CN110124810A - A kind of crushing part device for pulverizer - Google Patents

Abstract

A kind of crushing part device of pulverizer is provided, including cylinder (1) and rotor (2), sieve (5) area is arranged in cylinder (1), the multiple raised fixed tooth (7) of cylinder (1) inner wall setting, it is arranged as along cylinder (1) inner wall multiple rows of, every row includes vertically disposed multiple raised fixed tooth (7), and setting vacancy section (8) falls required space as material between adjacent 2 row protrusion fixed tooth (7)；Rotor (2) periphery is arranged multiple protrusions and turns tooth (9), along rotor (2) periphery, at least 2 rows are set, every row includes that vertically disposed multiple protrusions turn tooth (9), and adjacent 2 row protrusion turns setting vacancy slot (23) between tooth (9) and material is used as to fall required space；Intermeshing protrusion turns to retain spacing required for material target particles size between tooth (9) and raised fixed tooth (7)；Smashed material particles are uniform, and crush efficiency is high.

Description

A kind of crushing part device for pulverizer

Technical field

The invention belongs to pulverizer manufacturing technology fields, and in particular to a kind of crushing part device for pulverizer.

Background technique

Pulverizer is the machinery that large-sized solid material is crushed to desired size, the general solid-liquid mixing of when crushing, The fields such as chemical industry, metallurgy, plastics, food, pharmacy, building are widely used.Boulder crusher is mainly used for the comminution pretreatment of every profession and trade Operation, effect is mainly by the materiel machining being relatively large in diameter to the lesser granular material of diameter.Apply in crushing process There are pressure rolling, shearing, impact (strike), four kinds of grinding in the external force of material.Pressure rolling be used primarily in it is thick, in it is broken, be suitable for hard material With being crushed for bulk material；Shearing is used primarily in broken or crushes, the crushing suitable for toughness or fibroid material；It is main to impact (strike) To be used in crushing and depolymerization, the crushing suitable for brittle material；Grinding mainly in ultra-fine grinding and ultramicro grinding, is suitable for middle fineness Smashed ultramicro grinding.Existing pulverizer is mainly impact type breaking method, and such as previous utilizes free rolling metal ball Crushing material is hit, or using the relative motion of the movable hammer body and surrounding fixed gear ring to run at high speed, makes material through hammer tooth punching It hits, rub, impact and crushed to each other.Since impact type breaking method is needed to material repeated stock is hit, so powder Broken inefficiency will such as cope with a large amount of crushing material operation, it is necessary to manufacture large-scale pulverizer.Since its impact object cannot Selection, target is randomness, becomes the fine powder much smaller than target particles degree by the material of repeat impact, by number of shocks Few is much larger than target particles degree, without having been impacted still.So prior art pulverizer always exists following lack Fall into: first is that smashed material is not of uniform size, very unevenly, fine powder content is higher.But some fields require material particles uniform, Such as plastics processing industry, it is desirable that plastic raw materials particle melts in unified temperature, because needing to melt when plastic shaping, particle Small melt temperature is low, and particle the Nature needs higher temperature or time that could melt completely, so plastic raw materials particle is not It is unfavorable for forming to it.The product of plastics petrochemical industry, plastics of the high molecular material after synthesizing are 0.2 to 20mm The mixture of block not of uniform size and other liquid reagents, since current smashed particle is uneven, fine powder content compared with Height needs before plastic shaping the granulation for carrying out similar extrusion molding to process, forms uniform plastic pellet.Prior art pulverizer Defect second is that equipment land occupation is big and crush efficiency is low.

Summary of the invention

The technical problem to be solved by the present invention is to statuses in view of the above technology, and it is equal to provide a kind of smashed material particles It is even, the crushing part device of the high pulverizer of crush efficiency.

The technical scheme of the invention to solve the technical problem is:

A kind of crushing part device for pulverizer, including cylinder (1) and the rotor (2) in cylinder (1), cylinder (1) One end be material inlet, rotor (2) center opens up axis hole (3), connects shaft (4) for the other end in cylinder (1) End is transmitted as power；It is characterized in that, the partial area of cylinder (1) barrel is the sieve for crushing rear material to be discharged (5) area, sieve (5) aperture Qu Buman are suitable for being discharged the mesh (6) of crushing rear material, the cylinder of part other than sieve (5) area The multiple raised fixed tooth (7) of body (1) inner wall setting, the protrusion fixed tooth (7) be arranged as along cylinder (1) the inner wall circle spacing it is multiple rows of, Every row includes that vacancy is arranged between the vertically disposed multiple raised fixed tooth (7) of cylinder (1) inner wall, adjacent 2 row protrusion fixed tooth (7) Section (8) falls required space as material；Rotor (2) periphery is arranged multiple protrusions and turns tooth (9), and the protrusion turns tooth (9) Along rotor (2) periphery, at least 2 rows are set, every row includes turning tooth (9) along the vertically disposed multiple protrusions in rotor (2) periphery, and adjacent 2 Row's protrusion turns setting vacancy slot (23) between tooth (9) and material is used as to fall required space；Multiple protrusions of rotor (2) periphery Turn to be intermeshed between tooth (9) and multiple raised fixed tooth (7) of cylinder (1) inner wall setting, every 2 raised fixed tooth (7) or 2 every Protrusion turns to be formed the groove (22) mutually for other side's insertion between tooth (9), and the intermeshing protrusion turns tooth (9) and protrusion is fixed Retain spacing required for material target particles size between tooth (7).

The following are further embodiments of the present invention:

The protrusion fixed tooth (7), protrusion turn tooth (9) section is triangular in shape or trapezoidal or rectangle, every 2 raised fixed tooth (7) or It is also in corresponding triangle or trapezoidal that every 2 protrusions, which turn between tooth (9) section of the groove (22) mutually for corresponding other side's insertion, Or rectangle.

The engagement spacing that all intermeshing protrusions turn between tooth (9) and raised fixed tooth (7) is consistent, is material target Spacing required for granular size.

Medial aperture is small and outside aperture is big for the mesh (6).

The cylinder (1) includes double of 2 semicircle circumferential portion, wherein all setting is raised for the inner wall of 1 semicircle circumferential portion Sieve (5) area is arranged in fixed tooth (7), another 1 semicircle circumferential portion.

Another 1 semicircle circumferential portion opens up notch (10), and the cylinder (1) further includes independent sieve (5) piece, described Sieve (5) piece is fixedly mounted in the notch (10), as sieve (5) area.

The rotor (2) includes cylindrical body and be the convex of concentric circle arc plane along 3 or 4 uniformly distributed outsides of its circumferencial direction Bittiness (11) form material between every 2 adjoining spiral protruding blocks (11) and fall required space (8), each protruding block (11) Outer arc face is respectively set 1 row's protrusion and turns tooth (9), arranges along protruding block (11) vertical direction.

The rotor (2) in the shape of a spiral, including bittiness (11) along its circumferencial direction uniformly distributed 3 or 4 spiral prominences, each The outer arc face that spiral prominence is bittiness (11) is respectively set 1 row's protrusion and turns tooth (9), square vertically along bittiness (11) spiral of its spiral prominence To arrangement, according to the direction of rotation of shaft (4), the front side that every 1 row protrusion turns tooth (9) is truncated sides (12), and rear side is non-cutting Side (13) forms spiral groove between every 2 adjoining spiral protruding blocks (11) and falls required space (8) as material, protrusion turn The acute angle less than 90 degree is formed between tooth (9) truncated sides (12) and spiral groove, protrusion turns tooth (9) non-cutting side (13) and spiral The obtuse angle greater than 90 degree is formed between groove.

Rotor (2) bottom surface is arranged a plurality of for stirring the convex rib (14) of bottomed material；Convex rib (14) edge The setting of its radial direction, and along its circumference uniform distribution.

Rotor (2) the following settings chassis (15), chassis (15) connect shaft sealer (16) below, the rotor (2) center opens up axis hole (3), and rotor (2) is connect with shaft (4) with connecting key (17), and the shaft (4) passes through the chassis (15), shaft sealer (16) is protruding；The material inlet end mounting flange (18) of the cylinder (1), the cylinder (1) Power transmit end connecting base plate (15).

Rotor (2) center upper section opens up pinhole (19), and lower section opens up axis hole (3), and insertion connects in pinhole (19) External screw thread is arranged in outbound (20), connecting pin (20) lower end, and shaft (4) upper end opens up threaded hole (21), connecting pin (20) lower end with The connection of shaft (4) threaded upper ends.

Crushing part device of the present invention is mainly the truncated sides and cylinder inboard wall for turning tooth (9) using the protrusion of rotor outer periphery Raised fixed tooth carries out the constant effective shearing of cutting depth to material, and intermeshing protrusion turns between tooth and raised fixed tooth The target particles size that material is retained after spacing just becomes clipped.Since raised fixed tooth (7) is along the cylinder inboard wall circle spacing It is arranged as multiple rows of, every row includes multiple setting between the vertically disposed multiple raised fixed tooth of cylinder inboard wall, adjacent 2 row protrusion fixed tooth Scarce section is emptied as material and falls required space；Rotor outer periphery is arranged multiple protrusions and turns tooth, and protrusion turns tooth and is arranged along rotor outer periphery At least 2 rows, every row include it is multiple turn tooth along the vertically disposed multiple protrusions of rotor outer periphery, adjacent 2 row protrusion turns to be arranged between tooth Vacancy slot falls required space as material；Be not cut into above target particles degree material fallen space fall to below after It is continuous to be sheared, and the material for not being cut into target particles degree can directly be fallen, and can seldom be sheared repeatedly, the present invention crushes Part device material seldom receives pressure rolling, impact (strike), the effect of abrasive power other than being sheared, so, through powder of the present invention The material particles that broken part device crushes are uniform, and the fine powder content much smaller than target particles degree is seldom.Due to smashing portion of the present invention Part device reasonable in internal structure, equipment is small and high-efficient, and crush efficiency is significantly larger than the impact type disintegrating apparatus of the prior art.One The crushing yield of the small-sized pulverizer equipped with crushing part device of the present invention of platform is often than stage body product hundreds of times impact type powder Broken equipment is taller.

Detailed description of the invention

Fig. 1 is that crushing part device of the present invention constitutes schematic top plan view substantially.

Fig. 2 is that crushing part device of the present invention constitutes elevational schematic view substantially.

Fig. 3 is cylinder stereoscopic schematic diagram.

Fig. 4 is screen stencil sheet schematic diagram.

Fig. 5 is the cylinder semi-circumference partial schematic diagram that raised fixed tooth is all arranged in inner wall.

Fig. 6 is the cylinder semi-circumference portion perimeter schematic diagram that sieve area is arranged.

Fig. 7 is the cylinder semicircle circumferential portion inner circumferential schematic diagram that sieve area is arranged.

Fig. 8 is chassis (15) schematic diagram of helical, rotor of the present invention and setting below.

Fig. 9 is chassis (15) elevational schematic view of helical, rotor of the present invention and setting below.

Figure 10 is helical, rotor schematic diagram of the present invention.

Figure 11 is helical, rotor elevational schematic view of the present invention.

Figure 12 is shaft schematic diagram.

Figure 13 is crushing part device schematic top plan view of the present invention.

Figure 14 is crushing part device elevational schematic view of the present invention.

Figure 15 is the cylinder rotor schematic top plan view for being provided with 3 concentric circle arc plane protruding blocks.

Figure 16 is the cylinder rotor schematic top plan view for being provided with 4 concentric circle arc plane protruding blocks.

Figure 17 is crushing part device overall schematic of the present invention.

Figure 18 is that the crushing part device of the present invention of rectangular teeth constitutes schematic diagram substantially.

Figure 19 is the cylinder semi-circumference partial schematic diagram of rectangular teeth.

Figure 20 is the helical, rotor schematic diagram of rectangular teeth.

Specific embodiment

Below to illustrate a specific embodiment of the invention shown in Fig. 1 to Figure 20.

The present invention is used for the crushing part device of pulverizer, as shown in Figure 1 and Figure 2, including cylinder 1 and is located in cylinder 1 One end of rotor 2, cylinder 1 is material inlet, and 2 center of rotor opens up axis hole 3, is made for the other end connection shaft 4 in cylinder 1 End is transmitted for power.Do not show that shaft 4, shaft 4 are vertically arranged in Fig. 1, Fig. 2, lower end extends downwardly；Such as Figure 12 institute of shaft 4 Show.

As shown in Figure 1 and Figure 2, the partial area of 1 barrel of cylinder is 5th area of sieve for crushing rear material to be discharged, sieve 5 Area is covered with the mesh 6 that aperture is suitable for being discharged crushing rear material, and 1 inner wall of the cylinder setting of part is multiple convex other than 5th area of sieve Play fixed tooth 7.As shown in Figure 1, Figure 3, raised fixed tooth 7 is arranged as multiple rows of along the 1 inner wall circle spacing of cylinder, and every row includes along cylinder 1 The vertically disposed multiple raised fixed tooth 7 of inner wall, setting vacancy section 8 falls required sky as material between adjacent 2 row protrusion fixed tooth 7 Between.Crushing part device of the present invention for pulverizer is thrown material using the centrifugal force that rotor 2 rotates when pulverizer works To neighboring area, it is clipped be crushed to the material for meeting target particles size in centrifugal force the quilt from sieve 5 numerous mesh 6 It dishes out to material collection utensil；The material of target particles size is not met in its own gravity free-falling, by following Protrusion turns tooth 9 and raised fixed tooth 7 continues shearing and crushes.Material meets target until all being sheared to be ground into dropping process Granular size, and be spilled over from sieve 5 numerous mesh 6 to material collection utensil in centrifugal force.

As shown in Fig. 8, Figure 10, Figure 11,2 periphery of rotor is arranged multiple protrusions and turns tooth 9, and protrusion turns tooth 9 and sets along 2 periphery of rotor At least 2 rows are set, are comprehensively considered from actual effect and manufacturability, are properly, to be especially so that 3 rows are arranged with 3 rows of setting or 4 rows It is most suitable.Every row includes turning tooth 9 along the vertically disposed multiple protrusions in 2 periphery of rotor, and adjacent 2 row protrusion turns to be arranged between tooth 9 empty Short slot 23 falls required space as material.Multiple protrusions of 2 periphery of rotor turn multiple protrusions of tooth 9 and the setting of 1 inner wall of cylinder It is intermeshed between fixed tooth 7, every 2 raised fixed tooth 7 or every 2 protrusions turn to be formed the groove mutually for other side's insertion between tooth 9 22, intermeshing protrusion turns to retain spacing required for material target particles size between tooth 9 and raised fixed tooth 7.

Raised fixed tooth 7, protrusion turn tooth 9 section is triangular in shape or trapezoidal or rectangle, be preferred with triangle.Every 2 protrusions The section that fixed tooth 7 or every 2 protrusions turn between tooth 9 mutually for the groove 22 of corresponding other side's insertion is also in corresponding triangle or ladder Shape or rectangle.The engagement spacing that all intermeshing protrusions turn between tooth 9 and raised fixed tooth 7 is consistent, is material target Spacing required for grain size.The preferred triangular-section mode of the present invention.Figure 18, Figure 19, Figure 20 show rectangular section mode, Other figures show triangular-section mode, trapezoid cross section mode also as one can imagine.

As shown in figure 3, cylinder 1 includes double of 2 semicircle circumferential portion；Wherein the inner wall of 1 semicircle circumferential portion is all arranged Raised fixed tooth 7, as shown in Figure 5；5th area of sieve is arranged in another 1 semicircle circumferential portion.As shown in Figure 6, Figure 7, another 1 semicircle circumferential portion Notch 10 is opened up, cylinder 1 further includes independent sieve 5, as shown in figure 4, sieve 5 are fixedly mounted in notch 10, as 5th area of sieve.6 medial aperture of mesh is small and outside aperture is big.Setting can be effectively prevented feed blocking in mesh 6 in this way, protect Hold mesh 6 discharge it is unobstructed.

As shown in Figure 15, Figure 16, rotor 2 includes cylindrical body and be concentric on the outside of uniformly distributed 3 or 4 of its circumferencial direction The protruding block 11 of arc surface forms material between every 2 adjoining spiral protruding blocks 11 and falls required space 8, each protruding block 11 Outer arc face 1 row's protrusion be respectively set turn tooth 9, arranged along 11 vertical direction of protruding block.

As shown in Fig. 8, Figure 10, Figure 11, rotor 2 is spirally preferred, including along uniformly distributed 3 or 4 of its circumferencial direction Spiral prominence is bittiness 11, and the outer arc face of each spiral prominence bittiness 11 is respectively set 1 row's protrusion and turns tooth 9, bittiness along its spiral prominence The arrangement of 11 spiral vertical directions, according to the direction of rotation of shaft 4, the front side that every 1 row protrusion turns tooth 9 is truncated sides 12, and rear side is Non-cutting side 13 forms spiral groove between every 2 adjoining spiral protruding blocks 11 as material and falls required space 8, protrusion turn The acute angle less than 90 degree is formed between 9 truncated sides 12 of tooth and spiral groove, protrusion turns between the non-cutting side 13 of tooth 9 and spiral groove Form the obtuse angle greater than 90 degree.As indicated at 11,2 bottom surface of rotor is arranged a plurality of for stirring the convex rib 14 of bottomed material；Protrusion Muscle 14 is arranged along its radial direction, and along its circumference uniform distribution.Convex rib 14 is utilized for cleaning the material fallen on above chassis 15 The centrifugal force that rotor 2 rotates is thrown to neighboring area, and the clipped material for meeting target particles size that is crushed to is in centrifugal force It is spilled in the mesh 6 numerous from sieve 5 to material collection utensil；The material of target particles size is not met by close to chassis 15 lower end protrusion turns tooth 9 and raised fixed tooth 7 continues shearing and crushes, and in centrifugal force from sieve 5 numerous mesh 6 quilt It dishes out to material collection utensil.

As shown in Figure 8, Figure 9,2 following settings chassis 15 of rotor, chassis 15 connect shaft sealer 16 below；As Figure 13, Shown in Figure 14 and Figure 17,2 center of rotor opens up axis hole 3, and rotor 2 is connect with the connecting key 17 of shaft 4, shaft 4 pass through chassis 15, Shaft sealer 16 is protruding；The power of the material inlet end mounting flange 18 of cylinder 1, cylinder 1 transmits end connecting base plate 15.As shown in Fig. 8 to Figure 12,2 center upper section of rotor opens up pinhole 19, and lower section opens up axis hole 3, is inserted into connection in pinhole 19 External screw thread is arranged in pin 20,20 lower end of connecting pin, and 4 upper end of shaft opens up threaded hole 21,20 lower end of connecting pin and 4 threaded upper ends of shaft Connection.

As shown in figure 17, outer sleeve 24 is set with outside cylinder 1, material input end 25, side setting is arranged in 24 upper end of outer sleeve Material outlet end 26, when installation sleeve 24, are corresponding with sieve 5 by material outlet end 26, and bearing is arranged below shaft sealer 16 27, shaft 4, which is pierced by across bearing 27 from below, can connect its power device.

In use, 4 high-speed rotation of power device drive shaft, the high-speed rotation in cylinder 1 of rotor 2, material constantly from Material inlet end 25 is sent into, and is crushed by the shearing of raised fixed tooth 7 that the protrusion of rotor 2 turns tooth 9 and 1 inner wall of cylinder, is not cut into mesh The material of mark granularity, which is fallen space and falls to continue with, is sheared crushing.Material is in dropping process until all being cut It cuts to be ground into and meets target particles size, and be spilled over from sieve 5 numerous mesh 6 to material collector in centrifugal force Tool.

Claims (10)

1. a kind of crushing part device for pulverizer, including cylinder (1) and the rotor (2) in cylinder (1), cylinder (1) one end is material inlet, and rotor (2) center opens up axis hole (3), connects shaft for the other end in cylinder (1) (4) end is transmitted as power；It is characterized in that, the partial area of cylinder (1) barrel is for crushing rear material to be discharged Sieve (5) area, sieve (5) aperture Qu Buman are suitable for being discharged the mesh (6) of crushing rear material, the part other than sieve (5) area The multiple raised fixed tooth (7) of cylinder (1) inner wall setting, the protrusion fixed tooth (7) is arranged as more along cylinder (1) the inner wall circle spacing Row, every row include being arranged between the vertically disposed multiple raised fixed tooth (7) of cylinder (1) inner wall, adjacent 2 row protrusion fixed tooth (7) Vacancy section (8) falls required space as material；Rotor (2) periphery is arranged multiple protrusions and turns tooth (9), and the protrusion turns tooth (9) at least 2 rows are set along rotor (2) periphery, every row includes turning tooth (9), phase along the vertically disposed multiple protrusions in rotor (2) periphery Adjacent 2 row's protrusions turn setting vacancy slot (23) between tooth (9) and material are used as to fall required space；Rotor (2) periphery it is multiple Protrusion turns to be intermeshed between tooth (9) and multiple raised fixed tooth (7) of cylinder (1) inner wall setting, every 2 raised fixed tooth (7) or Every 2 protrusions turn to be formed between tooth (9) mutually for other side insertion groove (22), the intermeshing protrusion turn tooth (9) with Retain spacing required for material target particles size between raised fixed tooth (7).

2. crushing part device as described in claim 1, which is characterized in that the protrusion fixed tooth (7), protrusion turn tooth (9) Section is triangular in shape or trapezoidal or rectangle, every 2 raised fixed tooth (7) or every 2 protrusions turn between tooth (9) mutually for corresponding other side The section of the groove (22) of insertion is also in corresponding triangle or trapezoidal or rectangle.

3. crushing part device as described in claim 1, which is characterized in that all intermeshing protrusions turn tooth (9) with it is convex The engagement spacing risen between fixed tooth (7) is consistent, is spacing required for material target particles size.

4. crushing part device as described in claim 1, which is characterized in that mesh (6) medial aperture is small and apertura lateralis Diameter is big.

5. crushing part device as described in claim 1, which is characterized in that the cylinder (1) includes double of 2 semicircle circumference Point, wherein raised fixed tooth (7) is all arranged in the inner wall of 1 semicircle circumferential portion, the sieve (5) is arranged in another 1 semicircle circumferential portion Area.

6. crushing part device as claimed in claim 4, which is characterized in that another 1 semicircle circumferential portion opens up notch (10), the cylinder (1) further includes independent sieve (5) piece, and sieve (5) piece is fixedly mounted in the notch (10), As sieve (5) area.

7. crushing part device as described in claim 1, which is characterized in that the rotor (2) includes that cylindrical body is justified with along it Uniformly distributed 3 or 4 outsides of circumferential direction are the protruding block (11) of concentric circle arc plane, between every 2 adjoining spiral protruding blocks (11) It forms material to fall required space (8), the outer arc face of each protruding block (11) is respectively set 1 row's protrusion and turns tooth (9), along convex Bittiness (11) vertical direction arrangement.

8. crushing part device as described in claim 1, which is characterized in that the rotor (2) in the shape of a spiral, including along it is justified Circumferential direction uniformly distributed 3 or 4 spiral prominences are bittiness (11), and 1 row is respectively set in the outer arc face of each spiral prominence bittiness (11) Protrusion turns tooth (9), and along bittiness (11) the spiral vertical direction arrangement of its spiral prominence, according to the direction of rotation of shaft (4), every 1 row is convex Act that turn the front side of tooth (9) be truncated sides (12), rear side is non-cutting side (13), shape between every 2 adjoining spiral protruding blocks (11) It is fallen required space (8) at spiral groove as material, protrusion, which turns to be formed between tooth (9) truncated sides (12) and spiral groove, to be less than 90 degree of acute angle, protrusion turn to form the obtuse angle for being greater than 90 degree between tooth (9) non-cutting side (13) and spiral groove.

9. crushing part device as claimed in claim 7 or 8, which is characterized in that rotor (2) the bottom surface setting is a plurality of to be used for Stir the convex rib (14) of bottomed material；The convex rib (14) is arranged along its radial direction, and along its circumference uniform distribution.

10. crushing part device as described in claim 1, which is characterized in that rotor (2) the following settings chassis (15), Chassis (15) connects shaft sealer (16) below, and rotor (2) center opens up axis hole (3), and rotor (2) and shaft (4) are used Connecting key (17) connection, the shaft (4) are protruding across the chassis (15), shaft sealer (16)；The cylinder (1) Material inlet end mounting flange (18), the power of the cylinder (1) transmits end connecting base plate (15).