CN220860695U - Tailing sand stoving steam condensation recovery mechanism - Google Patents

Abstract

The utility model discloses a tailing sand drying vapor condensation recovery mechanism in the technical field of tailing sand purification treatment, which comprises a vapor recovery device, wherein the vapor recovery device comprises a storage component and a condensation recovery component for condensing and recovering the tailing sand drying vapor, the condensation recovery component is arranged at the top of the storage component, and a plurality of groups of activated carbon filter plates are additionally arranged in a filter tank body to perform multiple adsorption and filtration treatment on particulate matters in vapor matters.

Description

Tailing sand stoving steam condensation recovery mechanism

Technical Field

The utility model relates to the technical field of tailing sand purification treatment, in particular to a tailing sand drying water vapor condensation recovery mechanism.

Background

Tailings are the fraction of the product of the separation operation in beneficiation that has a low level of useful target components and cannot be used for production. Comprehensive utilization of tailings includes the following approaches: the tailings can be used as filling materials of underground mining goafs of mines, namely water sand filling materials or cemented filling aggregates; the tailings can be used as raw materials of building materials; the tailings can be used for constructing highways, pavement materials, anti-slip materials, coastal farmland building and the like; soil can be covered on a tailing stacking field to form a field, and crops or tree planting can be planted; the tailings can also be piled up in a specially constructed tailings pond. When the tailing sand is treated, the working procedures of sand washing, sand-water separation, drying and the like are needed.

When the tailing sand is subjected to a drying treatment process, a large amount of water vapor substances are generated, and the water vapor substances contain a large amount of water and fine particles, so that the direct discharge of the water vapor substances can cause air pollution, and therefore, recovery treatment is required when the water vapor substances are discharged.

At present, the structural design of a vapor condensation recovery device used for drying the tailing sand is too single, and in the using process, the existing vapor condensation recovery device cannot adsorb and filter particulate matters impurities in vapor substances, cannot rapidly liquefy the high-temperature vapor substances, and has certain limitation in the using process. For this reason, we propose a tailing sand drying water vapor condensation recovery mechanism to solve the above-mentioned problems.

Disclosure of utility model

This section is intended to outline some aspects of embodiments of the utility model and to briefly introduce some preferred embodiments. Some simplifications or omissions may be made in this section as well as in the description of the utility model and in the title of the utility model, which may not be used to limit the scope of the utility model.

Therefore, the utility model aims to provide a tailing sand drying water vapor condensation recovery mechanism, which can solve the problems that the existing water vapor condensation recovery device cannot adsorb and filter particulate impurities in water vapor substances and cannot rapidly liquefy high-temperature water vapor substances, and has certain limitation in use.

In order to solve the technical problems, the utility model provides a tailing sand drying water vapor condensation recovery mechanism, which adopts the following technical scheme: the device comprises a vapor recovery device, wherein the vapor recovery device comprises a storage component and a condensation recovery component for condensing and recovering the tailing sand drying vapor, and the condensation recovery component is arranged at the top of the storage component;

The condensation recovery assembly comprises a filtering component, one side of the filtering component is provided with a condensation component, and a gas transmission pipe fitting is further connected between the condensation component and the top of the filtering component.

Through adopting above-mentioned technical scheme, this tailing sand stoving steam condensation recovery mechanism is when using, through the admission line of filtering jar body one side bottom connection, can carry the inside of filtering jar body with the steam material of high temperature in the tailing sand drying equipment, through a plurality of active carbon filter boards of filtering jar internal portion and installing additional, can carry out multiple absorption and filtration treatment to the particulate matter impurity in the steam material, adsorb the inside that filters the steam material that finishes and can be discharged into condensation part through the gas-supply pipe fitting, through inlet tube and the outlet pipe of installing additional in filtering jar body one side, be used for injection and the discharge of cooling water, when the steam material of high temperature enters into the heat conduction spiral pipe of installing additional in the cooling jar body, can play quick refrigerated processing to the steam material of high temperature, can make steam fast turn into liquid water, the steam material of conversion into liquid water's steam material flows down through the gravity, finally the inside of catchment water storage jar, through the aforesaid can know, the tailing sand stoving recovery mechanism of this scheme design, can carry out absorption and filter the particulate matter in the steam material in the process of using and promote the steam material and adsorb the processing simultaneously, can also promote the practical steam material in this technical field of purifying.

Optionally, the storage assembly includes a water storage tank, and a supporting seat is installed at the bottom of the water storage tank.

Through adopting above-mentioned technical scheme, this scheme is through the supporting seat at water storage tank bottom additional installation for the support of water storage tank, filter element, condensation part.

Optionally, a first connecting flange is installed at one end top of the water storage tank, and a discharge valve is arranged at one end bottom of the water storage tank far away from the first connecting flange.

Through adopting above-mentioned technical scheme, this scheme is through the first flange that installs additional at water storage tank one end top for through connection between water storage tank and the condensation part.

Optionally, the filter component includes the filtration jar body, the one side bottom of the filtration jar body is connected with the admission line, the top of the filtration jar body is provided with the second flange.

Through adopting above-mentioned technical scheme, this scheme is through the admission line that installs additional in filtration jar body one side bottom, can carry the inside of filtration jar body with the steam material of the high temperature in the tailing sand drying equipment.

Optionally, a filtering cavity is formed in the filtering tank body, and a plurality of groups of activated carbon filter plates are arranged in the filtering cavity.

Through adopting above-mentioned technical scheme, this scheme is through a plurality of groups of active carbon filter that installs additional in the filtration cavity inside for particulate matter impurity's absorption and filtration in the steam material.

Optionally, the condensing part comprises a cooling tank body, and two ends of the cooling tank body are respectively provided with a third connecting flange.

Through adopting above-mentioned technical scheme, this scheme is through the third flange that installs additional respectively at cooling tank body both ends, can link up the cooling tank body and connect between water storage tank and filter element.

Optionally, a water inlet pipe is connected to a side top of the cooling tank body, a water outlet pipe is further arranged at a side bottom of the cooling tank body, which is close to the water inlet pipe, and a cold water cavity is further formed in the cooling tank body.

Through adopting above-mentioned technical scheme, this scheme is through inlet tube and outlet pipe that installs additional in filtering jar body one side for the injection and the discharge of cooling water.

Optionally, a heat-conducting spiral pipe is connected between the two groups of third connecting flanges, and the heat-conducting spiral pipe is located in the middle of the inner cavity of the cold water cavity.

Through adopting above-mentioned technical scheme, this scheme can prolong steam material circulation route through the heat conduction spiral pipe that installs additional between two sets of third flange, when also can carry out heat transfer treatment to the steam material of high temperature.

In summary, the present utility model includes at least one of the following beneficial effects: this kind of tailing sand stoving steam condensation recovery mechanism's structural design is novel, when using, through the admission line of filtering jar body one side bottom connection, can carry the inside to the filtration jar body with the steam material of high temperature in the tailing sand drying equipment, through a plurality of active carbon filter boards of the inside additional installation of filtration jar, can carry out multiple absorption and filtration treatment to the particulate matter impurity in the steam material, adsorb the inside that filters the steam material that finishes and discharge condensation part through the gas-supply pipe fitting, through inlet tube and the outlet pipe of adding at filtration jar body one side, be used for injection and the discharge of cooling water, when the steam material of high temperature enters into the heat conduction spiral pipe of the inside additional installation of cooling jar, can play quick refrigerated processing to the steam material of high temperature, can make steam fast turn into liquid water, the steam material of conversion into liquid water's steam material flows down through the gravity, finally the inside of catchment jar, through the aforesaid can know, the inside of the tailing sand stoving warm water condensation recovery mechanism of this scheme design, can carry out absorption filtration treatment to the particulate matter in the material in the process of using and promote the steam impurity in the steam material and promote the time, can also be at this practical high-speed of the processing of the steam material in the technical field.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed for the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

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

FIG. 2 is a schematic view of a condensate recovery assembly according to the present utility model;

FIG. 3 is a schematic diagram of a memory module according to the present utility model;

FIG. 4 is a schematic view of the structure of the filter element of the present utility model;

Fig. 5 is a schematic view of the structure of the condensing unit of the present utility model.

Reference numerals illustrate: 100. a water vapor recovery device; 101. a storage component; 101a, a water storage tank; 101a-1, a first connection flange; 101a-2, a discharge valve; 101b, a supporting seat; 102. a condensation recovery assembly; 102a, a filter element; 102a-1, a filter tank; 102a-1a, a filtration cavity; 102a-1b, activated carbon filter plates; 102a-2, an air intake duct; 102a-3, a second connection flange; 102b, a condensing part; 102b-1, cooling the tank; 102b-1a, water inlet pipe; 102b-1b, a water outlet pipe; 102b-1c, a cold water cavity; 102b-2, a third connecting flange; 102b-2a, a thermally conductive spiral tube; 102c, a gas transmission pipe fitting.

Detailed Description

The utility model is described in further detail below with reference to fig. 1-5.

Referring to fig. 1-3, the utility model discloses a tailing sand drying water vapor condensation recovery mechanism,

The device comprises a vapor recovery device 100, wherein the vapor recovery device 100 comprises a storage component 101 and a condensation recovery component 102 for condensing and recovering the tailing sand drying vapor, and the condensation recovery component 102 is arranged on the top of the storage component 101;

The condensation recycling assembly 102 comprises a filtering component 102a, a condensation component 102b is arranged on one side of the filtering component 102a, and a gas transmission pipe fitting 102c is further connected between the condensation component 102b and the top of the filtering component 102 a.

The storage assembly 101 comprises a water storage tank 101a, wherein a supporting seat 101b is arranged at the bottom of the water storage tank 101a, and the supporting seat 101b is additionally arranged at the bottom of the water storage tank 101a and is used for supporting the water storage tank 101a, the filtering component 102a and the condensing component 102 b.

In order to solve the problem that the existing vapor condensation recovery device cannot perform adsorption filtration treatment on particulate matter impurities in vapor substances and cannot perform rapid liquefaction treatment on high-temperature vapor substances, the second embodiment has a certain limitation in use, and based on the same concept as that of the first embodiment, the tailing sand drying vapor condensation recovery mechanism further comprises:

The first connection flange 101a-1 is installed at the top of one end of the water storage tank 101a, the drain valve 101a-2 is provided at the bottom of one end of the water storage tank 101a far away from the first connection flange 101a-1, and the water storage tank 101a is used for through connection between the water storage tank 101a and the condensation part 102b through the first connection flange 101a-1 additionally installed at the top of one end of the water storage tank 101 a.

The filtering component 102a comprises a filtering tank body 102a-1, wherein an air inlet pipeline 102a-2 is connected to the bottom of one side of the filtering tank body 102a-1, a second connecting flange 102a-3 is arranged at the top of the filtering tank body 102a-1, and high-temperature water vapor substances in the tailing sand drying equipment can be conveyed into the filtering tank body 102a-1 through the air inlet pipeline 102a-2 additionally arranged at the bottom of one side of the filtering tank body 102 a-1.

The filter tank 102a-1 is internally provided with a filter cavity 102a-1a, the filter cavity 102a-1a is internally provided with a plurality of groups of activated carbon filter plates 102a-1b, and the filter tank is used for adsorbing and filtering particulate impurities in water vapor substances through the plurality of groups of activated carbon filter plates 102a-1b additionally arranged in the filter cavity 102a-1 a.

In order to solve the problem that the existing vapor condensation recovery device cannot perform adsorption filtration treatment on particulate matter impurities in vapor substances and cannot perform rapid liquefaction treatment on high-temperature vapor substances, and referring to fig. 5, the embodiment has a certain limitation in use, based on the same concept as that of the embodiment, the tailing sand drying vapor condensation recovery mechanism further comprises:

the condensing part 102b includes a cooling tank 102b-1, and third connection flanges 102b-2 are respectively provided at both ends of the cooling tank 102b-1, so that the cooling tank 102b-1 can be connected between the water storage tank 101a and the filtering part 102a in a penetrating manner by the third connection flanges 102b-2 respectively attached to both ends of the cooling tank 102 b-1.

The top of one side of the cooling tank 102b-1 is connected with a water inlet pipe 102b-1a, the bottom of one side of the cooling tank 102b-1, which is close to the water inlet pipe 102b-1a, is also provided with a water outlet pipe 102b-1b, a cold water cavity 102b-1c is also arranged in the cooling tank 102b-1, and the cooling tank is used for injecting and discharging cooling water through the water inlet pipe 102b-1a and the water outlet pipe 102b-1b which are additionally arranged on one side of the filtering tank 102 a-1.

The heat conduction spiral pipe 102b-2a is connected between the two groups of third connecting flanges 102b-2, the heat conduction spiral pipe 102b-2a is positioned in the middle of the inner cavity of the cold water cavity 102b-1c, and the heat conduction spiral pipe 102b-2a additionally arranged between the two groups of third connecting flanges 102b-2 can prolong the circulation path of the vapor substance and also can perform heat exchange treatment on the high-temperature vapor substance.

The above embodiments are not intended to limit the scope of the present utility model, so: all equivalent changes in structure, shape and principle of the utility model should be covered in the scope of protection of the utility model.

Claims (8)

1. The utility model provides a tailing sand stoving steam condensation recovery mechanism, includes steam recovery unit (100), its characterized in that: the water vapor recovery device (100) comprises a storage component (101) for condensing and recovering the tailing sand drying water vapor and a condensation recovery component (102), wherein the condensation recovery component (102) is arranged at the top of the storage component (101);

The condensation recycling assembly (102) comprises a filtering component (102 a), a condensation component (102 b) is arranged on one side of the filtering component (102 a), and a gas transmission pipe fitting (102 c) is further connected between the condensation component (102 b) and the top of the filtering component (102 a).

2. The tailing sand drying moisture condensation recovery mechanism of claim 1, wherein: the storage assembly (101) comprises a water storage tank (101 a), and a supporting seat (101 b) is arranged at the bottom of the water storage tank (101 a).

3. The tailing sand drying moisture condensation recovery mechanism of claim 2, wherein: the top of one end of the water storage tank (101 a) is provided with a first connecting flange (101 a-1), and the bottom of one end of the water storage tank (101 a) far away from the first connecting flange (101 a-1) is provided with a discharge valve (101 a-2).

4. A tailings pond drying moisture condensation recovery mechanism according to claim 3 wherein: the filtering component (102 a) comprises a filtering tank body (102 a-1), an air inlet pipeline (102 a-2) is connected to the bottom of one side of the filtering tank body (102 a-1), and a second connecting flange (102 a-3) is arranged at the top of the filtering tank body (102 a-1).

5. The tailing sand drying moisture condensation recovery mechanism as set forth in claim 4, wherein: a filtering cavity (102 a-1 a) is formed in the filtering tank body (102 a-1), and a plurality of groups of activated carbon filter plates (102 a-1 b) are arranged in the filtering cavity (102 a-1 a).

6. The tailing sand drying moisture condensation recovery mechanism of claim 5, wherein: the condensing part (102 b) comprises a cooling tank body (102 b-1), and third connecting flanges (102 b-2) are respectively arranged at two ends of the cooling tank body (102 b-1).

7. The tailing sand drying moisture condensation recovery mechanism as set forth in claim 6, wherein: the top of one side of the cooling tank body (102 b-1) is connected with a water inlet pipe (102 b-1 a), the bottom of one side of the cooling tank body (102 b-1) close to the water inlet pipe (102 b-1 a) is also provided with a water outlet pipe (102 b-1 b), and a cold water cavity (102 b-1 c) is also formed in the cooling tank body (102 b-1).

8. The tailing sand drying moisture condensation recovery mechanism as set forth in claim 7, wherein: a heat conduction spiral pipe (102 b-2 a) is connected between the two groups of third connecting flanges (102 b-2), and the heat conduction spiral pipe (102 b-2 a) is positioned in the middle of the inner cavity of the cold water cavity (102 b-1 c).