CN214038462U - Novel slag cooler - Google Patents

Abstract

The utility model belongs to the technical field of boiler equipment, specifically discloses a novel slag cooler, including cylinder slag cooler body, the barrel sets up and divide into inner tube and outer barrel from inside to outside, inner tube and outer barrel rotate to be connected, and feed inlet and inner tube are connected, and the inner tube is kept away from the one end of barrel feed inlet and is set up the opening and be provided with the first clearance between the tip of outer barrel, just be provided with the second clearance between inner tube and the outer barrel in order to form the intermediate layer, and the admission line divide into trunk line and a plurality of lateral conduits that set up side by side, and the lateral conduit passes through the trunk line and connects the wind regime, and the trunk line lies in the outer one end and intermediate layer union coupling of barrel, and outer barrel is provided with exhaust device, and the feed inlet is provided with sealing device, and the dust collector who is connected with exhaust device; this device effectively prevents to leak the sediment through setting up sealing device, and bilayer structure's barrel improves cooling efficiency greatly to utilize dust collector to realize filtering the smoke and dust.

Description

Novel slag cooler

Technical Field

The utility model belongs to the technical field of hot slag treatment facility's technique and specifically relates to a novel cold sediment machine.

Background

The boiler can produce a large amount of high-temperature slag in production, and the slag needs to be cooled for safety and avoiding thermal pollution.

At present, the cold sediment machine of cylinder is a very important boiler and arranges sediment device, cold sediment is effectual, the handling capacity is big, be used for industry boiler such as power plant's boiler or solid fuel pyrolysis gasification to arrange sediment extensively, let in flowing cooling water and cool down to the high temperature slag charge in the cylinder, but the cold sediment machine of cylinder among the correlation technique can produce a large amount of smoke and dust in the in-process cylinder inside of work, the smoke and dust flows out and causes air pollution, and cooling efficiency is low in the course of the work, need long time just can guarantee that the temperature of slag charge falls to standard temperature, in addition, the feed inlet department of current cold sediment machine still exists the sediment of leaking.

SUMMERY OF THE UTILITY MODEL

To the problem among the prior art, the utility model aims at providing a novel cold sediment machine.

In order to achieve the above purpose, the technical scheme of the utility model is that:

a novel slag cooler comprises a roller slag cooler body, wherein a barrel body of the roller slag cooler body is of a double-layer structure and is divided into an inner barrel body and an outer barrel body from inside to outside, the inner barrel body is rotatably connected with the outer barrel body, a feed inlet of the roller slag cooler body is connected with the inner barrel body, one end, away from the feed inlet of the barrel body, of the inner barrel body is provided with an opening, a first gap is arranged between the end part of the inner barrel body and the end part of the outer barrel body, a second gap is arranged between the inner barrel body and the outer barrel body to form an interlayer, an air inlet pipeline of the roller slag cooler body is divided into a main pipeline and a plurality of branch pipelines arranged in parallel, the branch pipelines are connected with an air source through the main pipeline, the branch pipelines extend along the axial direction of the barrel body, one end, located outside the barrel body, of the main pipeline is connected with the interlayer pipeline, and the lower end, away from the feed inlet, of the outer barrel body is provided with a slag discharging port, the outer cylinder body is provided with an air exhaust device to exhaust hot air in the interlayer and the inner cylinder body;

the feed inlet is provided with a sealing device for preventing slag leakage;

and the dust removal device is connected with the air exhaust device.

Further, exhaust device includes exhaust duct and air exhauster, the air exhauster pass through exhaust duct with the barrel intercommunication.

Further, exhaust pipe includes one-level pipeline and secondary pipeline, the air exhauster pass through one-level pipeline and secondary pipeline respectively with interior barrel and outer barrel intercommunication, just one-level pipeline stretches into interior barrel.

Further, the first-stage pipeline is located above the second-stage pipeline, a pulse tube is arranged in the second-stage pipeline, the pulse tube extends along the second-stage pipeline, the pulse tube is connected with an air source through a pulse valve and a cylinder with a valve in sequence, and a first air hole and a second air hole are uniformly distributed in the parts, located in the inner cylinder, of the pulse tube and the second-stage pipeline respectively.

Further, the dust removing device is a bag type dust remover

Furthermore, the circumferential surface of the branch pipeline is uniformly distributed with third air holes.

Further, the sealing device comprises a movable ring coaxially arranged at the feed inlet of the cylinder body and a static ring fixed at the feed box, one end of the movable ring is provided with a first annular groove, a second annular groove and a third annular groove which are coaxial with the inner hole of the movable ring, and is sequentially provided with a first annular groove, a second annular groove and a third annular groove from small to large according to the radius, the static ring is arranged as a stepped shaft, the small-diameter end of the static ring is provided with a coaxial fourth annular groove, a first annular sealing tooth and a second annular sealing tooth are respectively formed between the fourth annular groove and the inner hole of the static ring and the circumferential surface of the small-diameter end, the first annular sealing tooth and the second annular sealing tooth are respectively inserted into the first annular groove and the second annular groove, and the third annular groove and the shaft shoulder of the static ring form a cavity for storing slag, and the static ring is provided with a material return hole communicated with the cavity so as to enable the slag to flow back into the cylinder.

Further, the inner hole of the movable ring is provided with coaxial helical blades, and the outer edge of each helical blade is connected with the inner wall of the movable ring.

Further, the rotating ring and the static ring are detachably connected with the cylinder body and the feeding box respectively.

Further, the sectional area of the material returning hole is gradually reduced, and the sectional area of one end, close to the cylinder, of the material returning hole is the smallest.

This mutually with prior art, the utility model provides a pair of novel cold sediment machine structure is unusual, has following beneficial effect:

1) the barrel is arranged into an inner barrel and an outer barrel, an interlayer is formed between the outer barrel and the inner barrel, so that the slag charge flowing into the inner barrel through the feed inlet is cooled through cold air discharged by the branch pipeline, the interlayer is cooled by discharging the cold air to the interlayer, the inner barrel is cooled, and meanwhile, the cold air in the interlayer exchanges heat with the slag charge through the side wall of the inner barrel, so that the cooling efficiency of the slag charge in the inner barrel is accelerated, and the time for cooling the slag charge to the standard discharge temperature is shortened;

2) the sealing device is arranged at the feed port to realize the sealing of the feed port, so that the feed port is effectively prevented from leaking;

3) dust collector is discharged into through exhaust apparatus with the smoke and dust that forms after dust and steam mix, and then realizes handling and filters the smoke and dust, avoids polluting the smoke and dust outflow and causes air pollution.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is an assembly view of the middle dynamic ring and the static ring of the present invention.

Fig. 3 is a bottom view of the middle rotating ring of the present invention.

Fig. 4 is a top view of the middle rotating ring of the present invention.

Fig. 5 is a sectional view of the middle rotating ring of the present invention.

Fig. 6 is a top view of the middle stationary ring of the present invention.

Fig. 7 is a B-B sectional view of the middle stationary ring of the present invention.

In the figure: 1. the feeding box comprises a feeding box, 2, a stationary ring, 201, a fourth annular groove, 202, a second annular sealing tooth, 203, a first annular sealing tooth, 3, a movable ring, 301, a material returning hole, 302, a second annular groove, 303, a first annular groove, 304, a spiral blade, 305, a third annular groove, 4, an inner cylinder, 5, a branch pipeline, 6, an outer cylinder, 7, a second-stage pipeline, 8, a first-stage pipeline, 9, a pulse pipe, 10, a pulse valve, 11, a cylinder with a valve, 12, a main pipeline, 13, a first gap, 14, a slag discharging port, 15, an interlayer and 16, and a cavity.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. It is to be understood that the embodiments described are only some embodiments of the invention, and 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 figures 1 to 7, a novel slag cooler as a preferred embodiment of the present invention comprises a roller slag cooler body, wherein the barrel of the roller slag cooler body is arranged as a double-layer structure and is divided into an inner barrel 4 and an outer barrel 6 from inside to outside, the inner barrel 4 is rotatably connected with the outer barrel 6, a feed port of the roller slag cooler body is connected with the inner barrel 4, a driving device of the slag cooler drives the inner barrel 4 to rotate, the outer barrel 6 is fixedly connected with a base of the slag cooler, the feed port of the slag cooler is communicated with the inner barrel 4, so that slag materials flow into the inner barrel 4 through the feed port and are subsequently cooled by the inner barrel 4, an opening is arranged at one end of the inner barrel 4 away from the feed port of the barrel, a first gap 13 is arranged between the end of the inner barrel 4 and the end of the outer barrel 6, and the first gap 13 is used for the slag materials in the inner barrel 4 to flow into the outer barrel 6, a second gap is formed between the inner barrel 4 and the outer barrel 6 to form an interlayer 15, an air inlet pipeline of the roller slag cooler body is divided into a main pipeline 12 and a plurality of branch pipelines 5 which are arranged in parallel, the branch pipelines 5 are connected with an air source through the main pipeline 12, the branch pipelines 5 extend along the axial direction of the barrels, one end of the main pipeline 12, which is positioned outside the barrels, is connected with the interlayer 15 through a pipe, a slag discharge port 14 is arranged at the lower end of one end, which is far away from a feed inlet, of the outer barrel 6, and the outer barrel 6 is provided with an air exhaust device to exhaust hot air in the interlayer 15 and the inner barrel 4, so that cold air flowing circulation in the inner barrel 4 and the interlayer 15 is realized, and the cooling efficiency is improved; the feed inlet is provided with a sealing device for preventing slag leakage; and the dust removal device is connected with the air exhaust device.

When the novel slag cooler provided by the utility model is applied, the barrel is arranged into the inner barrel 4 and the outer barrel 6, and then an interlayer 15 is formed between the outer barrel 6 and the inner barrel 4, so that the slag material flowing into the inner barrel 4 through the feed inlet is cooled through the cold air discharged by the branch pipeline 5, and the cold air is discharged to the interlayer 15 to cool the inner barrel 4, meanwhile, the cold air in the interlayer 15 exchanges heat with the slag material through the side wall of the inner barrel 4, the cooling efficiency of the slag material in the inner barrel 4 is accelerated, and the time for cooling the slag material to the standard discharge temperature is shortened; the sealing device is arranged at the feed port to realize the sealing of the feed port, so that the feed port is effectively prevented from leaking; dust collector is discharged into through exhaust apparatus with the smoke and dust that forms after dust and steam mix, and then realizes handling and filters the smoke and dust, avoids polluting the smoke and dust outflow and causes air pollution.

On the basis of the embodiment, the exhaust device comprises an exhaust pipeline and an exhaust fan, the exhaust fan is communicated with the barrel through the exhaust pipeline, hot air formed by heat exchange is discharged, cold air is continuously introduced into the barrel, a low-temperature state is kept, and slag charge cooling is accelerated.

To above-mentioned embodiment, for better technological effect, exhaust pipe includes one-level pipeline 8 and secondary pipeline 7, the air exhauster pass through one-level pipeline 8 and secondary pipeline 7 respectively with interior barrel 4 and outer barrel 6 intercommunication, just one-level pipeline stretches into interior barrel 4 extracts the steam in barrel 4 and the intermediate layer 15 respectively through one-level pipeline 8 and secondary pipeline 7, with higher speed the gas flow.

Specifically, the secondary pipeline 7 is located above the primary pipeline 8, and the secondary pipeline 7 is communicated with one end, close to the feed inlet, of the inner cylinder 4, so that heat exchange between the cold air and the inner cylinder 4 in the outer cylinder 6 for a long time is guaranteed.

On the basis of the above embodiment, the secondary pipeline 7 is located above the primary pipeline 8, the pulse pipe 9 is arranged in the primary pipeline 8, the pulse pipe 9 extends along the primary pipeline 8, the pulse pipe 9 is connected with the air source sequentially through the pulse valve 10 and the cylinder with a valve 11, the parts of the pulse pipe 9 and the primary pipeline 8, which are located on the inner cylinder 4, are respectively and uniformly provided with a first air hole and a second air hole, after the cylinder with a valve is closed from normal open to power on, the corresponding electromagnetic pulse valve 10 starts to perform electrified work, and the instant powerful air flow collects dust and cleans the dust of the primary pipeline 8, that is, dust on the inner wall of the primary pipeline 8 is blown off and falls into the inner cylinder 4 from the first air hole and the second air hole, and after the dust removal work is completed, the cylinder with a valve is powered off and opened, the primary pipeline 8 returns to a normal working state; it should be noted that the pulse tube 9 is provided with a second air hole for facilitating the dispersed air flow to blow towards the inner wall of the primary pipeline 8, and the first air hole is used for allowing the dust in the primary pipeline 8 to flow into the inner cylinder 4.

Preferably, the circumferential surface of the branch pipeline 5 is uniformly provided with third air holes, so that cold air can be dispersed and fully contacted with slag, and the cooling of the slag is accelerated.

In the above embodiment, the positions of the branch pipes 5 are set, and the axial circumferences of the cylinders 4 in the rings of the branch pipes 5 are uniformly distributed.

In the above embodiment, the end of the main pipe 12 located outside the cylinder is communicated with the lower side of the outer cylinder 6, so that the lower side of the cold air charging shell enters the interlayer 15 and is discharged from the upper side of the shell, the flow path of the cold air is increased, and the sufficient time of the cold air is ensured to be contacted with the inner cylinder 4.

Specifically, the dust removing device may be a bag filter, and the bag filter is an existing device, and is common general knowledge of those skilled in the art, and will not be described in detail herein.

On the basis of the above embodiment, regarding the specific structure of the sealing device, the sealing device includes a rotating ring 3 coaxially installed at the feed port of the cylinder and a stationary ring 2 fixed on the feed box 1, it should be noted that the cylinder and the feed box 1 are important components of the slag cooler, the cylinder is used for receiving high-temperature slag and cooling the slag in the cylinder, the feed box 1 is used for discharging high-temperature slag into the cylinder through a feed pipe, the feed pipe penetrates through inner holes of the stationary ring 2 and the rotating ring 3 and extends into the cylinder, one end of the rotating ring 3 is provided with a first annular groove 303, a second annular groove 302 and a third annular groove 305 which are coaxial with the inner hole of the rotating ring 3, and are sequentially a first annular groove 303, a second annular groove 302 and a third annular groove 305 from small to large according to the radius, the stationary ring 2 is set as a stepped shaft, the small-diameter end of the stationary ring 2 is provided with a coaxial fourth annular groove 201, a first annular sealing tooth 203 and a second annular sealing tooth 202 are formed between the fourth annular groove 201 and the inner hole of the stationary ring 2 and the circumferential surface of the small-diameter end of the stationary ring 2 respectively, the first annular sealing tooth 203 and the second annular sealing tooth 202 are inserted into the first annular groove 303 and the second annular groove 302 respectively to form a bent gap, the third annular groove 305 and the shaft shoulder of the stationary ring 2 form a cavity 16 for storing slag, and the stationary ring 2 is provided with a material return hole 301 communicated with the cavity 16 so that the slag flows back into the cylinder.

On the basis of the above embodiment, the inner hole of the moving ring 3 is provided with the coaxial helical blade 304, the outer edge of the helical blade 304 is connected with the inner wall of the moving ring 3, and in actual work, the rotating direction of the moving ring 3 is ensured to be consistent with the rotating direction of the helical blade 304, so that slag retained in the inner hole of the moving ring 3 is conveyed into the cylinder, and slag leakage is avoided.

On the basis of above-mentioned embodiment, rotating ring 3 and quiet ring 2 can be dismantled with barrel and feeding case 1 respectively and be connected, and cold sediment machine long-time work, rotating ring 3 and quiet ring 2 contact friction can cause and can cause the damage, and then adopt to dismantle the connection in order to make things convenient for the change, more specifically, rotating ring 3 and quiet ring 2 all are connected with barrel and feeding case 1 respectively through the bolt.

Preferably, the cross-sectional area of the material returning hole 301 is gradually reduced, and the cross-sectional area of the material returning hole 301 close to one end of the cylinder is the smallest, so that slag in the cavity 16 can be conveniently gathered and enter the material returning hole 301, and the slag in the cavity 16 can be conveniently discharged.

For better technical effect, the edges of the first annular seal tooth 203 and the second annular seal tooth 202 are rounded, so that the edges are eliminated, and the first annular seal tooth 203 and the second annular seal tooth 202 are prevented from being stuck in the first annular groove 303 and the second annular groove 302.

Finally, it should also be noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. The term "comprising", without further limitation, means that the element so defined is not excluded from the group consisting of additional identical elements in the process, method, article, or apparatus that comprises the element.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. A novel slag cooler comprises a roller slag cooler body and is characterized in that a barrel of the roller slag cooler body is of a double-layer structure and is divided into an inner barrel and an outer barrel from inside to outside, the inner barrel and the outer barrel are rotatably connected, a feed inlet of the roller slag cooler body is connected with the inner barrel, one end, away from the feed inlet of the barrel, of the inner barrel is provided with an opening, a first gap is arranged between the end of the inner barrel and the end of the outer barrel, a second gap is arranged between the inner barrel and the outer barrel to form an interlayer, an air inlet pipeline of the roller slag cooler body is divided into a main pipeline and a plurality of branch pipelines arranged in parallel, the branch pipelines are connected with an air source through the main pipeline, the branch pipelines extend along the axial direction of the barrel, one end, located outside the barrel, of the main pipeline is connected with the interlayer pipe, a slag discharge port is arranged at the lower end, away from the feed inlet, of the outer barrel, the outer cylinder body is provided with an air exhaust device to exhaust hot air in the interlayer and the inner cylinder body;

the feed inlet is provided with a sealing device for preventing slag leakage;

and the dust removal device is connected with the air exhaust device.

2. The novel slag cooler according to claim 1, wherein said exhaust means comprises an exhaust duct and an exhaust fan, said exhaust fan communicating with said barrel through said exhaust duct.

3. The slag cooler according to claim 2, wherein said exhaust duct comprises a primary duct and a secondary duct, said exhaust fan being in communication with said inner and outer cylinders through said primary and secondary ducts, respectively, and said primary duct extending into said inner cylinder.

4. The novel slag cooler according to claim 3, wherein the primary pipeline is located above the secondary pipeline, a pulse pipe is arranged in the secondary pipeline, the pulse pipe extends along the secondary pipeline, the pulse pipe is connected with the gas source sequentially through a pulse valve and a cylinder with a valve, and a first air hole and a second air hole are respectively and uniformly distributed on the parts of the pulse pipe and the secondary pipeline, which are located on the inner cylinder body.

5. The novel slag cooler of claim 4, wherein the dust removal device is a bag filter.

6. The novel slag cooler according to claim 1, wherein the circumferential surface of the branch pipeline is uniformly provided with third air holes.

7. The novel slag cooler according to claim 1, wherein the sealing device comprises a movable ring and a stationary ring, the movable ring is coaxially mounted at the feed port of the barrel, the stationary ring is fixed at the feed box, one end of the movable ring is provided with a first annular groove, a second annular groove and a third annular groove which are coaxial with the inner hole of the movable ring and are sequentially provided with the first annular groove, the second annular groove and the third annular groove from small to large according to the radius, the stationary ring is provided with a stepped shaft, the small-diameter end of the stationary ring is provided with a coaxial fourth annular groove, the fourth annular groove and the circumferential surface of the inner hole and the small-diameter end of the stationary ring form a first annular sealing tooth and a second annular sealing tooth respectively, the first annular sealing tooth and the second annular sealing tooth are respectively inserted into the first annular groove and the second annular groove, and the shaft shoulders of the third annular groove and the stationary ring form a cavity for storing slag, and the static ring is provided with a material returning hole communicated with the cavity so as to enable slag to flow back into the cylinder body.

8. The slag cooler according to claim 7, wherein the inner hole of the movable ring is provided with coaxial helical blades, and the outer edges of the helical blades are connected with the inner wall of the movable ring.

9. The slag cooler according to claim 7, wherein said rotating ring and said stationary ring are detachably connected to said barrel and said feed box, respectively.

10. The slag cooler according to claim 7, wherein the cross-sectional area of said return hole is gradually reduced, and the cross-sectional area of said return hole near one end of the cylinder is smallest.

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