CN215924789U - Vertical type injection cooling device for industrial byproduct gypsum - Google Patents

Abstract

The utility model discloses a vertical type injection cooling device for industrial byproduct gypsum, which comprises a shell, wherein a plurality of injection material guide boxes are arranged in an inner cavity of the shell; the opposite corresponding ends of every two adjacent blowing material guiding boxes are respectively close to the inner wall direction of the shell, the opposite corresponding ends of every two adjacent blowing material guiding boxes are respectively in an opening shape and far away from the inner wall direction of the shell, and the height of the opening end of each blowing material guiding box is lower than that of the opposite end of each blowing material guiding box; the blowing material guide boxes positioned at the uppermost part and the lowermost part respectively correspond to the feeding hole and the discharging hole; the blowing material guide box is internally provided with an air vent plate with blowing filter cloth, an air chamber is reserved below the air vent plate, and a cold air inlet pipe communicated with the air chamber is arranged on the blowing material guide box. The utility model greatly reduces the storage time of the gypsum powder and the floor area of cooling and cooling, also reduces the addition amount of the retarder and can better meet the use indexes of products such as plastering gypsum, gypsum-based self-leveling and the like.

Description

Vertical type injection cooling device for industrial byproduct gypsum

Technical Field

The utility model belongs to the technical field of gypsum cooling equipment, and particularly relates to a vertical type blowing cooling device for industrial byproduct gypsum.

Background

With the new trend of energy conservation and wall reformation of the current buildings, novel energy-saving and environment-friendly wall materials are urgently needed, and with the increasing acceptance of concepts of ecological buildings and green building materials, functional novel green building materials mainly made of gypsum are increasingly favored by the building industry; the gypsum products on the market are various and most of the gypsum products have better economic benefit. Therefore, how to utilize the characteristics of the industrial by-product gypsum and process the industrial by-product gypsum into various gypsum building material products by a feasible process method, and recycling and marketing the industrial waste is one of the most effective ways to solve the comprehensive utilization of the industrial by-product gypsum and the environmental protection.

In the production process of industrial by-product gypsum, the temperature of finished gypsum powder can only be reduced by 50 ℃ in the traditional cooling equipment after the finished gypsum powder is discharged from a calcining furnace. The excessive temperature of the gypsum powder can influence the use effect of the additive, increase the storage aging time, increase the production cost and also not meet the energy-saving and environment-friendly requirement advocated by the state.

Therefore, a vertical type spraying cooling device for industrial byproduct gypsum needs to be designed.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problems in the prior art and provide a vertical type spraying cooling device for industrial byproduct gypsum so as to overcome the defects in the prior art.

In order to achieve the aim, the utility model relates to a vertical type spraying and cooling device for industrial byproduct gypsum, which comprises a vertically arranged shell,

a plurality of blowing material guiding boxes which are vertically staggered and corresponding and are transversely arranged are uniformly and fixedly arranged in the inner cavity of the shell, and the top surfaces of the blowing material guiding boxes are open;

the opposite corresponding ends of every two adjacent blowing material guiding boxes are respectively close to the inner wall direction of the shell, the opposite corresponding ends of every two adjacent blowing material guiding boxes are respectively in an opening shape, one end of the opening of each blowing material guiding box is far away from the inner wall direction of the shell, and the height of one end of the opening of each blowing material guiding box is lower than that of the opposite end of the opening of the same,

the uppermost blowing material guide box corresponds to a feed port arranged at the top end of the shell, and the lowermost blowing material guide box corresponds to a discharge port arranged at the bottom end of the shell;

every be equipped with ventilative hole board in the jetting guide box, the top surface of ventilative hole board is equipped with the jetting filter cloth, the below of ventilative hole board with leave the air chamber that is used for cold wind to flow between the bottom plate of jetting guide box, be equipped with on the jetting pouring box with the cold wind that the air chamber link up advances the pipe, cold wind advances the pipe and communicates each other with the fan.

In order to facilitate the disassembly, the maintenance and the replacement of accessories, the blowing material guide box is of an upper and lower split structure, and the air permeable hole plate and the blowing filter cloth are clamped and fixed between the upper and lower split structures of the blowing material guide box through fastening bolts.

In order to facilitate the arrangement of pipelines, a cold air collecting pipe communicated with the cold air inlet pipe is arranged in the shell, and the starting end of the cold air collecting pipe is communicated with the fan.

In order to improve the strength of the fixed support, the bottom surface of the blowing material guide box is fixedly connected with the shell through a channel steel.

In order to facilitate dust removal, a dust remover communicated with the inner cavity of the shell through a pipeline is arranged at the top end of the shell.

The utility model solves the technical problem of low cooling efficiency of the current industrial byproduct gypsum cooling equipment, greatly reduces the storage time of gypsum powder and the floor area of cooling and cooling, also reduces the addition amount of retarder, and can better meet the use indexes of products such as plastering gypsum, gypsum-based self-leveling and the like.

Drawings

FIG. 1 is a front view of the present invention in a schematic configuration;

FIG. 2 is a schematic side view of the structure of the present invention;

FIG. 3 is a front view schematically showing the structure of the blowing guide box according to the present invention;

FIG. 4 is a schematic side view of the blowing guide box according to the present invention;

FIG. 5 is a schematic plan view of the structure of the air-permeable panel according to the present invention.

In the figure 1, a shell 2, a feed inlet 3, a discharge outlet 4, a blowing pouring box 401, a cold air inlet pipe 402, an air chamber 403, an air vent plate 404, a blowing filter cloth 5, a cold air collecting pipe 6, an inner cavity 7 and channel steel.

Detailed Description

For a more clear description of the utility model, reference will now be made briefly to embodiments, which are illustrated in the accompanying drawings, and it will be apparent to those skilled in the art that the drawings described below are merely exemplary of the utility model, from which other drawings may be derived without inventive step.

Example one

Referring to fig. 1 to 5, the utility model relates to a vertical type blowing cooling device for industrial byproduct gypsum, which comprises a vertically arranged shell 1,

a plurality of blowing material guiding boxes which are vertically staggered and corresponding and are transversely arranged are uniformly and fixedly arranged in the inner cavity of the shell 1, and the top surfaces of the blowing material guiding boxes are open;

the opposite corresponding ends of every two adjacent blowing material guiding boxes are respectively close to the inner wall direction of the shell, the opposite corresponding ends of every two adjacent blowing material guiding boxes are respectively in an opening shape, one end of the opening of each blowing material guiding box is far away from the inner wall direction of the shell, and the height of one end of the opening of each blowing material guiding box is lower than that of the opposite end of the opening of the same,

the uppermost blowing material guide box corresponds to a feed port arranged at the top end of the shell, and the lowermost blowing material guide box corresponds to a discharge port arranged at the bottom end of the shell;

each blowing guide box is internally provided with a gas permeable hole plate, the top surface of the gas permeable hole plate is provided with blowing filter cloth, an air chamber used for cold air to flow is reserved between the lower part of the gas permeable hole plate and the bottom plate of the blowing guide box, the blowing guide box is provided with a cold air inlet pipe communicated with the air chamber, and the cold air inlet pipe is communicated with a fan.

In order to facilitate the disassembly, the maintenance and the replacement of accessories, the blowing material guide box is of an upper and lower split structure, and the air permeable hole plate and the blowing filter cloth are clamped and fixed between the upper and lower split structures of the blowing material guide box through fastening bolts.

In order to facilitate the arrangement of pipelines, a cold air collecting pipe communicated with the cold air inlet pipe is arranged in the shell, and the starting end of the cold air collecting pipe is communicated with the fan.

In order to improve the strength of the fixed support, the bottom surface of the blowing material guide box is fixedly connected with the shell through a channel steel.

In order to facilitate dust removal, a dust remover communicated with the inner cavity of the shell through a pipeline is arranged at the top end of the shell.

The working principle is as follows:

the calcined powdery industrial byproduct gypsum enters the inner cavity of the shell from the feed inlet at the temperature of 165 ℃, falls into the uppermost injection guide box, and due to the inclined arrangement of the injection guide boxes, the material falls into the lower injection guide box from the upper injection guide box and falls down from top to bottom in sequence. Meanwhile, cooling air enters each air chamber from the cold air collecting pipe through the cold air inlet pipe under the action of the fan, and is blown to the materials through the air permeable hole plate and the blowing filter cloth so as to cool the gypsum powder. The gypsum powder continuously moves downwards in the blowing and floating process and the inclined blowing material guide box, so that the cooling effect is achieved, and the gypsum powder is discharged from a discharge hole after the temperature is reduced to 65 ℃.

Dust generated in the whole process enters the dust remover through the pipeline at the top end of the shell to be subjected to dust removal treatment. The blowing filter cloth is used for preventing gypsum powder from penetrating, plays a good role in blocking, can play a role in ventilation and blowing, and can be detached and replaced after being used for a period of time.

The utility model solves the technical problem of low cooling efficiency of the current industrial byproduct gypsum cooling equipment, greatly reduces the storage time of gypsum powder and the floor area of cooling and cooling, also reduces the addition amount of retarder, and can better meet the use indexes of products such as plastering gypsum, gypsum-based self-leveling and the like.

Claims (5)

1. A vertical blowing cooling device for industrial by-product gypsum, which comprises a vertically arranged shell (1),

a plurality of blowing material guiding boxes (4) which are vertically staggered and corresponding and transversely arranged are uniformly and fixedly arranged in the inner cavity of the shell (1), and the top surfaces of the blowing material guiding boxes (4) are open;

the opposite corresponding ends of every two adjacent blowing material guiding boxes (4) are respectively close to the inner wall direction of the shell (1), the opposite corresponding ends of every two adjacent blowing material guiding boxes (4) are respectively in an opening shape, one end of the opening of each blowing material guiding box (4) is far away from the inner wall direction of the shell (1), and the height of one end of the opening of each blowing material guiding box (4) is lower than that of the opposite end of the opening;

the uppermost blowing material guide box (4) corresponds to a feed port (2) arranged at the top end of the shell (1), and the lowermost blowing material guide box (4) corresponds to a discharge port (3) arranged at the bottom end of the shell (1);

every jetting material guide box (4)'s inside all is equipped with rather than the inside diameter looks adaptation and has bleeder vent board (403) of a plurality of holes, the top surface of bleeder vent board (403) covers has jetting filter cloth (404) rather than the matching, the below of bleeder vent board (403) with leave air chamber (402) that are used for cold wind to flow between the bottom plate of jetting material guide box (4), be equipped with on jetting material guide box (4) with cold wind inlet tube (401) that air chamber (402) link up each other, cold wind inlet tube (401) communicate with the fan each other.

2. The vertical type spraying and cooling device for the industrial byproduct gypsum as claimed in claim 1, wherein the spraying and guiding box (4) is of a split structure, and the air-permeable hole plate (403) and the spraying and filtering cloth (404) are clamped and fixed between the split structure of the spraying and guiding box (4) by fasteners.

3. The vertical type blowing and cooling device for industrial byproduct gypsum as claimed in claim 1, wherein a cold air collecting pipe (5) communicated with the cold air inlet pipe (401) is arranged in the housing (1), and the beginning end of the cold air collecting pipe (5) is communicated with the fan.

4. The vertical type spraying cooling device for the industrial byproduct gypsum as claimed in claim 1, wherein the bottom surface of the spraying material guiding box (4) is fixedly connected with the shell (1) through a channel steel (7).

5. The vertical type spraying and cooling device for the industrial byproduct gypsum as claimed in claim 1, wherein a dust remover communicated with the inner cavity of the housing (1) through a pipeline is arranged at the top end of the housing.

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