CN215142136U - Continuous screening and loading and transporting device for discharging of ceramsite - Google Patents
Continuous screening and loading and transporting device for discharging of ceramsite Download PDFInfo
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- CN215142136U CN215142136U CN202121003170.7U CN202121003170U CN215142136U CN 215142136 U CN215142136 U CN 215142136U CN 202121003170 U CN202121003170 U CN 202121003170U CN 215142136 U CN215142136 U CN 215142136U
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Abstract
The utility model discloses a haydite ejection of compact is sieved and shipment device in succession relates to haydite screening installation technical field. The device's fixed bolster is including setting gradually and the one-level screening unit that the sieve mesh diameter is from small to big, second grade screening unit and tertiary screening unit, the height of three screening unit reduces in proper order, be equipped with tilting mechanism on the fixed bolster, it is rotatory to be used for the drive to locate the screen cloth in one-level screening unit or the second grade screening unit, the utility model discloses can realize screening step by step of haydite, and can be automatic carry the haydite of higher level to the subordinate, avoid the jamming of haydite, need not the manual work and dial the haydite that falls, and the screen cloth grain hole increases step by step, every grade of screen cloth homoenergetic is sieved the haydite comparatively completely, mix the tiny particle haydite in avoiding the large particle haydite, guarantee the haydite evenly distributed of screening at different levels, prevent to influence categorised effect, promote whole efficiency of screening, can transport the haydite that sieves to next unit through shipment mechanism after the screening.
Description
Technical Field
The utility model relates to a haydite screening installation technical field especially relates to a haydite ejection of compact is sieved and shipment device in succession.
Background
The ceramsite is ceramic granules, most of the appearance characteristics of the ceramsite are round or oval spheres, but some imitation gravel ceramsite are not round or oval spheres but are irregular gravel. The surface of the ceramic porcelain is provided with a hard shell which is ceramic or enamel, has the functions of water resistance and gas retention and endows the ceramic grains with higher strength.
The ceramsite has excellent properties, such as low density, high cylinder pressure strength, high porosity, high softening coefficient, good frost resistance, excellent alkali-resistant aggregate reactivity and the like. As the ceramsite has the characteristics of small density, porous interior, uniform shape and components, certain strength and firmness, light weight, corrosion resistance, frost resistance, earthquake resistance, good isolation and the like. By utilizing the excellent properties of the ceramsite, the ceramsite can be widely applied to the departments of building materials, gardening, food and beverage, fire-resistant heat-insulating materials, chemical engineering, petroleum and the like.
As the application range of the ceramsite is wider and wider, and the ceramsite size requirements of various industries are different, the produced ceramsite needs to be screened for classified use, the ceramsite screening work is generally carried out by a screening machine, and the screening machine comprises a drum type screening machine and a vibrating type screening machine.
At present, chinese patent with publication number CN203356043U discloses a sieving mechanism for ceramsite, which comprises a frame body, wherein a plurality of charging barrels are fixedly connected to the frame body, the upper and lower ends of the plurality of charging barrels are provided with open-ended charging barrels, the plurality of charging barrels are sequentially arranged, the height of the upper end opening end surface is gradually reduced, the upper end opening of the plurality of charging barrels is fixedly connected with a grid plate, the grid plate is obliquely arranged along the upper end opening end surface of the charging barrel, the grid holes in the grid plate are gradually enlarged from top to bottom along the oblique direction of the grid plate, and the charging barrel is also fixedly connected with a vibrating motor.
The sieving device of the ceramsite can sieve the ceramsite with different sizes, but the sieving device of the ceramsite is a grating plate which is arranged through inclination, the gravity of the ceramsite slides to the lower layer, on one hand, the step-by-step sieving mode easily causes the stagnation of the ceramsite, on the other hand, the ceramsite on the upper layer also needs to be manually pulled downwards, the sieving efficiency is reduced, on the other hand, when the ceramsite is more, the ceramsite with small particles is easily mixed in the ceramsite with large particles and slides to the lower grating, the size of the ceramsite with large particles is uneven, and the classifying effect and the sieving efficiency are affected.
SUMMERY OF THE UTILITY MODEL
The utility model aims at the above-mentioned technical problem, overcome prior art's shortcoming, provide a haydite ejection of compact screening and shipment device in succession.
In order to solve the technical problem, the utility model provides a haydite ejection of compact is sieved and shipment device in succession.
The technical effects are as follows: can realize sieving step by step of haydite, and can be automatically carry the haydite of upper level to the subordinate, avoid the jamming of haydite, need not the manual work and dial the haydite that falls, and screen cloth grain hole increases step by step, every grade of screen cloth homoenergetic is the haydite of comparatively sieving completely, mix the small particle haydite in avoiding the large particle haydite, guarantee the haydite evenly distributed of sieving at different levels, prevent to influence classification effect, promote the efficiency of whole screening, can transport the haydite that sieves to next unit through shipment mechanism after the screening.
The utility model discloses the technical scheme who further injects is: the utility model provides a haydite ejection of compact is screening and shipment device in succession, which comprises a fixed bolster, the fixed bolster is including setting gradually and sieve mesh diameter from small to big one-level screening unit, second grade screening unit and tertiary screening unit, the height of three screening unit reduces in proper order, be equipped with tilting mechanism on the fixed bolster, it is rotatory to be used for the drive to locate the screen cloth in one-level screening unit or the second grade screening unit, correspond the material respectively and deliver to second grade screening unit or tertiary screening unit in, tilting mechanism is including rotating the pivot of connection in one-level screening unit or second grade screening unit and being used for driving the upset piece of pivot, the fixed bolster bottom still is equipped with the shipment mechanism that is used for depositing different size haydites respectively.
Further, one-level screening unit is including sliding the screening frame of connection on the fixed bolster, is provided with the screen cloth in the screening frame, and screen cloth one side is fixed with the pivot of rotation connection on the screening frame, still is equipped with the vibrating part that is used for the reciprocal vibration from top to bottom of drive screening frame on the fixed bolster.
According to the continuous screening and loading and transporting device for discharging the ceramsite, the side face of the screening frame is integrally provided with the sliding block, the fixed support is provided with the sliding groove, the sliding groove is obliquely arranged on the inner side face of the fixed support relative to the horizontal plane, the sliding block is connected in the sliding groove in a sliding mode, and the buffer spring is arranged between the bottom face of the sliding groove and the sliding block.
The continuous screening and loading and transporting device for discharging the ceramsite comprises a vibrating piece, wherein the vibrating piece comprises a vibrating motor, the vibrating motor is fixed on one side surface of the adjacent sliding groove on the fixed support, the extending direction of an output shaft of the vibrating motor is the same as that of the sliding groove, and the bottom of the screening frame is hinged with the output shaft of the vibrating motor.
The continuous screening and loading and transporting device for discharging the ceramsite comprises a vibrating piece, a rotating motor, an eccentric wheel, a wheel rod and a screening frame, wherein the rotating motor is fixedly connected to a fixed support, the output shaft of the rotating motor is provided with the eccentric wheel, the outer edge of the eccentric wheel is connected with the wheel rod, the wheel rod is parallel to a sliding groove, and the tail end of the wheel rod is hinged to the screening frame.
The continuous screening and loading and transporting device for discharging the ceramsite comprises a turnover part, a fixing support and a driving worm, wherein the turnover part comprises the driving worm wheel which is coaxially fixed on a rotating shaft, the fixing support is connected with a driving motor, a driving worm is fixed on an output shaft of the driving motor, and the driving worm wheel and the driving worm are meshed with each other.
The continuous screening and loading and transporting device for discharging the ceramsite is characterized in that the whole screen is hemispherical, one side of the screen close to the next screening unit is connected with a guide plate for guiding the ceramsite, and the bottom of the fixed support positioned on each stage of screen is provided with a funnel-shaped material guide port.
The continuous screening and loading and transporting device for discharging the ceramsite comprises a loading trolley, wherein the loading and transporting mechanism comprises a first-stage screening unit, a second-stage screening unit and a third-stage screening unit, the loading trolley is arranged at the bottom of a fixed support, three charging buckets are arranged on the loading trolley and respectively correspond to the first-stage screening unit, the second-stage screening unit and the third-stage screening unit, and rubber pads are fixed on the inner side surfaces and the bottom surfaces of the charging buckets.
The utility model has the advantages that:
(1) in the utility model, the operator puts the prepared ceramsite into the first-stage screening unit, at the moment, the vibrating piece in the first-stage screening unit drives the screen to vibrate, the ceramsite with small diameter is screened out from the screen, the ceramsite with small diameter falls into the charging basket arranged corresponding to the first-stage screening unit, the overturning piece in the first-stage screening unit drives the rotating shaft and the screen to overturn towards the second-stage screening unit after finishing the overturning, the ceramsite after the primary screening enters the second-stage screening unit to be screened, the operation is repeated, and finally, the ceramsite with various sizes and diameters is obtained through the third-stage screening unit, so that the ceramsite can be automatically put into the lower stage after screening of all stages, the material jamming and mixing are avoided, the labor cost is reduced, and the screening efficiency is improved;
(2) in the utility model, the turnover part can drive the screen to rotate integrally after the screening is finished, so that the ceramsite is guided to the next level of screen through the guide plate on one side of the screen, the rotation angle of the screen is large, the ceramsite can be prevented from being stuck on the screen, and meanwhile, the ceramsite is not required to be manually stirred down to the next unit, thereby greatly increasing the automation level and accelerating the screening efficiency;
(3) in the utility model, the vibrating piece arranged on the fixed support can drive the sieving frame to vibrate in a reciprocating way, so that the sieving screen can shake and sieve the ceramsite after the ceramsite is put in, in addition, the sieving frame is connected on the fixed support through the sliding chute and the sliding block, and the sliding chute is integrally arranged in the fixed support in an inclined way, so that the sieving frame vibrates in the inclined direction during the reciprocating vibration, the ceramsite can be better shaken, the full sieving of the ceramsite is realized, and the small-particle ceramsite is prevented from being wrapped and clamped to the next unit;
(4) in the utility model, the whole screen is hemispherical, so that the quantity of the ceramsite screened each time is more, the contact area between the ceramsite and the screen is larger, the screening speed and the screening efficiency of the ceramsite can be improved, the guide opening is arranged, the ceramsite can be accurately guided into the charging car at the bottom during screening, the ceramsite is prevented from falling out of the screening device, operators can conveniently carry out loading and transporting, the rubber pad is arranged in the charging basket, the buffering can be realized, and the ceramsite is not easy to crack due to collision when falling;
(5) the utility model discloses in, can realize screening step by step of haydite, and can be automatically with the haydite of upper level to the subordinate transport, avoid the jamming of haydite, need not the manual work and dial the haydite that falls, and the screen cloth grain hole increases step by step, every grade of screen cloth homoenergetic enough sieves the haydite comparatively completely, mix the tiny particle haydite in avoiding the large particle haydite, guarantee the haydite evenly distributed of screening at different levels, prevent to influence categorised effect, promote the efficiency of whole screening, can transport the haydite that sieves to next unit through shipment mechanism after the screening.
Drawings
FIG. 1 is a structural view of example 1;
FIG. 2 is a structural view for showing a slider and a cushion spring in embodiment 1;
FIG. 3 is a schematic view showing the construction of the tumbler and the sifting frame in example 1;
FIG. 4 is a structural view for showing a vibrating member in embodiment 1;
fig. 5 is a schematic view showing the structure of the vibrating member in embodiment 2.
Wherein: 1. fixing a bracket; 11. a primary screening unit; 12. a secondary screening unit; 13. a third-stage screening unit; 14. a chute; 2. a turnover mechanism; 21. a turnover piece; 22. a rotating shaft; 23. a drive worm gear; 24. a drive motor; 25. a drive worm; 3. a screening rack; 31. a slider; 32. a buffer spring; 33. screening a screen; 34. a guide plate; 35. a material guide port; 4. a vibrating member; 41. a vibration motor; 42. a rotating electric machine; 43. an eccentric wheel; 44. a wheel lever; 5. charging a car; 51. a charging bucket.
Detailed Description
The continuous screening and shipping device for discharging ceramsite provided by the embodiment has the structure shown in fig. 1 and 2, and comprises an outermost fixed support 1, wherein a plurality of supporting legs are arranged on the fixed support 1, an opening is formed in the middle of the fixed support 1, a first-stage screening unit 11, a second-stage screening unit 12 and a third-stage screening unit 13 are sequentially arranged in the opening, the diameters of screen holes of the first-stage screening unit 11, the diameters of screen holes of the second-stage screening unit 12 and the diameters of screen holes of the third-stage screening unit 13 are gradually increased, the height of the first-stage screening unit 11 is the highest, and the height of the second-stage screening unit 12 is the second lowest, and the third-stage screening unit 13 is the lowest.
As shown in fig. 2 and 3, the primary screening unit 11 includes a screening frame 3 connected to a fixed support 1 in a sliding manner, a screen 33 is provided in the screening frame 3, a rotating shaft 22 rotatably connected to the screening frame 3 is fixed to one side of the screen 33, a sliding block 31 is integrally provided on the side surface of the screening frame 3, a sliding groove 14 is provided on the fixed support 1, the sliding groove 14 is obliquely arranged on the inner side surface of the fixed support 1 relative to the horizontal plane, the sliding block 31 is connected to the sliding groove 14 in a sliding manner, and a buffer spring 32 is provided between the bottom surface of the sliding groove 14 and the sliding block 31.
As shown in fig. 3 and 4, the screens 33 are integrally hemispherical, one side of each screen 33 close to the next screening unit is connected with a guide plate 34 for guiding the ceramsite, and the bottom of each screen 33 of the fixed bracket 1 is provided with a funnel-shaped material guide port 35. The bottom of the fixed support 1 is also provided with a loading and transporting mechanism for storing ceramsite with different sizes respectively, the loading and transporting mechanism comprises a charging car 5 positioned at the bottom of the fixed support 1, three charging barrels 51 are arranged on the charging car 5 and correspond to the primary screening unit 11, the secondary screening unit 12 and the tertiary screening unit 13 respectively, and rubber pads are fixed on the inner side surface and the bottom surface of each charging barrel 51.
As shown in fig. 3 and 4, the fixed bracket 1 is further provided with a vibrating member 4 for driving the sieving frame 3 to vibrate up and down. The vibrating piece 4 comprises a vibrating motor 41, the vibrating motor 41 is fixed on one side surface of the fixed support 1 adjacent to the sliding chute 14, the extending direction of an output shaft of the vibrating motor 41 is the same as the extending direction of the sliding chute 14, and the bottom of the screening frame 3 is hinged with the output shaft of the vibrating motor 41.
As shown in fig. 3 and 4, the fixed bracket 1 is provided with a turnover mechanism 2 for driving the screen 33 disposed in the first-stage screening unit 11 or the second-stage screening unit 12 to rotate and correspondingly deliver the material to the second-stage screening unit 12 or the third-stage screening unit 13, and the turnover mechanism 2 includes a rotating shaft 22 rotatably connected to the first-stage screening unit 11 or the second-stage screening unit 12 and a turnover part 21 for driving the rotating shaft 22. The turning part 21 comprises a driving worm wheel 23 coaxially fixed on the rotating shaft 22, the fixing support 1 is connected with a driving motor 24, a driving worm 25 is fixed on an output shaft of the driving motor 24, and the driving worm wheel 23 and the driving worm 25 are arranged in a meshed mode.
The specific working process is as follows: an operator puts the finished ceramsite into the screen 33 of the first-stage screening unit 11, at this time, the vibrating part 4 in the first-stage screening unit 11 is started, the vibrating motor 41 drives the whole screening frame 3 to move, and the screening frame 3 is connected to the fixed support 1 through the sliding fit between the sliding block 31 and the sliding groove 14, so that the vibrating motor 41 can drive the screening frame 3 and the screen 33 to perform reciprocating vibration along the extending direction of the sliding groove 14 after being started, thereby performing vibrating screening on the ceramsite in the screen 33 of the first-stage screening unit 11 to achieve the primary screening of the ceramsite, allowing the ceramsite with the smallest particle size to fall from the screen 33 of the first-stage screening unit 11 and fall into the material guide port 35 at the bottom, and allowing the ceramsite to fall into the material barrel 51 on the charging car 5 from the bottom of the material guide port 35 due to the funnel-shaped material guide port 35.
And the rubber pad is arranged in the charging basket 51, so that the falling of the ceramsite from the high place can be buffered to a certain extent, and the fragmentation of the ceramsite caused by the falling is avoided. After the primary screening is completed, the turnover mechanism 2 in the first-stage screening unit 11 is started, the driving motor 24 drives the driving worm 25 to rotate, the worm wheel 23 and the rotating shaft 22 are driven to rotate in a linkage mode, the whole screen 33 is driven to rotate around the rotating shaft 22, the ceramsite is put into the screen 33 of the second-stage screening unit 12 from the material guide plate on one side of the screen 33, the ceramsite is put into the third-stage screening unit 13 after the operation is repeated, and therefore the multi-stage screening of the ceramsite is achieved.
The utility model discloses can realize sieving step by step of haydite, and can be automatically carry the haydite of upper level to the subordinate, avoid the jamming of haydite, need not the manual work and dial the haydite that falls, and 33 granular holes of screen cloth increase step by step, every grade of screen cloth 33 homoenergetic sieves the haydite comparatively completely, mix the tiny particle haydite in avoiding the large particle haydite, guarantee the haydite evenly distributed of sieving at different levels, prevent to influence categorised effect, promote the efficiency of whole screening, can transport the haydite that sieves to next unit through shipment mechanism after the screening.
In addition to the above embodiments, the present invention may have other embodiments. All the technical solutions formed by adopting equivalent substitutions or equivalent transformations fall within the protection scope claimed by the present invention.
Claims (8)
1. The utility model provides a haydite ejection of compact is sieved and shipment device in succession, includes fixed bolster (1), its characterized in that: fixed bolster (1) is including setting gradually and sieve mesh diameter from small to big one-level screening unit (11), second grade screening unit (12) and tertiary screening unit (13), the height of three screening unit reduces in proper order, be equipped with tilting mechanism (2) on fixed bolster (1), screen cloth (33) rotation in being used for the drive to locate one-level screening unit (11) or secondary screening unit (12), correspond the material respectively and deliver to second grade screening unit (12) or tertiary screening unit (13), tilting mechanism (2) are including rotating pivot (22) of connecting in one-level screening unit (11) or secondary screening unit (12) and be used for driving upset piece (21) of pivot (22), fixed bolster (1) bottom still is equipped with the shipment mechanism that is used for depositing the not unidimensional haydite respectively.
2. The continuous sieving and shipping device for discharging ceramsite of claim 1, wherein the device comprises: one-level screening unit (11) are including sliding screening frame (3) of connection on fixed bolster (1), are provided with screen cloth (33) in screening frame (3), and screen cloth (33) one side is fixed with rotation connection pivot (22) on screening frame (3), still is equipped with vibrating part (4) that are used for driving the reciprocal vibration from top to bottom of screening frame (3) on fixed bolster (1).
3. The continuous sieving and shipping device for discharging ceramsite according to claim 2, wherein the device comprises: the screening frame (3) side is integrative to be equipped with slider (31), is equipped with spout (14) on fixed bolster (1), and the slope of spout (14) is seted up on fixed bolster (1) medial surface for the horizontal plane, and slider (31) are slided and are connected in spout (14), is equipped with buffer spring (32) between spout (14) bottom surface and slider (31).
4. The continuous sieving and shipping device for discharging ceramsite of claim 3, wherein the device comprises: the vibrating piece (4) comprises a vibrating motor (41), the vibrating motor (41) is fixed on one side face of the adjacent sliding groove (14) on the fixed support (1), the extending direction of an output shaft of the vibrating motor (41) is the same as the extending direction of the sliding groove (14), and the bottom of the screening frame (3) is hinged to the output shaft of the vibrating motor (41).
5. The continuous sieving and shipping device for discharging ceramsite of claim 3, wherein the device comprises: the vibrating piece (4) comprises a rotating motor (42) fixedly connected to the fixed support (1), an eccentric wheel (43) is arranged on an output shaft of the rotating motor (42), a wheel rod (44) is connected to the outer edge of the eccentric wheel (43), the wheel rod (44) is parallel to the sliding groove (14), and the tail end of the wheel rod (44) is hinged to the screening frame (3).
6. The continuous sieving and shipping device for discharging ceramsite of claim 1, wherein the device comprises: the overturning part (21) comprises a driving worm wheel (23) which is coaxially fixed on the rotating shaft (22), a driving motor (24) is connected to the fixing support (1), a driving worm (25) is fixed on an output shaft of the driving motor (24), and the driving worm wheel (23) and the driving worm (25) are meshed with each other.
7. The continuous sieving and shipping device for discharging ceramsite of claim 1, wherein the device comprises: the whole screen cloth (33) is hemispherical, one side of the screen cloth (33) close to the next screening unit is connected with a guide plate (34) for guiding ceramsite, and the bottom of the fixed support (1) located at each stage of the screen cloth (33) is provided with a funnel-shaped material guide opening (35).
8. The continuous sieving and shipping device for discharging ceramsite of claim 1, wherein the device comprises: the loading and transporting mechanism comprises a charging car (5) positioned at the bottom of the fixed support (1), three charging barrels (51) are arranged on the charging car (5) and correspond to the primary screening unit (11), the secondary screening unit (12) and the tertiary screening unit (13) respectively, and rubber pads are fixed on the inner side surface and the bottom surface of each charging barrel (51).
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
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CN114571576A (en) * | 2022-03-25 | 2022-06-03 | 浙江寰龙环境科技有限公司 | Solid useless preparation haydite production line |
CN114804687A (en) * | 2022-04-07 | 2022-07-29 | 江苏雄鹰建材科技有限公司 | Ceramic tile binder and preparation method and preparation system thereof |
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2021
- 2021-05-10 CN CN202121003170.7U patent/CN215142136U/en active Active
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
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CN114571576A (en) * | 2022-03-25 | 2022-06-03 | 浙江寰龙环境科技有限公司 | Solid useless preparation haydite production line |
CN114571576B (en) * | 2022-03-25 | 2023-07-21 | 浙江寰龙环境科技有限公司 | Solid waste preparation haydite production line |
CN114804687A (en) * | 2022-04-07 | 2022-07-29 | 江苏雄鹰建材科技有限公司 | Ceramic tile binder and preparation method and preparation system thereof |
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