CN116903228A - Glass processing smelting furnace device - Google Patents

Abstract

The invention discloses a glass processing smelting furnace device which comprises a crushing shell, a crushing mechanism and a heating smelting furnace shell, wherein a feeding funnel is arranged at the top of the crushing shell, a crushing mechanism is arranged in the crushing cavity and consists of three fluted disc groups, rolling gears and conveying steel belts, wherein the three fluted disc groups are meshed with each other, the right most fluted disc group in the three fluted disc groups is meshed with the rolling gears, the rolling gears are meshed with convex teeth on the conveying steel belts, the bottom of the crushing shell is connected with the heating smelting furnace shell through a smelting furnace connecting pipe, a transmission rod is arranged in the heating smelting furnace shell, a dislocation stirring sheet is arranged on the transmission rod, a semi-ring scraping plate is arranged at the top end of the transmission rod, the stirring sheet is fixedly connected with an external stirring motor, and the stirring rod and the stirring sheet are fully contacted with glass during stirring, so that the melting effect of glass raw materials is achieved, and the problem of quick dissolution and poor dissolution is solved.

Description

Glass processing smelting furnace device

Technical Field

The invention relates to the technical field of glass processing, in particular to a glass processing smelting furnace device.

Background

When the existing glass melting furnace is used for melting and stirring glass raw materials, the situation that the dissolution time difference is overlarge due to the fact that part of glass raw materials are uneven in particle size can be met, certain influence is generated on the production of glass melt and the quality of subsequent finished products, meanwhile, when the glass melting furnace is used for heating processing raw materials in the glass melting furnace, the heat conduction efficiency is low, the glass processing speed is influenced, the energy consumption is increased, and the input cost is increased. And after processing, the glass liquid is easy to accumulate on the stirring rod, the stirring teeth and the melting furnace body and is inconvenient to clean, the accumulated glass liquid not only can cause the processing effect of the glass melting furnace to be poor, but also the residual glass liquid can cause the processing quality of the glass to be reduced.

Disclosure of Invention

The invention aims to provide a glass processing furnace device which aims to solve the technical problems of high energy consumption and low processing quality of processed glass.

In order to achieve the above purpose, the present invention provides the following technical solutions: comprises a pulverizer shell, a pulverizing cavity, a pulverizing mechanism, a heating furnace shell and a discharge valve port,

a feeding funnel is arranged at the top of the pulverizer shell;

the crushing cavity is arranged in the crushing shell, a crushing mechanism is arranged in the crushing cavity and consists of three groups of fluted disc groups, rolling gears and conveying steel belts, wherein the three groups of fluted disc groups are horizontally designed and meshed with each other, the three groups of fluted disc groups are meshed with the rolling gears from left to right, and the rolling gears are meshed with convex teeth contained on the conveying steel belts;

the bottom of the pulverizer shell is connected with the heating furnace shell through a furnace connecting pipe, a transmission rod is arranged in the heating furnace shell, a dislocated stirring sheet is arranged on the transmission rod, a semi-ring scraping plate is arranged at the top end of the transmission rod, and the stirring sheet is fixedly connected with an external stirring motor;

the discharging valve port is fixed at the near bottom end of one side of the heating furnace shell.

Preferably, the fluted disc group is provided with breaking claws which can be arc-shaped columns or arc-shaped squares.

Preferably, the three sets of fluted disc sets are fixedly connected with the driving motor from the leftmost fluted disc set from left to right.

Preferably, the two ends of the conveying steel belt are provided with outer convex grooves, and the outer convex grooves are part of the crushing cavity.

Preferably, a bevel material port is arranged in the heating furnace shell corresponding to the discharge valve port.

Preferably, heating components are arranged in the inner wall of the shell of the heating melting furnace, the stirring rod and the stirring sheet.

Compared with the prior art, the invention has the beneficial effects that: according to the invention, the heated area of raw materials in the smelting furnace is increased through crushing and refining processing, and meanwhile, the heating component is additionally arranged in the stirring main body, so that the problem of rapid dissolution and poor dissolution is solved.

Drawings

FIG. 1 is a schematic view showing the overall structure of a glass processing furnace apparatus according to the present invention.

Fig. 2 is a schematic structural view of the pulverizing mechanism of the present invention.

In the figure: 1-of a crusher shell, 2-of a feeding hopper, 3-of a crushing cavity, 31-of a fluted disc group, 32-of breaking claws, 33-of a rolling gear, 34-of an outer convex groove, 35-of a conveying steel belt, 4-of a furnace connecting pipe, 5-of a heating furnace shell, 6-of a discharging valve port, 7-of a transmission rod, 8-of stirring sheets, 9-of a semi-ring scraper and 10-of a stirring motor.

Description of the embodiments

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-2, the present invention provides a technical solution: comprises a pulverizer shell 1, a pulverizing cavity, a pulverizing mechanism, a heating furnace shell 5 and a discharge valve port 6,

a feeding funnel 2 is arranged at the top of the pulverizer shell 1;

a crushing cavity 3 positioned in the crushing shell 1, wherein a crushing mechanism is arranged in the crushing cavity 3 and consists of three sets of fluted disc sets 31, a rolling gear 33 and a conveying steel belt 35, wherein the three sets of fluted disc sets 31 are horizontally designed and meshed with each other, the three sets of fluted disc sets 31 are meshed with the rolling gear 33 from the left end to the right end, and the rolling gear 33 is meshed with convex teeth contained on the conveying steel belt 35;

the bottom of the pulverizer housing 1 is connected with a heating furnace housing 5 through a furnace connecting pipe 4, a transmission rod 7 is arranged in the heating furnace housing 5, a dislocated stirring plate 8 is arranged on the transmission rod 7, a semi-ring scraping plate 9 is arranged at the top end of the transmission rod 7, and the stirring plate 7 is fixedly connected with an external stirring motor 10;

and the discharging valve port 6 is fixed at the near bottom end of one side of the heating furnace shell 5.

Further, the fluted disc groups 31 are three groups, and all the fluted disc groups are provided with breaking claws 32, and the breaking claws 32 can be arc-shaped columns or arc-shaped squares.

Secondly, the three sets of fluted disc sets 31 are fixedly connected with a driving motor from the leftmost fluted disc set 31 from left to right.

After the three sets of fluted disc groups 31 are mutually transmitted, raw materials enter between the breaking claws 32 along the gaps, so that the breaking is realized in the moving process, and the degree of density of the breaking claws 32 determines the primary breaking degree of the raw materials.

The breaking claw 32 will fall onto the conveying steel belt 35 after the raw material is primarily broken, and the grinding gear 33 is used for grinding the primarily broken raw material in the process of driving the conveying steel belt 35 to advance, and the refined raw material falls onto the bottom discharge end in the process of circularly moving the conveying steel belt 35.

Further, the two ends of the conveying steel belt 35 are provided with the outer convex grooves 34, the outer convex grooves 34 are part of the crushing cavity, the arc-shaped structures at the two ends of the conveying steel belt 35 are not beneficial to crushing of raw materials, and the raw materials can be prevented from falling into the arc-shaped end parts by additionally arranging the outer convex grooves 34.

Furthermore, the heating furnace casing 5 is internally provided with an inclined material port corresponding to the discharge valve port 6, the inclined material port is favorable for outflow of glass solution, but the defect of the discharge port is that the glass solution which begins to outflow has the problem of poor quality, and the glass solution which flows out firstly can be collected and put into the crushing casing 1 again for processing, and the discharge effect of the inclined material port is larger than the defect, so that the application requirement is met.

Further, heating components are arranged in the inner wall of the heating furnace shell 5, the stirring rod 7 and the stirring sheet 8, and when the heating furnace heats and melts the powder, the stirring rod 7 and the stirring sheet 8 stir the powder uniformly, so that the dissolving efficiency and quality are improved.

The semi-ring scraping plate 9 can clean raw materials on the inner wall of the heating furnace, ensure the uniqueness of raw materials of each batch of glass solution, and avoid mixing of raw materials with two different formulas due to wall adhesion.

The working principle is as follows: during application, raw materials are led into the crushing cavity 3 through the feeding hopper 2, the fluted disc group 31, the rolling gear 33 and the conveying steel belt 55 in the crushing cavity 3 are driven by the driving motor to realize circulating motion, so that the raw materials are crushed and crushed to be even and refined, then refined raw materials enter the heating furnace through the furnace connecting pipe 4 at the bottom of the crushing shell 1, and as heating components are arranged in the inner wall of the heating furnace shell 5, the stirring rod 7 and the stirring sheet 8, the raw materials are more uniformly dissolved, the processing rate of the heating furnace is improved, the processing quality is obviously improved, meanwhile, the semi-ring scraping plate 9 is also used for cleaning the raw materials on the inner wall, the residue is reduced, and finally, the fully dissolved glass liquid flows into the next processing procedure through the discharging valve port 6.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. 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 (6)

1. The utility model provides a glass processing smelting pot device, includes crushing shell (1), crushing chamber, crushing mechanism, heating smelting pot shell (5) and ejection of compact valve port (6), its characterized in that:

a feeding funnel (2) is arranged at the top of the pulverizer shell (1);

the crushing cavity (3) is positioned in the crushing shell (1), a crushing mechanism is arranged in the crushing cavity (3), the crushing mechanism consists of three groups of fluted disc groups (31), rolling gears (33) and conveying steel belts (35), wherein the three groups of fluted disc groups (31) are horizontally designed and meshed with each other, the three groups of fluted disc groups (31) are meshed with the rolling gears (33) from left to right, and the rolling gears (33) are meshed with convex teeth contained on the conveying steel belts (35);

the bottom of the pulverizer shell (1) is connected with the heating furnace shell (5) through a furnace connecting pipe (4), a transmission rod (7) is arranged in the heating furnace shell (5), a dislocation stirring piece (8) is arranged on the transmission rod (7), a semi-ring scraping plate (9) is arranged at the top end of the transmission rod (7), and the stirring piece (7) is fixedly connected with an external stirring motor (10);

the discharging valve port (6) is fixed at the near bottom end of one side of the heating furnace shell (5).

2. A glass processing furnace apparatus according to claim 1, wherein: the fluted disc group (31) is provided with breaking claws (32), and the breaking claws (32) can be arc-shaped columns or arc-shaped squares.

3. A glass processing furnace apparatus according to claim 1, wherein: the three sets of fluted disc sets (31) are fixedly connected with the driving motor from the leftmost fluted disc set (31) from left to right.

4. A glass processing furnace apparatus according to claim 1, wherein: two ends of the conveying steel belt (35) are provided with outer convex grooves (34), and the outer convex grooves (34) belong to one part of the crushing cavity (3).

5. A glass processing furnace apparatus according to claim 1, wherein: and a bevel material port is arranged in the heating furnace shell (5) corresponding to the discharge valve port (6).

6. A glass processing furnace apparatus according to claim 1, wherein: heating components are arranged in the inner wall of the heating furnace shell (5), the stirring rod (7) and the stirring sheet (8).