CN211012440U - Catalyst sintering equipment - Google Patents

Abstract

The utility model discloses a catalyst sintering equipment, the on-line screen storage device comprises a base, fixed mounting has the fritting furnace body on the base, the fritting furnace body includes shell and interior stove, fixedly connected with heat preservation layer subassembly between interior stove and the shell, the heat preservation subassembly includes high temperature resistant corrosion resistant plate layer, one side of fritting furnace body articulates there is the furnace gate, fixedly connected with handle on the furnace gate. The device is through high temperature resistant stainless steel plate layer, aluminium silicate insulation board layer, thermal-insulated cotton layer, high temperature resistant phenolic foam layer, the mating reaction of magnesium oxide filling layer and sealed post, thermal scattering and disappearing in the sintering process has effectively been avoided, reinforcing heat preservation performance, draw sealed post and open the radiating groove, the radiating efficiency has effectively been strengthened, the explosion phenomenon that the inside high temperature of fritting furnace and lead to has effectively been prevented, make the heat preservation and the heat dispersion of fritting furnace body obtain effectual compromise, thereby work efficiency has been improved greatly, the life of device has been prolonged.

Description

Catalyst sintering equipment

Technical Field

The utility model belongs to the technical field of sintering equipment, concretely relates to catalyst sintering equipment.

Background

The production process of the catalyst roughly comprises the following steps: mixing → rough pressing → extrusion molding → cutting → drying → calcining → stacking to form a module, wherein in the process of calcining after drying, the catalyst monomer is put into a large sintering kiln for calcining. Traditional fritting furnace is when sintering, and for the thermal insulation performance of reinforcing furnace body through set up the heat preservation on the oven, its single structure, the heat preservation effect is unsatisfactory to, can not compromise the heat dispersion of furnace body when reaching furnace body thermal insulation performance, be difficult to the effluvium when the stove internal temperature is high and very easily arouse furnace body explosion phenomenon, the inside heat discharge efficiency of furnace body is low, is influencing the life of furnace body.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a catalyst sintering equipment to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a catalyst sintering equipment, includes the base, fixed mounting has the fritting furnace body on the base, the fritting furnace body includes shell and interior stove, fixedly connected with heat preservation layer subassembly between interior stove and the shell, the heat preservation subassembly includes high temperature resistant corrosion resistant plate layer, fixedly connected with aluminium silicate insulation board layer on the high temperature resistant corrosion resistant plate layer, the thermal-insulated cotton layer of fixedly connected with on the aluminium silicate insulation board layer, the top of shell slides and inserts tightly there is sealed post, sealed post runs through on heat preservation subassembly to the interior stove, one side of fritting furnace body articulates there is the furnace gate, fixedly connected with handle on the furnace gate.

Preferably, the aluminum silicate heat preservation plate layer is arranged in a wavy structure, and two sides of the aluminum silicate heat preservation plate layer are attached to the high-temperature-resistant stainless steel plate layer and the heat insulation cotton layer.

The length and the area of the aluminum silicate heat-insulating plate layer are convenient to increase through the arrangement, and the connection structure is stable, so that the heat insulation and high temperature resistance of the sintering furnace body are facilitated to be enhanced, and the service life of the device is further prolonged.

Preferably, the inside on thermal-insulated cotton layer is equipped with the mounting groove of wavy structure, it has high temperature resistant phenolic foam layer to fill on the mounting groove, the inside on high temperature resistant stainless steel sheet layer is equipped with evenly distributed's installation cavity, it has the magnesium oxide filling layer to fill on the installation cavity.

This setting is convenient for high temperature resistant phenolic foam layer and magnesium oxide filling layer thermal insulation, high temperature resistance can be good, through its cooperation effect with thermal-insulated cotton layer and high temperature resistant stainless steel sheet layer, has further strengthened the high temperature resistant and the thermal insulation performance of heat preservation subassembly.

Preferably, the sealing column is fixedly connected with a heat insulation cotton layer, an aluminum silicate heat insulation plate layer and a high temperature resistant stainless steel plate layer, and the sealing column is correspondingly connected with the heat insulation layer assembly.

This setting has effectively strengthened the high temperature resistant and the heat preservation heat-proof quality of sealed post, is convenient for seal the radiating groove, effectively guarantees the operating mass of fritting furnace body, easy dismounting uses in a flexible way.

Preferably, all be equipped with the radiating groove on shell, the heat preservation layer subassembly and the interior stove, radiating groove and sealing post looks accordant connection, fixedly connected with heat conduction copper sheet on the cell wall of radiating groove.

This setting has effectively strengthened the heat conduction efficiency of radiating groove, and after the catalyst sintering was accomplished, take out the sealed post, opened the radiating groove promptly, has effectively strengthened the radiating efficiency, is favorable to the quick cooling of product to the explosion phenomenon that sintering furnace temperature too high and lead to has effectively been prevented.

Preferably, the top of the sealing column is fixedly connected with a handle, and a rubber sealing gasket is arranged between the handle and the shell.

This setting is convenient for extract sealed post, and the flexible operation is used conveniently, has effectively strengthened the leakproofness of handle with radiating groove port department through the sealed pad of rubber, is convenient for guarantee the sintering furnace body during operation heat preservation quality.

Compared with the prior art, the utility model discloses a technological effect and advantage: according to the catalyst sintering equipment, the high-temperature resistance and the heat preservation performance of a heat preservation layer assembly are enhanced through the cooperation effect of the high-temperature resistant stainless steel plate layer, the aluminum silicate heat preservation plate layer, the heat insulation cotton layer, the high-temperature resistant phenolic foam layer, the magnesium oxide filling layer and the sealing column, so that the heat loss in the sintering process is effectively avoided, the heat preservation performance is greatly enhanced, when the inner furnace needs to be cooled, the handle is held to extract the sealing column, namely the heat dissipation groove is opened, the heat can be rapidly led out, the heat dissipation efficiency is effectively enhanced, the rapid cooling of a product is facilitated, and the explosion phenomenon caused by the fact that the temperature inside the sintering furnace is too high is effectively prevented; the device makes the heat preservation and the heat dispersion of fritting furnace body obtain effectual taking into account to improve work efficiency greatly, prolonged the life of device.

Drawings

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

FIG. 2 is a schematic view of the cross-sectional structure of the present invention;

fig. 3 is an enlarged schematic structural diagram of a in fig. 2 according to the present invention.

In the figure: 1. a base; 2. a sintering furnace body; 201. a housing; 202. an inner furnace; 3. a thermal insulation layer assembly; 301. A high temperature resistant stainless steel plate layer; 302. an aluminum silicate heat-insulating board layer; 303. a heat insulating cotton layer; 304. mounting grooves; 305. a high temperature resistant phenolic foam layer; 306. a magnesium oxide fill layer; 307. a mounting cavity; 4. a furnace door; 401. A handle; 5. sealing the column; 501. a handle; 502. a rubber gasket; 503. a heat sink; 504. a thermally conductive copper sheet.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely below with reference to 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.

As shown in fig. 1-3, a catalyst sintering apparatus includes a base 1, a sintering furnace body 2 is fixedly mounted on the base 1, the sintering furnace body 2 includes an outer shell 201 and an inner furnace 202, a heat insulation layer assembly 3 is fixedly connected between the inner furnace 202 and the outer shell 201, the heat insulation layer assembly 3 includes a high temperature resistant stainless steel plate layer 301, specifically, the high temperature resistant stainless steel plate layer 301 has high structural strength, good high temperature resistance, firmness and durability, and effectively protects the inner furnace 202;

an aluminum silicate heat-insulation board layer 302 is fixedly connected to the high-temperature-resistant stainless steel plate layer 301, and a heat-insulation cotton layer 303 is fixedly connected to the aluminum silicate heat-insulation board layer 302, and specifically, the aluminum silicate heat-insulation board layer 302 and the heat-insulation cotton layer 303 have excellent heat insulation, high-temperature resistance and crack resistance, and the heat insulation performance of the sintering furnace body is enhanced;

the top of shell 201 slides and inserts tightly there is sealed post 5, sealed post 5 runs through heat preservation subassembly 3 to interior stove 202 on, one side of fritting furnace body 2 articulates there is furnace gate 4, fixedly connected with handle 401 on the furnace gate 4, it is concrete, sealed post 5 is convenient for carry out the dismouting on interior stove 202 through radiating groove 503 and handle 501, and the leakproofness is good for interior stove 202 also can compromise, guarantee heat dispersion when guaranteeing heat preservation performance, and then is favorable to extension fixture's life.

The aluminum silicate heat-insulation board layer 302 is arranged in a wavy structure, and two sides of the aluminum silicate heat-insulation board layer 302 are attached to the high-temperature-resistant stainless steel plate layer 301 and the heat-insulation cotton layer 303; the length and the area of the aluminum silicate heat-insulating plate layer 302 are convenient to increase, and the connecting structure is stable, so that the heat-insulating and high-temperature-resistant performance of the sintering furnace body 2 is favorably enhanced, and the service life of the device is further prolonged.

The interior of the heat insulation cotton layer 303 is provided with a mounting groove 304 with a wavy structure, the mounting groove 304 is filled with a high-temperature resistant phenolic foam layer 305, the interior of the high-temperature resistant stainless steel plate layer 301 is provided with uniformly distributed mounting cavities 307, and the mounting cavities 307 are filled with a magnesium oxide filling layer 306; the high-temperature-resistant phenolic foam layer 305 and the magnesium oxide filling layer 306 are convenient to insulate heat, and have excellent high-temperature-resistant performance, and the high-temperature-resistant and heat-preserving performances of the heat-preserving layer component 3 are further enhanced through the matching effect of the high-temperature-resistant phenolic foam layer, the heat-insulating cotton layer and the high-temperature-resistant stainless steel plate layer 301.

The sealing column 5 is fixedly connected with a heat insulation cotton layer 303, an aluminum silicate heat insulation plate layer 302 and a high temperature resistant stainless steel plate layer 301, and is correspondingly connected with the heat insulation layer assembly 3; the high temperature resistance and the heat preservation and heat insulation performance of the sealing column 5 are effectively enhanced, the heat dissipation groove 503 is convenient to seal, the working quality of the sintering furnace body 2 is effectively guaranteed, the dismounting is convenient, and the use is flexible.

The shell 201, the heat-insulating layer assembly 3 and the inner furnace 202 are all provided with heat dissipation grooves 503, the heat dissipation grooves 503 are connected with the sealing columns 5 in a matching manner, and the wall of each heat dissipation groove 503 is fixedly connected with a heat-conducting copper sheet 504; the heat conduction efficiency of the heat dissipation groove 503 is effectively enhanced, and after the catalyst is sintered, the sealing column 5 is taken out, namely the heat dissipation groove 503 is opened, so that the heat dissipation efficiency is effectively enhanced, the product is rapidly cooled, and the explosion phenomenon caused by overhigh temperature of the sintering furnace is effectively prevented.

The top of the sealing column 5 is fixedly connected with a handle 501, and a rubber sealing gasket 502 is arranged between the handle 501 and the shell 201; be convenient for extract sealed post 5, the flexible operation is convenient to use, has effectively strengthened the leakproofness of handle 501 with radiating groove 503 port department through rubber packing pad 502, is convenient for guarantee sintering furnace body 2 during operation heat preservation quality.

Specifically, when the heat-insulating and heat-preserving integrated furnace is used, the heat resistance and heat-preserving performance of the heat-insulating layer component 3 are enhanced through the cooperation of the high-temperature-resistant stainless steel plate layer 301, the aluminum silicate heat-insulating plate layer 302, the heat-insulating cotton layer, the high-temperature-resistant phenolic foam layer 305, the magnesium oxide filling layer 306 and the sealing column 5, so that heat loss in the sintering process is effectively avoided, the heat-preserving performance is greatly enhanced, and when the inner furnace 202 needs to be cooled, the handle 501 is held to extract the sealing column 5, namely the heat-dissipating groove 503 is opened, so that heat can be rapidly led out, the heat-dissipating efficiency is effectively enhanced, the product can be rapidly cooled, and the explosion phenomenon caused by overhigh temperature in the sintering furnace is effectively; the device makes the heat preservation and the heat dispersion of fritting furnace body 2 obtain effectual taking into account to improve work efficiency greatly, prolonged the life of device.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications and variations can be made in the embodiments or in part of the technical features of the embodiments without departing from the spirit and the scope of the invention.

Claims (6)

1. A catalyst sintering apparatus comprising a base (1), characterized in that: fixed mounting has fritting furnace body (2) on base (1), fritting furnace body (2) are including shell (201) and interior stove (202), fixedly connected with heat preservation layer subassembly (3) between interior stove (202) and shell (201), heat preservation layer subassembly (3) are including high temperature resistant stainless steel layer (301), fixedly connected with aluminium silicate heat preservation sheet layer (302) are gone up in high temperature resistant stainless steel layer (301), fixedly connected with thermal-insulated cotton layer (303) of fixedly connected with are gone up on aluminium silicate heat preservation sheet layer (302), the top of shell (201) slides and inserts tightly has sealed post (5), sealed post (5) run through heat preservation layer subassembly (3) to interior stove (202) on, one side of fritting furnace body (2) articulates there is furnace gate (4), fixedly connected with handle (401) on furnace gate (4).

2. The catalyst sintering apparatus according to claim 1, wherein: the aluminum silicate heat-preservation plate layer (302) is arranged in a wavy structure, and two sides of the aluminum silicate heat-preservation plate layer (302) are attached to the high-temperature-resistant stainless steel plate layer (301) and the heat-insulation cotton layer (303).

3. The catalyst sintering apparatus according to claim 1, wherein: the inside of thermal-insulated cotton layer (303) is equipped with mounting groove (304) of wavy structure, it has high temperature resistant phenolic foam layer (305) to fill on mounting groove (304), the inside of high temperature resistant stainless steel sheet layer (301) is equipped with evenly distributed's installation cavity (307), it has magnesium oxide filling layer (306) to fill on installation cavity (307).

4. The catalyst sintering apparatus according to claim 1, wherein: the sealing column (5) is fixedly connected with a heat insulation cotton layer (303), an aluminum silicate heat insulation plate layer (302) and a high temperature resistant stainless steel plate layer (301), and is correspondingly connected with the heat insulation layer assembly (3).

5. The catalyst sintering apparatus according to claim 1, wherein: all be equipped with radiating groove (503) on shell (201), heat preservation layer subassembly (3) and interior stove (202), radiating groove (503) and sealing post (5) phase-match connection, fixedly connected with heat conduction copper sheet (504) on the cell wall of radiating groove (503).

6. The catalyst sintering apparatus according to claim 1, wherein: the top fixedly connected with handle (501) of sealed post (5), be equipped with rubber packing pad (502) between handle (501) and shell (201).

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