CN216573400U - High-frequency multi-direction crushing and cutting device - Google Patents

High-frequency multi-direction crushing and cutting device Download PDF

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Publication number
CN216573400U
CN216573400U CN202122587200.XU CN202122587200U CN216573400U CN 216573400 U CN216573400 U CN 216573400U CN 202122587200 U CN202122587200 U CN 202122587200U CN 216573400 U CN216573400 U CN 216573400U
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vibration
crushing
impeller
cutter head
cutting
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CN202122587200.XU
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潘烨
印雄飞
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Hangzhou Wahaha Precision Machinery Co ltd
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Hangzhou Wahaha Precision Machinery Co ltd
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Abstract

The utility model discloses a high-frequency multidirectional crushing and cutting device, and aims to overcome the defect that the conventional high-speed cutting and crushing equipment cannot crush materials with more fibers. The utility model discloses an including the driver, receive driver driven vibration to cut the crushing head, hold crushing storehouse and the feed arrangement who cuts the crushing head, vibration is cut the crushing head and is included the vibration reel that receives driver driven impeller and vertical vibration, feed arrangement carries the material to the eccentric position of impeller, the impeller is coaxial to be set up inside the vibration reel, the impeller rotates relatively with the vibration reel and cuts the material, the material of cutting enters into between the cutting edge of vibration reel, the vertical vibration of vibration reel is smashed the material. The device has the advantages that through cutting and crushing, the cutting and crushing directions and frequencies are different, and high-fiber materials are well crushed.

Description

High-frequency multi-direction crushing and cutting device
Technical Field
The present invention relates to the field of shredding and cutting, and more particularly, it relates to a high frequency multi-directional shredding and cutting device.
Background
High-speed cutting crushing equipment is widely used in the field of crushing of food raw materials and the like due to low power consumption, good crushing effect and the like. The high-speed cutting and crushing equipment pushes materials to and closely attach to peripheral blades through centrifugal force generated by high-speed rotation of the impeller, the impeller rotates and pushes the materials, and the outer side of the impeller moves relative to the stroke of the blades to cut the materials at a high speed, so that the materials are cut and crushed. The cutting action that high-speed cutting equipment carries out the material is the unilateral from the principle, has just cut a knife to the material, is similar to the effect of cutting the piece in the dish, and the piece that cuts down at the section in-process is thin enough to lead to the section can't keep complete slice and present crushing state, but to the material that the fibre is more, the material after cutting crushing can have the condition that strip fibre is not cut, so high-speed cutting crushing equipment often carries out a lot of crushing to the material in the in-service use in order to satisfy final granularity size demand. In order to reduce the particle diameter of the crushed product, the gaps between the blades are also arranged to be thin, so that the adhesion and accumulation are easy to occur, and the blockage phenomenon is caused.
Disclosure of Invention
The utility model overcomes the defect that the existing high-speed cutting and crushing equipment cannot crush materials with more fibers, and provides a high-frequency multidirectional crushing and cutting device which can cut materials rich in fibers in multiple times and multiple directions to achieve the aim of crushing.
Another object of the present application is to avoid the phenomenon of material adhesion and accumulation by vibration.
In order to solve the technical problems, the utility model adopts the following technical scheme:
a high-frequency multidirectional crushing and cutting device, comprising
The driver, receive driver driven vibration shearing crushing head, hold crushing storehouse and the feed arrangement of shearing crushing head, vibration shearing crushing head is including the vibration reel that receives driver driven impeller and vertical vibration, feed arrangement carries the material to the eccentric position of impeller, the coaxial setting of impeller is inside the vibration reel, the driver sets up in the frame, the output shaft of driver has the transmission main shaft through belt pulley transmission connection, the coaxial and fixed connection impeller of transmission main shaft, impeller and vibration reel rotate relatively and cut the material, the material after the cutting enters into between the cutting edge of vibration reel, vibration reel vertical vibration smashes the material.
The driver converts the electric energy into kinetic energy, drive vibration through a series of drive mechanism and cut crushing head work, it is specific to drive impeller work wherein, when the impeller rotated, produce radial direction's liquid stream, will send into the inside material of impeller and see off the impeller, and utilize the impeller and set up and cut between the outside vibration cutter head of impeller, in order to avoid the material to be in the impeller middle part, lead to being in "wind eye" position, cause the unable outside transport of material, therefore, feed arrangement corresponds the pay-off mouth setting of impeller at the eccentric position of impeller. The power source of the vibrating cutter disc can be from a driver or additionally provided with a power source, the vibrating cutter disc does axial lifting motion, and the cutting edge of the vibrating cutter disc moves up and down along with the vibrating cutter disc relative to the crushing bin. The cut material is thrown outwards under the action of the liquid flow, and if the cut material can be led out from gaps among the blades of the vibrating cutter head, the cut material is subjected to high-frequency crushing from the blades of the vibrating cutter head. Because the purpose of this application is in order to smash high fibrous material, high fibrous material can form the slice after the cutting, and the slice material also can outwards move along the radial direction who smashes the storehouse, and vertical vibration's vibration cutter head can smash the slice material, reduces its granularity, reaches better crushing purpose. This structure has still reached the second design purpose of this application, and how to avoid the material to pile up promptly, through the vibration of vibration cutter head and the transmission of the power of setting at the material between vibration cutter head, impeller, can drive the attachment motion of adhering to between impeller and vibration cutter head, avoids the material to adhere to and piles up, influences the normal operating of device.
Its vibration function of current reducing mechanism of taking vibration function all is for the material loading, avoid adhering to the service, and its vibration function can not direct be used for the cutting, and the cutting edge of the vibration cutter head in two this applications sets up along vertical direction, can reach crushing purpose.
Preferably, the driver is arranged on the frame, an output shaft of the driver is in transmission connection with a transmission main shaft through a belt pulley, and the transmission main shaft is coaxial and fixedly connected with the impeller.
The transmission mechanism in the above is belt pulley transmission, and belt pulley transmission's advantage lies in that transmission efficiency is high, and when the head received great resistance, when unable the rotation was cuted in the vibration, the belt pulley was in idle running state of skidding, avoided burning out the driver.
Preferably, the crushing bin comprises a crushing bin body and a crushing bin cover, a through hole passing through the transmission main shaft is formed in the center of the bottom of the crushing bin body, a discharge hole is formed in the side wall, close to the lower portion, of the crushing bin body, a central through hole for transmitting vibration and an eccentric feed hole formed around the central through hole are formed in the crushing bin cover, and the eccentric feed hole is connected with the feeding device.
Smash the storehouse and hold the vibration cutter head, vibration cutter head holds the impeller, sets up a sealing ring in the clearing hole position, avoids the material to leak or outside dust to invade. The central through hole extends into an amplitude transformer which is fixedly connected with a vibration cutter disc, the number of eccentric feed holes is two, a material is equally divided into two parts by a feeding device and enters a crushing bin along the eccentric feed holes, and then enters an impeller through the vibration cutter disc.
Preferably, the axis of the inner wall of the bottom of the crushing bin body is higher and the outer edge is lower. The material is avoided piling up to the structure, and the diapire that the crushing storehouse body that the discharge opening corresponds is in high minimum, can be at utmost with the material output.
Preferably, the vibrating shear crushing head further comprises a transducer and an amplitude transformer, and the tail end of the amplitude transformer is fixedly connected with the vibrating cutter disc. The vibrating ability of the vibrating cutter disc is provided by the energy converter and the amplitude transformer, the energy converter converts electric energy into vibration, the amplitude transformer is fixedly connected with the vibrating cutter disc through 4 fasteners, and the amplitude transformer transmits the vibration to the vibrating cutter disc to drive the vibrating cutter disc to vibrate at high frequency.
Preferably, the vibration cutter head is provided with a plurality of guide holes near the outer edge, the top of the crushing bin is fixedly connected with guide posts which correspond to the guide holes, and the guide posts are inserted and slidably connected into the guide holes.
The guide post plays a role in guiding the vibration cutter head. One part of the guide post is in threaded connection with the crushing bin cover, the part, extending out of the crushing bin cover, of the guide post is fixedly connected onto the crushing bin cover through a nut, the part, extending into the crushing bin cover, of the guide post is coaxial with the vibration direction of the vibration cutter disc, and the inner diameter of the guide hole is adapted to the guide post. The guide post is not separated from the guide hole when the bottom of the vibrating cutter head is connected with the bottom of the crushing bin.
Preferably, the impeller comprises an impeller bottom plate, a plurality of blades and a fixing ring from bottom to top, the blades surround the impeller bottom plate at equal intervals, and the outer edges of the blades are provided with cutting edges.
The retaining ring and the impeller base plate position the blades, which are arranged in the impeller in the radial direction. The fixed ring is annular as the name implies, the upper part is used for feeding materials, the impeller bottom plate is provided with a hole passing through the transmission main shaft, and the impeller bottom plate and the transmission main shaft are in key connection transmission. The blade edge part is parallel to the axial direction of the impeller and is arranged along the vertical direction. The direction of the blade edge of the blade can be opposite to that of the blade edge of the vibration cutter head, and the material can be cut more fully by the arrangement. The blade can be integrally formed by the blade through end grinding, and can also be embedded and formed. The outer fringe from the top down of the blade in the impeller leans out, the diameter that sets up the diameter that makes the outer fringe upper end that the impeller corresponds the blade position lower extreme is littleer, has formed a scarf, the clearance between impeller and the vibration cutter head also with the scarf corresponds, and the clearance on upper portion is bigger, and the clearance of lower part is littleer, the setting can let the material that receives the action of gravity and tends to the impeller lower part receive the blade effect upward movement, makes the blade on blade upper portion also participate in the cutting for the more even wearing and tearing of blade improve the holistic life-span of device.
Preferably, the vibrating cutter head comprises a cutter head top plate, an upper cutter frame, a plurality of blades, a lower cutter frame and a cutter head bottom plate, a cutter head hole corresponding to and communicated with the eccentric feeding hole is formed in the cutter head top plate, a deflection angle is formed between the direction of each blade and the radial direction of the upper cutter frame, and the blades are wound on the upper cutter frame at equal intervals.
The upper tool rest and the lower tool rest position two ends of the blade. And the hollow hole on the top plate of the cutter head is used for feeding. The direction of each blade is tangent with a virtual circle, the diameter of virtual circle is littleer than the diameter of blade place circle, set up reasonable clearance between the blade and controlled for the gesture that is cut into the flakiness needs to buckle slightly passes through the blade, owing to be rich in fibrous material still has certain elasticity, utilizes elasticity can produce the effort to the cutting edge in the circumferential direction, and the cooperation cutting edge is high frequency vibration can effectually provide crushing efficiency, reduces the granule size of material.
Preferably, the feeding part comprises a feeding hopper and two feeding pipelines, the first end of each feeding pipeline is connected with the bottom of the feeding hopper, and the second end of each feeding pipeline sequentially penetrates through the eccentric feeding hole, the top plate of the cutter head and the fixing ring and enters the impeller.
After the materials are put into the feed hopper, the materials are approximately equally divided by the two feed pipelines, and the materials sequentially pass through the eccentric feed hole of the crushing bin cover and the cutter head hole of the vibrating cutter head and enter the eccentric position of the impeller through the fixing ring. The impeller rotates and throws the material outwards by using centrifugal force and negative pressure.
Preferably, a plurality of buffer blocks are arranged on the bottom plate of the cutter head.
A gap for the vibration cutter to move is arranged between the cutter head top plate and the crushing bin cover. The device makes the vibration cutter head can not collide with the crushing bin rigidly when vibrating, so that the service life of the product is influenced by vibration.
Compared with the prior art, the utility model has the beneficial effects that:
(1) the device can well crush high-fiber materials by cutting and crushing;
(2) the cutting and crushing directions and frequencies are different, and the crushing efficiency is better;
(3) the materials attached to the cutting edge are thrown away through the high-frequency vibration, so that the blocking phenomenon is avoided.
Drawings
FIG. 1 is a perspective view of the present invention;
FIG. 2 is a cross-sectional view of the present invention;
FIG. 3 is a perspective view of the vibrating blade tray of the present invention;
FIG. 4 is a front view of the vibrating blade tray of the present invention;
FIG. 5 is a perspective view of the impeller of the present invention;
in the figure:
the device comprises a driver 1, a belt pulley 2, a frame 3, a transmission main shaft 4, an impeller 5, an impeller bottom plate 6, a fixing ring 7, blades 8, a cutting edge 9, a vibrating cutter head 10, a transducer 11, an amplitude transformer 12, a guide hole 13, a guide column 14, a cutter head top plate 15, an upper cutter head 16, a blade 17, a lower cutter head 18, a cutter head bottom plate 19, a buffer block 20, a crushing bin body 21, a crushing bin cover 22, a through hole 23, a discharge hole 24, an eccentric feed hole 25, a cutter head opening 26, a central through hole 27, a feed hopper 28 and a feed pipeline 29.
Detailed Description
The present disclosure is further described with reference to the following drawings and examples.
It should be noted that the following detailed description is exemplary and is intended to provide further explanation of the disclosure. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs.
It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments according to the present application. As used herein, the singular forms "a", "an" and "the" are intended to include the plural forms as well, and it should be understood that when the terms "comprises" and/or "comprising" are used in this specification, they specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof, unless the context clearly indicates otherwise.
In the present disclosure, terms such as "upper", "lower", "left", "right", "front", "rear", "vertical", "horizontal", "side", "bottom", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only relational terms determined for convenience in describing structural relationships of the parts or elements of the present disclosure, and do not refer to any parts or elements of the present disclosure, and are not to be construed as limiting the present disclosure.
In the present disclosure, terms such as "fixedly connected", "connected", and the like are to be understood in a broad sense, and mean either a fixed connection or an integrally connected or detachable connection; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present disclosure can be determined on a case-by-case basis by persons skilled in the relevant art or technicians, and are not to be construed as limitations of the present disclosure.
Example (b):
high-frequency multi-direction smashing and cutting device, as shown in fig. 1, including driver 1, receive the vibration shearing crushing head of driver 1 driven, hold crushing storehouse and the feed arrangement of shearing crushing head, driver 1 sets up on frame 3, and the output shaft of driver 1 is connected with transmission main shaft 4 through belt pulley transmission, and vibration shearing crushing head is including receiving the vibration cutter head 10 of transmission main shaft 4 coaxial and fixed connection impeller 5 and vertical vibration. When the vibration shearing and crushing head is subjected to large resistance and cannot rotate, the belt pulley 2 is in an idle slipping state, and the driver 1 is prevented from being burnt.
As shown in fig. 2, the crushing bin comprises a crushing bin body 21 and a crushing bin cover 22, and a through hole 23 passing through the transmission main shaft 4 is formed in the center of the bottom of the crushing bin body 21. A sealing ring is arranged at the position of the through hole 23 to prevent the leakage of materials or the invasion of external dust. The side wall of the crushing bin body 21 close to the lower part is provided with a discharge hole 24, and the axis of the inner wall at the bottom of the crushing bin body 21 is high and the outer edge is low. The material is avoided piling up to the structure, and the diapire of the crushing storehouse body 21 that the discharge opening 24 corresponds is in high minimum, can be at utmost with the material output.
The crushing bin cover 22 is provided with a central through hole 27 for transmitting vibration and 2 eccentric feeding holes 25 arranged around the central through hole 27, the eccentric feeding holes 25 are connected with a feeding device, the feeding device equally divides the material into two parts and enters the crushing bin along the eccentric feeding holes 25, and then enters the impeller 5 through the vibrating cutter disc 10. The feeding device conveys materials to the eccentric position of the impeller 5, and the impeller 5 is coaxially arranged inside the vibrating cutter head 10.
As shown in fig. 2 and 3, the vibration shear crushing head further comprises a transducer 11 and a variable amplitude rod 12, and the tail end of the variable amplitude rod 12 is fixedly connected with the vibration cutter head 10. The vibration capability of the vibration cutter head 10 is provided by the transducer 11 and the amplitude transformer 12, the transducer 11 converts electric energy into vibration, the amplitude transformer 12 is fixedly connected with the vibration cutter head 10 through 4 fasteners, and the amplitude transformer 12 transmits the vibration to the vibration cutter head 10 to drive the vibration cutter head 10 to vibrate at high frequency. The vibrating cutter head 10 is provided with a plurality of guide holes 13 near the outer edge, the top of the crushing bin is fixedly connected with guide posts 14 which are arranged corresponding to the guide holes 13, and the guide posts 14 are inserted and connected in the guide holes 13 in a sliding manner. The guide posts 14 serve to guide the vibrating blade 10. One part of the guide post 14 is in threaded connection with the crushing bin cover 22, the part of the guide post 14 extending out of the crushing bin cover 22 is fixedly connected to the crushing bin cover 22 through a nut, the part of the guide post 14 extending into the crushing bin cover 22 is coaxial with the vibration direction of the vibrating cutter head 10, and the inner diameter of the guide hole 13 is adapted to the guide post 14. When the bottom of the vibrating cutter disc 10 is connected with the bottom of the crushing bin, the guide columns 14 are not separated from the guide holes 13.
As shown in fig. 4, the vibrating cutter head 10 includes a cutter head top plate 15, an upper cutter frame 16, a plurality of blades 17, a lower cutter frame 18, and a cutter head bottom plate 19, wherein a cutter head opening 26 corresponding to and communicating with the eccentric feed hole 25 is formed in the cutter head top plate 15, a deflection angle is formed between the direction of the blades 17 and the radial direction of the upper cutter frame 16, and the blades 17 surround the upper cutter frame 16 at equal intervals.
Upper tool holder 16 and lower tool holder 18 position the ends of blade 17. The empty hole on the top plate 15 of the cutter head is used for feeding. Each blade 17's direction is tangent with a virtual circle, the diameter of virtual circle is littleer than the diameter of blade 17 place circle, set up reasonable clearance between blade 17 and controlled for the gesture that is cut into slice needs to buckle slightly passes through blade 17 by the material that is rich in fibre, utilizes because the material that is rich in fibre still has certain elasticity can produce the effort to cutting edge 9 in the circumferential direction, and the cooperation cutting edge 9 is high frequency vibration and can effectually provide crushing efficiency, reduces the particle size of material. The bottom plate 19 of the cutter head is provided with a plurality of buffer blocks 20. A gap for the movement of the vibrating cutter 10 is arranged between the cutter head top plate 15 and the crushing bin cover 22. The device makes the vibration cutter head 10 not collide with the crushing bin rigidly when vibrating, causing the vibration to influence the service life of the product.
As shown in fig. 5, the impeller 5 includes an impeller bottom plate 6, a plurality of blades 8 and a fixing ring 7 from bottom to top, the blades 8 surround the impeller bottom plate 6 at equal intervals, and the outer edges of the blades 8 are provided with blades 9. The stator ring 7 and the impeller bottom plate 6 position the blades 8, the blades 8 being arranged in the impeller 5 in the radial direction. The fixing ring 7 is annular as the name implies, the upper part is used for feeding materials, the impeller bottom plate 6 is provided with a hole passing through the transmission main shaft 4, and the impeller bottom plate 6 and the transmission main shaft 4 are in key connection transmission. The blade parts of the blades 8 are parallel to the axial direction of the impeller 5 and are arranged along the vertical direction. The direction of the blade edge 9 of the blade 8 is opposite to the direction of the blade edge 9 of the vibrating cutter head 10, and the arrangement can lead the materials to be more fully crushed. The blade 9 may be formed integrally with the blade 8 by end grinding or may be insert molded. The outer edge of the blade 8 in the impeller 5 inclines outwards from top to bottom, the setting makes the diameter of the outer edge upper end of the position of the impeller 5 corresponding to the blade 8 smaller than that of the lower end, a wedge surface is formed, the gap between the impeller 5 and the vibrating cutter head 10 also corresponds to the wedge surface, the gap of the upper part is larger, the gap of the lower part is smaller, the setting can make the material which is under the action of gravity and tends to the lower part of the impeller 5 move upwards under the action of the blade 9, the blade 9 of the upper part of the blade 8 also participates in cutting, the blade 9 is more uniformly worn, the service life of the whole device is prolonged, and the inclination angle of the wedge surface is smaller and is not shown in the figure.
The impeller 5 and the vibration cutter head 10 rotate relatively to cut materials, the cut materials enter between cutting edges 9 of the vibration cutter head 10, and the vibration cutter head 10 vibrates vertically to crush the materials.
The feeding part comprises a feeding hopper 28 and two feeding pipelines 29, wherein the first end of each feeding pipeline 29 is connected with the bottom of the feeding hopper 28, and the second end of each feeding pipeline 29 sequentially penetrates through the eccentric feeding hole 25, the cutter head top plate 15 and the fixing ring 7 and enters the impeller 5. After the material is fed into the feed hopper 28, the material is approximately equally divided by the two feed pipes 29, passes through the eccentric feed hole 25 of the pulverizing bin cover 22 and the cutter opening 26 of the vibrating cutter 10 in sequence, and enters the eccentric position of the impeller 5 through the fixing ring 7. The impeller 5 rotates to throw the material outwards by centrifugal force and negative pressure.
The driver 1 converts the electric energy into kinetic energy, drive the work of vibration shearing crushing head through a series of drive mechanism, it is specific to drive impeller 5 work wherein, when impeller 5 rotated, produce radial direction's liquid stream, will send into impeller 5 inside material and send out impeller 5, and utilize impeller 5 and set up and cut between impeller 5 outside vibration cutter head 10, in order to avoid the material to be in impeller 5 middle part, lead to being in "wind eye" position, cause the unable outside transport of material, therefore, feed arrangement corresponds impeller 5's pay-off mouth setting at impeller 5's eccentric position. The power source of the vibrating cutter head 10 can be from the driver 1 or be additionally provided with a power source, the vibrating cutter head 10 makes axial lifting motion, and the cutting edge 9 of the vibrating cutter head 10 moves up and down along with the vibrating cutter head 10 relative to the crushing bin. The cut material is thrown out further outwards by the liquid flow and, if it can be guided out of the gaps between the cutting edges 9 of the vibrating discs 10, is subjected to high-frequency crushing by the cutting edges 9 of the vibrating discs 10. Because the purpose of this application is in order to smash high fibrous material, high fibrous material can form the slice after the cutting, and the slice material also can outwards move along the radial direction who smashes the storehouse, and the vibration cutter head 10 of vertical vibration can smash the slice material, reduces its granularity, reaches better crushing purpose. This structure has still reached the second design purpose of this application, and how to avoid the material to pile up promptly, through the vibration of vibration cutter head 10 and the transmission of the power of the material of setting between vibration cutter head 10, impeller 5, can drive the attachment motion of adhering to between impeller 5 and vibration cutter head 10, avoids the material to adhere to and piles up, influences the normal operating of device.
Its vibration function of current reducing mechanism of taking vibration function all is for the material loading, avoid adhering to the service, and its vibration function can not the direct be used for smashing, and two cutting edges 9 of vibration cutter head 10 in this application set up along vertical direction, can reach crushing purpose.
The above-described embodiments are merely preferred embodiments of the present invention, which is not intended to be limiting in any way, and other variations and modifications are possible without departing from the scope of the utility model as set forth in the appended claims.

Claims (8)

1. The high-frequency multidirectional crushing and cutting device is characterized by comprising
The driver, receive driver driven vibration shearing crushing head, hold crushing storehouse and the feed arrangement of shearing crushing head, vibration shearing crushing head is including the vibration reel that receives driver driven impeller and vertical vibration, feed arrangement carries the material to the eccentric position of impeller, the coaxial setting of impeller is inside the vibration reel, the driver sets up in the frame, the output shaft of driver has the transmission main shaft through belt pulley transmission connection, the coaxial and fixed connection impeller of transmission main shaft, impeller and vibration reel rotate relatively and cut the material, the material after the cutting enters into between the cutting edge of vibration reel, vibration reel vertical vibration smashes the material.
2. The high-frequency multidirectional crushing and cutting device as claimed in claim 1, wherein the crushing bin comprises a crushing bin body and a crushing bin cover, a through hole passing through the transmission main shaft is formed in the center of the bottom of the crushing bin body, a discharge hole is formed in the side wall, close to the lower portion, of the crushing bin body, a central through hole for transmitting vibration and an eccentric feed hole arranged around the central through hole are formed in the crushing bin cover, and the eccentric feed hole is connected with the feeding device.
3. The high-frequency multidirectional crushing and cutting device as claimed in claim 2, wherein the bottom inner wall of the crushing bin body is higher in axial center and lower in outer edge.
4. The high-frequency multidirectional crushing and cutting device as claimed in claim 1, wherein the vibration shearing and crushing head further comprises a transducer and an amplitude transformer, and the tail end of the amplitude transformer is fixedly connected with the vibration cutter disc.
5. The high-frequency multidirectional smashing and cutting device according to any one of claims 1 to 4, wherein a plurality of guide holes are formed in the position, close to the outer edge, of the vibrating cutter disc, guide posts corresponding to the guide holes are fixedly connected to the top of the smashing bin, and the guide posts are inserted into and slidably connected to the guide holes.
6. The high-frequency multidirectional smashing and cutting device according to any one of claims 1 to 4, wherein the impeller comprises an impeller bottom plate, a plurality of blades and a fixing ring from bottom to top, the blades surround the impeller bottom plate at equal intervals, and the outer edges of the blades are provided with cutting edges.
7. The high frequency multi-directional pulverizing and cutting apparatus as claimed in claim 2, wherein the vibrating cutter head comprises a cutter head top plate, an upper cutter head, a plurality of blades, a lower cutter head and a cutter head bottom plate, the cutter head top plate is provided with a cutter head opening corresponding to and communicating with the eccentric feed hole, the direction of the blades is provided with an offset angle with the radial direction of the upper cutter head, and the blades are wound on the upper cutter head at equal intervals.
8. The high frequency multi-directional pulverizing and cutting apparatus as claimed in claim 7, wherein the bottom plate of the cutter head is provided with a plurality of buffer blocks.
CN202122587200.XU 2021-10-26 2021-10-26 High-frequency multi-direction crushing and cutting device Active CN216573400U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202122587200.XU CN216573400U (en) 2021-10-26 2021-10-26 High-frequency multi-direction crushing and cutting device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202122587200.XU CN216573400U (en) 2021-10-26 2021-10-26 High-frequency multi-direction crushing and cutting device

Publications (1)

Publication Number Publication Date
CN216573400U true CN216573400U (en) 2022-05-24

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Application Number Title Priority Date Filing Date
CN202122587200.XU Active CN216573400U (en) 2021-10-26 2021-10-26 High-frequency multi-direction crushing and cutting device

Country Status (1)

Country Link
CN (1) CN216573400U (en)

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