阅读说明：本技术 一种带拨杆研磨系统及其研磨方法 (Grinding system with deflector rod and grinding method thereof ) 是由 钱剑飞 张志强 于 2021-08-24 设计创作，主要内容包括：本发明公开了一种带拨杆研磨系统及其研磨方法,包括拨杆、研磨装置和电机,拨杆设在研磨装置上方,拨杆包括拨杆底部的螺纹部,螺纹部与研磨装置连接,电机分别与研磨装置和拨杆连接。本发明有利于快速对物料进行研磨分解,具有速度快,研磨精度高的特点。(The invention discloses a grinding system with a deflector rod and a grinding method thereof. The invention is beneficial to quickly grinding and decomposing materials and has the characteristics of high speed and high grinding precision.)

1. The utility model provides a take driving lever grinding system which characterized in that: the automatic grinding device comprises a driving lever (1), a grinding device (2) and a motor (3), wherein the driving lever (1) is arranged above the grinding device (2), the driving lever (1) comprises a threaded part (20) at the bottom of the driving lever (1), the threaded part (20) is connected with the grinding device (2), and the motor (3) is respectively connected with the grinding device (2) and the driving lever (1).

2. The toggle grinding system of claim 1, wherein: the grinding device (2) comprises a rotor (4) and a stator (5), the deflector rod (1) is connected to the center of the top of the rotor (4), and the stator (5) is wrapped outside the rotor (4).

3. The toggle grinding system of claim 2, wherein: the outer side of the rotor (4) is provided with a first spiral thread (61), the inner side of the stator (5) is provided with a second spiral thread (62), the inclination angles of the first spiral thread (61) and the second spiral thread (62) are 60-80 degrees, the second spiral thread (62) is lower taper, the first spiral thread (61) is upper taper, and the second spiral thread (62) and the first spiral thread (61) are nested in a matched mode.

4. The toggle grinding system of claim 3, wherein: the rotor (4) is provided with arc-shaped convex parts (7), the arc-shaped convex parts (7) and the first spiral threads (61) are uniformly distributed at intervals, the top of the rotor is provided with a convex block (9) with a bevel edge (8) at one side, and the rotor (4) further comprises a blade (10) arranged at the bottom.

5. The toggle grinding system of claim 2, wherein: the top of the stator (5) is provided with a feed inlet (11) with a hollowed middle part, and the feed inlet (11) is positioned at the hollowed part at the center of the top of the stator (5).

6. The toggle grinding system of claim 5, wherein: the stator (5) side is equipped with first annular concave part (12), and first annular concave part (12) below is equipped with second annular concave part (13), all is equipped with sealing washer (14) on first annular concave part (12), second annular concave part (13) and feed inlet (11).

7. A grinding method with a deflector rod grinding system is characterized in that: the method comprises the following steps: the material is placed into the grinding device (2) from the feeding hole (11), the motor (3) is started, the deflector rod (1) is utilized to stir the material to disperse, and meanwhile, the material is pushed to enter the grinding device (2) to be ground.

8. The grinding method with deflector rod grinding system of claim 7, wherein: the specific implementation comprises the following steps:

the method comprises the following steps: the material is loaded into a feed inlet (11) at the top of a stator (5), a motor (3) is turned on at the same time, the motor (3) rotates to drive a deflector rod (1) to rotate, and the rotating deflector rod (1) uniformly disperses the material in gaps of a grinding device (2);

step two: the motor (3) rotates to drive the coaxial rotor (4) to rotate, the stator (5) is kept still, materials enter the grinding device (2) through a gap between a second spiral thread (62) on the stator (5) and a first spiral thread (61) on the rotor (4), and the first spiral thread (61) on the outer surface of the rotating rotor (4) and the second spiral thread (62) inside the stator (5) roll and shear the materials in the grinding device (2);

step three: the materials with reduced particles fall to the arc-shaped bulge (7) along the tracks of the first spiral threads (61) and the second spiral threads (62) to be buffered, the materials with larger particles can be ground again, and the materials with smaller particles are discharged from the arc-shaped bulge (7) and are stirred to a discharging position by the bottom blade (10).

9. The grinding method with deflector rod grinding system of claim 8, wherein: the method also comprises the following step A between the first step and the second step: the bump (9) at the top of the rotor (4) and the inclined plane (8) on the bump (9) drive the fallen material to the smooth surface (15) of the inner surface of the stator (5) after primary grinding, so that the material enters the rotor (4) for further grinding and rolling.

10. The grinding method with deflector rod grinding system of claim 8, wherein: deflector rod (1) and rotor (4) coaxial coupling are on motor (3), and keyway (16) and connection key (17) are installed to rotor (4) and motor (3) junction, and the adjustable ring (19) of strengthening fixed system establishes in stator (5) outside.

Technical Field

The invention relates to the field of grinding systems, in particular to a grinding system with a deflector rod and a grinding method thereof.

Background

Grinding machine is when carrying out grinding treatment to the material, the nutritive substance and the quality of material can reduce along with the increase of grinding time, grind the unable whole release of nutrition that makes the material again when the number of times is less, be unfavorable for the human body to absorb, if fail to carry out sufficient screening and pan feeding, can cause the grinding speed to slow inevitably, the not enough scheduling problem of grinding precision, it can waste a large amount of manual works and time to carry out artifical screening pan feeding, consequently, the grinding system behind the adding driving lever can be with the material homodisperse of entering to the pan feeding mouth, pan feeding in proper order, the time of pan feeding has both been saved, the trouble that causes the card shell when preventing the pan feeding again, so need a take grinding system and the grinding method of automatic uniform screening incidentally now.

Disclosure of Invention

The invention aims to solve the technical problems and provides a grinding system with a deflector rod. The invention is beneficial to quickly grinding and decomposing materials and has the characteristics of high speed and high grinding precision.

The technical scheme adopted by the invention for solving the technical problems is as follows: the utility model provides a take driving lever grinding system, includes driving lever, grinder and motor, and the driving lever is established in the grinder top, and the driving lever includes the screw thread portion of driving lever bottom, and screw thread portion is connected with grinder, and the motor is connected with grinder and driving lever respectively, and the driving lever has the function of dispersion material, and it is rotatory that the driving lever is driven when the motor starts, and the driving lever is the cuboid, opens the material annular during rotation, lets it evenly fall into helical burr space all around, and the pan feeding is more swift even.

Preferably, the grinding device comprises a rotor and a stator, the deflector rod is connected to the center of the top of the rotor, the stator is wrapped outside the rotor and is fixed, the rotor is driven by the motor to rotate, so that high-speed rolling shearing is generated between the first spiral thread of the rotor and the second spiral thread of the stator, and the purpose of grinding materials is achieved.

As preferred, the rotor outside is equipped with first spiral line, and the stator inboard is equipped with the second spiral line, and first spiral line and second spiral line inclination are 60 ~ 80, and the second spiral line is down the conicity, and first spiral line is the tapering, and the cooperation of second spiral line and first spiral line is nested, and the spiral line contactless formation space of both sides, the material grinds in the space repeatedly, and the tapering enables to discharge smoothly after the material grinds, and is rational in infrastructure, simple manufacture.

Preferably, the rotor is provided with an arc-shaped protruding portion, the arc-shaped protruding portion and the first spiral threads are distributed at equal intervals, a protruding block with a bevel edge is arranged on one side of the top of the rotor, the rotor further comprises a blade arranged at the bottom, the arc-shaped protruding portion can buffer materials to be discharged, tiny particles can be successfully discharged, larger particles can return to the grinding device for grinding, the grinding precision is improved, the blades discharge the discharged materials to the discharging position, the structure is exquisite, and the problem that the grinding process is not smooth due to the fact that the materials are stacked can be prevented.

As the preferred, the stator top is equipped with the feed inlet of middle part fretwork, and the feed inlet is located the fretwork department at stator top center, and the feed inlet entry is big, and the driving lever is in the feed inlet center, and the material can be followed a large amount of pan feeding fast and evenly distributed and be difficult to pile up from the feed inlet, makes things convenient for subsequent processing.

As the preferred, the stator outside is equipped with first annular concave part, and first annular concave part below is equipped with second annular concave part, all is equipped with the sealing washer on first annular concave part, second annular concave part and the feed inlet, and the sealing washer lets after the installation and machine inner wall produce frictional force and lets this system more firm, can also make the inside leakproofness of system better, is difficult to cause the unrestrained waste of material.

A grinding method with a deflector rod grinding system comprises the following steps: put into grinder with the material from the feed inlet, open the motor, utilize the driving lever to stir and make the material dispersion, promote the material simultaneously and get into inside grinding treatment of grinder.

Preferably, the specific implementation comprises the following steps:

the method comprises the following steps: the material is loaded into a feed inlet at the top of the stator, a motor is turned on at the same time, the motor rotates to drive a deflector rod to rotate, and the rotating deflector rod uniformly disperses the material in gaps of the grinding device;

step two: the motor rotates to drive the coaxial rotor to rotate, the stator is kept still, materials enter the grinding device through gaps between the second spiral threads on the stator and the first spiral threads on the rotor, and the first spiral threads on the outer surface of the rotating rotor and the second spiral threads inside the stator roll and shear the materials in the grinding device;

step three: the materials with reduced particles fall to the arc-shaped bulge along the tracks of the first spiral threads and the second spiral threads to be buffered, the materials with larger particles can be ground again, and the materials with smaller particles are discharged from the arc-shaped bulge and are stirred to a discharging position by the bottom blade.

Preferably, step a is further included between step one and step two: the lug on the top of the rotor and the inclined plane on the lug drive the falling material to the smooth surface of the inner surface of the stator after primary grinding, so that the material enters the rotor for further grinding and rolling.

Preferably, the deflector rod and the rotor are coaxially connected to the motor, a key groove and a connecting key are arranged at the joint of the rotor and the motor, and the adjusting ring for reinforcing the fixing system is arranged outside the stator.

The invention has the beneficial effects that:

1. according to the invention, the problems of certain products with low grinding speed and low grinding precision are collected and solved, the inclination of the spiral grains is increased to enable the treatment process to be smoother and faster, the bottom of the rotor is additionally provided with the arc-shaped bulge part, large-particle materials cannot flow out rapidly through the arc-shaped bulge part, the detention time of the arc-shaped bulge part is prolonged to enable the arc-shaped bulge part to have more grinding times, and the nutrient substances in the arc-shaped bulge part are released perfectly.

2. The grinding system is also provided with blades for stirring the flowing materials, the blades rotate along with the rotor to pull the materials in the grinding system and push the ground materials, and the blades and the rotor are integrated to prevent the materials from being remained due to connection.

Drawings

Fig. 1 is a block diagram of the overall system of the present invention.

Fig. 2 is a structural view of the polishing apparatus of the present invention.

Fig. 3 is a schematic view of a rotor structure in the grinding apparatus of the present invention.

Fig. 4 is a schematic view of a stator structure in the polishing apparatus of the present invention.

FIG. 5 is a schematic view of the toggle lever and motor connection of the present invention.

FIG. 6 is a schematic view of the driving lever of the present invention.

In the figure: 1. driving lever, 2, grinding device, 3, motor, 4, rotor, 5, stator, 61, first spiral thread, 62, second spiral thread, 7, arc-shaped bulge, 8, bevel edge, 9, bump, 10, blade, 11, feed inlet, 12, first annular concave part, 13, second annular concave part, 14, sealing ring, 15, smooth surface, 16, key groove, 17, connecting key, 18, motor thread, 19, adjusting ring, 20 and thread part

Detailed Description

The present invention will be further described with reference to the accompanying drawings and embodiments.

As shown in fig. 1-6, the grinding system with the shifting lever comprises a shifting lever 1, a grinding device 2 and a motor 3, wherein the shifting lever 1 is arranged above the grinding device 2, the shifting lever 1 comprises a threaded portion 20 at the bottom of the shifting lever 1, the threaded portion 20 is connected with the grinding device 2, the motor 3 is respectively connected with the grinding device 2 and the shifting lever 1, the shifting lever 1 has the function of dispersing materials, the shifting lever 1 is driven to rotate when the motor 3 is started, the shifting lever 1 is a rectangular body, the materials are annularly opened during rotation, and uniformly fall into helical gaps around, and feeding is more rapid and uniform.

Grinder 2 includes rotor 4 and stator 5, and driving lever 1 is connected at rotor 4 top center, and stator 5 parcel is outside at rotor 4, and stator 5 is fixed, drives rotor 4 rotation through motor 3 and produces the high speed between the first spiral line 61 of rotor 4 and the second spiral line 62 of stator 5 and roll the shearing, reaches the purpose of grinding the material.

4 outsides of rotor are equipped with first spiral line 61, 5 inboards of stator are equipped with second spiral line 62, first spiral line 61 and the 62 inclination of second spiral line are 60 ~ 80, second spiral line 62 is down the tapering, first spiral line 61 is the tapering, second spiral line 62 and the cooperation of first spiral line 61 are nested, the spiral line contactless formation space of both sides, the material grinds in the space repeatedly, the tapering enables to discharge smoothly after the material grinds, and is rational in infrastructure, simple manufacture.

Be equipped with arcuation bellying 7 on rotor 4, arcuation bellying 7 and the even interval distribution of first spiral line 61, 4 tops of rotor are equipped with the lug 9 that one side has hypotenuse 8, rotor 4 is still including establishing the blade 10 in the bottom, arcuation bellying 7 can carry out a buffering to the material that is about to discharge, let small granule successfully discharge, great granule can return grinder 2 and regrind, the precision of grinding has been improved, blade 10 arranges the material that flows to ejection of compact department, the structure is exquisite, can prevent that the material from piling up the problem that causes the grinding process to be unsmooth.

The feed inlet 11 that the middle part was fretwork is equipped with at 5 tops of stator, and feed inlet 11 is located the fretwork department at 5 top centers of stator, and feed inlet 11 entry is big, and driving lever 1 is located feed inlet 11 centers, and the material can be followed feed inlet 11 and a large amount of pan feeding fast and the even difficult accumulations that distribute, makes things convenient for subsequent processing.

The stator 5 outside is equipped with first annular concave part 12, and first annular concave part 12 below is equipped with second annular concave part 13, all is equipped with sealing washer 14 on first annular concave part 12, second annular concave part 13 and the feed inlet 11, and sealing washer 14 lets after the installation and the machine inner wall produce frictional force and lets this system more firm, can also make the inside leakproofness of system better, is difficult to cause the unrestrained waste of material.

A grinding method with a deflector rod grinding system comprises the following steps: the material is put into the grinding device 2 from the feed inlet 11, the motor 3 is started, the deflector rod 1 is utilized to stir the material to disperse, and meanwhile, the material is pushed to enter the grinding device 2 to be ground.

The specific implementation comprises the following steps:

the method comprises the following steps: the material is loaded into a feed inlet 11 at the top of a stator 5, a motor 3 is started at the same time, the motor 3 rotates to drive a deflector rod 1 to rotate, and the rotating deflector rod 1 uniformly disperses the material in gaps of a grinding device 2;

step two: the motor 3 rotates to drive the coaxial rotor 4 to rotate, the stator 5 keeps still, materials enter the grinding device 2 through a gap between a second spiral thread 62 on the stator 5 and a first spiral thread 61 on the rotor 4, and the first spiral thread 61 on the outer surface of the rotating rotor 4 and the second spiral thread 62 in the stator 5 roll and shear the materials in the grinding device 2;

step three: the materials with reduced particles fall to the arc-shaped bulge part 7 along the tracks of the first spiral threads 61 and the second spiral threads 62 to be buffered, the materials with larger particles can be ground again, and the materials with smaller particles are discharged from the arc-shaped bulge part 7 and are shifted to a discharging position by the bottom blade 10.

The method also comprises the following step A between the first step and the second step: the bump 9 on the top of the rotor 4 and the inclined plane 8 on the bump 9 drive the fallen material to the smooth surface 15 of the inner surface of the stator 5 after primary grinding, so that the material enters the rotor 4 for further grinding and rolling.

The driving lever 1 and the rotor 4 are coaxially connected on the motor 3, a key groove 16 and a connecting key 17 are arranged at the joint of the rotor 4 and the motor 3, and an adjusting ring 19 for strengthening a fixing system is arranged outside the stator 5.

The embodiments are described in a progressive manner in the specification, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.