CN220976799U - Float glass production melting furnace - Google Patents

Abstract

The utility model discloses a float glass production melting furnace, and relates to the technical field of glass production melting furnaces. Including the bottom plate, bottom plate top one side is provided with the melting furnace mechanism, the melting furnace mechanism contains thermal-insulated shell, thermal-insulated shell top surface middle part is provided with the melting furnace shell, melting furnace mechanism one side is provided with exhaust emission mechanism, exhaust emission mechanism contains the protective housing, protective housing one end inner wall fixedly connected with activated carbon adsorption plate, the first filter of activated carbon adsorption plate one side fixedly connected with, be provided with the space between first filter and the activated carbon adsorption plate. According to the utility model, through the arrangement of the melting furnace mechanism and the waste gas discharge mechanism, the heat insulation shell and the heat insulation cover plate of the melting furnace mechanism can effectively prevent heat loss in the production and processing processes of glass, the smelting efficiency is improved, and the waste gas can be subjected to multistage filtration by the design of the waste gas discharge mechanism, so that the discharge of harmful substances is effectively reduced, and the environment is protected.

Description

Float glass production melting furnace

Technical Field

The utility model relates to the technical field of glass production melting furnaces, in particular to a float glass production melting furnace.

Background

A melting furnace for producing float glass, as disclosed in patent publication 201010114971.0, comprising a melting part arranged at the front section of the melting furnace, a neck arranged at the middle and rear sections of the melting furnace, and a forming part arranged at the rear section of the melting furnace; the melting part, the neck and the forming part are sequentially connected, and the bottom surface of the melting part, the bottom surface of the neck and the bottom surface of the forming part are respectively arranged on the same horizontal plane; a retaining wall is arranged at the bottom of the neck to prevent part of glass liquid of the forming part from flowing back to the melting part through the neck; the height of the retaining wall is set to be the pool depth of the neck, and the length dimension of the retaining wall is equal to the pool width dimension of the neck. The melting furnace for producing float glass has simple structure and easy realization, can obviously reduce the energy consumption and the manufacturing cost of the melting furnace, and is beneficial to improving the quality of glass.

However, in the production and processing process of the glass, the equipment is provided with the internal blocking and retaining wall, and in the production and processing process of the glass, the waste gas treatment mechanism is not arranged, so that the gas generated during melting is easily discharged into the air directly, and the environment pollution is caused, so that a more convenient and practical float glass production melting furnace is provided for the situation, and the use requirement is met.

Disclosure of utility model

The utility model aims to provide a float glass production melting furnace, which solves the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a float glass production melting furnace, includes the bottom plate, bottom plate top one side is provided with melting furnace mechanism, melting furnace mechanism contains heat-insulating housing, heat-insulating housing top surface middle part is provided with melting furnace housing, melting furnace mechanism one side is provided with exhaust emission mechanism, exhaust emission mechanism contains the protective housing, protective housing one end inner wall fixedly connected with activated carbon adsorption plate, activated carbon adsorption plate one side fixedly connected with first filter, be provided with the space between first filter and the activated carbon adsorption plate.

Furthermore, a thermal insulation plate is arranged between the inner wall of the thermal insulation shell and the outer wall of the melting furnace shell, and one side of the top of the melting furnace shell is fixedly connected with an exhaust pipe.

Still further, float glass production melting furnace, melting furnace shell top keep away from blast pipe one side fixedly connected with feed hopper, the feed hopper top is provided with the heat insulation apron, heat insulation apron top fixedly connected with handle.

Still further, a float glass production melting furnace, first filter one side is provided with the sponge filter, sponge filter one side is provided with the second filter, protective housing one side fixedly connected with intake pipe, another side fixedly connected with drain pipe, the valve is installed to the drain pipe one side.

Furthermore, a float glass production melting furnace, protective housing one end fixedly connected with baffle, the exhaust fan is installed to the other end, protective housing one side fixedly connected with supporting shoe.

Furthermore, in the float glass production melting furnace, a connecting pipe is arranged between the exhaust pipe and the air inlet pipe, and the bottom of the bottom plate is fixedly connected with supporting legs.

Compared with the prior art, the utility model has the beneficial effects that:

this float glass production melting furnace, through the setting of melting furnace mechanism and exhaust emission mechanism, in glass's production and course of working, the heat-proof housing and the heat-proof apron of melting furnace mechanism can prevent thermal loss effectively, have improved the efficiency of smelting, have also reduced simultaneously the thermal injury risk to operating personnel, exhaust emission mechanism's design makes waste gas can pass through multistage filtration, has effectively reduced the emission of harmful substance, has protected the environment, and the device simple structure, the practicality is stronger, is fit for promoting.

Meanwhile, a feeding funnel, a handle and the like are arranged at the top of the melting furnace mechanism, so that operators can more conveniently perform glass production operation.

Drawings

FIG. 1 is a schematic diagram of the overall mechanism structure of the present utility model;

FIG. 2 is a schematic view of a furnace apparatus according to the present utility model;

fig. 3 is a schematic view of an exhaust emission device according to the present utility model.

In the figure: 1. a bottom plate; 2. a melting furnace mechanism; 201. a heat insulating housing; 202. a heat insulating plate; 203. a melting furnace shell; 204. an exhaust pipe; 205. a feed hopper; 206. a handle; 207. a heat insulating cover plate; 3. an exhaust emission mechanism; 301. a protective shell; 302. an activated carbon adsorption plate; 303. a first filter plate; 304. a sponge filter plate; 305. a second filter plate; 306. a baffle; 307. an exhaust fan; 308. an air inlet pipe; 309. a drain pipe; 310. a valve; 311. a support block; 4. a connecting pipe; 5. and (5) supporting legs.

Detailed Description

The following description of the embodiments of the present utility model 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 utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

As shown in fig. 1-3, the present utility model provides a technical solution: the utility model provides a float glass production melting furnace, including bottom plate 1, bottom plate 1 top one side is provided with melting furnace mechanism 2, melting furnace mechanism 2 contains insulating housing 201, insulating housing 201 top surface middle part is provided with melting furnace shell 203, melting furnace mechanism 2 one side is provided with exhaust emission mechanism 3, exhaust emission mechanism 3 contains protective housing 301, protective housing 301 one end inner wall fixedly connected with activated carbon adsorption plate 302, first filter 303 of activated carbon adsorption plate 302 one side fixedly connected with is provided with the space between first filter 303 and the activated carbon adsorption plate 302, be provided with connecting pipe 4 between blast pipe 204 and the intake pipe 308, bottom plate 1 bottom fixedly connected with supporting leg 5.

It should be noted that in the use process, firstly, materials enter the interior of the melting furnace shell 203 to be melted, the heat insulation shell 201 and the heat insulation plate 202 of the melting furnace mechanism 2 can play a good role in heat insulation to prevent the temperature in the interior of the melting furnace shell 203 from being reduced, meanwhile, the waste gas in the melting furnace enters the interior of the waste gas discharging mechanism 3 through the connecting pipe 4 and is filtered through the multi-layer filtering plates, thereby effectively reducing the discharge of harmful substances, protecting the environment,

As shown in fig. 2, a float glass production melting furnace is provided, a heat insulation plate 202 is arranged between the inner wall of a heat insulation shell 201 and the outer wall of a melting furnace shell 203, an exhaust pipe 204 is fixedly connected to one side of the top of the melting furnace shell 203, a feeding funnel 205 is fixedly connected to one side of the top of the melting furnace shell 203, which is far away from the exhaust pipe 204, a heat insulation cover plate 207 is arranged at the top of the feeding funnel 205, and a handle 206 is fixedly connected to the top of the heat insulation cover plate 207.

It should be noted that, in the use process, firstly, the heat insulation cover plate 207 is opened through the handle 206, so that materials enter the interior of the shell 203 of the melting furnace through the feeding funnel 205 to be melted, and in the ventilation process, waste gas enters the interior of the exhaust gas discharging mechanism 3 through the exhaust pipe 204, so that the heat loss of the heat insulation shell 201, the heat insulation plate 202 and the heat insulation cover plate 207 can be effectively prevented, the smelting efficiency is improved, meanwhile, the risk of thermal injury to operators is reduced, and the feeding funnel 205, the handle 206 and the like are designed, so that the operators can perform glass production operation more conveniently.

As shown in fig. 3, in the float glass production melting furnace, a sponge filter plate 304 is arranged on one surface of a first filter plate 303, a second filter plate 305 is arranged on one surface of the sponge filter plate 304, an air inlet pipe 308 is fixedly connected on one surface of a protective shell 301, a drain pipe 309 is fixedly connected on the other surface of the protective shell 301, a valve 310 is arranged on one surface of the drain pipe 309, a baffle 306 is fixedly connected on one end of the protective shell 301, an exhaust fan 307 is arranged on the other end of the protective shell, and a supporting block 311 is fixedly connected on one surface of the protective shell 301.

It should be noted that in the use process, the waste gas enters into the waste gas discharging mechanism 3 through the air inlet pipe 308, and meanwhile, the exhaust fan 307 is started, the waste gas enters into condensate generated in the waste gas discharging mechanism 3, the waste gas is discharged through the valve 310 and the drain pipe 309, the waste gas enters into the sponge filter plate 304 through the second filter plate 305, the sponge filter plate 304 can adsorb moisture in the air, the waste gas after preliminary filtration passes through the first filter plate 303, finally, the active carbon adsorption plate 302 adsorbs dust in the waste gas, the dust is discharged through the protective shell 301, and the discharge of harmful substances is effectively reduced through multistage filtration, and the environment is protected.

In the use, through feed hopper 205 to the inside glass raw materials that adds of melting furnace, glass raw materials melts in melting furnace shell 203 inside, the waste gas that produces when melting enters into waste gas emission mechanism 3 inside through blast pipe 204 and connecting pipe 4, waste gas carries out preliminary filtration through sponge filter 304 and second filter 305 next, carry out depth filtration through active carbon adsorption board 302 and first filter 303 at last, discharge at last, effectively reduced the emission of harmful substance, the environment has been protected, insulating housing 201 and insulating cover 207 can prevent the loss of heat effectively, the efficiency of smelting has been improved, the thermal injury risk to operating personnel has also been reduced simultaneously.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made hereto without departing from the spirit and scope of the utility model as defined by the appended embodiments and equivalents thereof.

Claims (6)

1. A float glass production melting furnace comprising a bottom plate (1), characterized in that: bottom plate (1) top one side is provided with melting furnace mechanism (2), melting furnace mechanism (2) contain insulating housing (201), insulating housing (201) top surface middle part is provided with melting furnace shell (203), melting furnace mechanism (2) one side is provided with exhaust emission mechanism (3), exhaust emission mechanism (3) contain protective housing (301), protective housing (301) one end inner wall fixedly connected with active carbon adsorption board (302), active carbon adsorption board (302) one side fixedly connected with first filter (303), be provided with the space between first filter (303) and the active carbon adsorption board (302).

2. A float glass production furnace as defined in claim 1 wherein: a heat insulation plate (202) is arranged between the inner wall of the heat insulation shell (201) and the outer wall of the melting furnace shell (203), and an exhaust pipe (204) is fixedly connected to one side of the top of the melting furnace shell (203).

3. A float glass production furnace according to claim 2, wherein: the utility model discloses a melting furnace, including blast pipe (204) and melting furnace shell, melting furnace shell (203) top is kept away from blast pipe (204) one side fixedly connected with feed hopper (205), feed hopper (205) top is provided with thermal-insulated apron (207), thermal-insulated apron (207) top fixedly connected with handle (206).

4. A float glass production furnace as defined in claim 1 wherein: the novel filter comprises a protective shell (301), and is characterized in that a sponge filter plate (304) is arranged on one surface of the first filter plate (303), a second filter plate (305) is arranged on one surface of the sponge filter plate (304), an air inlet pipe (308) is fixedly connected to one surface of the protective shell (301), a drain pipe (309) is fixedly connected to the other surface of the protective shell, and a valve (310) is arranged on one surface of the drain pipe (309).

5. A float glass production furnace as defined in claim 1 wherein: one end of the protective shell (301) is fixedly connected with a baffle (306), the other end of the protective shell is provided with an exhaust fan (307), and one surface of the protective shell (301) is fixedly connected with a supporting block (311).

6. A float glass production furnace according to claim 2, wherein: a connecting pipe (4) is arranged between the exhaust pipe (204) and the air inlet pipe (308), and the bottom of the bottom plate (1) is fixedly connected with supporting legs (5).