CN112473446A

CN112473446A - Graphene high-efficiency dispersion machine capable of preventing materials from being stuck

Info

Publication number: CN112473446A
Application number: CN202011235270.2A
Authority: CN
Inventors: 牛思婷
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-11-08
Filing date: 2020-11-08
Publication date: 2021-03-12

Abstract

The invention discloses a graphene high-efficiency dispersing machine for anti-sticking materials, which structurally comprises a base, a cross beam, a support, a dispersing cylinder and a feeding conveyer belt, wherein the cross beam is welded on the support, the support is fixed on the base, the dispersing cylinder is arranged on the base, the feeding conveyer belt is arranged on the dispersing cylinder, a driving motor, a connecting rotating shaft, dispersing blades and a splash-proof plate are arranged inside the dispersing cylinder, the driving motor is mechanically connected with the connecting rotating shaft, the dispersing blades are arranged at the bottom of the connecting rotating shaft, and the splash-proof plate is arranged around the connecting position of the driving motor and the connecting rotating shaft. The problem of a small amount of material spill that the splashplate can not cover the position and lead to is prevented, and usable floor area is extensive.

Description

Graphene high-efficiency dispersion machine capable of preventing materials from being stuck

Technical Field

The invention relates to the technical field of graphene processing, in particular to an anti-sticking efficient graphene dispersion machine.

Background

The graphene material is a two-dimensional material, the excellent physical and structural characteristics of the graphene material enable the graphene material to have remarkable application potential on the surfaces of various fields such as electronics, light sensation and photoelectric devices, the existing graphene material is mostly prepared by a graphene dispersion machine by adopting a redox method, and then the existing graphene dispersion machine still has some defects in the working process:

graphene in mechanical dispersion, the dispersion axle carries out high-speed stirring to graphene and can produce and splash, and consequently, the problem that raw materials splashes is solved through being equipped with the splash shield on the dispersion bucket to current dispenser, like patent (CN201711091323.6 name is a high environment-friendly graphite alkene dispenser of security), but the material that splashes in grinding dispersion process can the adhesion on the surface of splash shield, makes the raw materials can not fully ground like this, has influenced grinding effect greatly, has wasted raw and other materials moreover.

Disclosure of Invention

The invention aims to provide a graphene high-efficiency dispersion machine for anti-sticking materials, which is used for solving the technical problems that materials splashed in the grinding and dispersion process are adhered to the surface of a splash guard, so that raw materials cannot be fully ground, the grinding effect is greatly influenced, and raw materials are wasted.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a high-efficient dispenser of graphite alkene of antiseized material, its structure includes base, crossbeam, support, dispersion section of thick bamboo, feeding conveyer belt, the crossbeam welding is on the support, the support is fixed on the base, be equipped with dispersion section of thick bamboo on the base, be equipped with feeding conveyer belt on the dispersion section of thick bamboo, the inside of dispersion section of thick bamboo is equipped with driving motor, connection pivot, dispersion blade, splash guard, driving motor with be connected pivot mechanical connection, the bottom of connecting the pivot is equipped with dispersion blade, the splash guard is established around driving motor and the hookup location of being connected the pivot.

Preferably, the splash guard includes a fixed housing and a movable plate, the fixed housing is attached to the surface of the driving motor, and the movable plate is in contact fit with the fixed housing.

Preferably, the movable plate body comprises a material guide opening, a folding cover plate, an adsorption magnetic layer and a driving interlayer, the adsorption magnetic layer is fixed on the driving interlayer, the material guide opening is connected with the feeding conveyer belt, the folding cover plate surrounds the surface of the fixed shell, the driving interlayer is fixed with the folding cover plate together, and the adsorption magnetic layer is fixed with the fixed shell in a magnetic adsorption mode.

Preferably, the folding cover plate comprises a fixed bottom layer, a first swing sheet, a second swing sheet, a telescopic scraping piece, a connecting sheet and a scraping piece driver, wherein the fixed bottom layer is hinged with the first swing sheet and the second swing sheet, the connecting sheet is connected between the first swing sheet and the second swing sheet, the telescopic scraping piece is arranged on the surface of the connecting sheet and is controlled by the scraping piece driver, the fixed bottom layer is fixedly connected with the driving interlayer, and the connecting sheet is arranged towards the bottom layer in the dispersing cylinder.

Preferably, the telescopic scraper is provided with a telescopic shaft, two cleaning bristles and two fixed seats, the cleaning bristles are arranged around the telescopic shaft, the telescopic shaft is fixed between the fixed seats, and the fixed seats are mechanically connected with the scraper driver.

Preferably, the scraper driver comprises a push rod, a connecting rod, a clamping sleeve and a driving cylinder, the connecting rod is parallel to the telescopic shaft, the clamping sleeve and the driving cylinder are arranged in the center of the connecting rod, and the connecting rod is connected with the fixed seat through the push rod.

Preferably, two ends of the telescopic shaft are respectively connected with the first swing piece and the second swing piece through the fixed seat, and the cleaning bristles are in contact with the surface of the connecting piece.

Preferably, the driving interlayer is telescopic in multiple sections, an air pump is arranged in the driving interlayer, and the air pump is continuously inflated to drive the driving interlayer to extend in a circular shape, so that the folding cover plate fixed with the driving interlayer is driven to open.

Compared with the prior art, the invention has the following beneficial effects:

1. the splash guard of the invention adopts the matching of the folding cover plate, the adsorption magnetic layer and the driving interlayer, the driving interlayer drives the folding cover plate to open along the connecting rotating shaft in a circumference manner, and in the opening process, the adsorption magnetic layer matched with the driving interlayer is magnetically adsorbed with the fixed shell together, so that the splash guard is fixed, the comprehensive covering can be realized according to the size of the stirring cavity in the dispersing cylinder, the problem of small amount of material splashing caused by the improper covering of the splash guard is prevented, and the using area is wide.

2. The connecting piece is provided with the telescopic scraping piece which is matched with the scraping piece driver, wherein the telescopic shaft arranged on the telescopic scraping piece and the cleaning bristles move along the connecting piece under the pushing of the push rod, so that the telescopic cleaning bristles can comprehensively clean the polluted connecting piece under the reciprocating movement, the cleaned materials are mixed again for stirring, and the utilization rate of the materials is ensured.

3. The cleaning bristles are made of soft bristles, and can be placed in the telescopic gap during the telescopic operation of the telescopic shaft, so that the effective telescopic operation of the telescopic shaft is ensured.

Drawings

Fig. 1 is a schematic structural diagram of a graphene efficient disperser for anti-sticking materials according to the present invention.

FIG. 2 is a schematic view showing the internal structure of the dispersing cylinder of the present invention.

Fig. 3 is a schematic top view of the movable plate of the present invention.

Figure 4 is a schematic view of an open three-dimensional structure of the folding flap of the present invention.

Fig. 5 is a schematic view of the matching structure of the telescopic scraper and the scraper driver of the invention.

In the figure: the device comprises a base 1, a cross beam 2, a bracket 3, a dispersing cylinder 4, a feeding conveyer belt 5, a driving motor 41, a connecting rotating shaft 42, dispersing blades 43, a splash guard 44, a fixed shell 441, a movable plate body 442, a material guide port 42a, a folding cover plate 42b, an adsorption magnetic layer 42c, a driving interlayer 42d, a fixed bottom layer 2b1, a first swing piece 2b2, a second swing piece 2b3, a telescopic scraper 2b4, a connecting piece 2b5, a scraper driver 2b6, a telescopic shaft b41, cleaning bristles b42, a fixed seat b43, a push rod b61, a connecting rod b62, a clamping sleeve b63 and a driving cylinder b 64.

Detailed Description

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on or indirectly connected to the other element, and when an element is referred to as being "connected to" the other element, it can be directly connected to or indirectly connected to the other element.

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Example 1

As shown in fig. 1 to 5, the present invention provides a graphene high efficiency dispenser of an anti-adhesion material, which includes a base 1, a beam 2, a bracket 3, a dispersing cylinder 4, and a feeding conveyer belt 5, wherein the beam 2 is welded on the bracket 3, the bracket 3 is fixed on the base 1, the base 1 is provided with the dispersing cylinder 4, the dispersing cylinder 4 is provided with the feeding conveyer belt 5, the dispersing cylinder 4 is internally provided with a driving motor 41, a connecting rotating shaft 42, dispersing blades 43, and a splash plate 44, the driving motor 41 is mechanically connected with the connecting rotating shaft 42, the bottom of the connecting rotating shaft 42 is provided with the dispersing blades 43, the splash plate 44 is arranged around the connecting position of the driving motor 41 and the connecting rotating shaft 42, the splash plate 44 includes a fixed housing 441 and a movable plate 442, the fixed housing 441 is attached to the surface of the driving motor 41, the movable plate 442 is in contact with the fixed housing 441, the movable plate body 442 includes a material guiding opening 42a, a folded cover sheet 42b, an adsorbing magnetic layer 42c, and a driving interlayer 42d, the adsorbing magnetic layer 42c is fixed on the driving interlayer 42d, the material guiding opening 42a is connected with the feeding conveyer belt 5, the folded cover sheet 42b surrounds the surface of the fixed housing 441, the driving interlayer 42d is fixed with the folded cover sheet 42b, the adsorbing magnetic layer 42c is fixed with the fixed housing 441 by magnetic adsorption, the movable plate body 442 includes a material guiding opening 42a, a folded cover sheet 42b, an adsorbing magnetic layer 42c, and a driving interlayer 42d, the adsorbing magnetic layer 42c is fixed on the driving interlayer 42d, the material guiding opening 42a is connected with the feeding conveyer belt 5, the folded cover sheet 42b surrounds the surface of the fixed housing 441, the driving interlayer 42d is fixed with the folded cover sheet 42b, and the adsorbing magnetic layer 42c is fixed with the fixed housing 441 by magnetic adsorption, the foldable cover plate 42b comprises a fixed bottom layer 2b1, a first swing blade 2b2, a second swing blade 2b3, a telescopic scraper 2b4, a connecting sheet 2b5 and a scraper driver 2b6, the fixed bottom layer 2b1 is hinged with a first swing blade 2b2 and a second swing blade 2b3, the connecting sheet 2b5 is connected between the first swing blade 2b2 and the second swing blade 2b3, the surface of the connecting sheet 2b5 is provided with the telescopic scraper 2b5, the telescopic scraper 2b5 is controlled by the scraper driver 2b5, the fixed bottom layer 2b5 is fixedly connected with a driving interlayer 42d, the connecting sheet 2b5 faces the bottom layer in the dispersing cylinder 4, the telescopic scraper 2b5 is provided with a telescopic shaft b5, a cleaning bristle b5 and a cleaning bristle b5, the fixed seat 5 is provided with two fixed seats 5, the fixed seat 5 b is connected with the telescopic shaft 5, and the fixed seat 5 is connected with the fixed seat 5 b5, and the fixed seat 5, the scraper driver 2b6 comprises a push rod b61, a connecting rod b62, a clamping sleeve b63 and a driving cylinder b64, the connecting rod b62 is parallel to a telescopic shaft b41, the clamping sleeve b63 and the driving cylinder b64 are arranged at the center of the connecting rod b62, the connecting rod b62 is connected with a fixed seat b43 through a push rod b61, two ends of the telescopic shaft b41 are respectively connected with a first swing sheet 2b2 and a second swing sheet 2b3 through a fixed seat b43, the cleaning bristles b42 are in surface contact with a connecting sheet 2b5, the driving interlayer 42d is telescopic in multiple sections, an air pump is arranged in the driving interlayer 42d, and the air pump is continuously inflated to drive the driving interlayer 42d to extend in a circular shape, so that the folding cover sheet 42b fixed with the driving interlayer is opened.

The following describes in detail the implementation of the graphene high-efficiency dispenser for anti-sticking materials provided by the present invention:

the invention relates to a splash guard 44, which adopts a folding cover plate 42b to be matched with an adsorption magnetic layer 42c and a drive interlayer 42d, the drive interlayer 42d drives a gap between a first swing piece 2b2 and a second swing piece 2b3 to be opened, the folding cover piece 42b is circumferentially opened along a connecting rotating shaft 42, in the opening process, the adsorption magnetic layer 42c matched with the drive interlayer 42d is magnetically adsorbed with a fixed shell 441 and fixes the splash guard 44, materials can directly splash on the surface of a connecting piece 2b5 during the stirring of a dispersing blade 43, the splash guard effect is realized through the connecting piece 2b5, but in the process, the materials are isolated by the connecting piece 2b5 but can be attached on the surface of the connecting piece 2b5, therefore, in order to improve the effective utilization rate of the materials, a telescopic scraper 2b4 and a scraper driver 2b6 are arranged on the surface of the connecting piece 2b5, and a telescopic shaft b41 arranged on the telescopic scraper 2b4 is respectively connected with the first swing piece 2b3 and the second swing piece through fixing seats b43 on two sides, when the first swing piece 2b2 and the second swing piece 2b3 are pulled apart, the telescopic shaft b41 is synchronously elongated, so that the whole cleaning bristles b42 cover the surface of the connecting piece 2b5, the driving air cylinder b64 is started to push the connecting rod b62, the push rod b61 connected with the connecting rod b62 drives the fixing seat b43 to move back and forth along the surface of the connecting piece 2b5, the cleaning bristles b42 and the connecting piece 2b5 are fully contacted and descend to clean materials attached to the cleaning bristles, and the cleaned materials directly fall into the dispersing cylinder 4 under the action of gravity to be subjected to secondary treatment.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

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

1. The utility model provides a high-efficient dispenser of graphite alkene of antiseized material which characterized in that: the structure of the device comprises a base (1), a crossbeam (2), a support (3), a dispersing cylinder (4) and a feeding conveyer belt (5), wherein the crossbeam (2) is welded on the support (3), the support (3) is fixed on the base (1), the dispersing cylinder (4) is arranged on the base (1), the feeding conveyer belt (5) is arranged on the dispersing cylinder (4), a driving motor (41), a connecting rotating shaft (42), dispersing blades (43) and a splash guard (44) are arranged inside the dispersing cylinder (4), the driving motor (41) is mechanically connected with the connecting rotating shaft (42), the dispersing blades (43) are arranged at the bottom of the connecting rotating shaft (42), and the splash guard (44) is arranged around the connecting position of the driving motor (41) and the connecting rotating shaft (42).

2. The graphene high-efficiency dispersing machine for the anti-sticking materials as claimed in claim 1, is characterized in that: the splash guard (44) comprises a fixed shell (441) and a movable plate body (442), wherein the fixed shell (441) is attached to the surface of the driving motor (41), and the movable plate body (442) is in contact fit with the fixed shell (441).

3. The graphene high-efficiency dispersing machine for the anti-sticking materials as claimed in claim 2, is characterized in that: the movable plate body (442) comprises a material guide opening (42a), a folding cover sheet (42b), an adsorption magnetic layer (42c) and a driving interlayer (42d), the adsorption magnetic layer (42c) is fixed on the driving interlayer (42d), the material guide opening (42a) is connected with the feeding conveying belt (5), the folding cover sheet (42b) surrounds the surface of the fixed shell (441), the driving interlayer (42d) is fixed with the folding cover sheet (42b), and the adsorption magnetic layer (42c) is fixed with the fixed shell (441) in a magnetic adsorption mode.

4. The graphene high-efficiency dispersing machine for the anti-sticking materials according to claim 3, is characterized in that: folding cover plate (42b) is including fixed bottom (2b1), first pendulum piece (2b2), second pendulum piece (2b3), flexible scraper (2b4), connection piece (2b5), scraper driver (2b6), fixed bottom (2b1) and first pendulum piece (2b2), articulated connection of second pendulum piece (2b3) be connected with connection piece (2b5) between first pendulum piece (2b2) and second pendulum piece (2b3), the surface of connection piece (2b5) is equipped with flexible scraper (2b4), flexible scraper (2b4) is with scraper driver (2b6) control, fixed bottom (2b1) and drive intermediate layer (42d) fixed connection, connection piece (2b5) sets up towards dispersion section of thick bamboo (4) inside bottom.

5. The graphene high-efficiency dispersing machine for the anti-sticking materials as claimed in claim 4, is characterized in that: flexible scraper (2b4) is equipped with telescopic shaft (b41), clean brush hair (b42), fixing base (b43), be equipped with clean brush hair (b42) around telescopic shaft (b41), fixing base (b43) are equipped with two be fixed with telescopic shaft (b41) between fixing base (b43), fixing base (b43) and scraper driver (2b6) mechanical connection.

6. The graphene high-efficiency dispersing machine for the anti-sticking materials as claimed in claim 4, is characterized in that: the scraper driver (2b6) comprises a push rod (b61), a connecting rod (b62), a clamping sleeve (b63) and a driving cylinder (b64), the connecting rod (b62) is parallel to a telescopic shaft (b41), the clamping sleeve (b63) and the driving cylinder (b64) are arranged at the center of the connecting rod (b62), and the connecting rod (b62) is connected with a fixed seat (b43) through the push rod (b 61).