CN216988480U - A ore powder sorting unit for glass fiber production - Google Patents

A ore powder sorting unit for glass fiber production Download PDF

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Publication number
CN216988480U
CN216988480U CN202220829371.0U CN202220829371U CN216988480U CN 216988480 U CN216988480 U CN 216988480U CN 202220829371 U CN202220829371 U CN 202220829371U CN 216988480 U CN216988480 U CN 216988480U
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gear
box
movable sleeve
main shaft
rotating shaft
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CN202220829371.0U
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刘兴月
丁晓明
李勇强
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Linyi Tianju Energy Saving Material Technology Co ltd
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Linyi Tianju Energy Saving Material Technology Co ltd
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Abstract

The utility model discloses an ore powder sorting device for glass fiber production, which comprises a motor, a feed inlet, a screening box, a discharge outlet I and a discharge outlet II, wherein one side of the screening box is provided with a support box, a main shaft is arranged in the support box, and the main shaft is movably connected to the support box; a funnel net is arranged on one side of the main shaft, a movable sleeve is arranged on one side of the funnel net, a guide groove is arranged on one side of the movable sleeve, the guide groove is arranged on the main shaft, and the movable sleeve is movably connected in the guide groove; one side of the movable sleeve is provided with a limiting spring which is sleeved on the movable sleeve; one side of the limiting spring is provided with a supporting plate which is connected to the supporting box, one side of the supporting plate is provided with a limiting plate, and the limiting plate is connected to the movable sleeve; screening case one side is equipped with discharge gate I, and screening bottom of the case portion is equipped with discharge gate II. This ore powder sorting unit is closed structure, can effectively avoid the ore powder to splash or form the dust in the workshop, avoids the waste of ore powder, and can improve separation efficiency.

Description

A ore powder sorting unit for glass fiber production
Technical Field
The utility model belongs to the technical field of mineral powder sorting equipment, and particularly relates to a mineral powder sorting device for glass fiber production.
Background
In the production process of glass fiber, various raw ores for producing glass fiber are continuously crushed and ground to form ore raw material powder meeting melting conditions, such as pyrophyllite, quartz sand, limestone, dolomite, borocalcite, boromagnesite and other ores. At present, when screening mineral aggregate powder, generally use the shale shaker to filter, the shale shaker is mostly open structure generally, and the in-process of screening can form the dust, causes the waste of ore raw materials powder, in addition still need the manual work to change the mineral aggregate powder through the screening in the shale shaker, and the operation is also inconvenient, and work efficiency is also lower moreover. Therefore, there is a need for an ore powder sorting device for glass fiber production, which is not prone to generate dust, can realize automatic material replacement, and is efficient.
Disclosure of Invention
The utility model aims to overcome the defects in the prior art and provide the ore powder sorting device which is not easy to generate dust, can realize automatic material replacement and is efficient and used for glass fiber production.
In order to achieve the purpose, the utility model adopts the technical scheme that:
a mineral powder sorting device for glass fiber production comprises a motor, a feeding port, a screening box, a discharging port I and a discharging port II, wherein a supporting box is arranged on one side of the screening box, a main shaft is arranged in the supporting box, and the main shaft is movably connected to the supporting box; a funnel net is arranged on one side of the main shaft, a movable sleeve is arranged on one side of the funnel net, a guide groove is arranged on one side of the movable sleeve, the guide groove is arranged on the main shaft, and the movable sleeve is movably connected in the guide groove; one side of the movable sleeve is provided with a limiting spring which is sleeved on the movable sleeve; a supporting plate is arranged on one side of the limiting spring and connected to the supporting box, a limiting plate is arranged on one side of the supporting plate and connected to the movable sleeve; the limiting spring pushes the limiting block to drive the movable sleeve to move along the guide groove;
a discharge port I is formed in one side of the screening box, and a discharge port II is formed in the bottom of the screening box; the upper part of the screening box is provided with a transport box which is connected to the screening box; a top cover is arranged at the upper part of the transport box, a feed inlet is formed in one side of the top cover, a motor is arranged on the other side of the top cover, and the motor is connected to the top cover; one side of the motor is provided with a motor wheel, and the motor rotates to drive the main shaft to rotate through the motor wheel so as to realize the rotation of the funnel net in the screening box, thereby realizing the sorting of the ore powder; promote the funnel net when the funnel net internal material is too much and descend through discharge gate II, make the material discharge through II of discharge gate, the limiting spring promotes the funnel net and rises after the material reduces in the funnel net, avoids the online material discharge of funnel, realizes the sorting of material, improves the separation effect.
Preferably, a guide plate is arranged in the transport box and is spirally connected in the transport box; the ore powder is slowly screened in the box through the feed inlet by the guide plate; avoiding the accumulation of materials.
Preferably, a rotating shaft is arranged on one side of the main shaft and connected to the main shaft, a main shaft wheel is arranged on one side of the rotating shaft, a gear III is arranged on one side of the main shaft wheel, a gear IV is arranged on one side of the gear III, and the gear III and the gear IV are movably connected to the top cover through a pin shaft; a support ring is arranged on one side of the gear IV, and the support ring is movably connected in the transport box; a push plate is arranged on one side of the support ring and movably connected to the support ring; a push plate spring is arranged on one side of the push plate and is connected to the push plate and the support ring; when the rotating shaft rotates, the support ring is driven to rotate, the support ring rotates to drive the push plate to move along the guide plate to realize pushing the material on the guide plate to move, and after the rotating shaft rotates for one circle, the push plate is pulled by the push plate spring to rise and reset.
Preferably, the rotating shaft is movably connected to the main shaft; a bevel gear is arranged on one side of the movable sleeve, the bevel gear is connected to the movable sleeve, a gear I is arranged on one side of the bevel gear, a rotating sleeve is arranged on one side of the gear I, the gear I is movably connected to the rotating sleeve through a pin shaft, a support is arranged on one side of the rotating sleeve, the rotating sleeve is movably connected to the support through a torsional spring, and the support is connected to a support box; the torsion spring pushes the gear I to be tightly attached to the conical gear; a gear II is arranged on one side of the gear I, a rotating shaft wheel II is arranged on one side of the gear II, and the rotating shaft wheel II and the gear II are movably connected to the supporting box through a pin shaft; a rotating shaft wheel I is arranged on one side of the rotating shaft wheel II and connected to the rotating shaft; when the materials in the hopper net excessively push the movable sleeve to descend, the movable sleeve pushes the conical gear to descend, and the contact position of the gear I and the conical gear changes to slow down the rotating speed of the gear I, so that the rotating shaft drives the push plate to push the materials to descend, and the separation effect is prevented from being influenced by the excessive materials in the screening box; when the materials in the screening box are reduced, the limiting spring pushes the movable sleeve to ascend, and the dynamic adjustment of the materials in the screening box is realized.
Preferably, be equipped with the baffle in the funnel net, stir the material through the baffle messenger screening process in, avoid the material to pile up and influence the separation effect together.
Preferably, the motor is a variable frequency motor; the main shaft rotation stability in the screening process is realized through the variable frequency motor, and incomplete screening caused by unstable rotation is avoided.
Preferably, a cleaning plate is arranged on one side of the funnel net and connected to the funnel net through a spring rod; when the material drops in screening bottom of the case portion through the funnel net, rotate through promoting the cleaning plate and realize that the material that promotes screening bottom of the case portion passes through discharge gate II and discharges.
Compared with the prior art, the utility model has the beneficial effects that:
1) the ore powder sorting device is of an overall closed structure, so that the ore powder can be effectively prevented from splashing or forming dust in a workshop, and the waste of the ore powder is avoided; when the material in the funnel net is excessive, the funnel net is pushed to be lower than the discharge port I or flush with the discharge port I under the action of gravity, the screened qualified mineral powder is extruded, and the qualified mineral powder is accelerated to be discharged through the discharge port II; cubic and large granule ore material then discharge through discharge gate I, realize improving separation efficiency to the sorting of material.
2) The supporting ring is driven to rotate when the rotating shaft rotates, the supporting ring rotates to drive the push plate to move along the guide plate so as to push the material on the guide plate to move, and the push plate spring pulls the push plate to rise and reset after the rotating shaft rotates for a circle, so that the material is uniformly conveyed according to the rotating speed of the rotating shaft.
3) When excessive materials in the funnel net push the movable sleeve to descend, the movable sleeve pushes the conical gear to descend, and the contact position of the gear I and the conical gear changes to slow down the rotating speed of the gear I, so that the rotating shaft drives the push plate to push the materials to descend, and the separation effect is prevented from being influenced by the excessive materials in the screening box; when the materials in the screening box are reduced, the limiting spring pushes the movable sleeve to ascend, and the dynamic adjustment of the materials in the screening box is realized.
Drawings
FIG. 1 is a schematic structural view of an ore powder sorting device for glass fiber production according to the present invention;
FIG. 2 is a schematic diagram of the internal structure of a mineral powder sorting device for glass fiber production according to the present invention;
FIG. 3 is a schematic structural view of a supporting box in the ore powder sorting device for glass fiber production according to the present invention;
FIG. 4 is a schematic view of a main shaft structure of a mineral powder sorting device for glass fiber production according to the present invention;
FIG. 5 is a schematic view of a transportation box of the ore powder sorting device for glass fiber production according to the present invention;
in the figure: 1-motor, 2-top cover, 3-feed inlet, 4-transport box, 5-screening box, 51-funnel net, 52-limit plate, 53-limit spring, 54-movable sleeve, 55-baffle, 56-main shaft, 57-guide groove, 58-spring rod, 59-cleaning plate, 6-discharge outlet I, 7-discharge outlet II, 8-support box, 81-bevel gear, 82-support plate, 83-rotating shaft, 84-rotating shaft wheel I, 85-rotating shaft wheel II, 86-gear I, 87-gear II, 89-rotating sleeve, 810-support, 11-motor wheel, 12-main shaft wheel, 13-gear III, 14-gear IV, 15-support ring, 17-push plate spring, 18-push plate, 19-a deflector.
Detailed Description
For the understanding of the technical field, the technical solution of the present invention is further explained in detail with reference to the accompanying drawings 1-5.
A mineral powder sorting device for glass fiber production comprises a motor 1, a feeding port 3, a screening box 5, a discharging port I6 and a discharging port II 7, wherein a supporting box 8 is arranged on one side of the screening box 5, a main shaft 56 is arranged inside the supporting box 8, and the main shaft 56 is movably connected to the supporting box 8; a funnel net 51 is arranged on one side of the main shaft 56, a movable sleeve 54 is arranged on one side of the funnel net 51, a guide groove 57 is arranged on one side of the movable sleeve 54, the guide groove 57 is arranged on the main shaft 56, and the movable sleeve 54 is movably connected in the guide groove 57; one side of the movable sleeve 54 is provided with a limiting spring 53, and the limiting spring 53 is sleeved on the movable sleeve 54; a supporting plate 82 is arranged on one side of the limiting spring 53, the supporting plate 82 is connected to the supporting box 8, a limiting plate 52 is arranged on one side of the supporting plate 82, and the limiting plate 52 is connected to the movable sleeve 54; the limiting spring 53 pushes the limiting block to drive the movable sleeve 54 to move along the guide groove 57;
a discharge port I6 is formed in one side of the screening box 5, a discharge port II 7 is formed in the bottom of the screening box 5, the discharge port I6 is higher than the discharge port II 7, and the discharge port II 7 is obliquely arranged; certainly, in order to facilitate the discharge of the screened qualified materials through the discharge port II 7, an inclined material guide plate can be arranged at the material port II 7 inside the screening box; the upper part of the screening box 5 is provided with a transport box 4, and the transport box 4 is connected to the screening box 5; a top cover 2 is arranged at the upper part of the transport box 4, a feed inlet 3 is arranged at one side of the top cover 2, a motor 1 is arranged at the other side of the top cover 2, and the motor 1 is connected to the top cover 2; motor 1 one side is equipped with motor wheel 11, and motor 1 rotates and drives main shaft 56 through motor wheel 11 and rotate and realize rotating screening box 5 interior funnel net 51, and the ore powder that is less than the funnel net can be elected to the realization is to the sorting of ore powder. When the materials in the funnel net 51 are excessive, the funnel net 51 is pushed to fall below the discharge port I6 or to be flush with the discharge port I6 under the action of gravity, the screened qualified mineral powder is extruded, and the qualified mineral powder is accelerated to be discharged through the discharge port II 7; cubic and large granule ore material then discharge through discharge gate I6, realize the sorting to the material. After the materials in the funnel net 51 are reduced, the limiting spring 53 pushes the funnel net 51 to rise, so that the highest plane of the funnel net 51 is higher than the discharge port I6. This ore deposit powder sorting unit is closed structure, can effectively avoid the ore deposit powder to splash or form the dust in the workshop, avoids the waste of ore deposit powder.
A guide plate 19 is arranged in the transport box 4, and the guide plate 19 is spirally connected in the transport box 4; the ore powder is slowly screened in the box 5 through the feed port 3 by the guide plate 19; avoiding the accumulation of materials.
A rotating shaft 83 is arranged on one side of the main shaft 56, the rotating shaft 83 is connected to the main shaft 56, a main shaft wheel 12 is arranged on one side of the rotating shaft 83, a gear III 13 is arranged on one side of the main shaft wheel 12, a gear IV 14 is arranged on one side of the gear III 13, and the gear III 13 and the gear IV 14 are movably connected to the top cover 2 through a pin shaft; a support ring 15 is arranged on one side of the gear IV 14, and the support ring 15 is movably connected in the transport box 4; a push plate 18 is arranged on one side of the support ring 15, and the push plate 18 is movably connected to the support ring 15; a push plate spring 17 is arranged on one side of the push plate 18, and the push plate spring 17 is connected to the push plate 18 and the support ring 15; when the rotating shaft 83 rotates, the supporting ring 15 is driven to rotate, the supporting ring 15 rotates to drive the push plate 18 to move along the guide plate 19 to push the material on the guide plate 19 to move, and when the rotating shaft rotates for one circle, the push plate spring 17 pulls the push plate 18 to ascend and reset.
The rotating shaft 83 is movably connected to the main shaft 56; a bevel gear 81 is arranged on one side of the movable sleeve 54, the bevel gear 81 is connected to the movable sleeve 54, a gear I86 is arranged on one side of the bevel gear 81, a rotating sleeve 89 is arranged on one side of the gear I86, the gear I86 is movably connected to the rotating sleeve 89 through a pin shaft, a support 810 is arranged on one side of the rotating sleeve 89, the rotating sleeve 89 is movably connected to the support 810 through a torsion spring, and the support 810 is connected to the support box 8; the torsion spring pushes the gear I86 to cling to the bevel gear 81; a gear II 87 is arranged on one side of the gear I86, a rotating shaft wheel II 85 is arranged on one side of the gear II 87, and the rotating shaft wheel II 85 and the gear II 87 are movably connected to the support box 8 through a pin shaft; a rotating shaft wheel I84 is arranged on one side of the rotating shaft wheel II 85, and the rotating shaft wheel I84 is connected to a rotating shaft 83; when the materials in the funnel net 51 excessively push the movable sleeve 54 to descend, the movable sleeve 54 pushes the bevel gear 81 to descend, the contact position of the gear I86 and the bevel gear 81 is changed, so that the rotating speed of the gear I86 is reduced, the rotating shaft 83 drives the push plate 18 to push the materials to descend, and the separation effect is prevented from being influenced by the excessive materials in the screening box 5; when the material in the screening box 5 is reduced, the limiting spring 53 pushes the movable sleeve 54 to ascend, and the dynamic adjustment of the material in the screening box 5 is realized.
Be equipped with baffle 55 in the funnel net 51, stir the material through baffle 55 messenger screening process, avoid the material to pile up and influence the separation effect together.
The motor 1 is a variable frequency motor 1; the rotation of the main shaft 56 is stabilized in the screening process through the variable frequency motor 1, and incomplete screening caused by unstable rotation is avoided.
A cleaning plate 59 is arranged on one side of the funnel net 51, and the cleaning plate 59 is connected to the funnel net 51 through a spring rod 58; when the material drops in the bottom of screening box 5 through funnel net 51, realize pushing the material of screening box 5 bottom through discharge II 7 discharge through promoting clean board 59 to rotate.
A mineral aggregate powder sorting unit for glass fiber production, the working process is as follows: when needs are selected separately the ore powder, send into the material through 3 incasement screening casees 5 of feed inlet, motor 1 rotates and drives funnel net 51 and rotate and select separately, is equipped with funnel net 51 in the screening case 5, and qualified ore powder through funnel net 51 passes through discharge gate II 7 and discharges. The lower part of the funnel net 51 is provided with a limiting spring 53, when the materials in the funnel net 51 are excessive, the funnel net 51 is pushed under the action of gravity to fall below the discharge port I6 or to be flush with the discharge port I6, the screened qualified mineral powder is extruded, and the qualified mineral powder is accelerated to be discharged through the discharge port II 7; cubic and large granule ore material then discharge through discharge gate I6, realize the sorting to the material. After the materials in the funnel net 51 are reduced, the limiting spring 53 pushes the funnel net 51 to rise, and the funnel net 51 is reset, so that the highest plane of the funnel net 51 is higher than the discharge port I6. The funnel net is then reloaded and the work is carried out again.
The rotating shaft 83 rotates to drive the support ring 15 to rotate, the support ring 15 rotates to drive the push plate 18 to move along the guide plate 19 to push the materials on the guide plate 19 to move, and after one rotation, the push plate spring 17 pulls the push plate 18 to rise and reset, so that the materials are uniformly conveyed according to the rotating speed of the rotating shaft 83; when the materials in the funnel net 51 excessively push the movable sleeve 54 to descend, the movable sleeve 54 pushes the bevel gear 81 to descend, the contact position of the gear I86 and the bevel gear 81 is changed to reduce the rotating speed of the gear I86, so that the rotating shaft 83 drives the push plate 18 to push the materials to descend, and the separation effect is prevented from being influenced by the excessive materials in the screening box 5; when the material in the screening box 5 is reduced, the limiting spring 53 pushes the movable sleeve 54 to rise, so that the dynamic adjustment of the material in the screening box 5 is realized.
The foregoing is merely illustrative and explanatory of the present invention, and various modifications, additions or substitutions may be made to the specific embodiments described by those skilled in the art without departing from the scope of the present invention as defined in the accompanying claims.

Claims (7)

1. The utility model provides a mineral aggregate powder sorting unit for glass fiber production which characterized in that: the screening device comprises a motor, a feeding hole, a screening box, a discharging hole I and a discharging hole II, wherein a supporting box is arranged on one side of the screening box, a main shaft is arranged in the supporting box, and the main shaft is movably connected to the supporting box; a funnel net is arranged on one side of the main shaft, a movable sleeve is arranged on one side of the funnel net, a guide groove is arranged on one side of the movable sleeve, the guide groove is arranged on the main shaft, and the movable sleeve is movably connected in the guide groove; one side of the movable sleeve is provided with a limiting spring which is sleeved on the movable sleeve; a supporting plate is arranged on one side of the limiting spring and connected to the supporting box, a limiting plate is arranged on one side of the supporting plate and connected to the movable sleeve; the limiting spring pushes the limiting block to drive the movable sleeve to move along the guide groove;
a discharge port I is formed in one side of the screening box, and a discharge port II is formed in the bottom of the screening box; the upper part of the screening box is provided with a transport box which is connected to the screening box; a top cover is arranged at the upper part of the transport box, a feed inlet is formed in one side of the top cover, a motor is arranged on the other side of the top cover, and the motor is connected to the top cover; and one side of the motor is provided with a motor wheel.
2. The ore powder sorting device for glass fiber production according to claim 1, wherein a deflector is arranged in the transportation box, and the deflector is spirally connected in the transportation box.
3. The ore powder sorting device for glass fiber production according to claim 2, wherein a rotating shaft is arranged on one side of the main shaft and connected to the main shaft, a main shaft wheel is arranged on one side of the rotating shaft, a gear III is arranged on one side of the main shaft wheel, a gear IV is arranged on one side of the gear III, and the gear III and the gear IV are movably connected to the top cover through a pin shaft; a support ring is arranged on one side of the gear IV, and the support ring is movably connected in the transport box; a push plate is arranged on one side of the support ring and movably connected to the support ring; and a push plate spring is arranged on one side of the push plate and is connected to the push plate and the supporting ring.
4. The ore powder sorting device for glass fiber production according to claim 3, wherein the rotating shaft is movably connected to the main shaft; a bevel gear is arranged on one side of the movable sleeve, the bevel gear is connected to the movable sleeve, a gear I is arranged on one side of the bevel gear, a rotating sleeve is arranged on one side of the gear I, the gear I is movably connected to the rotating sleeve through a pin shaft, a support is arranged on one side of the rotating sleeve, the rotating sleeve is movably connected to the support through a torsional spring, and the support is connected to the support box; the torsion spring pushes the gear I to be tightly attached to the conical gear; a gear II is arranged on one side of the gear I, a rotating shaft wheel II is arranged on one side of the gear II, and the rotating shaft wheel II and the gear II are movably connected to the supporting box through a pin shaft; and one side of the rotating shaft wheel II is provided with a rotating shaft wheel I, and the rotating shaft wheel I is connected to the rotating shaft.
5. The ore powder sorting device for glass fiber production according to claim 1, wherein a baffle is arranged in the hopper net.
6. The ore powder sorting device for glass fiber production according to claim 1, wherein the motor is a variable frequency motor.
7. The apparatus as claimed in claim 1, wherein the hopper screen is provided with a cleaning plate at one side thereof, and the cleaning plate is connected to the hopper screen by a spring rod.
CN202220829371.0U 2022-04-09 2022-04-09 A ore powder sorting unit for glass fiber production Active CN216988480U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202220829371.0U CN216988480U (en) 2022-04-09 2022-04-09 A ore powder sorting unit for glass fiber production

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202220829371.0U CN216988480U (en) 2022-04-09 2022-04-09 A ore powder sorting unit for glass fiber production

Publications (1)

Publication Number Publication Date
CN216988480U true CN216988480U (en) 2022-07-19

Family

ID=82375651

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202220829371.0U Active CN216988480U (en) 2022-04-09 2022-04-09 A ore powder sorting unit for glass fiber production

Country Status (1)

Country Link
CN (1) CN216988480U (en)

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