阅读说明：本技术 一种用于金星玻璃生产的振动式原料混合装置 (A vibrating raw materials mixing arrangement for production of aventurine glass ) 是由 赵小平 左明 于 2021-09-06 设计创作，主要内容包括：本发明公开了一种用于金星玻璃生产的振动式原料混合装置,包括壳体,其特征在于：所述壳体的内部贯穿安装有第一转轴,所述第一转轴的外侧固定连接有摆杆,所述摆杆的底部固定连接有摆锤,所述壳体的内部设置有弧形筛分板,所述摆锤的底部弧度与弧形筛分板的内壁弧度相匹配,所述摆锤的顶部两侧具有一定弧度。本发明通过设置的摆锤和弧形筛分板,摆锤摆动时摩擦原料,将足够细小的原料从筛选孔挤下,随着原料中大部分合格的颗粒筛选出后,第一弹簧回复带动弧形筛分板上移,不合格原料颗粒进入各组弧形筛分板之间,由于原料颗粒的大小不同会被凸块卡在不同的位置。(The invention discloses a vibrating type raw material mixing device for aventurine glass production, which comprises a shell and is characterized in that: the inside of casing runs through and installs first pivot, the outside fixedly connected with pendulum rod of first pivot, the bottom fixedly connected with pendulum of pendulum rod, the inside of casing is provided with the sieve bend board, the bottom radian of pendulum and the inner wall radian phase-match of sieve bend board, the top both sides of pendulum have certain radian. According to the invention, through the arranged pendulum bob and the arc-shaped screening plates, the pendulum bob rubs raw materials when swinging, enough fine raw materials are squeezed out of the screening holes, after most of qualified particles in the raw materials are screened out, the first spring returns to drive the arc-shaped screening plates to move upwards, unqualified raw material particles enter between each group of arc-shaped screening plates, and the raw material particles can be clamped at different positions by the lugs due to different sizes.)

1. The utility model provides a vibrating raw materials mixing arrangement for aventurine glass production, includes the casing, its characterized in that: a first rotating shaft is installed inside the shell in a penetrating mode, a swinging rod is fixedly connected to the outer side of the first rotating shaft, a pendulum bob is fixedly connected to the bottom of the swinging rod, an arc screening plate is arranged inside the shell, the radian of the bottom of the pendulum bob is matched with the radian of the inner wall of the arc screening plate, a certain radian is formed in two sides of the top of the pendulum bob, a second motor is fixedly installed at the bottom of the shell, the output end of the second motor is connected with a second rotating shaft in a transmission mode, a joint bearing is installed at the top of the second rotating shaft, a material mixing mechanism is connected to the top of the joint bearing, and the material mixing mechanism is located under the arc screening plate;

screening holes have evenly been seted up to the bottom of arc screening board, the bottom fixedly connected with arc grinding plate of the inner wall of arc screening board, it is every right arc grinding plate is a set of, every group the equal fixedly connected with lug in the relative one side of arc grinding plate, every group arc grinding plate's both ends interval reduces to the middle part greatly gradually, every group minimum distance between arc grinding plate slightly is greater than the diameter in screening hole, and adjacent two sets of arc grinding plate pastes tightly each other and does not leave the gap, the bottom fixedly connected with fixed strip of pendulum, the quantity of fixed strip is the same with the group number of arc grinding plate, and the width of fixed strip should be the same with the minimum distance between every group arc grinding plate.

2. A vibratory raw material mixing apparatus for use in Venus glass production as defined in claim 1 wherein: the compounding mechanism includes bottom plate, annular slab, annular connecting plate and mixing pole, the bottom and the joint bearing of bottom plate are connected, the annular slab rotates the upper surface of connection at the bottom plate, annular connecting plate fixed connection is in the outside of annular slab, the inner wall fixedly connected with L shape connecting rod of casing, the connecting piece is installed to the one end of keeping away from the casing of L shape connecting rod, the bottom and the top of mixing pole of connecting piece are connected, the mixing pole is located the bottom plate directly over, the connecting piece is located the bottom plate centre of a circle department directly over, the bottom fixedly connected with shovel board and the material breaking sword of mixing pole, the shovel board uses the connecting piece to be located the both sides of mixing pole respectively as the center with the material breaking sword, and the bottom of shrink shovel board and material breaking sword all uses magnetic material to help keeping in contact with the upper surface of bottom plate.

3. A vibratory raw material mixing apparatus for use in Venus glass production as defined in claim 1 wherein: the equal fixedly connected with connecting block in both ends of arc screening board, the inner wall fixed mounting of casing has two first fixed blocks, two first fixed block is located two connecting blocks respectively under, the first spring of top fixedly connected with of first fixed block, the top of first spring is connected with the bottom of connecting block.

4. A vibratory raw material mixing apparatus for use in Venus glass production as defined in claim 2 wherein: the inner wall fixed mounting of casing has the second fixed block, and is a plurality of the equal fixed mounting in top of second fixed block has the telescopic link, the top of telescopic link is connected, every with the bottom of annular connecting plate the outside of telescopic link all is overlapped and is equipped with the second spring, the both ends of second spring are connected with second fixed block and annular connecting plate respectively.

5. A vibratory raw material mixing apparatus for use in Venus glass production as defined in claim 2 wherein: the utility model discloses a casing, including casing, casing bottom fixed mounting have the gas delivery module, the top of gas delivery module is connected with first tuber pipe and second tuber pipe, the annular slab is run through to the one end of keeping away from the gas delivery module of first tuber pipe, the one end of keeping away from the gas delivery module of second tuber pipe runs through the casing, the outside fixed mounting of casing has the stock guide, the stock guide is located the below that the one end of casing was passed to the second tuber pipe.

6. A vibratory raw material mixing apparatus for use in Venus glass production as defined in claim 1 wherein: the outer side of the shell is fixedly provided with a first motor, the output end of the first motor is connected with a first rotating shaft, and the front side of the shell is fixedly provided with a controller.

7. A vibratory raw material mixing apparatus for aventurine glass production as in any of claims 1 to 6 wherein: the use steps are as follows:

a: the method comprises the following steps of putting raw materials composed according to a specified mass ratio into an arc screening plate in a shell, starting a first motor and a second motor, driving a first rotating shaft by the first motor to enable a swing rod to swing back and forth, driving the swing rod to rub the raw materials when the swing rod swings, extruding the raw materials which are fine enough from a screening hole, and driving the arc screening plate to move upwards along with screening of most qualified particles in the raw materials after a first spring returns;

b: after the step A is finished, unqualified raw material particles enter between each group of arc-shaped screening plates, the particles are clamped at different positions by the lugs according to different sizes of the raw materials, when the pendulum bob swings, the fixed strips penetrate through the first grinding plates of each group, the particles are subjected to upward extrusion force of the arc-shaped screening plates and impact force between the fixed strips and the lugs, the unqualified particles can be quickly crushed, the arc-shaped screening plates can vibrate when the pendulum bob impacts the raw material particles, the crushed particles can fall from the screening holes, the pendulum bob swings back and forth, the raw material particles can be prevented from being clamped between the arc-shaped screening plates, and a certain radian is formed in the top of the pendulum bob for preventing the raw materials from being stacked above the pendulum bob;

c: after the step B is finished, different raw materials have different hardness and different crushing difficulty, the different raw materials fall from the arc-shaped screening plate in sequence to cause uneven mixing of the raw materials on the bottom plate, the connecting piece is movably connected with the bottom plate, when the rotating speed of the second motor is slow, the bottom plate rotates in an inclined mode to help to overturn the raw materials at different positions, the annular plate does not rotate but inclines along with the bottom plate, when the rotating speed of the second motor is increased, the bottom plate tends to be horizontal due to centripetal force, the raw materials are flatly laid on the bottom plate, the shoveling plate below the mixing rod is used for shoveling and mixing the raw materials, the material breaking knife below the mixing rod is used for scratching the flatly laid raw materials into a groove, the raw material particles which are subsequently crushed and dropped are prevented from being only distributed and on the surface, the raw material particles can also fall to the bottom of the groove to help to be uniformly distributed, and in the process of mixing the raw materials, the air conveying module blows through the first air pipe, the raw materials in the mixing mechanism are blown, so that uniform mixing is facilitated, the fluctuation of glass components is avoided, the bottoms of the material breaking cutter and the shovel plate are made of magnetic materials and are always in contact with the upper surface of the bottom plate and slide, and meanwhile, magnetic metal particles generated after grinding can be adsorbed, so that the yield and the product quality of glass products are improved;

d: after accomplishing C step, the controller is through receiving the data of the sensor transmission that sets up in each telescopic link, confirms the inclination of bottom plate, in time control second motor adjustment rotational speed, avoid the bottom plate slope to excessively lead to the raw materials to spill, through the continuous increase and decrease rotational speed of control second motor, finally make raw materials misce bene, the raw materials mixes the completion back, and the gas delivery module is bled through first tuber pipe, takes out the raw materials that mix in the compounding mechanism well to arrange to the stock guide through the second tuber pipe.

Technical Field

The invention relates to the technical field of glass production, in particular to a vibrating type raw material mixing device for aventurine glass production.

Background

The aventurine glass is prepared with quartz sand, potash-sodalite, calcite, dolomite, alumina and coloring agent as material, and the coloring agent contains at least one of Cr2O3, Co2O3, Fe2O3 and MnO2, melting the mixture into molten glass in a glass melting furnace with temperature of 1350 DEG and 1600 DEG, cooling the molten glass to produce the aventurine glass, wherein the glass raw material often contains excessive Refractory Heavy Minerals (RHM), because the refractory heavy minerals are difficult to melt in the process of melting the glass and remain in the finished glass to form the glass, the larger the particles of these refractory heavy minerals are, the more chance they have to pass through the furnace completely, but the particle size of the raw material cannot be too fine, the too fine raw material is liable to cause flying and caking during the batching and conveying process, deteriorating the operating environment, and it is also liable to cause checker bricks arching in the silo and blocking the regenerator.

Because a small part of the raw materials have larger particles and are not beneficial to the mixing of the raw materials, the raw materials with the sizes which do not meet the requirements and the refractory heavy minerals need to be ground again by the raw material mixing device, the raw materials which meet the requirements need to fall down as soon as possible, the raw materials are prevented from being too fine, and the granularity of the raw materials is kept consistent and is beneficial to the uniform mixing; in addition, different raw materials have different hardness and fall from a grinding mechanism in different sequence, so that the raw materials are not uniformly mixed, and the fluctuation of glass components is caused.

Disclosure of Invention

The invention mainly aims to provide a vibrating type raw material mixing device for aventurine glass production, which can effectively solve the problems in the background art.

In order to achieve the purpose, the invention adopts the technical scheme that:

the utility model provides a vibrating raw materials mixing arrangement for aventurine glass production, includes the casing, the inside of casing runs through and installs first pivot, the outside fixedly connected with pendulum rod of first pivot, the bottom fixedly connected with pendulum of pendulum rod, the inside of casing is provided with the arc screening board, the bottom radian of pendulum and the inner wall radian phase-match of arc screening board, the top both sides of pendulum have certain radian, and the bottom fixed mounting of casing has the second motor, the output transmission of second motor is connected with the second pivot, joint bearing is installed at the top of second pivot, joint bearing's top is connected with compounding mechanism, compounding mechanism is located the arc screening board under.

The invention has the further improvement that screening holes are uniformly formed in the bottom of each arc-shaped screening plate, arc-shaped grinding plates are fixedly connected to the bottom of the inner wall of each arc-shaped screening plate, each pair of arc-shaped grinding plates is a group, a lug is fixedly connected to one side, opposite to each group of arc-shaped grinding plates, of each group, the distance between two ends of each group of arc-shaped grinding plates is gradually reduced from large to middle, the minimum distance between each group of arc-shaped grinding plates is slightly larger than the diameter of the screening holes, two adjacent groups of arc-shaped grinding plates are tightly attached to each other without gaps, a fixing strip is fixedly connected to the bottom of the pendulum bob, the number of the fixing strips is the same as the number of the groups of arc-shaped grinding plates, and the width of the fixing strip is the same as the minimum distance between each group of arc-shaped grinding plates.

The structure can realize that: friction raw materials during pendulum swing like this, with enough tiny raw materials from the screening hole crowded down, the back is selected along with most qualified granule in the raw materials, first spring reply upwards drives the screening arc board, unqualified raw materials granule gets into between each group screening arc board, by the lug card in different positions according to the variation in size of raw materials, when the pendulum swings, the fixed strip passes from each first grinding inter-plate of group, the granule receives the ascending extrusion force of screening arc board and the impact between fixed strip and lug, can be fast with unqualified granule breakage, the top of pendulum has certain radian to be used for preventing that the raw materials from piling in the pendulum top.

The invention is further improved in that the mixing mechanism comprises a bottom plate, an annular connecting plate and a mixing rod, the bottom of the bottom plate is connected with a joint bearing, the annular plate is rotationally connected with the upper surface of the bottom plate, the annular connecting plate is fixedly connected to the outer side of the annular plate, the inner wall of the shell is fixedly connected with an L-shaped connecting rod, one end of the L-shaped connecting rod, which is far away from the shell, is provided with a connecting piece, the bottom of the connecting piece is connected with the top of the mixing rod, the mixing rod is positioned right above the bottom plate, the connecting piece is positioned right above the circle center of the bottom plate, the bottom fixedly connected with shovel board and the material sword of breaking of mixing material pole, shovel board and material sword of breaking use the connecting piece to be located the both sides of mixing material pole respectively as the center, and the bottom of shrink shovel board and material sword of breaking all uses magnetic material to help keeping in contact with the upper surface of bottom plate.

The structure can realize that: the hardness of different raw materials is different, so that the crushing difficulty is different, different raw materials fall from the arc screening plate successively, the raw materials on the bottom plate are not mixed uniformly, the connecting piece is movably connected with the bottom plate, when the rotating speed of the second motor is slow, the bottom plate rotates in an inclined manner, the raw materials at different positions are favorably turned over, the annular plate does not rotate but inclines along with the bottom plate, when the rotating speed of the second motor is increased, the centripetal force increases the bottom plate to tend to be horizontal, the raw materials are flatly laid on the bottom plate, the shoveling plate below the mixing rod is used for shoveling and mixing the raw materials, the material breaking knife below the mixing rod is used for scratching the flatly laid raw materials to form a groove, the raw material particles which are subsequently crushed and fall are prevented from being only distributed and on the surface, the raw material particles can also fall to the bottom of the scratched groove, the uniform distribution is favorably, and the raw materials are finally mixed uniformly by controlling the continuous increasing and decreasing of the rotating speed of the second motor, and the bottoms of the material breaking knife and the shovel plate are made of magnetic materials, are always in contact with the upper surface of the bottom plate and slide, and can adsorb magnetic metal particles after grinding.

The improved structure of the sieve plate is characterized in that connecting blocks are fixedly connected to two ends of the arc-shaped sieve plate, two first fixing blocks are fixedly mounted on the inner wall of the shell and are respectively positioned right below the two connecting blocks, a first spring is fixedly connected to the top of each first fixing block, and the top end of each first spring is connected with the bottom of each connecting block.

The structure can realize that: set up like this and be in compression state at the first spring before not working, the sieve bend board pastes tightly with the pendulum each other, when throwing into the raw materials in the sieve bend board, can extrude first spring downwards, make sieve bend board and pendulum have certain distance between, pendulum swing friction raw materials, with qualified raw materials crowded down, sieve bend board is upwards driven, and the pendulum can vibrate at the in-process sieve bend board that strikes raw materials granule, help making the granule after the breakage drop.

The improved structure of the shell is characterized in that second fixed blocks are fixedly mounted on the inner wall of the shell, telescopic rods are fixedly mounted at the tops of the second fixed blocks, the tops of the telescopic rods are connected with the bottom of the annular connecting plate, a second spring is sleeved on the outer side of each telescopic rod, and two ends of each second spring are respectively connected with the second fixed blocks and the annular connecting plate.

The structure can realize that: because the bottom plate inclines at the pivoted in-process like this, drive annular connecting plate luffing motion through the annular plate, telescopic link and second spring are used for avoiding wobbling angle too big, are equipped with the sensor in the telescopic link simultaneously and are used for the distance of record shrink.

The invention has the further improvement that a gas delivery module is fixedly arranged at the bottom of the shell, a first air pipe and a second air pipe are connected to the top of the gas delivery module, one end of the first air pipe, which is far away from the gas delivery module, penetrates through the annular plate, one end of the second air pipe, which is far away from the gas delivery module, penetrates through the shell, a material guide plate is fixedly arranged on the outer side of the shell, and the material guide plate is positioned below one end of the second air pipe, which penetrates through the shell.

The structure can realize that: like this at the in-process that the raw materials mixes, the gas delivery module blows through first tuber pipe, blows the raw materials in the compounding mechanism, helps the misce bene, and after the raw materials mixes the completion, the gas delivery module bleeds through first tuber pipe, takes out the raw materials that mix in the compounding mechanism to arrange to the stock guide through the second tuber pipe.

The invention has the further improvement that a first motor is fixedly arranged on the outer side of the shell, the output end of the first motor is connected with the first rotating shaft, and a controller is fixedly arranged on the front surface of the shell.

The structure can realize that: set up first motor like this and make the pendulum rod swing back and forth through driving first pivot, help avoiding the raw materials granule card to grind the inter-plate at the arc, the controller is through receiving the data of the sensor transmission that sets up in each telescopic link, confirms the inclination of bottom plate, and the speed is accelerated to the second motor of in time control, avoids the slope excessively to lead to the raw materials to spill.

The invention further improves the vibration type raw material mixing device for the production of the aventurine glass, and the use steps are as follows:

a: the method comprises the following steps of putting raw materials composed according to a specified mass ratio into an arc screening plate in a shell, starting a first motor and a second motor, driving a first rotating shaft by the first motor to enable a swing rod to swing back and forth, driving the swing rod to rub the raw materials when the swing rod swings, extruding the raw materials which are fine enough from a screening hole, and driving the arc screening plate to move upwards along with screening of most qualified particles in the raw materials after a first spring returns;

b: after the step A is finished, unqualified raw material particles enter between each group of arc-shaped screening plates, the particles are clamped at different positions by the lugs according to different sizes of the raw materials, when the pendulum bob swings, the fixed strips penetrate through the first grinding plates of each group, the particles are subjected to upward extrusion force of the arc-shaped screening plates and impact force between the fixed strips and the lugs, the unqualified particles can be quickly crushed, the arc-shaped screening plates can vibrate when the pendulum bob impacts the raw material particles, the crushed particles can fall from the screening holes, the pendulum bob swings back and forth, the raw material particles can be prevented from being clamped between the arc-shaped screening plates, and a certain radian is formed in the top of the pendulum bob for preventing the raw materials from being stacked above the pendulum bob;

c: after the step B is finished, different raw materials have different hardness and different crushing difficulty, the different raw materials fall from the arc-shaped screening plate in sequence to cause uneven mixing of the raw materials on the bottom plate, the connecting piece is movably connected with the bottom plate, when the rotating speed of the second motor is slow, the bottom plate rotates in an inclined mode to help to overturn the raw materials at different positions, the annular plate does not rotate but inclines along with the bottom plate, when the rotating speed of the second motor is increased, the bottom plate tends to be horizontal due to centripetal force, the raw materials are flatly laid on the bottom plate, the shoveling plate below the mixing rod is used for shoveling and mixing the raw materials, the material breaking knife below the mixing rod is used for scratching the flatly laid raw materials into a groove, the raw material particles which are subsequently crushed and dropped are prevented from being only distributed and on the surface, the raw material particles can also fall to the bottom of the groove to help to be uniformly distributed, and in the process of mixing the raw materials, the air conveying module blows through the first air pipe, the raw materials in the mixing mechanism are blown, so that uniform mixing is facilitated, the fluctuation of glass components is avoided, the bottoms of the material breaking cutter and the shovel plate are made of magnetic materials and are always in contact with the upper surface of the bottom plate and slide, and meanwhile, magnetic metal particles generated after grinding can be adsorbed, so that the yield and the product quality of glass products are improved;

d: after accomplishing C step, the controller is through receiving the data of the sensor transmission that sets up in each telescopic link, confirms the inclination of bottom plate, in time control second motor adjustment rotational speed, avoid the bottom plate slope to excessively lead to the raw materials to spill, through the continuous increase and decrease rotational speed of control second motor, finally make raw materials misce bene, the raw materials mixes the completion back, and the gas delivery module is bled through first tuber pipe, takes out the raw materials that mix in the compounding mechanism well to arrange to the stock guide through the second tuber pipe.

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

1. through the pendulum and the arc screening plate, when the pendulum swings, raw materials are rubbed, enough fine raw materials are squeezed down from the screening hole, after most qualified particles in the raw materials are screened out, the first spring returns to drive the arc screening plate to move upwards, unqualified raw material particles enter between each group of arc screening plates, because the raw material particles are clamped at different positions by the lugs due to different sizes, when the pendulum swings, the fixed strip passes through each group of first grinding plates, the particles are subjected to upward extrusion force of the arc screening plates and impact force between the fixed strip and the lugs, the unqualified particles can be quickly crushed, the arc screening plate can vibrate in the process of impacting the raw material particles, the crushed particles can fall from the screening hole, the pendulum swings back and forth to avoid the raw material particles from being clamped between the arc screening plates, and the top of the pendulum has a certain radian for preventing the raw materials from being stacked above the pendulum, the raw materials meeting the requirements fall as soon as possible, the raw materials are prevented from being too thin, and the granularity of the raw materials is kept consistent, so that the raw materials are uniformly mixed;

2. through the arranged mixing mechanism, because different raw materials have different hardness, the crushing difficulty is different, different raw materials fall from the arc-shaped screening plate successively, the raw materials on the bottom plate are not mixed uniformly, the connecting piece is movably connected with the bottom plate, when the rotating speed of the second motor is slow, the bottom plate rotates in an inclined manner, the raw materials at different positions are favorably turned over, the annular plate does not rotate but inclines along with the bottom plate, when the rotating speed of the second motor is increased, the bottom plate tends to be horizontal due to centripetal force, the raw materials are flatly laid on the bottom plate, the shoveling plate below the mixing rod is used for shoveling and mixing the raw materials, the material breaking knife below the mixing rod is used for scratching the flatly laid raw materials into a groove, the raw material particles which are subsequently crushed and dropped are prevented from being only distributed and on the surface, the raw material particles can also fall to the bottom of the groove, the uniform distribution is favorably, and in the process of mixing the raw materials, the air conveying module blows through the first air pipe, blow the raw materials in the compounding mechanism, help the misce bene, avoid the glass composition to appear undulantly, and the bottom of breaking material sword and shovel board adopts magnetic material, all the time with bottom plate upper surface contact and slip, can adsorb the magnetic metal particle that appears after the grinding simultaneously, improved glassware's yield and product quality.

Drawings

FIG. 1 is a schematic view of the overall structure of a vibratory raw material mixing apparatus for aventurine glass production according to the present invention.

FIG. 2 is a schematic view of the internal structure of the housing of the vibratory material mixing apparatus for aventurine glass production of the present invention.

FIG. 3 is a schematic top view of a curved screen of a vibratory raw material mixing apparatus for aventurine glass production of the present invention.

FIG. 4 is an enlarged schematic view of A of FIG. 3 of a vibratory material mixing apparatus for use in the production of Venus glass in accordance with the present invention.

FIG. 5 is a schematic view of the structure of the oscillating bar and the pendulum bob of the vibrating type raw material mixing device for the production of Venus glass.

Fig. 6 is a schematic structural diagram of a material mixing mechanism of the vibrating type raw material mixing device for aventurine glass production.

FIG. 7 is a schematic diagram of a mixing rod of the vibrating type raw material mixing device for aventurine glass production.

In the figure: 1. a housing; 2. a first motor; 3. a material guide plate; 4. a controller; 5. a first rotating shaft; 6. a swing rod; 7. a pendulum bob; 8. an arcuate screening deck; 9. connecting blocks; 10. a first fixed block; 11. a first spring; 12. a second motor; 13. a second rotating shaft; 14. a knuckle bearing; 15. a material mixing mechanism; 16. a second fixed block; 17. a telescopic rod; 18. a second spring; 19. a gas delivery module; 20. a first air duct; 21. a second air duct; 22. an L-shaped connecting rod; 23. a mixing rod; 24. a screening well; 25. an arc-shaped grinding plate; 26. a bump; 27. a fixing strip; 28. a base plate; 29. an annular plate; 30. an annular connecting plate; 31. a connecting member; 32. a shovel plate; 33. a material breaking knife.

Detailed Description

The present invention will be further described with reference to the following detailed description, wherein the drawings are for illustrative purposes only and are not intended to be limiting, wherein certain elements may be omitted, enlarged or reduced in size, and are not intended to represent the actual dimensions of the product, so as to better illustrate the detailed description of the invention.

Example 1

As shown in fig. 1-7, a vibrating raw material mixing device for aventurine glass production, which comprises a shell (1), a first rotating shaft (5) is installed inside the shell (1) in a penetrating manner, a swing rod (6) is fixedly connected to the outer side of the first rotating shaft (5), a pendulum (7) is fixedly connected to the bottom of the swing rod (6), an arc screening plate (8) is arranged inside the shell (1), the bottom radian of the pendulum (7) is matched with the inner wall radian of the arc screening plate (8), both sides of the top of the pendulum (7) have a certain radian, a second motor (12) is fixedly installed at the bottom of the shell (1), the output end of the second motor (12) is connected with a second rotating shaft (13) in a transmission manner, a joint bearing (14) is installed at the top of the second rotating shaft (13), a mixing mechanism (15) is connected to the top of the joint bearing (14), and the mixing mechanism (15) is located under the arc screening plate (8).

Screening hole (24) have evenly been seted up to the bottom of arc screening board (8), bottom fixedly connected with arc grinding plate (25) of the inner wall of arc screening board (8), every arc grinding plate (25) is a set of, the equal fixedly connected with lug (26) in one side that every group arc grinding plate (25) is relative, the both ends interval of every group arc grinding plate (25) reduces to the middle part greatly gradually, minimum distance between every group arc grinding plate (25) slightly is greater than the diameter of screening hole (24), adjacent two sets of arc grinding plate (25) paste tightly each other and do not leave the gap, bottom fixedly connected with fixed strip (27) of pendulum (7), the quantity of fixed strip (27) is the same with the group number of arc grinding plate (25), and the width of fixed strip (27) should be the same with the minimum distance between every group arc grinding plate (25).

The equal fixedly connected with connecting block (9) in both ends of arc screening board (8), the inner wall fixed mounting of casing (1) has two first fixed blocks (10), and two first fixed blocks (10) are located two connecting blocks (9) respectively under, the first spring (11) of top fixedly connected with of first fixed block (10), the top of first spring (11) is connected with the bottom of connecting block (9).

The outer side of the shell (1) is fixedly provided with a first motor (2), the output end of the first motor (2) is connected with a first rotating shaft (5), and the front side of the shell (1) is fixedly provided with a controller (4).

By adopting the technical scheme: through the pendulum bob (7) and the arc-shaped screening plates (8) which are arranged, the pendulum bob (7) rubs raw materials when swinging, enough fine raw materials are squeezed down from the screening holes (24), after most qualified particles in the raw materials are screened out, the first spring (11) returns to drive the arc-shaped screening plates (8) to move upwards, unqualified raw material particles enter between the groups of arc-shaped screening plates (8), the raw material particles are clamped at different positions by the bumps (26) due to different sizes, when the pendulum bob (7) swings, the fixing strips (27) pass through the groups of first grinding plates, the particles are subjected to upward extrusion force of the arc-shaped screening plates (8) and impact force between the fixing strips (27) and the bumps (26), the unqualified particles can be quickly crushed, the pendulum bob (7) can vibrate the arc-shaped screening plates (8) in the process of impacting the raw material particles, and the crushed particles can fall from the screening holes (24), and pendulum (7) swing back and forth can avoid raw materials granule card between arc abrasive disc (25), and the top of pendulum (7) has certain radian to be used for preventing raw materials heap in pendulum (7) top, makes the raw materials that meets the requirements drop as early as possible, avoids the raw materials to be thin, makes the granularity of raw materials keep unanimous simultaneously and helps the misce bene.

Example 2

As shown in fig. 1-7, a vibrating raw material mixing device for aventurine glass production, which comprises a shell (1), a first rotating shaft (5) is installed inside the shell (1) in a penetrating manner, a swing rod (6) is fixedly connected to the outer side of the first rotating shaft (5), a pendulum (7) is fixedly connected to the bottom of the swing rod (6), an arc screening plate (8) is arranged inside the shell (1), the bottom radian of the pendulum (7) is matched with the inner wall radian of the arc screening plate (8), both sides of the top of the pendulum (7) have a certain radian, a second motor (12) is fixedly installed at the bottom of the shell (1), the output end of the second motor (12) is connected with a second rotating shaft (13) in a transmission manner, a joint bearing (14) is installed at the top of the second rotating shaft (13), a mixing mechanism (15) is connected to the top of the joint bearing (14), and the mixing mechanism (15) is located under the arc screening plate (8).

Screening hole (24) have evenly been seted up to the bottom of arc screening board (8), bottom fixedly connected with arc grinding plate (25) of the inner wall of arc screening board (8), every arc grinding plate (25) is a set of, the equal fixedly connected with lug (26) in one side that every group arc grinding plate (25) is relative, the both ends interval of every group arc grinding plate (25) reduces to the middle part greatly gradually, minimum distance between every group arc grinding plate (25) slightly is greater than the diameter of screening hole (24), adjacent two sets of arc grinding plate (25) paste tightly each other and do not leave the gap, bottom fixedly connected with fixed strip (27) of pendulum (7), the quantity of fixed strip (27) is the same with the group number of arc grinding plate (25), and the width of fixed strip (27) should be the same with the minimum distance between every group arc grinding plate (25).

The mixing mechanism (15) comprises a bottom plate (28), an annular plate (29), an annular connecting plate (30) and a mixing rod (23), the bottom of the bottom plate (28) is connected with a joint bearing (14), the annular plate (29) is rotatably connected to the upper surface of the bottom plate (28), the annular connecting plate (30) is fixedly connected to the outer side of the annular plate (29), the inner wall of the shell (1) is fixedly connected with an L-shaped connecting rod (22), a connecting piece (31) is installed at one end, far away from the shell (1), of the L-shaped connecting rod (22), the bottom of the connecting piece (31) is connected with the top of the mixing rod (23), the mixing rod (23) is located right above the bottom plate (28), the connecting piece (31) is located right above the circle center of the bottom plate (28), a shoveling plate (32) and a material breaking knife (33) are fixedly connected to the bottom of the mixing rod (23), the shoveling plate (32) and the material breaking knife (33) are respectively located on two sides of the mixing rod (23) by taking the connecting piece (31) as the center, the bottom of the contraction shovel plate (32) and the bottom of the material breaking knife (33) are made of magnetic materials, and the magnetic materials are used for helping to keep contact with the upper surface of the bottom plate (28).

The inner wall fixed mounting of casing (1) has second fixed block (16), and the equal fixed mounting in top of a plurality of second fixed blocks (16) has telescopic link (17), and the top of telescopic link (17) is connected with the bottom of annular connecting plate (30), and the outside of every telescopic link (17) all is equipped with second spring (18), and the both ends of second spring (18) are connected with second fixed block (16) and annular connecting plate (30) respectively.

Casing (1) bottom fixed mounting has gas delivery module (19), the top of gas delivery module (19) is connected with first tuber pipe (20) and second tuber pipe (21), the one end of keeping away from gas delivery module (19) of first tuber pipe (20) runs through annular plate (29), the one end of keeping away from gas delivery module (19) of second tuber pipe (21) runs through casing (1), the outside fixed mounting of casing (1) has stock guide (3), stock guide (3) are located the below that second tuber pipe (21) passed the one end of casing (1).

The outer side of the shell (1) is fixedly provided with a first motor (2), the output end of the first motor (2) is connected with a first rotating shaft (5), and the front side of the shell (1) is fixedly provided with a controller (4).

By adopting the technical scheme: through the arranged mixing mechanism (15), different raw materials are different in hardness and different in crushing difficulty, the different raw materials fall from the arc-shaped screening plate (8) in sequence, so that the raw materials on the bottom plate (28) are not uniformly mixed, the connecting piece (31) is movably connected with the bottom plate (28), when the rotating speed of the second motor (12) is slow, the bottom plate (28) rotates in an inclined mode, the raw materials at different positions are favorably turned over, the annular plate (29) does not rotate but inclines along with the bottom plate (28), when the rotating speed of the second motor (12) is increased, the bottom plate (28) tends to be horizontal due to centripetal force, so that the raw materials are flatly laid on the bottom plate (28), the shoveling plate (32) below the mixing rod (23) is used for shoveling and mixing the raw materials, the breaking knife (33) below the mixing rod (23) is used for scratching the flatly laid raw materials into a groove, and the situation that the subsequently crushed raw material particles are only distributed and the surface is avoided, make the raw materials granule also can drop the bottom of marking out the recess, help evenly distributed, and at the in-process that the raw materials mixes, gas delivery module (19) are bloied through first tuber pipe (20), blow the raw materials in compounding mechanism (15), help the misce bene, avoid glass composition to appear undulantly, and the bottom of broken material sword (33) and shovel board (32) adopts magnetic material, all the time with bottom plate (28) upper surface contact and slip, can adsorb the magnetic metal granule that appears after the grinding simultaneously, the yield and the product quality of glass products have been improved.

The invention is a vibration type raw material mixing device for manufacturing aventurine glass, when in use, firstly, raw materials composed according to a specified mass ratio are put into an arc screening plate (8) in a shell (1), a first motor (2) and a second motor (12) are started, the first motor (2) drives a first rotating shaft (5) to enable a swing rod (6) to swing back and forth, the swing rod (6) drives, when a pendulum bob (7) swings, the raw materials are rubbed, enough fine raw materials are extruded from a screening hole (24), after most qualified particles in the raw materials are screened, a first spring (11) returns to drive the arc screening plate (8) to move upwards, secondly, unqualified raw material particles enter between each group of the arc screening plates (8), the raw materials are clamped at different positions by a lug (26) according to the size of the raw materials, when the pendulum bob (7) swings, a fixing strip (27) passes through each group of first grinding plates, the particles are subjected to upward extrusion force of the arc-shaped screening plate (8) and impact force between the fixing strip (27) and the lug (26), unqualified particles can be quickly crushed, the arc-shaped screening plate (8) can vibrate when the pendulum (7) impacts raw material particles, the crushed particles can fall from the screening hole (24), the pendulum (7) swings back and forth to avoid the situation that the raw material particles are clamped between the arc-shaped grinding plates (25), a certain radian is formed at the top of the pendulum (7) to prevent raw materials from being stacked above the pendulum (7), furthermore, due to different hardness of different raw materials, crushing difficulty is different, different raw materials fall from the arc-shaped screening plate (8) successively, so that the raw materials on the bottom plate (28) are not uniformly mixed, the connecting piece (31) is movably connected with the bottom plate (28), when the rotating speed of the second motor (12) is slow, the bottom plate (28) rotates obliquely, the raw materials at different positions are favorably turned over, the annular plate (29) does not rotate but inclines along with the bottom plate (28), when the rotating speed of the second motor (12) is increased, the centripetal force increases the bottom plate (28) to tend to be horizontal, the raw materials are flatly laid on the bottom plate (28), the shovel plate (32) below the mixing rod (23) is used for shoveling and mixing the raw materials, the material breaking knife (33) below the mixing rod (23) cuts the flatly laid raw materials into a groove, the raw materials which are subsequently broken and dropped are prevented from being only distributed and surfaced, the raw materials can also fall to the bottom of the cut groove, and are favorably and uniformly distributed, in the process of mixing the raw materials, the air conveying module (19) blows through the first air pipe (20), the raw materials in the mixing mechanism (15) are blown, the uniform mixing is favorably, the fluctuation of glass components is avoided, and the magnetic materials are adopted at the bottoms of the material breaking knife (33) and the shovel plate (32), all the time with bottom plate (28) upper surface contact and slip, can adsorb the magnetic metal particle who appears after grinding simultaneously, the yield and the product quality of glassware have been improved, finally, controller (4) is through receiving the data of the sensor transmission that sets up in each telescopic link (17), confirm the inclination of bottom plate (28), in time control second motor (12) adjustment rotational speed, avoid bottom plate (28) slope excessively to lead to the raw materials to spill, through the continuous increase and decrease rotational speed of control second motor (12), finally make the raw materials misce bene, after the raw materials mixes the completion, gas delivery module (19) are bled through first tuber pipe (20), take out the raw materials that mix in compounding mechanism (15), and discharge to deflector plate (3) through second tuber pipe (21).

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present 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.