CN217403064U

CN217403064U - Hot-blast energy-saving silica stoving edulcoration system

Info

Publication number: CN217403064U
Application number: CN202220702747.1U
Authority: CN
Inventors: 邵进; 邵彬彬; 沈家锋; 徐磊; 李旭
Original assignee: Anhui Evolutionary Silicon Nanomaterials Technology Co ltd
Current assignee: Anhui Evolutionary Silicon Nanomaterials Technology Co ltd
Priority date: 2022-03-29
Filing date: 2022-03-29
Publication date: 2022-09-09
Anticipated expiration: 2032-03-29

Abstract

The utility model discloses a hot air energy-saving silica drying and impurity removing system, which relates to the technical field of silica production and comprises an installation box and a storage component; installing a box: a control switch group is installed on the right side surface, a drying assembly is installed inside the installation box, and a material conveying assembly is installed on the side surface of the installation box; a storage component: contain storage dish, first fixed column, brush sliding ring and first motor, be fixed with two corresponding first fixed columns on the periphery of storage dish, two first fixed columns all rotate and connect in the inside of install bin, install the brush sliding ring on the periphery of the first fixed column on right side, install first motor on the right flank of install bin, the output shaft of first motor is fixed on the right-hand member face of the first fixed column on right side, the internally mounted of storage dish has the stirring subassembly, can be even dry silica, avoids its heating inequality to reduce the waste of resource, and can get rid of its inside iron fillings.

Description

Hot-air energy-saving silica drying and impurity removing system

Technical Field

The utility model relates to a silica production technical field specifically is a hot-blast energy-saving silica stoving edulcoration system.

Background

The silicon dioxide is white, five-toxic and amorphous micro powder, is light in weight, good in chemical stability, resistant to high temperature and wide in application, is mainly used for manufacturing glass, water glass, pottery, enamel, refractory materials, aerogel felts, ferrosilicon, molding sand, simple substance silicon, cement and the like, needs to be dried in the preparation process, is directly dried in most existing modes, but has uneven drying in the drying process, so that the external silicon dioxide is easily dried, but the internal silicon dioxide is wet, and iron filings are easily mixed in the silicon dioxide in the preparation process, so that the product quality is reduced.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to overcome current defect, provide a hot-blast energy-saving silica stoving edulcoration system, can be even dry silica, avoid its heating inequality to reduce the waste of resource, can get rid of its inside iron fillings moreover, can effectively solve the problem in the background art.

In order to achieve the above purpose, the utility model provides a following technical scheme: a hot air energy-saving type silicon dioxide drying and impurity removing system comprises an installation box and a storage assembly;

installing a box: a control switch group is installed on the right side surface, a drying assembly is installed inside the installation box, and a material conveying assembly is installed on the side surface of the installation box;

a storage component: the silicon dioxide drying device comprises a storage disc, first fixing columns, an electric brush sliding ring and a first motor, wherein two corresponding first fixing columns are fixed on the circumferential surface of the storage disc, the two first fixing columns are rotationally connected to the inside of an installation box, the electric brush sliding ring is installed on the circumferential surface of the first fixing column on the right side, the first motor is installed on the right side surface of the installation box, an output shaft of the first motor is fixed on the right end face of the first fixing column on the right side, a material turning assembly is installed inside the storage disc, and the silicon dioxide to be dried is stored by arranging the storage assembly;

wherein: the input end of the control switch group is electrically connected with the output end of an external power supply, and the output end of the control switch group is electrically connected with the input end of the electric brush slip ring and the input end of the first motor respectively.

Further, it still contains second motor, connecting axle, fixed strip, second fixed column and electro-magnet to store the subassembly, the second motor is installed on the lower terminal surface of storage dish, be fixed with the connecting axle on the output shaft of second motor, the connecting axle is located the inside of storage dish, be fixed with the fixed strip on the periphery of connecting axle, be fixed with evenly distributed's second fixed column on the downside of fixed strip, install the electro-magnet on the lower terminal surface of storage dish, the output of brush sliding ring is connected to the equal electricity of input of electro-magnet and second motor.

Further, the stoving subassembly contains electric telescopic handle, solid fixed ring and air heater, install four corresponding electric telescopic handle on the last side of install bin, be fixed with solid fixed ring on four electric telescopic handle's the flexible arm, gu fixed ring's internally mounted has the air heater, the output of the equal electric connection control switch group of air heater and electric telescopic handle's input is dried silica through setting up the stoving subassembly.

Further, the stirring assembly comprises a rotating shaft, a stirring plate, a toothed ring and a gear, the rotating shaft is connected to the circumferential surface of the connecting shaft in a rotating mode, the stirring plate is fixed on the circumferential surface of the rotating shaft and is uniformly distributed, the toothed ring is fixed inside the storage disc, the gear is fixed on the end face, away from the connecting shaft, of the rotating shaft, the gear is meshed with the toothed ring, and stirring is carried out on the silicon dioxide through the stirring assembly.

Further, defeated material subassembly contains connecting block, bottom plate, belt conveyor and bin, be fixed with the connecting block on the trailing flank of install bin, be fixed with the bottom plate on the leading flank of connecting block, install belt conveyor on the last side of bottom plate, be fixed with two corresponding bins on belt conveyor's the last side, belt conveyor's input electricity connection control switch group's output is stored silica after drying and the inside iron fillings of silica respectively through setting up two bins.

Furthermore, the front end of the inside of the installation box is hinged with a connecting frame, a transparent plate is fixed inside the connecting frame, and a pull block is fixed on the right side face of the connecting frame.

Compared with the prior art, the beneficial effects of the utility model are that: this hot-blast energy-saving silica stoving edulcoration system has following benefit:

make the in-process that uses can pile up the inside of storage disc with the silica that needs to dry through setting up storage assembly and stirring subassembly, it makes the connecting axle rotate to pile up to start the second motor after finishing, the connecting axle rotates and drives the fixed strip and the pivot removes, the in-process that removes will drive all second fixed columns and remove and shakeout accumulational silica at the fixed strip, the in-process that the pivot removed will drive the gear and remove along the ring gear, the gear will rotate at this in-process, thereby gear rotation drives the pivot and rotates and drive all material turning plates and rotate, will overturn the top to the silica of bottom in material turning plate pivoted process, start the stoving subassembly at this in-process and can be quick drying with silica, very big thermal waste has been avoided.

Drawings

FIG. 1 is a schematic front side view of the present invention;

FIG. 2 is a schematic view of the storage module of the present invention;

fig. 3 is the schematic structural diagram of the material turning assembly of the present invention.

In the figure: the device comprises an installation box 1, a control switch group 2, a storage component 3, a storage disc 31, a first fixed column 32, an electric brush sliding ring 33, a first motor 34, a second motor 35, a connecting shaft 36, a fixed strip 37, a second fixed column 38, an electromagnet 39, a drying component 4, an electric telescopic rod 41, a fixed ring 42, a hot air blower 43, a material turning component 5, a rotating shaft 51, a material turning plate 52, a toothed ring 53, a gear 54, a material conveying component 6, a connecting block 61, a bottom plate 62, a belt conveyor 63, a storage box 64, a connecting frame 7, a pull block 8 and a transparent plate 9.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-3, the present embodiment provides a technical solution: a hot air energy-saving type silicon dioxide drying and impurity removing system comprises an installation box 1 and a storage component 3;

installation box 1: the right side surface is provided with a control switch group 2, the inside of the installation box 1 is provided with a drying component 4, the side surface of the installation box 1 is provided with a material conveying component 6, the drying component 4 comprises an electric telescopic rod 41, a fixing ring 42 and an air heater 43, the upper side surface of the installation box 1 is provided with four corresponding electric telescopic rods 41, the telescopic arms of the four electric telescopic rods 41 are fixedly provided with the fixing ring 42, the inside of the fixing ring 42 is provided with the air heater 43, the input ends of the air heater 43 and the electric telescopic rod 41 are electrically connected with the output end of the control switch group 2, the material conveying component 6 comprises a connecting block 61, a bottom plate 62, a belt conveyor 63 and a storage box 64, the rear side surface of the installation box 1 is fixedly provided with the connecting block 61, the front side surface of the connecting block 61 is fixedly provided with the bottom plate 62, the upper side surface of the bottom plate 62 is provided with the belt conveyor 63, the upper side surface of the belt conveyor 63 is fixedly provided with two corresponding storage boxes 64, the input end of the belt conveyor 63 is electrically connected with the output end of the control switch group 2, the dried silicon dioxide and scrap iron in the silicon dioxide are respectively stored by arranging two storage boxes 64, and the silicon dioxide is dried by arranging the drying component 4;

the storage component 3: the storage assembly 3 comprises a storage disc 31, first fixing columns 32, an electric brush sliding ring 33 and a first motor 34, wherein two corresponding first fixing columns 32 are fixed on the circumferential surface of the storage disc 31, the two first fixing columns 32 are both rotatably connected inside an installation box 1, the electric brush sliding ring 33 is installed on the circumferential surface of the right first fixing column 32, the first motor 34 is installed on the right side surface of the installation box 1, an output shaft of the first motor 34 is fixed on the right end surface of the right first fixing column 32, a material turning assembly 5 is installed inside the storage disc 31, the storage assembly 3 further comprises a second motor 35, a connecting shaft 36, a fixing strip 37, a second fixing column 38 and an electromagnet 39, the second motor 35 is installed on the lower end surface of the storage disc 31, the connecting shaft 36 is fixed on the output shaft of the second motor 35, the connecting shaft 36 is located inside the storage disc 31, and the fixing strip 37 is fixed on the circumferential surface of the connecting shaft 36, the lower side surface of the fixed strip 37 is fixed with uniformly distributed second fixed columns 38, the lower end surface of the storage disc 31 is provided with an electromagnet 39, the electromagnet 39 and the input end of the second motor 35 are electrically connected with the output end of the brush slip ring 33, the stirring assembly 5 comprises a rotating shaft 51, a stirring plate 52, a toothed ring 53 and a gear 54, the circumferential surface of the connecting shaft 36 is rotatably connected with a rotating shaft 51, the circumferential surface of the rotating shaft 51 is fixed with uniformly distributed stirring plates 52, the inside of the storage disc 31 is fixed with the toothed ring 53, the end surface of the rotating shaft 51 far away from the connecting shaft 36 is fixed with the gear 54, the gear 54 is meshed with the toothed ring 53, the stirring assembly 5 is arranged to stir the silicon dioxide, and the storage assembly 3 is arranged to store the silicon dioxide to be dried;

wherein: the input end of the control switch group 2 is electrically connected with the output end of an external power supply, and the output end of the control switch group 2 is electrically connected with the input ends of the brush slip ring 33 and the first motor 34 respectively.

Wherein: the inside front end of installing box 1 is articulated to have a coupling frame 7, and the inside of coupling frame 7 is fixed with transparent plate 9, is fixed with on the right flank of coupling frame 7 and draws piece 8.

The utility model provides a pair of hot-blast energy-saving silica stoving edulcoration system's theory of operation as follows: firstly, silica to be dried is accumulated in a storage disc, after accumulation is finished, four electric telescopic rods 41 are started to enable a fixing ring 42 to move downwards, the fixing ring 42 moves downwards to drive a hot air fan 43 to move downwards, after a heat sealing machine 43 moves downwards to a proper position, the electric telescopic rods 41 are closed, then a second motor 35 is started to enable a connecting shaft 36 to rotate, the connecting shaft 36 rotates to drive a fixing strip 37 and a rotating shaft 51 to move, all second fixing columns 38 are driven to move to flatten the accumulated silica in the moving process of the fixing strip 37, a gear 54 is driven to move along a toothed ring 53 in the moving process of the rotating shaft 51, the gear 54 rotates in the process, the gear 54 rotates to drive the rotating shaft 51 to rotate so as to drive all material turning plates 52 to rotate, and the silica at the bottom is turned over in the rotating process of the material turning plates, start the quick stoving of air heater 43 can be with silica in this in-process, the very big thermal waste of having avoided, start electromagnet 39 after silica is dried and adsorb the inside iron fillings of silica, start first motor 34 after the absorption and drive storage disc 31 and rotate, storage disc 31 pivoted in-process its inside silica will fall down the inside of left bin 64, after silica enters into the inside of left bin 64 completely, start belt conveyor 63 and make two bin 64 remove, close electromagnet 39 after bin 64 on right side removes the below of install bin 1, the inside iron fillings of storage disc 31 will fall down the inside of bin 64 on right side after electromagnet 39 closes, can accomplish the screening of the inside iron fillings of silica under such circumstances.

It should be noted that the control switch group 2 disclosed in the above embodiment is provided with buttons corresponding to the first motor 34, the second motor 35, the electromagnet 39, the electric telescopic rod 41, the hot air blower 43 and the belt conveyor 63 one by one.

The above only is the embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structures or equivalent processes of the present invention are used in the specification and the attached drawings, or directly or indirectly applied to other related technical fields, and the same principle is included in the protection scope of the present invention.

Claims

1. The utility model provides a hot-blast energy-saving silica stoving edulcoration system which characterized in that: comprises an installation box (1) and a storage component (3);

mounting case (1): a control switch group (2) is installed on the right side surface, a drying assembly (4) is installed inside the installation box (1), and a material conveying assembly (6) is installed on the side surface of the installation box (1);

storage assembly (3): the material overturning device comprises a storage disc (31), first fixing columns (32), an electric brush slip ring (33) and a first motor (34), wherein the two corresponding first fixing columns (32) are fixed on the circumferential surface of the storage disc (31), the two first fixing columns (32) are both rotationally connected to the inside of an installation box (1), the electric brush slip ring (33) is installed on the circumferential surface of the first fixing column (32) on the right side, the first motor (34) is installed on the right side surface of the installation box (1), the output shaft of the first motor (34) is fixed on the right end surface of the first fixing column (32) on the right side, and a material overturning assembly (5) is installed inside the storage disc (31);

wherein: the input end of the control switch group (2) is electrically connected with the output end of an external power supply, and the output end of the control switch group (2) is electrically connected with the input ends of the electric brush slip ring (33) and the first motor (34) respectively.

2. The hot air energy-saving silica drying and impurity removing system according to claim 1, characterized in that: storage subassembly (3) still contain second motor (35), connecting axle (36), fixed strip (37), second fixed column (38) and electro-magnet (39), second motor (35) are installed on the lower terminal surface of storage dish (31), be fixed with connecting axle (36) on the output shaft of second motor (35), connecting axle (36) are located the inside of storage dish (31), be fixed with fixed strip (37) on the periphery of connecting axle (36), be fixed with evenly distributed's second fixed column (38) on the downside of fixed strip (37), install electro-magnet (39) on the lower terminal surface of storage dish (31), the equal electricity of input of electro-magnet (39) and second motor (35) connects the output of brush sliding ring (33).

3. The hot air energy-saving silicon dioxide drying and impurity removing system according to claim 1, characterized in that: drying assembly (4) contain electric telescopic handle (41), solid fixed ring (42) and air heater (43), install four corresponding electric telescopic handle (41) on the last side of install bin (1), be fixed with solid fixed ring (42) on the flexible arm of four electric telescopic handle (41), the internally mounted of solid fixed ring (42) has air heater (43), the equal electric connection control switch group's of input output of air heater (43) and electric telescopic handle (41) group (2).

4. The hot air energy-saving silicon dioxide drying and impurity removing system according to claim 2, characterized in that: the material turning assembly (5) comprises a rotating shaft (51), a material turning plate (52), a toothed ring (53) and a gear (54), the rotating shaft (51) is connected to the circumferential surface of the connecting shaft (36) in a rotating mode, the material turning plate (52) which is uniformly distributed is fixed to the circumferential surface of the rotating shaft (51), the toothed ring (53) is fixed to the inner portion of the storage disc (31), the gear (54) is fixed to the end face, away from the connecting shaft (36), of the rotating shaft (51), and the gear (54) is meshed with the toothed ring (53).

5. The hot air energy-saving silicon dioxide drying and impurity removing system according to claim 1, characterized in that: defeated material subassembly (6) contain connecting block (61), bottom plate (62), belt conveyor (63) and bin (64), be fixed with connecting block (61) on the trailing flank of install bin (1), be fixed with bottom plate (62) on the leading flank of connecting block (61), install belt conveyor (63) on the last side of bottom plate (62), be fixed with two corresponding bin (64) on the last side of belt conveyor (63), the output of input electricity connection control switch group (2) of belt conveyor (63).

6. The hot air energy-saving silica drying and impurity removing system according to claim 1, characterized in that: the front end of the interior of the installation box (1) is hinged with a connecting frame (7), a transparent plate (9) is fixed inside the connecting frame (7), and a pull block (8) is fixed on the right side face of the connecting frame (7).