CN214925650U - Raw material stirring and paving system for glass magnesium board production - Google Patents

Abstract

The utility model provides a glass magnesium board production is with raw material mixing stone system, includes raw material mixing device and the thick liquids stone device that is located raw material mixing device one side below, raw material mixing device includes horizontal stirring barrel body (1), roll-over stand (2) and (mixing) shaft (3), and thick liquids stone device includes feed bin (20), platykurtic unloading pipe (21), refining pivot (22) and refining pivot driving motor (23), the utility model discloses the advantage is: when the materials are stirred, the pendulum bob can turn over the materials deposited at the bottom of the horizontal stirring barrel body, so that the material mixing efficiency is improved, and after the stirring is finished, the horizontal stirring barrel body is turned over, so that the materials can be quickly and thoroughly discharged; when the material is spread, the discharging scraper blade rotates to enable the material in the storage bin to be uniformly conveyed into the flat discharging pipe, the vibration motor is started to tile the material in the flat discharging pipe and flow out of the discharging hole, and the discharging uniformity is improved.

Description

Raw material stirring and paving system for glass magnesium board production

Technical Field

The utility model relates to a glass magnesium board production technical field, concretely relates to glass magnesium board production is with raw materials stirring stone system.

Background

The glass magnesium board is a novel non-combustible decorative material which is prepared by compounding a ternary system of magnesium oxide, magnesium chloride and water with a modifier and compounding a magnesium cementing material with stable performance, a medium-alkali glass fiber net as a reinforcing material and a light material as a filler. In the production process, cementitious material needs intensive mixing evenly then tiles the material fast, present stirring is mostly gone on in vertical agitator, put into the hopper after the stirring is accomplished and carry out the stone, because cementitious material's mobility is not high, lead to stirring efficiency lower, and simultaneously, for the stone is convenient, the unloading pipe broad of stone, lead to the unloading pipe ejection of compact not enough even, when stopping the stone, the easy dry and hard of intraductal material of unloading causes the jam, staff need dredge intraductal to the unloading through the drill rod before the stone again the stone, and is troublesome to operate.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a raw materials stirring stone system is used in glass magnesium board production to above-mentioned demand exactly.

The utility model comprises a raw material stirring device and a slurry spreading device positioned below one side of the raw material stirring device, wherein the raw material stirring device comprises a horizontal stirring barrel body, a roll-over stand and a stirring shaft, the horizontal stirring barrel body can be rotatably arranged on the roll-over stand, one end of the roll-over stand is provided with a stirring motor for driving the stirring shaft to rotate in the horizontal stirring barrel body, the stirring shaft is provided with helical blades, and a plurality of pendulum bob are arranged on the helical blades along the helical line direction; the top of the horizontal stirring barrel body is provided with an opening, and one side of the opening is provided with a discharging slide carriage;

the slurry spreading device comprises a storage bin, a flat blanking tube, a refining rotating shaft and a refining rotating shaft driving motor, wherein a storage bin supporting seat is arranged on the storage bin, the storage bin is an inverted trapezoidal bin with a wide top and a narrow bottom, the upper end and the lower end of the inverted trapezoidal bin are both provided with openings, an arc discharging groove is formed in the opening in the bottom of the storage bin, the refining rotating shaft is rotatably arranged in the arc discharging groove, a plurality of groups of blanking scrapers are arranged on the refining rotating shaft in an annular array mode, two adjacent groups of blanking scrapers are staggered with each other, a discharging hole is formed in the bottom of the arc discharging groove, the flat blanking tube is obliquely arranged on the storage bin supporting seat, and a feeding hole of the flat blanking tube is communicated with a discharging hole of the arc discharging groove; the flat blanking pipe is a trapezoid pipe with a wide feeding port and a narrow discharging port, and a control valve plate is arranged in the flat blanking pipe at one end of the feeding port.

The two ends of the horizontal stirring barrel body are respectively provided with an arc-shaped rack, the roll-over stand positioned below the horizontal stirring barrel body is provided with a transmission shaft, the two ends of the transmission shaft are respectively provided with a driving gear matched with the arc-shaped rack, the bottom of the roll-over stand is provided with a transmission shaft driving motor, and an output shaft of the transmission shaft driving motor and the transmission shaft are respectively provided with a transmission gear which is meshed with each other.

The opening part of horizontal stirring staving is equipped with the bung, and the both ends of bung are equipped with the bracing piece respectively, and the roll-over stand both ends are rotatable coupling respectively has the bracing piece mounting disc, and bracing piece one end is connected with bracing piece mounting disc top, and bracing piece mounting disc bottom is equipped with the swing arm, and the roll-over stand both ends are equipped with the swing arm control cylinder that the drive corresponds the swing arm swing respectively.

Be equipped with the pendulum bob mount pad on the helical blade, pendulum bob one end articulates on the pendulum bob mount pad, and pendulum bob mount pad both sides are equipped with pendulum bob angle stopper respectively.

The maximum working radius of the pendulum bob is smaller than the radius of the horizontal stirring barrel body.

The flat blanking pipe is internally provided with a valve plate shaft, the control valve plate is movably arranged in the flat blanking pipe through the valve plate shaft, two ends of the valve plate shaft are respectively provided with a valve plate control rod, the end part of the valve plate control rod is provided with a spring locking pin, and two ends of the storage bin supporting seat and the flat blanking pipe are respectively provided with a locking hole matched with the spring locking pin for use.

The bottom of the flat blanking pipe is provided with a vibration motor.

The top plate of the flat blanking pipe is composed of a fixed plate located on the upper portion and a movable plate located on the lower portion, one end of the movable plate is hinged to the fixed plate, two sides of the movable plate are respectively locked with side plates of the flat blanking pipe through a group of lock catches, and sealing gaskets are arranged at the bottoms of the two sides of the movable plate and at the joint of the bottom plate and the fixed plate.

The utility model has the advantages that: when the materials are stirred, the pendulum bob can turn over the materials deposited at the bottom of the horizontal stirring barrel body, so that the material mixing efficiency is improved, and after the stirring is finished, the horizontal stirring barrel body is turned over, so that the materials can be quickly and thoroughly discharged; when the material is spread, the discharging scraper blade rotates to enable the material in the storage bin to be uniformly conveyed into the flat discharging pipe, the vibration motor is started to tile the material in the flat discharging pipe and flow out of the discharging hole, and the discharging uniformity is improved.

Description of the drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic view of a pendulum mounting structure.

Fig. 3 is a partially enlarged structural diagram of a portion a of fig. 1.

Fig. 4 is a partially enlarged structural diagram of part B of fig. 1.

Fig. 5 is a schematic diagram of the internal structure of the slurry spreading device.

Detailed Description

As shown in the attached drawings, the utility model comprises a raw material stirring device and a slurry spreading device positioned below one side of the raw material stirring device, wherein the raw material stirring device comprises a horizontal stirring barrel body 1, a turnover frame 2 and a stirring shaft 3, the horizontal stirring barrel body 1 can be rotatably arranged on the turnover frame 2, one end of the turnover frame 2 is provided with a stirring motor for driving the stirring shaft 3 to rotate in the horizontal stirring barrel body 1, the stirring shaft 3 is provided with a helical blade 4, and the helical blade 4 is provided with a plurality of pendulums 5 along the helical line direction; the top of the horizontal stirring barrel body 1 is provided with an opening, and one side of the opening is provided with a discharging slide carriage 6;

the slurry spreading device comprises a stock bin 20, a flat blanking pipe 21, a refining rotating shaft 22 and a refining rotating shaft driving motor 23, wherein a stock bin supporting seat is arranged on the stock bin 20, the stock bin 20 is an inverted trapezoidal bin with a wide top and a narrow bottom, the upper end and the lower end of the inverted trapezoidal bin are both provided with openings, an arc discharging groove 25 is arranged on the opening at the bottom of the stock bin 20, the refining rotating shaft 22 is rotatably arranged in the arc discharging groove 25, a plurality of groups of blanking scrapers 26 are arranged on the refining rotating shaft 22 in an annular array, two adjacent groups of the blanking scrapers 26 are staggered with each other, a discharging hole is formed in the bottom of the arc discharging groove 25, the flat blanking pipe 21 is obliquely arranged on the stock bin supporting seat, and the feeding hole of the flat blanking pipe 21 is communicated with the discharging hole of the arc discharging groove 25; the flat blanking pipe 21 is a trapezoid pipe with a wide feeding port and a narrow discharging port, and a control valve plate 28 is arranged in the flat blanking pipe 21 at one end of the feeding port.

Arc-shaped toothed rails 7 are respectively arranged at two ends of the horizontal stirring barrel body 1, a transmission shaft is arranged on the turnover frame 2 below the horizontal stirring barrel body 1, driving gears 8 matched with the arc-shaped toothed rails 7 are respectively arranged at two ends of the transmission shaft, a transmission shaft driving motor 9 is arranged at the bottom of the turnover frame 2, and transmission gears meshed with each other are respectively arranged on an output shaft of the transmission shaft driving motor 9 and the transmission shaft.

The opening part of horizontal stirring barrel body 1 is equipped with bung 10, and the both ends of bung 10 are equipped with bracing piece 11 respectively, and 2 both ends of roll-over stand be swivelling joint respectively have bracing piece mounting disc 12, and 11 one ends of bracing piece are connected with 12 tops of bracing piece mounting disc, and 12 bottoms of bracing piece mounting disc are equipped with swing arm 13, and 2 both ends of roll-over stand are equipped with the drive respectively and correspond swing arm control cylinder 14 of swing arm 13 wobbling.

Be equipped with the pendulum bob mount pad on helical blade 4, pendulum bob 5 one end articulates on the pendulum bob mount pad, and pendulum bob mount pad both sides are equipped with pendulum bob angle stopper 15 respectively.

The maximum working radius of the pendulum bob 5 is smaller than that of the horizontal stirring barrel body 1.

The flat blanking pipe 21 is internally provided with a valve plate shaft, the control valve plate 28 is movably arranged in the flat blanking pipe 21 through the valve plate shaft, two ends of the valve plate shaft are respectively provided with a valve plate control rod 30, the end part of the valve plate control rod 30 is provided with a spring locking pin 31, and two ends of the bin supporting seat and the flat blanking pipe 21 are respectively provided with a locking hole matched with the spring locking pin 31.

The bottom of the flat blanking pipe 21 is provided with a vibration motor 33.

The top plate of the flat blanking pipe 21 is composed of a fixed plate 35 positioned at the upper part and a movable plate 36 positioned at the lower part, one end of the movable plate 36 is hinged on the fixed plate 35, two sides of the movable plate 36 are respectively locked with side plates of the flat blanking pipe 21 through a group of lock catches, and sealing gaskets are arranged at the bottoms of two sides of the movable plate 36 and the joint of the bottom plate and the fixed plate 35.

The working principle is as follows: the materials are thrown from the opening of the horizontal stirring barrel body 1, the helical blades 4 slowly rotate to stir the materials, the pendulum mass 5 on the helical blades 4 turns up the materials deposited on the lower part of the horizontal stirring barrel body 1 during stirring to improve the material flowability, when the pendulum mass 5 rotates to the upper part of the horizontal stirring barrel body 1, the pendulum mass 5 keeps drooping due to the dead weight, the materials are prevented from being brought to the barrel wall on the upper part of the horizontal stirring barrel body 1 by the pendulum mass 5 due to inertia, the materials are prevented from being attached to the barrel wall on the upper part, the material stirring efficiency is improved, after stirring is finished, the transmission shaft driving motor 9 is started to drive the transmission shaft to rotate, the driving gears 8 at the two ends of the transmission shaft and the arc-shaped toothed rail 7 are matched to drive the horizontal stirring barrel body 1 to slowly turn over, the stirred materials are poured out from the discharging chute 6 and enter the stock bin 20 of the slurry spreading device, and the helical blades 4 keep rotating during pouring, the pendulum bob 5 is convenient for discharging the materials at the lower part in the horizontal stirring barrel body 1 after pouring out fast. The horizontal stirring barrel body 1 controls the barrel cover 10 to be opened through the pair of swing arm control cylinders 14 when materials are fed, and the barrel cover 10 covers the horizontal stirring barrel body 1 during stirring to prevent the materials from splashing. The pendulum angle stopper 15 defines the maximum angle at which the pendulum 5 swings, preventing the hammer of the pendulum 5 from striking the helical blade 4 when rotating. The maximum working radius of the pendulum bob 5 is smaller than the radius of the horizontal stirring barrel body 1, so that a gap is formed between the hammer head of the pendulum bob 5 and the inner wall of the horizontal stirring barrel body 1, and the hammer head of the pendulum bob 5 is prevented from being scratched on the inner wall of the horizontal stirring barrel body 1.

When the slurry paving device paves, the material homogenizing rotation driving motor 23 is started, slurry is uniformly conveyed into the flat blanking pipe 21 in the rotating process of the blanking scraper 26, the valve plate 28 is controlled to be opened during blanking, and the slurry flows out of the discharge hole of the flat blanking pipe 21 to pave. Because the flat blanking pipe 21 is a trapezoid pipe with a wide feeding port and a narrow discharging port, after the vibration motor 33 is started, the slurry at the lower part in the flat blanking pipe 21 can be uniformly distributed, the fluidity of the slurry is increased, and the tiling quality is improved. After the spreading is finished, the material homogenizing rotation driving motor 23 is closed, the valve plate 28 is controlled to be closed, the valve plate control rod 30 is used for operating and controlling the valve plate 28 to rotate, the spring locking pin 31 is used for fixing the angle of the control valve plate 28, the movable plate 36 is opened, and a worker scrapes the residual slurry in the flat blanking pipe 21 to avoid blockage caused by dry junction.

Claims (8)

1. A raw material stirring and paving system for producing a glass magnesium board is characterized by comprising a raw material stirring device and a slurry paving device positioned below one side of the raw material stirring device, wherein the raw material stirring device comprises a horizontal stirring barrel body (1), a turnover frame (2) and a stirring shaft (3), the horizontal stirring barrel body (1) is rotatably arranged on the turnover frame (2), one end of the turnover frame (2) is provided with a stirring motor for driving the stirring shaft (3) to rotate in the horizontal stirring barrel body (1), the stirring shaft (3) is provided with a spiral blade (4), and the spiral blade (4) is provided with a plurality of pendulum weights (5) along the spiral line direction; the top of the horizontal stirring barrel body (1) is provided with an opening, and one side of the opening is provided with a discharging slide carriage (6);

the slurry spreading device comprises a stock bin (20), a flat discharging pipe (21), a refining rotating shaft (22) and a refining rotating shaft driving motor (23), wherein a stock bin supporting seat is arranged on the stock bin (20), the stock bin (20) is an inverted trapezoidal bin with a wide top and a narrow bottom, the upper end and the lower end of the inverted trapezoidal bin are both provided with openings, an arc discharging groove (25) is formed in the bottom opening of the stock bin (20), the refining rotating shaft (22) is rotatably installed in the arc discharging groove (25), a plurality of groups of discharging scraping plates (26) are annularly arrayed on the refining rotating shaft (22), two adjacent groups of discharging scraping plates (26) are staggered with each other, a discharging hole is formed in the bottom of the arc discharging groove (25), the flat discharging pipe (21) is obliquely installed on the stock bin supporting seat, and the feeding hole of the flat discharging pipe (21) is communicated with the discharging hole of the arc discharging groove (25); the flat blanking pipe (21) is a trapezoid pipe with a wide feeding port and a narrow discharging port, and a control valve plate (28) is arranged in the flat blanking pipe (21) at one end of the feeding port.

2. The raw material stirring and spreading system for producing the glass magnesium board is characterized in that two ends of a horizontal stirring barrel body (1) are respectively provided with an arc-shaped rack (7), a transmission shaft is arranged on a turnover frame (2) positioned below the horizontal stirring barrel body (1), two ends of the transmission shaft are respectively provided with a driving gear (8) matched with the arc-shaped rack (7), the bottom of the turnover frame (2) is provided with a transmission shaft driving motor (9), and an output shaft of the transmission shaft driving motor (9) and the transmission shaft are respectively provided with transmission gears which are meshed with each other.

3. The raw material stirring and spreading system for producing the glass magnesium board is characterized in that a barrel cover (10) is arranged at an opening of a horizontal stirring barrel body (1), support rods (11) are respectively arranged at two ends of the barrel cover (10), support rod mounting discs (12) are respectively and rotatably connected to two ends of a roll-over stand (2), one end of each support rod (11) is connected with the top of each support rod mounting disc (12), a swing arm (13) is arranged at the bottom of each support rod mounting disc (12), and swing arm control cylinders (14) for driving corresponding swing arms (13) to swing are respectively arranged at two ends of the roll-over stand (2).

4. The raw material stirring and spreading system for producing the magnesium oxide board is characterized in that a pendulum bob mounting seat is arranged on the helical blade (4), one end of a pendulum bob (5) is hinged on the pendulum bob mounting seat, and pendulum bob angle limiting blocks (15) are respectively arranged on two sides of the pendulum bob mounting seat.

5. A raw material stirring and paving system for producing a magnesium oxide board as claimed in claim 1, characterized in that the maximum working radius of the pendulum bob (5) is smaller than the radius of the horizontal stirring barrel body (1).

6. The raw material stirring and spreading system for producing the magnesium oxide board is characterized in that a valve plate shaft is arranged in the flat blanking pipe (21), a control valve plate (28) is movably mounted in the flat blanking pipe (21) through the valve plate shaft, valve plate control rods (30) are respectively arranged at two ends of the valve plate shaft, spring locking pins (31) are arranged at the end parts of the valve plate control rods (30), and locking holes matched with the spring locking pins (31) are respectively formed at two ends of the bin supporting base and the flat blanking pipe (21).

7. The raw material stirring and paving system for producing the magnesium oxide board as claimed in claim 1, wherein a vibration motor (33) is arranged at the bottom of the flat blanking pipe (21).

8. The raw material stirring and spreading system for producing the magnesium oxide board is characterized in that a top plate of the flat blanking pipe (21) consists of a fixed plate (35) positioned at the upper part and a movable plate (36) positioned at the lower part, one end of the movable plate (36) is hinged on the fixed plate (35), two sides of the movable plate (36) are respectively locked with side plates of the flat blanking pipe (21) through a group of locks, and sealing gaskets are arranged at the bottoms of two sides of the movable plate (36) and the joint of the bottom plate and the fixed plate (35).

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