CN209967726U - Novel slag flushing pipeline structure - Google Patents

Abstract

The utility model discloses a novel towards sediment pipeline structure, including towards the cinder spout, condensation assembly, gas collection subassembly and backward flow subassembly, towards the cinder spout setting subaerial and fixed through the support column, towards the cinder spout setting in the below ground, the intake pipe is linked together with towards cinder spout top, be provided with condensation plate group in the shell body, condensation plate group is including left condensation plate and right condensation plate, right condensation plate sets up in left condensation plate top, left condensation plate right-hand member corresponds the setting with the backward flow subassembly, gas collection mouth left end stretches into shell body right side wall upper portion, right-hand member and induced draft fan intercommunication, backward flow opening upper end stretches into shell body lower wall right side, the lower extreme links firmly with the collecting vessel upper end, the back flow export with towards the cinder spout intercommunication. The utility model discloses a set up condensation subassembly, gas collection subassembly and backward flow subassembly, can carry out the condensation backward flow to the hot steam in the sluiceway, realize cyclic utilization to can reduce sluiceway and block up, reduce staff intensity of labour, simple structure, convenient to use.

Description

Novel slag flushing pipeline structure

Technical Field

The utility model relates to a steel rolling workshop mechanical equipment technical field especially relates to a novel towards sediment pipeline structure.

Background

The slag in the trench under the steel rolling workshop transportation roller way, most of the processing methods are as follows: and (3) impacting the slag flow by using a high-pressure water beam, rapidly cooling, scattering and granulating the slag, and flowing into a slag settling tank along the slag flushing ditch. In this process, cooling the high temperature slag generates a large amount of alkaline steam, which can cause corrosive damage to nearby equipment and pipelines. The slag flushing pipeline mainly comprises the following purposes: the raw material roller way is cleaned, and the scale removed by fine and coarse descaling is removed.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a novel towards sediment pipeline structure solves near the equipment corrosivity of towards the cinder spout among the prior art serious, especially towards the problem that the cinder pipeline corrodes seriously, is difficult for the maintenance.

In order to solve the technical problem, the utility model adopts the following technical scheme:

the utility model relates to a novel slag flushing pipeline structure, which comprises a slag flushing channel, a slag flushing pipeline, a condensing assembly, a gas collecting assembly and a backflow assembly, wherein the slag flushing pipeline is arranged on the ground and fixed through a support column, the slag flushing channel is arranged below the ground, the condensing assembly comprises an outer shell, an air inlet pipe and a condensing plate assembly, the air inlet pipe is communicated with the upper part of the slag flushing channel, a plurality of groups of the condensing plate assembly are arranged in the outer shell, each group of the condensing plate assembly comprises a left condensing plate and a right condensing plate, the right end of the right condensing plate is fixedly connected with the right side wall of the outer shell and is obliquely arranged towards the left lower part, the left end of the left condensing plate is fixedly connected with the left side wall of the outer shell and is obliquely arranged towards the right lower part, the right condensing plate is arranged above the left condensing plate, the right end of the left condensing plate is correspondingly arranged with the backflow, the gas collection subassembly includes gas collection mouth, induced air fan and outlet duct, the gas collection mouth left end stretches into shell body right side wall upper portion in order with shell body intercommunication, right-hand member with induced air fan intercommunication, induced air fan export with the outlet duct intercommunication, the backward flow subassembly includes surge drum, backward flow opening and back flow, the transversal infundibulate of personally submitting of backward flow opening, backward flow opening upper end stretch into shell body lower wall right side with shell body intercommunication, lower extreme with the surge drum upper end links firmly, the surge drum links firmly on the shell body, the back flow sets up surge drum right side lower wall and below slope setting in the right side, the back flow export with towards the sediment pipeline intercommunication.

Further, still include the flaring cover body, the setting of the flaring cover body is in the sluiceway with between the condensation subassembly, the flaring cover body includes opening and stiff end, the opening orientation sluiceway and top with the stiff end links firmly, the stiff end cup joints fixedly in on the intake pipe.

Furthermore, the fixed end is sleeved on the outer side wall of the bottom end of the air inlet pipe and fixedly connected through a bolt.

Further, the opening is in an inverted funnel shape.

Still further, a plurality of dry plug-in components are detachably inserted in the gas collection port.

Still further, the pipeline diameter of towards sediment pipeline is 530mm, and is connected with towards sediment pump and three elevator pumps and carries out towards the sediment.

Further, the collecting cylinder is a hollow barrel body.

Furthermore, a hoop is fixedly connected to the circumferential direction of the collecting cylinder, and the hoop is fixedly connected to the bottom of the outer shell through a fixing support.

Compared with the prior art, the utility model discloses a beneficial technological effect:

the novel slag flushing pipeline structure can carry out condensation backflow on hot steam in the slag flushing ditch by arranging the condensation component, the gas collection component and the backflow component, realizes cyclic utilization, can accelerate the cooling rate of high-temperature slag, and reduces corrosive damage of alkaline steam to nearby equipment and pipelines; through will dash the slag pipe setup outside towards the cinder spout subaerially, reduced the pipeline and rotten, increase the life of pipeline, through adding thick towards the cinder pipeline and will dash the trunk line of cinder pipeline and be connected with the elevator pump, can improve discharge, great improvement towards the cinder ability, reduce the operating time of manual cleaning towards the cinder spout, reduced staff's intensity of labour. The utility model discloses be particularly useful for steel rolling workshop transportation roll table.

Drawings

The present invention will be further explained with reference to the following description of the drawings.

FIG. 1 is a schematic view of a partial structure of the slag flushing pipe structure of the present invention;

fig. 2 is a schematic structural view of the gas collection assembly, the condensation assembly and the backflow assembly of the slag flushing pipeline structure of the utility model.

Description of reference numerals: 1. flushing a slag channel; 2. a slag flushing pipeline; 21. a support pillar; 3. a flaring cover body; 31. an opening; 32. a fixed end; 4. a condensing assembly; 41. an outer housing; 42. an air inlet pipe; 43. a left cold plate; 44. a right cold plate; 5. a gas collection assembly; 51. an air collection port; 52. an induced draft fan; 53. an air outlet pipe; 54. drying the plug-in; 6. a reflow assembly; 61. a collection canister; 62. a backflow opening; 63. a return pipe; 64. fixing a bracket; 65. and (5) clamping a hoop.

Detailed Description

As shown in fig. 1 and 2, a novel slag flushing pipeline structure comprises a slag flushing channel 1, a slag flushing pipeline 2, a condensing assembly 4, a gas collecting assembly 5 and a backflow assembly 6, wherein the slag flushing pipeline 2 is arranged on the ground and fixed through a support column 21, the slag flushing channel 1 is arranged below the ground, the condensing assembly 4 comprises a shell 41, an air inlet pipe 42 and a condensing plate assembly, the air inlet pipe 42 is communicated with the upper part of the slag flushing channel 1, a plurality of groups of condensing plate assemblies are arranged in the shell 41, each group of condensing plate assembly comprises a left condensing plate 43 and a right condensing plate 44, the right end of the right condensing plate 44 is fixedly connected with the right side wall of the shell 41 and obliquely arranged below the right side wall, the left end of the left condensing plate 43 is fixedly connected with the left side wall of the shell 41 and obliquely arranged below the right side wall, the right condensing plate 44 is arranged above the left condensing plate 43, and the right end of the left condensing plate 43 is correspondingly arranged with the backflow assembly 6 so that condensed liquid flows back to In the subassembly 6, gas collection subassembly 5 includes gas collection mouth 51, induced air fan 52 and outlet duct 53, gas collection mouth 51 left end stretch into shell body 41 right side wall upper portion in order with shell body 41 intercommunication, right-hand member with induced air fan 52 intercommunication, induced air fan 52 export with outlet duct 53 intercommunication, backward flow subassembly 6 includes a collector 61, backward flow opening 62 and back flow 63, the transversal infundibulate that personally submits of backward flow opening 62, backward flow opening 62 upper end stretch into shell body 41 lower wall right side in order with shell body 41 intercommunication, lower extreme with the collector 61 upper end links firmly, the collector 61 links firmly on the shell body 41, back flow 63 sets up collector 61 right side lower wall and below slope set up, back flow 63 export with sluiceway 1 intercommunication.

When the slag flushing pipeline 2 structure of the embodiment is used, firstly, the air in the outer shell 41 is drawn out through the air collecting port 51 by the induced air fan 52, meanwhile, the alkaline steam in the slag flushing ditch 1 is sucked into the outer shell 41 by the air inlet pipe 42, the alkaline steam enters the air collecting port 51 after being condensed by the left condensation plate 43 and the right condensation plate 44 in sequence, the condensed steam enters the left condensation plate 43 or is directly condensed on the left condensation plate 43 after being condensed by the right condensation plate 44, and then falls into the collecting cylinder 61 of the backflow component 6 through the right end of the left condensation plate 43 at the lowest end, and then flows back into the slag flushing pipeline 2 through the backflow pipe 63.

According to the novel slag flushing pipeline structure, the condensing assembly 4, the gas collecting assembly 5 and the backflow assembly 6 are arranged, so that hot steam in the slag flushing ditch 1 can be condensed and refluxed, recycling is realized, the cooling rate of high-temperature slag can be increased, and corrosive damage of alkaline steam to nearby equipment and pipelines is reduced; through setting up towards the ground of sediment pipeline 2 outside towards the cinder spout 1, reduced the pipeline and rotten, increased the life of pipeline.

Specifically, still include the flaring cover body 3, the flaring cover body 3 sets up sluiceway 1 with between the condensation subassembly 4, the flaring cover body 3 includes opening 31 and stiff end 32, opening 31 orientation sluiceway 1 and top with stiff end 32 links firmly, stiff end 32 cup joints fixedly on the intake pipe 42.

In this embodiment, the gas collection rate of the alkaline steam can be increased by providing the flaring cover body 3.

Specifically, the fixed end 32 is sleeved on the outer side wall of the bottom end of the air inlet pipe 42 and fixedly connected through a bolt.

Specifically, the opening 31 is shaped like an inverted funnel.

Specifically, a plurality of drying inserts 54 are detachably inserted into the air collection opening 51.

In this embodiment, through setting up detachable dry plug-in 54, can make things convenient for dry plug-in 54's change, dry plug-in 54 can adopt the activated carbon layer simultaneously, can effectively absorb the moisture of the interior gas of gas collection mouth 51, avoids causing the influence to induced air fan 52, extension induced air fan 52 life.

Specifically, the diameter of the slag flushing pipeline 2 is 530mm, and the slag flushing pipeline is connected with a slag flushing pump and three lifting pumps for flushing slag.

In the embodiment, the slag flushing pipeline 2 is thickened, and the main pipeline of the slag flushing pipeline 2 is connected with the lifting pump, so that the water flow can be improved, the slag flushing capacity is greatly improved, the working time of manually cleaning the slag flushing ditch 1 is reduced, and the labor intensity of workers is reduced; in the use, when the slag flushing pump is not flushed completely, the three lifting pumps are opened to flush slag, so that the labor intensity of workers can be greatly reduced, and the blockage of the slag flushing ditch 1 is reduced.

Specifically, the collecting barrel 61 is a hollow barrel body.

Specifically, the collecting cylinder 61 is circumferentially fixedly connected with a clamp 65, and the clamp 65 is fixedly connected to the bottom of the outer shell 41 through a fixing support 64.

The novel slag flushing pipeline structure of the utility model can condense and reflux hot steam in the slag flushing ditch 1 by arranging the condensation component 4, the gas collection component 5 and the reflux component 6, thereby realizing cyclic utilization, accelerating the cooling rate of high-temperature slag and reducing corrosive damage of alkaline steam to nearby equipment and pipelines; through will dash sediment pipeline 2 setting outside towards the cinder spout 1 subaerial, reduced the pipeline and rotten, increase the service life of pipeline, through adding thick towards sediment pipeline 2 and will dash the trunk line and the elevator pump of sediment pipeline 2 and be connected, can improve discharge, great improvement towards the sediment ability, reduce the operating time of manual cleaning towards the cinder spout 1, reduced staff's intensity of labour.

The above-mentioned embodiments are only intended to describe the preferred embodiments of the present invention, but not to limit the scope of the present invention, and those skilled in the art should also be able to make various modifications and improvements to the technical solution of the present invention without departing from the spirit of the present invention, and all such modifications and improvements are intended to fall within the scope of the present invention as defined in the appended claims.

Claims (8)

1. The utility model provides a novel towards sediment pipeline structure which characterized in that: the slag flushing device comprises a slag flushing channel, a slag flushing pipeline, a condensation assembly, a gas collection assembly and a backflow assembly, wherein the slag flushing pipeline is arranged on the ground and is fixed through a support column, the slag flushing channel is arranged below the ground, the condensation assembly comprises an outer shell, an air inlet pipe and a condensation plate assembly, the air inlet pipe is communicated with the top of the slag flushing channel, a plurality of groups of condensation plate assemblies are arranged in the outer shell, each group of condensation plate assemblies comprises a left condensation plate and a right condensation plate, the right end of the right condensation plate is fixedly connected with the right side wall of the outer shell and obliquely arranged towards the left lower side, the left end of the left condensation plate is fixedly connected with the left side wall of the outer shell and obliquely arranged towards the right lower side, the right condensation plate is arranged above the left condensation plate, the right end of the left condensation plate is correspondingly arranged with the backflow assembly so that condensed liquid flows back into the backflow, Induced air fan and outlet duct, the gas collection mouth left end stretch into shell body right side wall upper portion with shell body intercommunication, right-hand member with induced air fan intercommunication, induced air fan export with the outlet duct intercommunication, the backward flow subassembly includes surge drum, backward flow opening and back flow, the transversal infundibulate of personally submitting of backward flow opening, backward flow opening upper end stretch into shell body lower wall right side with shell body intercommunication, lower extreme with the surge drum upper end links firmly, the surge drum links firmly on the shell body, the back flow sets up surge drum right side lower wall and below the right side slope setting, the back flow export with towards the sediment pipeline intercommunication.

2. The novel flushing slag pipeline structure of claim 1, wherein: still include the flaring cover body, the flaring cover body sets up the sluiceway with between the condensation subassembly, the flaring cover body includes opening and stiff end, the opening orientation sluiceway and top with the stiff end links firmly, the stiff end cup joints fixedly in the intake pipe.

3. The novel flushing slag pipeline structure of claim 2, wherein: the fixed end is sleeved on the outer side wall of the bottom end of the air inlet pipe and fixedly connected through a bolt.

4. The novel flushing slag pipeline structure of claim 2, wherein: the opening is in an inverted funnel shape.

5. The novel flushing slag pipeline structure of claim 1, wherein: a plurality of drying plug-in components are detachably inserted in the gas collection port.

6. The novel flushing slag pipeline structure as claimed in any one of claims 1-5, characterized in that: the pipeline diameter of the slag flushing pipeline is 530mm, and the slag flushing pipeline is connected with a slag flushing pump and three lifting pumps for flushing slag.

7. The novel flushing slag pipeline structure as claimed in any one of claims 1-5, characterized in that: the collecting cylinder is a hollow barrel body.

8. The novel flushing slag pipeline structure of claim 7, wherein: the collecting cylinder circumference has linked firmly the clamp, the clamp links firmly through the fixed bolster the shell body bottom.

Images