CN213348637U - Material mixing device for glass magnesium fireproof plate - Google Patents

Abstract

The utility model discloses a material mixing arrangement for glass magnesium PLASTIC LAMINATED, material mixing arrangement include first feeder hopper, second feeder hopper, feed cylinder, stirring subassembly, vibrations subassembly, play hopper, and first feeder hopper and second feeder hopper setting are in the feed cylinder upper end, and among the feed cylinder was worn to locate by the stirring subassembly, go out the bottom right side that the hopper is located the feed cylinder, and the vibrations subassembly is located the lower extreme of feed cylinder. The stirring assembly comprises a rotating shaft, stirring blades, a stirring frame, a wavy scraper and a driving motor, the stirring blades are uniformly distributed on the rotating shaft, the stirring frame is fixed on the rotating shaft in a central position, the scraper is distributed in the vertical direction of the stirring frame, and the driving motor is located at the bottom end of the charging barrel. The vibration assembly comprises a support mechanism, a ring, a spring pipe, a movable shaft and a vibration motor, wherein the support mechanism is arranged at the lower end of the whole vibration assembly and is in contact with the ground, and the vibration motor is positioned at the upper end of the support mechanism; the ring sets up at the feed cylinder lower extreme, and the spring pipe is evenly arranged at the feed cylinder outer wall, links to each other with supporting mechanism and ring.

Description

Material mixing device for glass magnesium fireproof plate

Technical Field

The utility model relates to a glass magnesium PLASTIC LAMINATED production and processing technology field specifically is a material mixing arrangement for glass magnesium PLASTIC LAMINATED.

Background

The glass-magnesium fireproof board is prepared by taking magnesium oxide, magnesium chloride and water as main raw materials, taking sawdust, perlite and the like as auxiliary fillers, mixing and stirring, taking glass fiber cloth, non-woven fabric and the like as reinforcing and toughening materials, carrying out a self-exothermic reaction under a natural temperature condition through a processing technology, and then curing. The glass magnesium fireproof plate is a novel decorative material with heat insulation, fire resistance, corrosion resistance, high strength, good sound insulation effect, energy conservation and environmental protection, and can be compounded with various heat-insulating materials to prepare a composite heat-insulating plate. Therefore, the glass magnesium fireproof plate is widely applied to wall plates, ceiling boards, fireproof plates and the like, and can replace wood plywood to be used as decorative appliances such as window boards, door panels, furniture and the like. However, the production process of the magnesium oxide fireproof plate is special, and a plurality of problems exist in the production process, such as unscientific proportioning, incomplete reaction, uneven mixing and the like, and all the problems can cause the quality deviation of the produced magnesium oxide fireproof plate, so that the magnesium oxide fireproof plate is unstable and deforms to cause halogen back.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a material mixing arrangement for glass magnesium PLASTIC LAMINATED to solve the problem among the prior art.

In order to achieve the above object, the utility model provides a following technical scheme:

the utility model relates to a material mixing device for a glass magnesium fireproof plate, which comprises a first feed hopper, a second feed hopper, a feed cylinder, a stirring component, a vibration component and a discharge hopper, wherein the first feed hopper and the second feed hopper are arranged at the upper end of the feed cylinder; the vibrations subassembly is located the lower extreme of feed cylinder, and the lower extreme contact ground of vibrations subassembly, and the upper end links to each other with the feed cylinder outer wall.

The stirring subassembly includes pivot, stirring leaf, stirring frame, wave scraper blade and driving motor, and the stirring leaf evenly arranges in the pivot with the 30 degrees orientations of level tilt up, and the stirring frame is fixed in the pivot with central point to put, and the scraper blade is arranged respectively in the vertical direction of stirring frame, and driving motor is located the feed cylinder bottom, and the one end and the driving motor transmission of pivot link to each other, and the other end stretches into in the feed cylinder. When the stirring device is operated, the stirring frame and the stirring blades rotate simultaneously, so that chemical reaction between materials is more sufficient, and the materials are more uniformly mixed. The scraper plate has the functions of: prevent that the material from piling up on the feed cylinder inner wall to the deviation appears in the material ratio, causes the product unstable and warp and counter-halogenate.

The vibration component comprises a supporting mechanism, a ring, a spring tube, a movable shaft and a vibration motor. The supporting mechanism is arranged at the lower end of the whole vibration assembly, and the bottom end of the supporting mechanism is in contact with the ground, so that the effect of supporting the whole material mixing device is achieved. One end of the spring tube is connected with the top end of the supporting mechanism, and the other end of the spring tube is connected with the circular ring and evenly distributed around the outer wall of the charging barrel. The ring sets up at the feed cylinder lower extreme, links to each other with the feed cylinder outer wall, both is the supporting role, also plays the transmission effect. The vibrating motor is located the supporting mechanism upper end, and the one end of loose axle links to each other with vibrating motor, and the other end links to each other with the feed cylinder bottom. The loose axle is the basis that supports the motion of whole vibrations subassembly, by vibrating motor drive loose axle, is driven to the feed cylinder bottom by the loose axle again to drive the spring pipe that the feed cylinder outer wall distributes, realize the effect of irregular vibrations, with the inherent, external bubble of discharge material, make the combination more closely knit between the material.

The supporting mechanism comprises a supporting bottom plate, a supporting rod and a supporting ring, the upper end of the supporting rod is connected with the bottom surface of the supporting bottom plate, the lower end of the supporting rod is connected with the supporting ring, and the supporting ring is in contact with the ground; the vibration motor is positioned on the supporting bottom plate. The bottom end of the supporting mechanism is in contact with the ground and is used for supporting the whole material mixing device.

The whole vibration assembly has a supporting function and also has a vibration function. The lower end of the supporting mechanism is arranged to be in a circular ring shape, so that the manufacturing materials are simplified, and unnecessary waste is reduced; and the circular ring setting of contacting with the feed cylinder is in order to the laminating feed cylinder that can be better, makes the holding power distribute evenly, also can better play the vibrations effect.

First feeder hopper and second feeder hopper welding are in the upper end of feed cylinder, and first feeder hopper and second feeder hopper incline with the lateral wall of feed cylinder respectively and parallel arrangement. The first feed hopper is provided with a first one-way valve, and the second feed hopper is provided with a second one-way valve. Go out the hopper setting on the bottom right side of feed cylinder, go out the hopper and be located between ring and the supporting baseplate, go out the hopper and be equipped with the third check valve. The purpose of the check valve is: the time and the amount of feeding and discharging are controlled, the sealing performance of the charging barrel is also ensured, and the effect to be achieved by mixing materials is easier to realize.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model provides a material mixing device for glass magnesium PLASTIC LAMINATED, including stirring subassembly and vibrations subassembly in the material mixing device, the stirring subassembly functions simultaneously with the vibrations subassembly. The stirring frame and the stirring blades run simultaneously, so that the proportioning is more accurate and the materials are more fully mixed; the scraper blade can prevent that the material from piling up on the feed cylinder inner wall to the deviation appears in the material ratio, causes the product unstability and warp anti-bittern. The vibration component plays a supporting role and also plays a vibration role. The vibration component mainly utilizes the elastic characteristic of the spring tube to perform vibration motion so as to discharge bubbles inside and outside the materials, so that the materials are combined more compactly, and the vibration component is energy-saving, environment-friendly, convenient and efficient to operate. Stirring subassembly and vibrations subassembly are equipped with different driving motor respectively, act on the feed cylinder simultaneously, and accurate high efficiency makes chemical reaction take place abundant, mix more evenly between the material.

Drawings

In order that the present invention may be more readily and clearly understood, the following detailed description of the present invention is provided in connection with the accompanying drawings.

Fig. 1 is a schematic structural view of the whole of the present invention;

FIG. 2 is a schematic view of the stirring assembly;

FIG. 3 is a schematic three-dimensional structure of the vibration assembly;

fig. 4 is a two-dimensional structure diagram of the vibration assembly.

In the figure: 1-a first feed hopper, 2-a second feed hopper, 3-a feed cylinder, 4-a stirring component, 5-a vibration component, 6-a discharge hopper, 7-a rotating shaft, 8-a stirring blade, 9-a stirring frame, 10-a wavy scraper, 11-a driving motor, 12-a supporting mechanism, 13-a circular ring, 14-a spring pipe, 15-a supporting bottom plate, 16-a supporting rod, 17-a supporting ring, 18-a movable shaft, 19-a vibration motor, 20-a first one-way valve, 21-a second one-way valve and 22-a third one-way valve.

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.

The to-be-solved technical problem of the utility model is to provide a material mixing arrangement for glass magnesium PLASTIC LAMINATED, but make full use of material, material misce bene, convenient operation are high-efficient, energy-concerving and environment-protective.

As shown in fig. 1, the utility model relates to a material mixing device for glass magnesium PLASTIC LAMINATED's structural schematic diagram, material mixing device include first feeder hopper 1, second feeder hopper 2, feed cylinder 3, stirring subassembly 4, vibrations subassembly 5, play hopper 6. The first feeding hopper 1 and the second feeding hopper 2 are arranged at the upper end of the charging barrel 3, the stirring assembly 4 is arranged in the charging barrel 3 in a penetrating manner, and the discharging hopper 6 is positioned at the right side of the bottom end of the charging barrel 3; vibrations subassembly 5 is located the lower extreme of feed cylinder 3, and the lower extreme contact ground of vibrations subassembly 5, and the upper end links to each other with 3 outer walls of feed cylinder.

The material that will need the mixture is put into by first feeder hopper 1 and second feeder hopper 2 respectively for the material gets into feed cylinder 3 and mixes, opens the power, starts stirring subassembly 4 and vibrations subassembly 5, mixes the completion back, leads out the material from play hopper 6.

As shown in fig. 2 is a stirring assembly structure schematic diagram, stirring assembly 4 includes pivot 7, stirring leaf 8, stirring frame 9, wave scraper blade 10 and driving motor 11, stirring leaf 8 evenly arranges on pivot 7 with the 30 degrees directions of the level tilt up, stirring frame 9 fixes on pivot 7 with central point, scraper blade 11 arranges respectively on the vertical direction of stirring frame 9, driving motor 11 is located feed cylinder 3 bottom, the one end and the driving motor 11 transmission of pivot 7 link to each other, the other end stretches into in the feed cylinder 3.

The stirring blade 8 and the stirring frame 9 act on the mixed materials simultaneously; meanwhile, the scraping plate 10 is wavy and rotates along with the rotation of the stirring frame 9, and acts on the materials accumulated on the inner wall of the charging barrel 3.

As shown in fig. 3, which is a three-dimensional structure diagram of the vibration assembly, the vibration assembly 5 includes a support mechanism 12, a circular ring 13, a spring tube 14, a movable shaft 18 and a vibration motor 19. Supporting mechanism 12 sets up the lower extreme at whole vibrations subassembly 5, and the bottom of supporting mechanism 12 and ground contact play the effect of supporting whole material mixing arrangement. One end of the spring tube 14 is connected to the top end of the support mechanism 12 and the other end is connected to the ring 13 and is evenly arranged around the outer wall of the charging barrel 3. The ring 13 is arranged at the lower end of the charging barrel 3 and is connected with the outer wall of the charging barrel 3, so that the charging barrel not only has a supporting function, but also has a transmission function. The vibration motor 19 is arranged at the upper end of the supporting mechanism 12, one end of the movable shaft 18 is connected with the vibration motor 19, and the other end is connected with the bottom end of the charging barrel 3.

As shown in fig. 4, which is a schematic diagram of a two-dimensional structure of the vibration assembly, the supporting mechanism 12 includes a supporting base plate 15, a supporting rod 16, and a supporting ring 17, an upper end of the supporting rod 16 is connected to a bottom surface of the supporting base plate 15, a lower end of the supporting rod 16 is connected to the supporting ring 17, and the supporting ring 17 contacts the ground; the vibration motor 19 is located above the support base 15. The bottom end of the support mechanism 12 is in contact with the ground for supporting the entire material mixing device. The lower end of the supporting mechanism 12 is provided with the supporting ring 17, so that the material is simplified, and unnecessary waste is reduced; the ring 13 in contact with the barrel 3 is provided to better fit the barrel 3, so that the supporting force is uniformly distributed, and a vibration effect can be better exerted.

When the mixer is not in operation, the vibration component 5 plays a role in supporting the whole material mixing device; when in operation, the material cylinder 3 is driven to vibrate. The power supply is connected, the vibrating motor 19 drives the movable shaft 18, and the movable shaft 18 drives the bottom end of the charging barrel 3, so that the spring tubes 14 distributed on the outer wall of the charging barrel 3 are driven, the effect of irregular vibration is realized, internal and external bubbles of materials are discharged, and the materials are combined more compactly.

As shown in FIG. 1, the utility model relates to a structural schematic diagram of a material mixing device for glass magnesium PLASTIC LAMINATED, first feeder hopper 1 and the welding of second feeder hopper 2 are in the upper end of feed cylinder 3, first feeder hopper 1 and second feeder hopper 2 respectively with the lateral wall slope and the parallel arrangement of feed cylinder 3. The first feed hopper 1 is provided with a first non return valve 20 and the second feed hopper 2 is provided with a second non return valve 21. Go out hopper 6 and set up in the bottom right side of feed cylinder 3, go out hopper 6 and be located between ring 13 and the supporting baseplate 15, go out hopper 6 and be equipped with third check valve 22.

During feeding, the first check valve 20 and the second check valve 21 are respectively selected to be opened, the proportion is strictly controlled, and then the materials are respectively added into the first feeding hopper 1 and the second feeding hopper 2, so that the materials enter the charging barrel 3 to be mixed. After the mixing is finished, the third one-way valve 22 is opened, and the mixed material can be guided out from the discharge hopper 6.

The utility model relates to a concrete working process of a material mixing arrangement for glass magnesium PLASTIC LAMINATED as follows:

the first check valve 20 and the second check valve 21 are opened, and the materials enter the material barrel 3 from the first feeding hopper 1 and the second feeding hopper 2 respectively. And connecting a power supply, starting the driving motor 11 and starting the stirring assembly 4 to work. The driving motor 11 drives the rotating shaft 7 to move, and the stirring blades 8 and the stirring frame 9 simultaneously act on the mixed materials; at the same time, the scraper 10 rotates along with the rotation of the stirring frame 9 and acts on the materials accumulated on the inner wall of the charging barrel 3. The vibration motor 7 is started and the vibration assembly 5 starts to work. The vibrating motor 19 drives the movable shaft 18, and the movable shaft 18 drives the spring tubes 14 distributed on the outer wall of the charging barrel 3 to realize the effect of irregular vibration so as to discharge bubbles inside and outside the material. After the mixing is finished, the third one-way valve 22 is opened, and the mixed materials are guided out from the discharge hopper 6.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (5)

1. The utility model provides a material mixing arrangement for glass magnesium PLASTIC LAMINATED which characterized in that: the material mixing device comprises a first feed hopper (1), a second feed hopper (2), a charging barrel (3), a stirring component (4), a vibration component (5) and a discharge hopper (6), wherein the first feed hopper (1) and the second feed hopper (2) are arranged at the upper end of the charging barrel (3), the stirring component (4) is arranged in the charging barrel (3) in a penetrating manner, and the discharge hopper (6) is positioned on the right side of the bottom end of the charging barrel (3); vibrations subassembly (5) are located the lower extreme of feed cylinder (3), and the lower extreme contact ground of vibrations subassembly (5), and the upper end and the feed cylinder (3) outer wall of vibrations subassembly (5) link to each other.

2. A material mixing device for a magnesium fire-proof plate according to claim 1, characterized in that: stirring subassembly (4) are including pivot (7), stirring leaf (8), stirring frame (9), wave scraper blade (10) and driving motor (11), stirring leaf (8) are evenly arranged in pivot (7) with the 30 degrees orientations of level tilt up, stirring frame (9) are fixed in pivot (7) with central point to put, scraper blade (10) are arranged respectively on the vertical direction of stirring frame (9), driving motor (11) are located feed cylinder (3) bottom, the one end and the driving motor (11) transmission of pivot (7) link to each other, and the other end of pivot (7) stretches into in feed cylinder (3).

3. A material mixing device for a magnesium fire-proof plate according to claim 1, characterized in that: the vibration assembly (5) comprises a supporting mechanism (12), a circular ring (13), a spring tube (14), a movable shaft (18) and a vibration motor (19), wherein the supporting mechanism (12) is arranged at the lower end of the whole vibration assembly (5), and the bottom end of the supporting mechanism (12) is in contact with the ground; the spring tubes (14) are uniformly distributed around the outer wall of the charging barrel (3), one end of each spring tube (14) is connected with the top end of the supporting mechanism (12), and the other end of each spring tube (14) is connected with the circular ring (13); the circular ring (13) is arranged at the lower end of the charging barrel (3), and the circular ring (13) is connected with the outer wall of the charging barrel (3); the vibrating motor (19) is positioned at the upper end of the supporting mechanism (12), one end of the movable shaft (18) is connected with the vibrating motor (19), and the other end of the movable shaft (18) is connected with the bottom end of the charging barrel (3).

4. A material mixing apparatus for a magnesium fire proof plate according to claim 3, wherein the support mechanism comprises a support base plate (15), a support rod (16), and a support ring (17), the upper end of the support rod (16) is connected to the bottom surface of the support base plate (15), the lower end of the support rod (16) is connected to the support ring (17), the support ring (17) is in contact with the ground, and the vibration motor (19) is located on the support base plate (15).

5. A material mixing device for a magnesium fire-proof plate according to claim 1, characterized in that: the first feeding hopper (1) and the second feeding hopper (2) are welded at the upper end of the charging barrel (3), and the first feeding hopper (1) and the second feeding hopper (2) are respectively arranged obliquely and parallelly with the side wall of the charging barrel (3); the first feed hopper (1) is provided with a first one-way valve (20), and the second feed hopper (2) is provided with a second one-way valve (21); go out hopper (6) welding on the bottom right side of feed cylinder (3), go out hopper (6) and be located between ring (13) and supporting baseplate (15), go out hopper (6) and be equipped with third check valve (22).

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