CN215195534U - Full flow bottle for automatically conveying tar in tar and ammonia water separation tank - Google Patents

Abstract

The utility model relates to a full flow bottle with a tar and ammonia water separation tank for automatically conveying tar, which comprises a full flow bottle body, a tar outlet pipe, a tar inlet pipe, an adjusting sleeve pipe, a conical sleeve, an adjusting sleeve steel plate and an adjusting rod, wherein the other end of the adjusting rod penetrates out of the top of the full flow bottle body, and the adjusting sleeve pipe, the conical sleeve and the adjusting sleeve steel plate are all positioned in the full flow bottle body; the adjusting rod is provided with a plurality of adjusting holes, and the top of the full-flow bottle body is also provided with a fixed adjusting device consisting of two supporting plates and an adjusting rod clip. The device has the advantages of reasonable structure, simple and convenient maintenance and easy operation, and can drive the adjusting sleeve pipe to change the height of the tar inlet pipe through the adjusting rod, thereby controlling the liquid level of tar in the tar-ammonia water separating tank, realizing continuous and stable oil pressing and leading tar and ammonia water to be well separated.

Description

Full flow bottle for automatically conveying tar in tar and ammonia water separation tank

Technical Field

The utility model belongs to the technical field of coal chemical production equipment, more specifically say, relate to a full flow bottle body of tar is carried in automation of tar, aqueous ammonia separation effect in tar aqueous ammonia separating tank.

Background

The tar ammonia water separation tank is equipment for standing and layering tar ammonia water mixed liquor of a coal gas purification system of a coking plant, and dynamic standing separation is carried out mainly according to the physical properties of tar, ammonia water density difference and mutual incompatibility of oil and water. Two liquids from the coke oven are mutually mixed and dissolved at high temperature, flow into a tar-ammonia water separation tank along with a pipeline after being deslagged by a tar residue box, and the tar with high density slowly sinks to the bottom and is conveyed to a tar storage tank through a pressure oil pipeline; the ammonia water with low density is arranged on the uppermost layer, flows into the outer cavity of the lower cone through the full flow port and is conveyed to the coke oven by a pump to be used as the spray liquid of the ascending pipe; and the redundant ammonia water flows into the residual ammonia water tank, and is conveyed to a subsequent ammonia distillation system by a pump for treatment.

In the separation process, the separation time of tar and ammonia water in the clarifying tank can be ensured only by stably controlling the tar liquid level in the tar and ammonia water separation tank, so that the tar and the ammonia water are well separated.

The control of the tar liquid level depends on the amount of the delivered tar, the delivered tar is large, the tar liquid level in the separation tank is low, the ammonia liquid level is high, the tar water content is overhigh, the temperature rise dehydration time of the subsequent tar processing is prolonged, the processing benefit is reduced, the overpressure of distillation equipment is possibly caused, and certain potential safety hazard is caused to the production; the amount of the coke oil delivered outside is small, so that the tar liquid level in the separation tank is high, the ammonia water liquid level is low, the tar content in the ammonia water exceeds the standard, the atomization degree of the ammonia water in the spray head of the gas collecting pipe is reduced, and the tower tray of the distillation tower of the ammonia distillation system and the heat exchanger are blocked. At present, the amount of tar delivered outside is estimated and adjusted by a post worker according to the amount of tar delivered outside recorded every day, so that a tar-ammonia water interface in a clarifying tank cannot be kept stable for a long time, and the condition that the tar water content is large or the oil content of ammonia water exceeds the standard frequently occurs.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art existence, the utility model aims at providing a full flow bottle of tar ammonia water separating tank automatic conveying tar, when tar reachs the take the altitude in the tar ammonia water separating tank, tar will be automatic through pressing the oil pipe to get into full flow bottle originally internal, carries to the tar storage tank through full flow bottle body, has stabilized tar liquid level in the tar ammonia water separating tank, has solved the problem that tar and ammonia water separation effect are not good in the tar ammonia water separating tank.

In order to solve the above problem, the utility model discloses the technical scheme who adopts is:

a full flow bottle with a tar and ammonia water separation tank for automatically conveying tar comprises a full flow bottle body, a tar outlet pipe arranged at the bottom of the full flow bottle body, a tar inlet pipe with one end penetrating into the full flow bottle body from the bottom of the full flow bottle body, an adjusting sleeve pipe hermetically connected with the other end of the tar inlet pipe, a conical sleeve arranged at the top of the adjusting sleeve pipe, an adjusting sleeve steel plate arranged at the center of the center inside the conical sleeve, an adjusting rod connected with the center of the top of the adjusting sleeve steel plate, the other end of the adjusting rod penetrates out of the top of the full flow bottle body, and the adjusting sleeve pipe, the conical sleeve and the adjusting sleeve steel plate are all positioned in the full flow bottle body;

the adjusting rod is provided with a plurality of adjusting holes, and the top of the full-flow bottle body is also provided with a fixed adjusting device matched with the adjusting holes of the adjusting rod.

The utility model discloses technical scheme's further improvement lies in: fixed adjusting device is including setting up two backup pads, an regulation pole checkpost on full flow bottle body roof, and two backup pads parallel position are in full flow bottle body top centre bore both sides, and two backup pad centers respectively are equipped with a circular port, adjust the regulation hole that the pole checkpost passed the circular port in the backup pad of both sides and adjusted on the pole.

The utility model discloses technical scheme's further improvement lies in: the adjusting rod clip is L-shaped.

The utility model discloses technical scheme's further improvement lies in: the middle upper part of the outer wall of the full-flow bottle body is symmetrically provided with a backing plate, and the top of the full-flow bottle body is also provided with a diffusing pipe.

The utility model discloses technical scheme's further improvement lies in: the adjusting sleeve steel plate is an inverted concave adjusting sleeve steel plate.

The utility model discloses technical scheme's further improvement lies in: the joint of the tar inlet pipe and the adjusting sleeve pipe is provided with a sealing pipe section, and an oil-immersed asbestos packing is arranged in the sealing pipe section.

The utility model discloses technical scheme's further improvement lies in: the joint of the adjusting rod and the top plate of the full-flow bottle body is provided with an adjusting rod filler seal.

The utility model discloses technical scheme's further improvement lies in: the top end of the adjusting rod is provided with a handle.

Since the technical scheme is used, the utility model discloses the beneficial effect who gains is:

by adopting the technical scheme, tar conveyed from the tar-ammonia water separation tank pressure oil pipeline enters the full-flow bottle body, enters the adjusting sleeve pipe through the tar inlet pipe, flows to the inner cavity between the tar inlet pipeline assembly and the full-flow bottle body through the conical sleeve at the top of the adjusting sleeve pipe, and finally flows out of the tar outlet pipe at the bottom of the full-flow bottle body to enter the tar storage tank. Because tar gets into full flow bottle body under the effect of static pressure in the tar aqueous ammonia separating tank, the height of tar liquid level in the tar aqueous ammonia separating tank has just been decided to the height of tar inlet pipeline assembly in the overflow bottle, drives the height of adjusting the tar inlet pipeline assembly in the sleeve pipe control overflow bottle through adjusting the pole to the height of tar liquid level in the control separating tank.

The utility model discloses rational in infrastructure, maintain portably, easily operation drives the change that adjusts sleeve pipe and change tar inlet pipeline assembly height and then the liquid level of tar in the control tar aqueous ammonia separating tank through adjusting the pole, has realized the continuous stable pressure oil, makes tar and aqueous ammonia obtain fine separation. After the overflow bottle is adjusted once, no post personnel are needed to operate, so that the labor intensity is greatly reduced, and the quality of the tar ammonia water is improved.

Drawings

Fig. 1 is a schematic structural view of the present invention;

wherein: 1. tar import pipe, 2, tar outlet pipe, 3, full flow bottle body, 4, sealed pipeline section, 5, adjusting sleeve pipe, 6, toper sleeve, 7, backing plate, 8, adjusting sleeve steel sheet, 9, adjust the pole, 10, adjust the pole packing, 11, backup pad, 12, adjust the pole checkpost, 13, hand (hold), 14, the pipe of diffusing.

Detailed Description

The present invention will be described in further detail with reference to examples.

The utility model discloses an automatic full flow bottle of carrying tar of tar ammonia water separating tank, see figure 1, including full flow bottle body 3, the tar outlet pipe 2 of setting in full flow bottle body 3 bottom, tar import pipe 1 in full flow bottle body 3 is penetrated to one end from full flow bottle body 3 bottom, adjust sleeve pipe 5 with 1 other end sealing connection of tar import pipe, the setting is at the taper sleeve 6 at 5 tops of adjusting sleeve pipe, install the adjusting sleeve steel sheet 8 at 6 inside positive centers of taper sleeve, adjust pole 9 with 8 top center connections of adjusting sleeve steel sheet, adjust the top that full flow bottle body 3 was worn out to the pole 9 other ends, adjust sleeve pipe 5, taper sleeve 6, adjusting sleeve steel sheet 8 all is located full flow bottle body 3.

A plurality of adjusting holes are arranged on the adjusting rod 9, and a fixed adjusting device matched with the adjusting holes of the adjusting rod 9 is also arranged at the top of the full-flow bottle body 3.

Fixed adjusting device is including setting up two backup pads 11 on 3 roofs of full flow bottle body, one adjust pole checkpost 12, and two backup pads 11 parallel bit are in 3 top centre bore both sides of full flow bottle body, and two backup pads 11 centers respectively are equipped with a circular port, adjust the regulation hole that pole checkpost 12 passed the circular port in the backup pad 11 of both sides and adjusted on the pole 9.

For ease of use, the adjuster rod clip 12 is designed to be L-shaped.

The middle upper part of the outer wall of the full flow bottle body 3 is symmetrically provided with a backing plate 7, and the top of the full flow bottle body 3 is also provided with a diffusing pipe 14.

The adjusting sleeve steel plate 8 is an inverted concave adjusting sleeve steel plate.

A sealing pipe section 4 is arranged at the joint of the tar inlet pipe 1 and the adjusting sleeve pipe 5, and an oil-immersed asbestos packing is arranged inside the sealing pipe section 4.

The joint of the adjusting rod 9 and the top plate of the full-flow bottle body 3 is provided with an adjusting rod filler seal 10, and the adjusting rod filler seal 10 can be a commercially available sealing material.

The top end of the adjusting rod 9 is provided with a handle 13.

The following examples are given for illustrative purposes.

As shown in figure 1, the top end of the tar inlet pipe 1 is positioned in the adjusting sleeve pipe 5, and the inner diameter of the adjusting sleeve pipe 5 is larger than the outer diameter of the tar inlet pipe 1, so that the adjusting sleeve pipe 5 can be conveniently adjusted up and down outside the tar inlet pipe 1. Adjust the 5 bottoms of sleeve pipe and connect for sealed pipeline section 4, sealed pipeline section 4 is inside to be equipped with oily asbestos packing, has realized the sealed of gap between tar import pipe 1 and the regulation sleeve pipe 5, consequently, tar can not leak the inner chamber to overflow bottle 3 when tar gets into in the regulation sleeve pipe 5 from tar import pipe 1.

As shown in figure 1, the top of the adjusting sleeve pipe 5 is welded with the conical sleeve 6, the diameter of the bottom of the conical sleeve 6 is consistent with that of the adjusting sleeve pipe 5, the diameter of the top of the conical sleeve 6 is larger than that of the adjusting sleeve pipe 5 and smaller than the inner diameter of the outer wall of the full-flow bottle body 3, tar flowing out of the top of the conical sleeve 6 can smoothly enter the inner cavity of the full-flow bottle body 3, and the resistance of the tar in the full-flow process is reduced.

As shown in figure 1, the adjusting rod 9 passes through the center hole at the top of the full flow bottle body 3, the inner diameter of the center hole at the top of the full flow bottle body 3 is larger than the outer diameter of the adjusting rod 9, the adjusting rod 9 can be conveniently adjusted up and down at the top of the overflow bottle 3, a gap exists between the center hole at the top and the adjusting rod 9, and the gap is sealed by the filler seal 10, so that oil and gas leakage is prevented when a person adjusts the gap. Two backup pads 11 parallel positions of 3 roof welded of full flow bottle body are in the both sides of 3 top centre holes of overflow bottle, and after adjusting pole 9 and adjusted the position, pass 11 round holes in both sides backup pad and adjust 9 round holes with adjusting pole checkpost 12 in proper order, make and adjust pole 9 and fix on backup pad 11 through adjusting pole checkpost 12, the tar inlet pipeline assembly height of being convenient for is fixed. The bottom of the adjusting rod 9 is connected with the carbon steel plate at the top of the conical sleeve 6 through a bolt, and the top of the adjusting rod 9 is welded with an oval adjusting handle 13, so that the post personnel can adjust the carbon steel plate conveniently.

As shown in figure 1, the backing plate 7 is welded on the middle upper portion of the outer wall of the full-flow bottle body 3, so that the full-flow bottle body 3 can be conveniently installed and fixed, the diffusing pipe 14 is arranged at the top of the full-flow bottle body 3, and the tar can be conveniently discharged during the flowing process of the tar in the full-flow bottle body 3.

The full flow bottle of tar is carried automatically to tar ammonia water separating tank notes:

1) the full-flow bottle body 3 is of a circular cylindrical structure and comprises a cylinder, a bottom plate and a top plate, the bottom plate and the cylinder are welded, and the top plate and the cylinder are connected through flanges, so that the inside of the full-flow bottle body is convenient to disassemble and inspect. The tar inlet pipe 1, the tar outlet pipe 2, the diffusing pipe 14 and the backing plate 7 are welded with the overflow bottle 3. The centers of the overflow bottle 3, the tar inlet pipe 1, the sealing pipe section 4, the adjusting sleeve pipe 5, the conical sleeve 6, the adjusting sleeve steel plate 8, the adjusting rod 9 and the supporting plate 11 are positioned on the same vertical line.

2) The tar inlet pipe 1 and the adjusting sleeve pipe 5 are seamless structural pipes, the tar inlet pipe 1 enters the full flow bottle body 3 through the center of the bottom plate of the full flow bottle body 3, a welding treatment is adopted in a gap between the tar inlet pipe 1 and the bottom plate of the full flow bottle body 3, the top end of the tar inlet pipe 1 is positioned in the adjusting sleeve pipe 5, the inner diameter of the bottom of the adjusting sleeve pipe 5 is larger than the outer diameter of the tar inlet pipe 1, and the adjusting sleeve pipe 5 is convenient to adjust from top to bottom outside the tar inlet pipe 1. The bottom of the adjusting sleeve pipe 5 is connected with the sealing pipe section 4, so that the sealing of a gap between the tar inlet pipe 1 and the adjusting sleeve pipe 5 is realized, the adjusting sleeve pipe 5 is ensured to be adjusted up and down outside the tar inlet pipe 1, and the tar in the tar inlet pipe 1 is ensured not to leak to the inner cavity of the overflow bottle 3.

3) The inside oil-immersed asbestos packing that is equipped with of sealed pipeline section 4 avoids tar to the corruption of packing, and the packing adopts the range upon range of mode that adds of layer, and there is circular tray sealed pipeline section 4 bottom, and the bottom packing installation of being convenient for, there is the packing gland at the top, and the packing is loaded and is fastened with the gland after finishing, has guaranteed the sealed effect of oil-immersed asbestos packing when following up-and-down motion of sealed pipeline section 4.

4) The welding of 5 tops of adjusting sleeve pipe has taper sleeve 6, 6 bottom diameters of taper sleeve are unanimous with 5 diameters of adjusting sleeve pipe, 6 top diameters of taper sleeve are greater than and adjust 5 diameters of sleeve pipe and are less than the 3 internal diameters of full flow bottle body, be convenient for get into the inner chamber of full flow bottle body 3 smoothly from the tar that 5 tops of taper sleeve pipe flowed out, 6 inside positive centers of taper sleeve install one fall concave type regulation sleeve steel sheet 8 (for the carbon steel sheet), the mounting means is the welding, there is the circular port at 8 top centers of regulation sleeve steel sheet, be convenient for and adjust pole 9 and be connected.

5) The adjusting rod 9 is a solid stainless steel tube, a circular hole is arranged at the center of the stainless steel tube at the upper and lower intervals of 100mm, the number of the circular holes is 10, the adjusting rod 9 penetrates through the center hole of the top plate of the full-flow bottle body 3, the inner diameter of the center hole of the top plate of the full-flow bottle body 3 is larger than the outer diameter of the adjusting rod, the adjusting rod 9 can be conveniently adjusted up and down at the top of the overflow bottle body 3, a gap is formed between the center hole of the top plate of the full-flow bottle body 3 and the adjusting rod 9, and the adjusting rod is sealed by a filler seal 10.

6) The welding of full flow bottle body top has two backup pads 11, and two backup pads 11 parallel bit are in 3 top centre bore both sides of full flow bottle body, and two backup pads 11 centers respectively have a circular port. After the position of the adjusting rod 9 is adjusted, the adjusting rod clips 12 made of stainless steel solid steel tubes sequentially penetrate through round holes of the supporting plates 11 on the two sides and round holes of the adjusting rod 9, the outer diameter of each adjusting rod clip 12 is smaller than the inner diameters of the round holes of the supporting plates 11 and the round holes of the adjusting rod 9, and the adjusting rod 9 is fixed on the supporting plates 11 through the adjusting rod clips 12. The bottom of the adjusting rod 9 is connected with the carbon steel plate of the adjusting sleeve steel plate 8 at the top of the conical sleeve 6 through a bolt, an oval adjusting handle 13 is welded at the top of the adjusting rod 9, and a post person can adjust the carbon steel plate conveniently.

7) The tar outlet pipe 2 is a seamless structure pipe, and the tar outlet pipe 2 is positioned at the bottom of the full-flow bottle body 3, so that tar can flow out of the inner cavity of the full-flow bottle body 3 conveniently; the backing plate 7 is positioned at the middle upper part of the full-flow bottle body 3, so that the full-flow bottle body 3 is convenient to mount and fix; the top of the full flow bottle body 3 is provided with a diffusing pipe 14, which is convenient for the discharge of non-condensable gas in the flow process of tar in the full flow bottle body 3.

The working principle is as follows: the tar that comes from tar ammonia water separation groove pressure oil pipeline carries gets into full flow bottle body 3, and tar passes through tar import pipe 1 and gets into and adjusts sleeve pipe 5, and tar flows to tar import pipe 1, adjusts the inner chamber between sleeve pipe 5, conical sleeve 6 and the full flow bottle body 3 through the conical sleeve 6 full flow at adjusting sleeve pipe 5 top, and tar flows out the tar storage tank from the tar outlet pipe 2 of full flow bottle body 3 bottoms at last. Because tar gets into full flow bottle body 3 under the effect of static pressure in the tar ammonia water separating tank, drive the height of adjusting sleeve pipe 5 tar import pipe 1 in full flow bottle body 3 through adjusting pole 9, thereby the height of tar liquid level in the control separating tank, when full flow bottle body 3 needs to be adjusted, post personnel only need take out regulation pole checkpost 12, personnel adjust pole 9 upper and lower regulation through hand (hold) 13, tar import pipe 1, adjust sleeve pipe 5, the maximum control height of the tar inlet pipeline assembly that taper sleeve 6 constitutes is 1000mm, adjust the back that finishes and fix the regulation pole on backup pad 11 with adjusting pole checkpost 12, easy operation convenient and fast.

Claims (8)

1. The utility model provides an automatic full flow bottle who carries tar of tar ammonia water separating tank which characterized in that: the tar-containing full-flow bottle comprises a full-flow bottle body (3), a tar outlet pipe (2) arranged at the bottom of the full-flow bottle body (3), a tar inlet pipe (1) with one end penetrating into the full-flow bottle body (3) from the bottom of the full-flow bottle body (3), an adjusting sleeve pipe (5) hermetically connected with the other end of the tar inlet pipe (1), a conical sleeve (6) arranged at the top of the adjusting sleeve pipe (5), an adjusting sleeve steel plate (8) arranged at the center inside the conical sleeve (6), and an adjusting rod (9) connected with the center of the top of the adjusting sleeve steel plate (8), wherein the other end of the adjusting rod (9) penetrates out of the top of the full-flow bottle body (3), and the adjusting sleeve pipe (5), the conical sleeve (6) and the adjusting sleeve steel plate (8) are all positioned in the full-flow bottle body (3);

a plurality of adjusting holes are arranged on the adjusting rod (9), and a fixed adjusting device matched with the adjusting holes of the adjusting rod (9) is also arranged at the top of the full-flow bottle body (3).

2. The full flow bottle for automatically conveying tar in tar-ammonia water separation tank according to claim 1, characterized in that: the fixed adjusting device comprises two supporting plates (11) arranged on a top plate of the full-flow bottle body (3) and an adjusting rod clamp (12), the two supporting plates (11) are located on two sides of a center hole in the top of the full-flow bottle body (3) in parallel, a circular hole is formed in the centers of the two supporting plates (11), and the adjusting rod clamp (12) penetrates through the circular holes in the supporting plates (11) on two sides and an adjusting hole in an adjusting rod (9).

3. The full flow bottle for automatically conveying tar in the tar-ammonia water separation tank according to claim 2, is characterized in that: the adjusting rod clip (12) is L-shaped.

4. The full flow bottle for automatically conveying tar in tar-ammonia water separation tank according to claim 1, characterized in that: the middle upper part of the outer wall of the full-flow bottle body (3) is symmetrically provided with a backing plate (7), and the top of the full-flow bottle body (3) is also provided with a diffusing pipe (14).

5. The full flow bottle for automatically conveying tar in tar-ammonia water separation tank according to claim 1, characterized in that: the adjusting sleeve steel plate (8) is an inverted concave adjusting sleeve steel plate.

6. The full flow bottle for automatically conveying tar in tar-ammonia water separation tank according to claim 1, characterized in that: the joint of the tar inlet pipe (1) and the adjusting sleeve pipe (5) is provided with a sealing pipe section (4), and an oil-immersed asbestos packing is arranged inside the sealing pipe section (4).

7. The full flow bottle for automatically conveying tar in tar-ammonia water separation tank according to claim 1, characterized in that: the joint of the adjusting rod (9) and the top plate of the full-flow bottle body (3) is provided with an adjusting rod filler seal (10).

8. The full flow bottle for automatically conveying tar in the tar-ammonia water separation tank according to any one of claims 1 to 7, characterized in that: the top end of the adjusting rod (9) is provided with a handle (13).

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