CN115463601A - Compounding device is used in emery wheel preparation - Google Patents

Abstract

The invention relates to the field of mixing devices, in particular to a mixing device for preparing a grinding wheel, which comprises four groups of supporting frames, wherein a frame seat is coaxially embedded in the lower end parts of the supporting frames, auxiliary mixing parts are installed at the upper ends of the four groups of supporting frames, a main mixing part is installed among the four groups of supporting frames, a driving part is installed at the upper end of the main mixing part, the driving part is connected with the auxiliary mixing parts, and the main mixing part is communicated with the auxiliary mixing parts. The invention improves the material mixing effect, avoids the caking phenomenon during material mixing, and simultaneously ensures that no raw materials remain on the receiving disc.

Description

Compounding device is used in emery wheel preparation

Technical Field

The invention relates to the field of mixing devices, in particular to a mixing device for grinding wheel preparation.

Background

The emery wheel is the grinding apparatus in with the volume the biggest, the usage face is one kind, high-speed rotation during the use, can carry out the corase grind to metal or nonmetal work piece's excircle, interior circle, plane and various profile etc., half finish grinding and fluting and cutting off, wherein the emery wheel need use the compounding device to mix multiple raw materials in the preparation process, nevertheless in the mixing process, multiple raw materials are unified to be added and mix in the compounding device, because of the volume of its multiple raw materials of unified addition is more, lead to follow-up raw materials to mix inadequately evenly, seriously influence the effect of its compounding.

Disclosure of Invention

The invention aims to solve the defects in the background art and provides a mixing device for preparing a grinding wheel.

In order to achieve the above purposes, the technical scheme adopted by the invention is as follows: the utility model provides a compounding device is used in emery wheel preparation, includes four groups of support frames, the coaxial embedding of lower tip of support frame has the frame foundation, and four groups vice mixing element is installed to the upper end of support frame, four groups install main mixing element between the support frame, the driving piece is installed to the upper end of main mixing element, the driving piece is connected with vice mixing element, main mixing element is linked together with vice mixing element.

Preferably, vice hybrid includes that coaxial fixed mounting is at four group's vice barrels in four group's upper end of support frame, the coaxial rotation that runs through in the up end middle part of vice barrel is inlayed and is had the connecting rod, the upper end edge of vice barrel runs through and inlays and have the feeder hopper, the outer fixed surface of connecting rod lower part has two sets of fixing bases, and one of them is a set of the fixing base is located the rear of another group's fixing base, and is two sets of the tip of fixing base runs through respectively and inlays and have two sets of axles, the surface of axle is provided with No. two rolling wheels, no. two rolling wheels laminate in the inside bottom surface of vice barrel.

Preferably, the lower edge department of the surface of connecting rod extends and has even solid frame, even gu the rear that the frame is located the fixing base, even the up end of solid frame runs through to inlay and has two sets of direction shells, the laminating of the lower terminal surface middle part of direction shell runs through and installs the guide post, the lower terminal surface fixed mounting of guide post has the ejector plate, the lower terminal surface laminating of ejector plate is in the inside bottom surface of vice barrel, the inside bottom surface edge slope of ejector plate orientation vice barrel, the coaxial inlaying of upper end of guide post has the pressure cap, the guide post with press cap integrated into one piece, press the cap laminating in the inside surface of direction shell, the upper end of pressing the cap is inlayed and is had No. two pressure spring, no. two pressure spring's upper end and the inside top surface fixed connection of guide shell.

Preferably, main mixed part is including setting up the main barrel body between four group's support frames, the up end middle part of the main barrel body runs through to rotate and inlays and have the connecting axle, the front end upper portion of the main barrel body runs through and has seted up the feed inlet, the surface mosaic of connecting axle has the promotion leaf, the surface lower limb department annular array fixed mounting of connecting axle has four groups stirring leaf, the stirring leaf is located the below that promotes the leaf, four groups it has the reinforcing ring to inlay between the stirring leaf, the lower terminal surface middle part fixed mounting of the main barrel body has the valve, the inside bottom surface of the main barrel body inclines towards valve position, the position annular array that the up end of the main barrel body is close to the middle part runs through to inlay has four groups communicating pipe, four groups communicating pipe's tip runs through respectively and inlays in the surface lower limb department of four groups of vice barrels.

Preferably, the surface lower part annular array fixed mounting of the main barrel body has four groups of lower link, four groups the tip of link is connected with the surface fixed connection of four groups of support frames respectively down, the surface upper part annular array fixed mounting of the main barrel body has four groups of upper links, four groups go up the tip of link and be connected with the surface fixed connection of four groups of support frames respectively, the lower terminal surface slope fixed mounting who goes up the link has the enhancement frame, the tip and the main barrel body fixed connection of enhancement frame, the inboard coaxial arrangement of the main barrel body has the flange, the downward sloping setting is personally submitted to the upper end of flange, the promotion leaf runs through in the inboard of flange, the promotion leaf is the heliciform.

Preferably, the lower tip of communicating pipe is located the flange directly over, the side fixed mounting of connecting axle has L shape frame, L shape frame is located the top that promotes the leaf, the front end fixed mounting of L shape frame has the mount, the tip of mount is inlayed and is had directional shell, the laminating of the lower terminal surface middle part of directional shell is run through and is installed directional post, the lower extreme fixed mounting of directional post has the connecting block, the tip of connecting block is inlayed and is had the scraping wings, the lower terminal surface laminating of scraping wings is in the up end of flange, the scraping wings is towards the outward flange department slope of flange.

Preferably, the lower tip fixed mounting of L shape frame has the wheel carrier, the internally mounted of wheel carrier has rolling wheel No. one, rolling wheel laminating in the up end of flange, the lower terminal surface edge fixed mounting of flange has four fixed claws of group, the tip of fixed claw is connected with the inside fixed surface of main barrel body, the coaxial inlaying in upper end of directional post has the pressure disk, the pressure disk is laminated in the inside surface of directional shell, it has a pressure spring to inlay between the upper end of pressure disk and the inside top surface of directional shell, the upper end middle part fixed mounting of pressure disk has the prism, the prism is located a pressure spring's inboard, the prism laminating runs through the up end in directional shell.

Preferably, the driving piece includes the double-end servo motor of fixed mounting in the upper end of connecting axle, double-end servo motor's surface symmetry fixed mounting has two sets of motor framves, the lower extreme of motor frame and the upper end fixed connection of main barrel body, the coaxial extension of double-end servo motor's upper end has the bearing shaft, the surface of bearing shaft inlays and has No. two band pulleys, the coaxial embedding of upper end of connecting rod has a band pulley, be connected with the hold-in range between a band pulley and No. two band pulleys.

Compared with the prior art, the invention has the following beneficial effects:

1. through the vice mixing element that sets up, can add four groups of vice barrels respectively with multiple raw materials, with promote the raw materials in the vice barrel under the promotion of propelling plate, make the raw materials push away to in communicating pipe along the inclined plane of propelling plate, make the raw materials in the vice barrel fall in the main barrel from communicating pipe at the uniform velocity a small amount, the raw materials in the main barrel is lifted under the effect that promotes the leaf this moment, throw out under the effect of centrifugal force when rising to the upper end department that promotes the leaf, with from the multiple raw materials of the uniform velocity whereabouts of communicating pipe a small amount, the bottom that falls into the main barrel afterwards is stirred by pivoted stirring leaf and is mixed, so that let the raw materials of adding fully dispersed in the raw materials that are mixed when reinforced promptly, prevented the uneven phenomenon of follow-up stirring, the effectual effect that improves the compounding.

2. And when the connecting rod promoted the raw materials of the board in to vice barrel in rotating the ejecting, still can drive No. two rolling wheels and rotate, in order to roll the raw materials, in order to pulverize the caking in the raw materials, in order to appear the caking phenomenon when avoiding the compounding, throw the raw materials of spilling and the raw materials of a small amount of whereabouts at the uniform velocity simultaneously and mix together and can fall on the flange when whereabouts, the connecting axle can drive a rolling wheel this moment and rotate, in order to roll the raw materials that falls on the flange, pulverize with further caking in with the raw materials, the caking phenomenon appears when further avoiding the compounding with this.

3. Under the effect of scraping wings, can drive the scraping wings in step when connecting axle drives rolling wheel and rotates to utilize the scraping wings to promote the raw materials after being rolled by rolling wheel on the flange, make the raw materials pushed down along the inclined plane of scraping wings, with this guarantee can not remain the raw materials on the flange.

Drawings

FIG. 1 is a schematic structural diagram of a mixing device for grinding wheel preparation according to the present invention;

FIG. 2 is an internal view of a main cylinder of a mixing device for preparing a grinding wheel according to the present invention;

FIG. 3 is a schematic view of a first rolling wheel of the mixing device for preparing a grinding wheel according to the present invention;

FIG. 4 is a sectional view of the oriented shell of the material mixing device for preparing the grinding wheel, provided by the invention;

FIG. 5 is an internal view of an auxiliary cylinder of the mixing device for preparing a grinding wheel according to the present invention;

FIG. 6 is an enlarged view of A in FIG. 5 of a mixing device for preparing a grinding wheel according to the present invention;

FIG. 7 is a sectional view of a guide shell of the mixing device for preparing the grinding wheel, provided by the invention;

FIG. 8 is a schematic view of a driving part of a mixing device for preparing a grinding wheel according to the present invention;

FIG. 9 is a schematic view of a second belt wheel of the mixing device for preparing the grinding wheel.

In the figure: 1. a support frame; 2. a frame seat; 3. a lower connecting frame; 4. an upper connecting frame; 5. a reinforcing frame; 6. a primary mixing element; 61. a main cylinder; 62. a valve; 63. a connecting shaft; 64. receiving a plate; 65. a fixed jaw; 66. lifting the leaves; 67. stirring blades; 68. a reinforcing ring; 69. a first rolling wheel; 610. a wheel carrier; 611. an L-shaped frame; 612. a fixed mount; 613. an orientation housing; 614. a material pushing plate; 615. connecting blocks; 616. a directional column; 617. a platen; 618. a first hold-down spring; 619. a prism; 7. a drive member; 71. a first belt wheel; 72. a synchronous belt; 73. a double-headed servo motor; 74. a motor frame; 75. a second belt wheel; 76. a load bearing shaft; 8. a secondary mixing member; 81. an auxiliary cylinder; 82. a communicating pipe; 83. a connecting rod; 84. a feed hopper; 85. a connecting and fixing frame; 86. a guide housing; 87. a guide post; 88. pushing out the plate; 89. a fixed seat; 810. a second rolling wheel; 811. pressing the cap; 812. and a second compression spring.

Detailed Description

The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art.

As shown in fig. 1-9, a mixing device for preparing a grinding wheel comprises four groups of support frames 1, wherein a frame base 2 is coaxially embedded in the lower end part of each support frame 1, an auxiliary mixing part 8 is installed at the upper end of each support frame 1, a main mixing part 6 is installed between the support frames 1, a driving part 7 is installed at the upper end of each main mixing part 6, the driving part 7 is connected with the auxiliary mixing part 8, and the main mixing part 6 is communicated with the auxiliary mixing part 8.

Vice mixing element 8 includes that coaxial fixed mounting has four vice barrels of group 81 in the upper end of four group's support frames 1, the coaxial rotation that runs through in the up end middle part of vice barrel 81 is inlayed and is had connecting rod 83, the upper end edge of vice barrel 81 runs through to inlay and has feed hopper 84, feed hopper 84 plays reinforced effect, the outer surface lower part fixed mounting of connecting rod 83 has two sets of fixing base 89, one of them set of fixing base 89 is located the rear of another set of fixing base 89, fixing base 89 plays the effect of connecting, the tip of two sets of fixing base 89 runs through respectively to inlay has two sets of axles, the axle plays the effect of connecting No. two rolling wheel 810, the surface of axle is provided with No. two rolling wheel 810, no. two rolling wheel 810 laminates in the inside bottom surface of vice barrel 81, no. two rolling wheel 810 plays the effect of smashing to the caking that is mingles with in the raw materials.

The lower edge of the outer surface of the connecting rod 83 extends to form a connecting frame 85, the connecting frame 85 is located behind a fixed seat 89, two groups of guide shells 86 penetrate through and are embedded in the upper end face of the connecting frame 85, the connecting frame 85 plays a role in fixing the guide shells 86, guide columns 87 are attached to the middle of the lower end face of each guide shell 86 in a penetrating mode, the guide columns 87 and the guide shells 86 play a role in ensuring that the push plates 88 vertically move up and down, push plates 88 are fixedly mounted on the lower end faces of the guide columns 87, the lower end faces of the push plates 88 are attached to the inner bottom face of the auxiliary barrel 81, the push plates 88 incline towards the edge of the inner bottom face of the auxiliary barrel 81, raw materials can be pushed towards the edge of the auxiliary barrel 81 to drive the raw materials into the communicating pipe 82, pressing caps 811 are coaxially embedded at the upper end portions of the guide columns 87, the guide columns 87 and the pressing caps 811 are integrally formed, the pressing caps 811 are attached to the inner outer surface of the guide shells 86, second pressing springs 812 are embedded at the upper ends of the pressing caps 811 and can be used for pressing the inner bottom faces of the auxiliary barrel 81 and the push plates 88 all the inner parts of the guide shells.

The main mixing part 6 comprises a main cylinder body 61 arranged between four groups of support frames 1, a connecting shaft 63 penetrates through and is rotatably embedded in the middle of the upper end face of the main cylinder body 61, a feed inlet penetrates through the upper portion of the front end of the main cylinder body 61 and plays a role in feeding, lifting blades 66 are embedded in the outer surface of the connecting shaft 63, four groups of stirring blades 67 are fixedly installed at the lower edge of the outer surface of the connecting shaft 63 in an annular array mode, the stirring blades 67 play a role in stirring raw materials, the stirring blades 67 are located below the lifting blades 66, reinforcing rings 68 are embedded among the four groups of stirring blades 67, the reinforcing rings 68 play a role in reinforcing the four groups of stirring blades 67, a valve 62 is fixedly installed in the middle of the lower end face of the main cylinder body 61, the inner bottom face of the main cylinder body 61 is inclined towards the position of the valve 62 and can facilitate discharging of the raw materials, four groups of communicating pipes 82 penetrate through and are embedded in the annular array mode at the position, close to the middle of the upper end face of the main cylinder body 61, the communicating pipes 82 play a role in communicating and the lower edge of the outer surface of the four groups of the auxiliary cylinder body 81 respectively penetrate and are embedded in a penetrating mode.

Four groups of lower connecting frames 3 are fixedly arranged on the lower portion of the outer surface of the main cylinder body 61 in an annular array mode, the end portions of the four groups of lower connecting frames 3 are respectively fixedly connected with the outer surfaces of the four groups of supporting frames 1, four groups of upper connecting frames 4 are fixedly arranged on the upper portion of the outer surface of the main cylinder body 61 in an annular array mode, the lower connecting frames 3 and the upper connecting frames 4 play a role in fixing the main cylinder body 61 and the supporting frames 1 together, the end portions of the four groups of upper connecting frames 4 are respectively fixedly connected with the outer surfaces of the four groups of supporting frames 1, reinforcing frames 5 are fixedly arranged on the lower end face of each upper connecting frame 4 in an inclined mode, the reinforcing frames 5 play a reinforcing role, the end portions of the reinforcing frames 5 are fixedly connected with the main cylinder body 61, a receiving disc 64 is coaxially arranged on the inner side of the main cylinder body 61, the upper end face of each receiving disc 64 is arranged in an inclined mode, raw materials can conveniently fall down, lifting blades 66 penetrate through the inner sides of the receiving discs 64, and the lifting blades 66 are spiral.

The lower end of the communicating pipe 82 is located right above the receiving disc 64, the side surface of the connecting shaft 63 is fixedly provided with an L-shaped frame 611, the L-shaped frame 611 is located above the lifting blade 66, the front end of the L-shaped frame 611 is fixedly provided with a fixing frame 612, the L-shaped frame 611 and the fixing frame 612 play a role in connection and fixation, the end of the fixing frame 612 is embedded with a directional shell 613, the middle of the lower end face of the directional shell 613 is attached and penetrated with a directional column 616, the lower end of the directional column 616 is fixedly provided with a connecting block 615, the directional shell 613 and the directional column 616 play a role in guiding the material pushing plate 614, the end of the connecting block 615 is embedded with a material pushing plate 614, the lower end face of the material pushing plate 614 is attached to the upper end face of the receiving disc 64, the material pushing plate 614 inclines towards the outer edge of the receiving disc 64, and can push the raw materials on the receiving disc 64 to the edge to fall.

The lower end of the L-shaped frame 611 is fixedly provided with a wheel frame 610, a first rolling wheel 69 is arranged inside the wheel frame 610, the wheel frame 610 plays a role in connecting the first rolling wheel 69, the first rolling wheel 69 is attached to the upper end face of the connecting disc 64, the first rolling wheel 69 plays a role in crushing lumps mixed in raw materials on the connecting disc 64, four groups of fixing claws 65 are fixedly arranged at the edge of the lower end face of the connecting disc 64 in an annular array mode, the end portions of the fixing claws 65 are fixedly connected with the inner outer surface of the main cylinder body 61, the fixing claws 65 play a role in fixing the connecting disc 64, a pressure plate 617 is coaxially embedded at the upper end of the orientation column 616, the pressure plate is attached to the inner outer surface of the orientation shell 613, a first compression spring 618 is embedded between the upper end of the pressure plate 617 and the inner top face of the orientation shell 613, the first compression spring 618 plays a role in pressing the pressure plate 617 in pressing the pressing plate to drive the material pushing plate 614 to be always attached to the connecting disc 64, the middle of the upper end face of the prism 619 is fixedly arranged inside the compression plate 618, and a prism plate 619 is prevented from rotating.

The driving piece 7 comprises a double-end servo motor 73 fixedly mounted at the upper end part of the connecting shaft 63, two sets of motor frames 74 are fixedly mounted on the outer surface of the double-end servo motor 73 symmetrically, the motor frames 74 play a role in fixing the double-end servo motor 73, the lower end of the motor frames 74 is fixedly connected with the upper end of the main barrel body 61, the upper end part of the double-end servo motor 73 coaxially extends to form a bearing shaft 76, a second belt wheel 75 and a first belt wheel 71 play a role in connecting the synchronous belt 72, the outer surface of the bearing shaft 76 is inlaid with the second belt wheel 75, the upper end part of the connecting rod 83 is coaxially inlaid with the first belt wheel 71, the synchronous belt 72 is connected between the first belt wheel 71 and the second belt wheel 75, and the synchronous belt 72 plays a role in connecting the bearing shaft 76 on the connecting rod 83 and the double-end servo motor 73.

When mixing materials, adding a large amount of raw materials into the main cylinder 61, then adding a small amount of other raw materials into four sets of sub-cylinders 81, then operating the double-head servo motor 73 through the synchronous belt 72 to drive the connecting rod 83 in the sub-cylinder 81 to rotate, further driving the second rolling wheel 810 and the pushing plate 88 to rotate, rolling the raw materials through the rotating second rolling wheel 810 to crush agglomerates in the raw materials, then pushing the rolled raw materials through the rotating pushing plate 88, so that the raw materials are pushed into the communicating pipe 82 along the inclined surface of the pushing plate 88, so that a small amount of raw materials in the sub-cylinder 81 fall into the main cylinder 61 from the communicating pipe 82 at a constant speed, and when the double-head servo motor 73 rotates the connecting rod 83, the connecting shaft 63 is also driven to rotate, the lifting blade 66 is driven to rotate, so that the raw materials in the main cylinder 61 are lifted up to the upper end of the lifting blade 66, the raw materials are thrown out under the centrifugal force when the raw materials are lifted up to the upper end of the lifting blade 66, so that the raw materials and the raw materials fall together with the mixing disk 64, and the mixing disk 64 is driven to be stirred by the rotating lower rolling disk 614, and the rotating mixing disk 64, and the raw materials are discharged from the rotating mixing disk 64, and the rotating plate 614, and the mixing disk 64 is driven to mix the raw materials.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the invention, but that various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (8)

1. The utility model provides a compounding device is used in emery wheel preparation, includes four groups of support frames (1), the coaxial inlaying of lower tip of support frame (1) has mount pad (2), its characterized in that: vice mixing member (8) are installed to the upper end of four groups support frame (1), and are four groups install main mixing member (6) between support frame (1), driving piece (7) are installed to the upper end of main mixing member (6), driving piece (7) are connected with vice mixing member (8), main mixing member (6) are linked together with vice mixing member (8).

2. The mixing device for grinding wheel preparation according to claim 1, characterized in that: vice hybrid (8) include four sets of vice barrels (81) of coaxial fixed mounting in the upper end of four sets of support frames (1), the up end middle part of vice barrel (81) is coaxial to be run through and to rotate to inlay and have connecting rod (83), the upper end edge of vice barrel (81) runs through to inlay and has feeder hopper (84), the surface lower part fixed mounting of connecting rod (83) has two sets of fixing base (89), and one of them is a set of fixing base (89) are located the rear of another set of fixing base (89), and are two sets of the tip of fixing base (89) runs through respectively to inlay and has two sets of shaft, the surface of shaft is provided with No. two rolling wheel (810), no. two rolling wheel (810) are laminated in the inside bottom surface of vice barrel (81).

3. The material mixing device for grinding wheel preparation according to claim 2, characterized in that: the utility model discloses a spring pressing device, including connecting rod (83), lower edge of the surface of connecting rod (83) department extends and has even solid frame (85), even solid frame (85) are located the rear of fixing base (89), the up end of even solid frame (85) runs through to inlay has two sets of direction shells (86), the laminating of the lower terminal surface middle part of direction shell (86) is run through and is installed guide post (87), the lower terminal surface fixed mounting of guide post (87) has ejector plate (88), the lower terminal surface laminating of ejector plate (88) is in the inside bottom surface of vice barrel (81), ejector plate (88) are towards the slope of the inside bottom surface edge of vice barrel (81), the coaxial inlaying of the upper end of guide post (87) has pressure cap (811), guide post (87) and pressure cap (811) integrated into one piece, press cap (811) to laminate in the inside surface of direction shell (86), the upper end of pressure cap (811) is inlayed and is had No. two to compress tightly spring (812), the upper end of No. two compress tightly spring (812) and the inside fixed connection of direction shell (86).

4. The mixing device for grinding wheel preparation according to claim 3, characterized in that: the main mixing part (6) is including setting up main barrel body (61) between four group's support frames (1), the up end middle part of main barrel body (61) runs through to rotate and inlays and have connecting axle (63), the front end upper portion of main barrel body (61) runs through and has seted up the feed inlet, the surface of connecting axle (63) is inlayed and is had promotion leaf (66), the surface lower limb department annular array fixed mounting of connecting axle (63) has four groups stirring leaf (67), stirring leaf (67) are located the below of promoting leaf (66), four groups it has reinforcing ring (68) to inlay between stirring leaf (67), the lower extreme face middle part fixed mounting of main barrel body (61) has valve (62), the inside bottom surface of main barrel body (61) is towards valve (62) position slope, the position annular array that the up end of main barrel body (61) is close to the middle part runs through four groups communicating pipe (82), the tip of four groups communicating pipe (82) runs through respectively and inlays in the surface lower limb department of four groups of vice barrel body (81).

5. The mixing device for grinding wheel preparation according to claim 4, characterized in that: outer surface lower part annular array fixed mounting of main barrel body (61) has four groups of lower link (3), four groups the tip of link (3) down is connected with the outer fixed surface of four groups of support frames (1) respectively, the outer surface upper portion annular array fixed mounting of main barrel body (61) has four groups to go up link (4), four groups go up the tip of link (4) and be connected with the outer fixed surface of four groups of support frames (1) respectively, the lower terminal surface slope fixed mounting who goes up link (4) has strengthening frame (5), strengthen the tip and main barrel body (61) fixed connection of frame (5), the inboard coaxial arrangement of main barrel body (61) has flange (64), the up end of flange (64) is the downward sloping setting, promote leaf (66) and run through the inboard in flange (64), it is the heliciform to promote leaf (66).

6. The mixing device for grinding wheel preparation according to claim 5, characterized in that: the lower tip of communicating pipe (82) is located flange (64) directly over, the side fixed mounting of connecting axle (63) has L shape frame (611), L shape frame (611) is located the top that promotes leaf (66), the front end fixed mounting of L shape frame (611) has mount (612), the tip of mount (612) is inlayed and is had directional shell (613), the laminating of the lower terminal surface middle part of directional shell (613) is run through and is installed directional post (616), the lower extreme fixed mounting of directional post (616) has connecting block (615), the tip of connecting block (615) is inlayed and is had scraping wings (614), the lower terminal surface laminating of scraping wings (614) is in the up end of flange (64), scraping wings (614) are towards the outward flange department slope of flange (64).

7. The mixing device for grinding wheel preparation according to claim 6, characterized in that: lower tip fixed mounting of L shape frame (611) has wheel carrier (610), the internally mounted of wheel carrier (610) has rolling wheel (69) No. one, rolling wheel (69) is laminated in the up end of flange (64), the lower terminal surface edge ring array fixed mounting of flange (64) has four sets of stationary dog (65), the tip of stationary dog (65) and the inside surface fixed connection of main barrel body (61), the coaxial pressure disk (617) of inlaying in upper end of directional post (616), pressure disk (617) are laminated in the inside surface of directional shell (613), it has a pressure spring (618) to inlay between the upper end of pressure disk (617) and the inside top surface of directional shell (613), the upper end middle part fixed mounting of pressure disk (617) has prism (619), prism (619) are located the inboard of a pressure spring (618), prism (619) laminating runs through the up end of directional shell (613).

8. The mixing device for grinding wheel preparation according to claim 7, characterized in that: driving piece (7) include double-end servo motor (73) of fixed mounting in the upper end of connecting axle (63), the surface symmetry fixed mounting of double-end servo motor (73) has two sets of motor framves (74), the upper end fixed connection of the lower extreme of motor frame (74) and main barrel body (61), the coaxial extension of the upper end of double-end servo motor (73) has bearing shaft (76), the surface that bears bearing shaft (76) inlays and has No. two band pulleys (75), the coaxial inlaying of the upper end of connecting rod (83) has a band pulley (71), be connected with hold-in range (72) between band pulley (71) and No. two band pulleys (75).

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