CN214159850U - High-efficient purification system that selects separately of sack ash - Google Patents

Abstract

The utility model discloses a high-efficiency cloth bag ash sorting and purifying system, which comprises a pulping component and other structures and is characterized in that the upper side of the front end of a frame is provided with the pulping component, the lower end of the pulping component is provided with a transportation component, the input end of the transportation component rotates to penetrate through a vertical plate to be connected with a transmission mechanism, and the transmission mechanism is arranged at the rear side of the vertical plate; a zinc extracting assembly is arranged on the lower side of one end, far away from the pulping assembly, of the transportation assembly, a driving end of the zinc extracting assembly is rotatably connected with the transmission mechanism through a vertical plate, a zinc receiving hopper and an iron extracting carbon assembly are respectively arranged below a zinc outlet of the zinc extracting assembly and below an iron outlet carbon, and the zinc receiving hopper and the iron extracting carbon assembly are fixedly connected with the bottom end of the frame; the utility model discloses effectual with the integration design that draws of zinc, iron, carbon, avoid single mode of drawing and solved current device and need multiple equipment complex drawback simultaneously, simultaneously the utility model discloses avoid adding drawbacks such as medicine, reduced environmental pollution, improve the practicality.

Description

High-efficient purification system that selects separately of sack ash

Technical Field

The utility model relates to a sack ash handles technical field, in particular to high-efficient purification system that selects separately of sack ash.

Background

The bag ash refers to the dust generated when a blast furnace or a converter removes dust from a gas system, the dust is captured and collected by a bag dust collector and is called bag ash, the main components of the bag ash are composed of metal oxides such as carbon, zinc, iron and the like, the bag ash generated is also increased along with the rapid development of the Chinese iron and steel industry, and if comprehensive utilization is not implemented, the environment is polluted and the waste of resources is also caused.

In order to avoid environment pollution caused by direct discharge of bag ash into the atmosphere, the bag ash is generally directly used as sintering ingredients, zinc is recovered by adopting a rotary kiln reduction fuming method, iron and carbon are recovered by utilizing magnetic separation and flotation, and the like in the prior art, but the treatment mode has the problems that firstly, the bag ash is treated by adopting any mode, the function is single, only zinc or iron or carbon can be simply extracted, the zinc, iron and carbon cannot be purified at the same time, and time and labor are wasted; secondly, the process that prior art adopted to the processing of sack ash is comparatively complicated and have drawbacks such as still need add medicine, and the operation is not only loaded down with trivial details but also causes the pollution to the environment to a certain extent.

Disclosure of Invention

An object of the utility model is to provide a purification system is selected separately to sack ash high efficiency can effectively solve the problem of mentioning in the above-mentioned background art.

The utility model adopts the technical scheme as follows: a high-efficiency cloth bag ash sorting and purifying system comprises a pulping component, a transportation component, a transmission mechanism, a zinc extraction component, an iron and carbon extraction component and a frame, wherein the frame comprises a bottom plate and a vertical plate, the vertical plate is vertically arranged on the rear side of the upper end of the bottom plate, the pulping component is arranged on the upper side of the front end of the vertical plate, the transportation component is arranged at the lower end of the pulping component, the input end of the transportation component rotatably penetrates through the vertical plate to be connected with the transmission mechanism, and the transmission mechanism is arranged on the rear side of the vertical plate; the one end downside that the making beating subassembly was kept away from to the transportation subassembly is equipped with and carries the zinc subassembly, and the drive end of carrying the zinc subassembly rotates to run through the riser and is connected with the drive mechanism transmission, carries zinc subassembly zinc mouth below, iron tapping carbon mouth below and is equipped with respectively and connects zinc fill, carries iron carbon subassembly, connects zinc fill, carries iron carbon subassembly all with the bottom plate rigid coupling.

Further, the making beating subassembly includes a beating section of thick bamboo, the (mixing) shaft, stirring leaf, a driving motor, a beating section of thick bamboo and riser front side detachable connections, the rigid coupling has on the nozzle of a beating section of thick bamboo places the board and places the board on the rigid coupling have a driving motor, a driving motor's lower extreme output rotates and link up places the board and with place the stirring shaft connection of the vertical setting of board lower extreme, the inner chamber and the (mixing) shaft of a beating section of thick bamboo are arranged with one heart, the (mixing) shaft top-down equidistance is connected with a plurality of stirring leaves, the equidistance is equipped with cyclic annular boss on the inner chamber lateral wall of a beating section of thick bamboo, the.

Further, the transportation assembly comprises a belt, a first rotating shaft and a second rotating shaft, the first rotating shaft is arranged below the pulping assembly and vertically connected with the vertical plate in a rotating way, the second rotating shaft is arranged above the zinc extraction assembly and vertically connected with the vertical plate in a rotating way, and the belt is connected between the first rotating shaft and the second rotating shaft; the second rotating shaft is in transmission connection with a transmission mechanism which is in transmission connection with the vertical plate and penetrates through the vertical plate.

Furthermore, the zinc extraction assembly comprises 3 screening rollers and an assembly frame, the assembly frame is of a cavity structure with openings at the upper end and the lower end, the assembly frame is fixedly connected with a vertical plate, the 3 screening rollers are sequentially arranged in the assembly frame from left to right, and adjacent gaps of the screening rollers are gradually increased from left to right; the right-hand member of transportation subassembly is arranged in the screening roller upside of leftmost end, and the center of screening roller is equipped with the bull stick with one heart, and the both ends of bull stick are connected with the drive mechanism transmission of lateral wall switching and bull stick one end and riser rear side around the assembly frame respectively, and the assembly frame below is equipped with carries the indisputable carbon subassembly.

Further, the iron and carbon extracting assembly comprises an iron extracting box body, a carbon extracting box body, a gradient plate, an iron removing unit and a blower; the utility model discloses a carbon extracting device, including an assembly frame, a carbon extracting box body, a plurality of air-blowers, a bottom plate bolted connection, a slope plate, a clearance, an iron extracting box body, a drawer, a steel wire rope and a steel wire rope, a steel wire rope and a steel wire rope, a.

Furthermore, a baffle is arranged on the upper side of one end, close to the carbon extracting box body, of the carbon outlet, and the other end of the baffle inclines towards the bottom end of the carbon extracting box body.

Further, the lower sides of the adjacent gaps of the 3 screening rollers are provided with guide plates, the guide plates are obliquely arranged, the guide plates positioned on the left side and the right side correspond to the upper ends of the iron extracting box body and the carbon extracting box body respectively, and the lower ends of the guide plates are fixedly connected with the bottom plate through supporting seats.

Further, drive mechanism includes double flute running roller, second driving motor, the screening roller rotates through the bull stick and link up the riser and the double flute running roller rigid coupling of bull stick and riser rear side, and the transmission is connected between the adjacent double flute running roller, and the double flute running roller that is in the outside is connected with second driving motor's output shaft transmission, and second driving motor's output shaft passes through the shaft coupling and is connected with the second pivot on the drive assembly, and second driving motor passes through loading board and riser rigid coupling.

Further, the deironing unit is including inserting a section of thick bamboo, bar magnet piece, the equidistant rigid coupling of lower extreme of slope board has an inserted section of thick bamboo, and the one end of inserting a section of thick bamboo link up the preceding lateral wall of carrying the iron box and arrange the outside in, and it has the bar magnet piece to slide the grafting in inserting a section of thick bamboo.

The beneficial effects of the utility model reside in that:

the utility model discloses a combine the making beating subassembly, carry the zinc subassembly, carry iron carbon subassembly, effectual with the integration design that draws of zinc, iron, carbon, guaranteed the utility model discloses a diversity avoids adopting single mode of drawing, has avoided current device to need multiple equipment to cooperate simultaneously and the complex operation that causes simultaneously, simultaneously the utility model discloses convenient operation, simple structure and avoided adding drawbacks such as medicine, reduced environmental pollution to a certain extent, thereby improve the utility model discloses a practicality.

The utility model discloses in, the effect that the clearance increases progressively gradually between the adjacent screening roller lies in can be convenient for sieve the material of different granularities in the sack ash, because the granularity of zinc is thinner in the sack ash, the granularity of indisputable carbon is thicker, thereby when the sack ash falls to carrying zinc subassembly left side, the thinner zinc of granule falls down and collects through connecing the zinc fill from between the thinner screening roller of left end gap, under the continuous rotation effect of screening roller, the indisputable carbon that the granule is thicker continues to move right, finally fall down and collect through carrying the indisputable carbon subassembly from between the screening roller of right-hand member gap broad.

The utility model discloses in, carry the theory of use of indisputable carbon subassembly: during the use, start the air-blower, the wind that the air-blower produced just blows to going out the carbon mouth, and when the sack ash of whereabouts fell on the slope board, the iron particulate matter stops on the slope board under magnetic attraction, and the comparatively light carbon particulate matter of quality enters into through going out the carbon mouth under the effect of air-blower and carries the carbon box in, when preparing to collect the iron particulate matter, loses magnetism with the deironing unit of slope board lower extreme to the iron particulate matter will be along the slope board landing to carry in the iron box.

Drawings

Fig. 1 is a schematic view of a front-end three-dimensional structure of the present invention.

Fig. 2 is a schematic diagram of the rear end three-dimensional structure of the present invention.

Fig. 3 is a schematic perspective view of a beating assembly.

Fig. 4 is an assembly structure schematic diagram of the transportation assembly and the zinc extraction assembly.

Fig. 5 is a schematic perspective view of the iron extracting carbon assembly.

Fig. 6 is an assembly structure diagram of the iron removing unit.

In the figure: the device comprises a pulping component 1, a pulping cylinder 1-1, a stirring shaft 1-2, stirring blades 1-3, a first driving motor 1-4, a transportation component 2, a belt 2-1, a first rotating shaft 2-2, a second rotating shaft 2-3, a transmission mechanism 3, a double-groove roller 3-1, a second driving motor 3-2, a zinc extraction component 4, a screening roller 4-1, an assembly frame 4-2, an iron extraction carbon component 5, an iron extraction box body 5-1, a carbon extraction box body 5-2, a gradient plate 5-3, an iron removal unit 5-4, an insertion cylinder 5-4-1, a strip-shaped magnet block 5-4-2, an air blower 5-5, a rack 6, a bottom plate 6-1, a vertical plate 6-2, a placing plate 7, an annular boss 8, a pulp outlet 9, a rotating rod 10, a carbon outlet 11, A baffle 12, a material guide plate 13, a supporting seat 14, a drawer 15 and a zinc receiving hopper 16.

Detailed Description

In order to make the technical solutions of the present invention better understood by those skilled in the art, the present invention will be further described in detail with reference to the accompanying drawings, which are only used for illustrating the technical solutions of the present invention and are not limited.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention; furthermore, the terms "first", "second", etc. are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated; thus, a feature defined as "first," "second," etc. may explicitly or implicitly include one or more of that feature; in the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; the two components can be directly connected or indirectly connected through an intermediate medium, and the two components can be communicated with each other; the specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art through specific situations.

The efficient bag ash sorting and purifying system is illustrated by combining the drawings 1 to 6, and comprises a pulping component 1, a transportation component 2, a transmission mechanism 3, a zinc extraction component 4, an iron and carbon extraction component 5 and a frame 6, wherein the frame 6 comprises a bottom plate 6-1 and a vertical plate 6-2, the vertical plate 6-2 is vertically arranged on the rear side of the upper end of the bottom plate 6-1, the pulping component 1 is arranged on the upper side of the front end of the vertical plate 6-2, the transportation component 2 is horizontally arranged below the pulping component 1, and the input end of the transportation component 2 is in transmission connection with the transmission mechanism 3 arranged on the rear side of the vertical plate 6-2 after penetrating through the vertical plate 6-2 in a rotating manner; the lower side of one end, far away from the pulping component 1, of the transportation component 2 is provided with a zinc extraction component 4, a driving end of the zinc extraction component 4 rotates to penetrate through a vertical plate 6-2 to be in transmission connection with a transmission mechanism 3, a zinc receiving hopper 16 and an iron extraction carbon component 5 are respectively arranged below a zinc outlet and an iron outlet of the zinc extraction component 4, and the zinc receiving hopper 16 and the iron extraction carbon component 5 are fixedly connected with a bottom plate 6-1. The utility model discloses a combine beating subassembly 1, carry zinc subassembly 4, carry iron carbon subassembly 5, effectual with the integration design that draws of zinc, iron, carbon, guaranteed the utility model discloses a diversity avoids adopting single mode of drawing, has avoided current device to need multiple equipment to cooperate simultaneously and the complex operation that causes simultaneously, simultaneously the utility model discloses convenient operation, simple structure and avoided drawbacks such as adding medicine, reduced environmental pollution to a certain extent, thereby improve the utility model discloses a practicality.

Preferably, the pulping component 1 comprises a pulping barrel 1-1, a stirring shaft 1-2, stirring blades 1-3 and a first driving motor 1-4, the pulping barrel 1-1 is detachably mounted on the front side of a vertical plate 6-2 through a connecting piece, a placing plate 7 is connected to the barrel mouth of the pulping barrel 1-1 through a bolt, the first driving motor 1-4 is connected to the placing plate 7 through a bolt, the output end of the lower end of the first driving motor 1-4 is rotatably communicated with the placing plate 7 and is connected with the stirring shaft 1-2 vertically arranged at the lower end of the placing plate 7, the inner cavity of the pulping barrel 1-1 is concentrically arranged with the stirring shaft 1-2, the stirring shaft 1-2 is connected with a plurality of stirring blades 1-3 at equal intervals from top to bottom, the stirring blades 1-3 with different heights in the pulping barrel 1-1 can effectively and uniformly stir the cloth bag ash slurry at different positions in the inner cavity of the pulping barrel 1-1, the side wall of the inner cavity of the pulping barrel 1-1 is equidistantly provided with the annular bosses 8, the arrangement of the annular bosses 8 can effectively ensure that when the stirring blades 1-3 stir the cloth bag ash slurry in the pulping barrel 1-1, the turbulence intensity at different positions in the pulping barrel 1-1 is different, and finally the pulping efficiency of the cloth bag ash is improved, and the lower end of the pulping barrel 1-1 is provided with the slurry outlet 9.

Preferably, the transportation component 2 comprises a belt 2-1, a first rotating shaft 2-2 and a second rotating shaft 2-3, the first rotating shaft 2-2 is arranged below the slurry outlet 9, the first rotating shaft 2-2 is vertically connected with a vertical plate 6-2 in a rotating way, the second rotating shaft 2-3 is arranged above the zinc extraction component 4, the second rotating shaft 2-3 is vertically connected with the vertical plate 6-2 in a rotating way, and the belt 2-1 is connected between the first rotating shaft 2-2 and the second rotating shaft 2-3; the second rotating shaft 2-3 is in transmission connection with a transmission mechanism 3 at the rear side of the vertical plate 6-2 by rotating to penetrate through the vertical plate 6-2. The bag ash slurry generated by the pulping component 1 can be effectively transported to the upper end of the zinc extracting component 4 by installing the transporting component 2.

Preferably, the zinc extraction component 4 comprises 3 screening rollers 4-1 and an assembly frame 4-2, the assembly frame 4-2 is a cavity structure with openings at the upper end and the lower end, the assembly frame 4-2 is connected with a vertical plate 6-2 through bolts, the 3 screening rollers 4-1 are sequentially arranged in the assembly frame 4-2 from left to right, adjacent gaps of the screening rollers 4-1 from left to right are gradually increased, the gaps between the adjacent screening rollers 4-1 are gradually increased, so that materials with different particle sizes in bag ash can be screened conveniently, the particle size of iron carbon is thicker, and therefore when the bag ash falls to the left side of the zinc extraction component 4, the zinc with thinner particles falls from the gaps between the screening rollers 4-1 at the left end and is collected through a zinc receiving hopper 16, under the continuous rotation action of the screening rollers 4-1, the iron carbon with thicker particles continuously moves rightwards, finally falls down from the screening roller 4-1 with wider gap at the right end and is collected by an iron carbon extracting assembly 5; the right-hand member of belt 2-1 is arranged in the screening roller 4-1 upside of leftmost end, and the center of screening roller 4-1 is equipped with bull stick 10 with one heart, and lateral wall switching before the one end of bull stick 10 and assembly frame 4-2, the other end of bull stick 10 rotate in proper order and run through assembly frame 4-2's back lateral wall, riser 6-2 and be connected with the drive mechanism 3 transmission of riser 6-2 rear side, the utility model discloses a same drive mechanism 3 drives transportation subassembly 2 simultaneously and carries zinc subassembly 4 to operate, avoids adopting a plurality of drive mechanism 3 to carry out driven loaded down with trivial details, has played energy-concerving and environment-protective effect to a certain extent.

Preferably, the iron and carbon extracting assembly 5 comprises an iron extracting box body 5-1, a carbon extracting box body 5-2, a gradient plate 5-3, an iron removing unit 5-4 and a blower 5-5; an iron extracting box body 5-1 is arranged at the lower side of a gap between two screening rollers 4-1 close to the right side in the assembly frame 4-2, the lower end of the iron extracting box body 5-1 is connected with a bottom plate 6-1 through a bolt, the right side of the iron extracting box body 5-1 is connected with a carbon extracting box body 5-2 through a bolt or an integral forming way, the right side wall of the iron extracting box body 5-1 is provided with a carbon outlet 11, the carbon outlet 11 is arranged at the upper side of the carbon extracting box body 5-2, the inner side wall of the carbon extracting box body 5-2 is provided with a plurality of air blowers 5-5 (the number of the air blowers 5-5 is 2 in the embodiment), the air blowers 5-5 correspond to the carbon outlet 11, a gradient plate 5-3 is arranged in the iron extracting box body 5-1, the upward slope edge of the gradient plate 5-3 is welded with the side wall of the iron extracting box body 5-1 at the lower side of the carbon outlet 11, the downhill edge of the slope plate 5-3 is obliquely arranged, the lower end of the slope plate 5-3 is fixedly connected with the side wall of the carbon extraction box body 5-2, a gap is reserved between the side wall of the carbon extraction box body 5-2 far away from the carbon outlet 11 and the slope plate 5-3, so that iron particles in cloth bag ash can conveniently pass through the gap, the lower end of the slope plate 5-3 is provided with an iron removal unit 5-4, so that the iron particles can be effectively attracted, when the iron removal unit 5-4 loses magnetism, the iron particles can slide into the iron extraction box body 5-1 along the slope plate 5-3, a drawer 15 is respectively inserted and slidably through the side ends of the iron extraction box body 5-1 and the carbon extraction box body 5-2, and the drawer 15 can conveniently and rapidly insert the iron particles collected in the iron extraction box body 5-1 and the carbon extraction box body 5-2, The carbon particles are collected and cleaned. The use principle of the iron extracting carbon component 5 is as follows: when the device is used, the air blower 5-5 is started, air generated by the air blower 5-5 is blown to the carbon outlet 11, when falling bag ash falls on the gradient plate 5-3, iron particles stay on the gradient plate 5-3 under the magnetic attraction effect, the carbon particles with lighter weight enter the carbon extraction box body 5-2 through the carbon outlet 11 under the effect of the air blower 5-5, and when the iron particles are to be collected, the iron removal unit 5-4 at the lower end of the gradient plate 5-3 loses magnetism, so that the iron particles can slide into the iron extraction box body 5-1 along the gradient plate 5-3.

Preferably, the upper side of one end of the carbon outlet 11 close to the carbon extracting box body 5-2 is provided with a baffle plate 12, and the other end of the baffle plate 12 inclines towards the bottom end of the carbon extracting box body 5-2, so that carbon particles are prevented from being blown out of the carbon extracting box body 5-2 when the air blower 5-5 is driven.

Preferably, the lower sides of the gaps formed among the 3 screening rollers 4-1 are respectively provided with a material guide plate 13, the material guide plates 13 are obliquely arranged, the material guide plates 13 positioned on the left side and the right side respectively correspond to the upper ends of the iron extracting box body 5-1 and the carbon extracting box body 5-2, and the lower ends of the material guide plates 13 are fixedly connected with the bottom plate 6-1 through a supporting seat 14. The material guide plate 13 can effectively ensure that the falling zinc particles or iron carbon particles can smoothly fall into the corresponding zinc extraction assembly 4 or iron carbon assembly.

Preferably, the transmission mechanism 3 comprises a double-groove roller 3-1 and a second driving motor 3-2, the screening roller 4-1 penetrates through the vertical plate 6-2 through the rotation of the rotating rod 10, the rotating rod 10 is fixedly connected with the double-groove roller 3-1 on the rear side of the vertical plate 6-2, the double-groove rollers 3-1 are adjacent to each other and are in transmission connection, the double-groove roller 3-1 on the outer side is in transmission connection with an output shaft of the second driving motor 3-2, the output shaft of the second driving motor 3-2 is connected with the second rotating shaft 2-3 through a coupler, and the second driving motor 3-2 is fixedly connected with the vertical plate 6-2 through a bearing plate.

Preferably, the iron removing unit 5-4 comprises an inserting cylinder 5-4-1 and bar-shaped magnet blocks 5-4-2, the inserting cylinder 5-4-1 is welded at the lower end of the gradient plate 5-3 at equal intervals, one end of the inserting cylinder 5-4-1 penetrates through the front side wall of the iron lifting box body 5-1 and is arranged on the outer side, and the bar-shaped magnet blocks 5-4-2 are inserted in the inserting cylinder 5-4-1 in a sliding mode. The strip magnet block 5-4-2 is detachably connected with the insert cylinder 5-4-1 shell, so that iron particles falling on the gradient plate 5-3 can be adsorbed conveniently, iron and carbon can be effectively separated, and the iron particles lose adsorption force and finally fall into the iron extracting box body 5-1 after the strip magnet block 5-4-2 is pulled out from the insert cylinder 5-4-1.

The working process of the device is as follows: first step, slurry making: a worker adds cloth bag ash to be sorted through an opening at the upper end of the pulping barrel 1-1, starts a first driving motor 1-4, further drives a stirring shaft 1-2 and stirring blades 1-3 to stir the cloth bag ash in the pulping barrel 1-1, avoids caking of the cloth bag ash, then adds water into the pulping barrel 1-1 for dilution, and further stirs and homogenizes the pulp; (2) step two, zinc extraction: opening a slurry outlet 9, putting the cloth bag mortar liquid on a transportation assembly 2, starting a transmission mechanism 3 to drive a transportation assembly and a zinc extraction assembly 4 to operate, transporting the cloth bag mortar liquid into the zinc extraction assembly 4 by the transportation assembly 2, and collecting iron carbon particles through a zinc receiving hopper 16 because the zinc particles in the cloth bag ash are fine, so that when the cloth bag ash falls to the left side of the zinc extraction assembly 4, the fine zinc particles fall from a position between screening rollers 4-1 with a fine gap at the left end and are collected, and under the continuous rotation action of the screening rollers 4-1, the iron carbon particles with coarse particles continue to move rightwards, finally fall from a position between the screening rollers 4-1 with a wide gap at the right end and are collected through the iron extraction carbon assembly 5; (3) thirdly, extracting iron and carbon series: starting the air blower 5-5, blowing the air generated by the air blower 5-5 to the carbon outlet 11, when falling bag ash falls on the gradient plate 5-3, stopping iron particles on the gradient plate 5-3 under the magnetic attraction effect, allowing the light carbon particles to enter the carbon extraction box body 5-2 through the carbon outlet 11 under the effect of the air blower 5-5, and demagnetizing the iron removal unit 5-4 at the lower end of the gradient plate 5-3 when the iron particles are to be collected, so that the iron particles can slide into the iron extraction box body 5-1 along the gradient plate 5-3.

Although the present invention has been described in detail with reference to the foregoing examples, it will be apparent to those skilled in the art that various changes and modifications can be made in the embodiments described above, or equivalent changes and modifications can be made to some of the technical features of the embodiments described above, and any changes, equivalents, and improvements made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (9)

1. A high-efficiency cloth bag ash sorting and purifying system comprises a pulping component, a transportation component, a transmission mechanism, a zinc extraction component, an iron and carbon extraction component and a frame, and is characterized in that the frame comprises a bottom plate and a vertical plate, the vertical plate is vertically arranged on the rear side of the upper end of the bottom plate, the pulping component is arranged on the upper side of the front end of the vertical plate, the transportation component is arranged at the lower end of the pulping component, the input end of the transportation component is rotatably connected with the transmission mechanism through the vertical plate, and the transmission mechanism is arranged on the rear side of the vertical plate; the one end downside that the making beating subassembly was kept away from to the transportation subassembly is equipped with and carries the zinc subassembly, and the drive end of carrying the zinc subassembly rotates to run through the riser and is connected with the drive mechanism transmission, carries zinc subassembly zinc mouth below, iron tapping carbon mouth below and is equipped with respectively and connects zinc fill, carries iron carbon subassembly, connects zinc fill, carries iron carbon subassembly all with the bottom plate rigid coupling.

2. The efficient cloth bag ash sorting and purifying system according to claim 1, characterized in that: the making beating subassembly includes a beating section of thick bamboo, the (mixing) shaft, stirring leaf, a driving motor, a beating section of thick bamboo and riser front side detachable connections, the rigid coupling has on the nozzle of a beating section of thick bamboo places the board and places the board on the rigid coupling have a driving motor, a driving motor's lower extreme output rotates to link up places the board and with place the stirring shaft of the vertical setting of board lower extreme and be connected, the inner chamber and the (mixing) shaft of a beating section of thick bamboo are arranged with one heart, the (mixing) shaft top-down equidistance is connected with a plurality of stirring leaves, the equidistance is equipped with cyclic annular boss on the inner chamber lateral wall of a beating section of thick.

3. The efficient cloth bag ash sorting and purifying system according to claim 1, characterized in that: the conveying component comprises a belt, a first rotating shaft and a second rotating shaft, the first rotating shaft is arranged below the pulping component and vertically connected with the vertical plate in a rotating way, the second rotating shaft is arranged above the zinc extracting component and vertically connected with the vertical plate in a rotating way, and the belt is connected between the first rotating shaft and the second rotating shaft; the second rotating shaft is in transmission connection with a transmission mechanism which is in transmission connection with the vertical plate and penetrates through the vertical plate.

4. The efficient cloth bag ash sorting and purifying system according to claim 1, characterized in that: the zinc extraction assembly comprises 3 screening rollers and an assembly frame, the assembly frame is of a cavity structure with openings at the upper end and the lower end, the assembly frame is fixedly connected with a vertical plate, the 3 screening rollers are sequentially arranged in the assembly frame from left to right, and adjacent gaps of the screening rollers gradually increase from left to right; the right-hand member of transportation subassembly is arranged in the screening roller upside of leftmost end, and the center of screening roller is equipped with the bull stick with one heart, and the both ends of bull stick are connected with the lateral wall switching around the assembly frame respectively and with the drive mechanism transmission of riser rear side, and the assembly frame below is equipped with carries iron carbon subassembly.

5. The efficient bag ash sorting and purifying system according to claim 4, wherein: the iron and carbon extracting assembly comprises an iron extracting box body, a carbon extracting box body, a gradient plate, an iron removing unit and a blower; the utility model discloses a carbon extracting box, including an assembly frame, two screening rollers, a carbon extracting box body, a plurality of air-blowers, a slope plate, a drawer, a side wall and a slope plate lower limb, the lower extreme that leans on in the assembly frame between two screening rollers on right side is equipped with carries the iron box body, the lower extreme and the bottom plate rigid coupling of carrying the iron box body, the right side of carrying the iron box body is equipped with carries the carbon box body, it has seted up the carbon mouth on the right side wall of carrying the iron box body, the upside of carrying the carbon box body is located to the carbon mouth, it installs a plurality of air-blowers and air-blower output end and goes out the carbon mouth on carrying the carbon box body inside wall and corresponding, carry the internal grade plate that is equipped with of iron box, the upslope edge and carry iron box body lateral wall rigid coupling and be located the carbon mouth top of slope plate, the slope plate slope is placed and the downhill path and carries iron box body lateral wall rigid coupling of slope plate, and carry iron box body lower limb to keep away from the carbon box body and leave gappedly, the lower extreme of slope plate is equipped with deironing unit, it links up to carry the iron box body, it has the drawer to peg graft respectively to slide.

6. The efficient bag ash sorting and purifying system according to claim 5, wherein: the upper side of one end of the carbon outlet close to the carbon extracting box body is provided with a baffle, and the other end of the baffle inclines towards the bottom end of the carbon extracting box body.

7. The efficient bag ash sorting and purifying system according to claim 4, wherein: the lower sides of the adjacent gaps of the 3 screening rollers are provided with guide plates, the guide plates are obliquely arranged, the guide plates positioned on the left side and the right side correspond to the upper ends of the iron extracting box body and the carbon extracting box body respectively, and the lower ends of the guide plates are fixedly connected with the bottom plate through supporting seats.

8. The efficient bag ash sorting and purifying system according to claim 4, wherein: drive mechanism includes double flute running roller, second driving motor, the screening roller passes through the double flute running roller rigid coupling of riser and bull stick and riser rear side through the bull stick rotation, and the transmission is connected between the adjacent double flute running roller, and the double flute running roller that is in the outside is connected with second driving motor's output shaft transmission, and second driving motor's output shaft passes through the shaft coupling and is connected with the second pivot on the drive assembly, and second driving motor passes through loading board and riser rigid coupling.

9. The efficient bag ash sorting and purifying system according to claim 5, wherein: the deironing unit is including inserting a section of thick bamboo, bar magnet piece, the equidistant rigid coupling of lower extreme of slope board has an inserted section of thick bamboo, and the one end of inserting a section of thick bamboo link up the preceding lateral wall of carrying the iron box and arrange the outside in, and it has the bar magnet piece to slide the grafting in inserting a section of thick bamboo.

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