producing a powder high-speed tool steel facilitating an increase in hardness according to claim 1, wherein: an observation window (11) is arranged on the outer side of the outer box body (1).

5. The apparatus for producing a powder high-speed tool steel facilitating an increase in hardness according to claim 1, wherein: be equipped with slewing mechanism (3) in outer box (1), slewing mechanism (3) are perpendicular second driving motor (31) that sets up including setting up at outer box (1) top, the output of second driving motor (31) runs through outer box (1) and is connected with second rotation axis (311), the bottom of second rotation axis (311) extends to first screening bucket (45) in-connection has connecting rod (36), every the one end of connecting rod (36) all is connected with scraper blade (37), and is a plurality of scraper blade (37) all contacts with the top inner wall of first screening bucket (45).

6. The apparatus for producing a powder high-speed tool steel facilitating an increase in hardness according to claim 5, wherein: one end of second rotation axis (311) runs through the rotation in proper order and is connected with second action wheel (32) and third action wheel (33), one side that second action wheel (32) and third action wheel (33) are opposite extends to and rotates between outer box (1) inner wall and first screening bucket (45) outer wall through the belt respectively and is connected with the second from driving wheel (34) and third from driving wheel (35), the second is followed the bottom of driving wheel (34) and third from driving wheel (35) and is all rotated through the pivot and be connected with gear (38).

7. The apparatus for producing a powder high-speed tool steel facilitating an increase in hardness according to claim 6, wherein: the top outer wall of first screening bucket (45) is connected with rack (41), rack (41) are connected with gear (38) meshing, the bottom of rack (41) is equipped with a plurality of first pulley (42) and second pulley (43) in proper order, and is a plurality of first pulley (42) and second pulley (43) are equidistant setting respectively on the centre and the bottom outer wall of first screening bucket (45).

8. The apparatus for producing a powder high-speed tool steel facilitating an increase in hardness according to claim 7, wherein: be equipped with slide rail (12) on the middle inner wall of outer box (1), slide rail (12) and a plurality of first pulley (42) sliding connection.

9. The apparatus for producing a powder high-speed tool steel facilitating an increase in hardness according to claim 7, wherein: the top of second screening bucket (46) is equipped with fixing base (8), second spout (81) have been seted up on the top of fixing base (8), second spout (81) and a plurality of second pulley (43) sliding connection.

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