CN216725830U - Conveniently-disassembled cooler for storage tank rectifying tower - Google Patents

Abstract

The utility model discloses a conveniently-disassembled cooler for a storage tank rectifying tower, and relates to the technical field of relevant equipment of the rectifying tower. The utility model comprises an upper tank body and a lower tank body, wherein an L-shaped cooling pipe is arranged at a vertical axis line inside the upper tank body, an external thread cylinder is fixed on the surface side wall of the L-shaped cooling pipe positioned on the upper tank body, an I-shaped thread cylinder is rotatably connected at the joint of the upper end of the upper tank body and the external thread cylinder and is spirally connected with the external thread cylinder, a telescopic pipeline is arranged at the lower part of the surface side wall of the upper tank body corresponding to the lower port of the L-shaped cooling pipe, and a spiral ring sliding plate is fixed on the inner side wall of the upper tank body. According to the utility model, the L-shaped cooling pipe is arranged in the upper tank body, so that the cost is reduced, the occupied area is reduced, the spiral ring sliding plate slides and conveys materials, the materials are ensured to be fully contacted with the L-shaped cooling pipe, the cooling efficiency is improved, and meanwhile, the I-shaped threaded barrel is controlled to drive the outer threaded barrel to rotate, so that the L-shaped cooling pipe is quickly disassembled, and the L-shaped cooling pipe is quickly cleaned or disassembled.

Description

Conveniently-disassembled cooler for storage tank rectifying tower

Technical Field

The utility model belongs to the technical field of related equipment of a rectifying tower, and particularly relates to a conveniently-disassembled cooler for a storage tank rectifying tower.

Background

The rectifying tower is a tower-type gas-liquid contact device for rectifying. The separation is realized by utilizing the property that each component in the mixture has different volatility, namely, the vapor pressure of each component is different at the same temperature, so that light components (low-boiling substances) in a liquid phase are transferred into a gas phase, and heavy components (high-boiling substances) in the gas phase are transferred into the liquid phase, but the following defects still exist in the practical use:

1. most of cooling devices used by the existing rectifying tower adopt a tubular cooler, so that the cost is high, and the occupied area of used equipment is large;

2. the existing cooler is not in enough contact with materials, and the effect of rapid cooling cannot be ensured;

3. the existing cooler cannot be quickly disassembled between storage tanks, so that the disassembly or cleaning efficiency of workers can be reduced when the cooling structure is replaced or cleaned.

Therefore, the existing detachable cooler for the storage tank rectifying tower cannot meet the requirements in practical use, so that an improved technology is urgently needed in the market to solve the problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a conveniently-disassembled cooler for a storage tank rectifying tower, which is characterized in that an L-shaped cooling pipe is arranged in an upper tank body, so that the cost is reduced, the occupied area is reduced, the spiral ring sliding plate slides and conveys materials, the materials are ensured to be fully contacted with the L-shaped cooling pipe, the cooling efficiency is improved, and meanwhile, an I-shaped threaded cylinder is controlled to drive an outer threaded cylinder to rotate, so that the L-shaped cooling pipe is quickly disassembled, and is quickly cleaned or disassembled.

In order to solve the technical problems, the utility model is realized by the following technical scheme:

the utility model relates to a conveniently-disassembled cooler for a storage tank rectifying tower, which comprises an upper tank body and a lower tank body, wherein the lower tank body is connected with the upper tank body through a flange;

a spiral ring sliding plate is fixed on the inner side wall of the upper tank body, and a gap exists between the inner side of the spiral ring sliding plate and the L-shaped cooling pipe.

Further, the upper portion position of going up jar body surface lateral wall is fixed with charge-in pipeline, and charge-in pipeline and the inside of last jar of body meet expert, be fixed with detection mechanism on the last jar body surface lateral wall under the charge-in pipeline, detection mechanism is including being manometer, thermometer and level gauge, detects the work through detection mechanism to the inside of last jar of body and lower jar of body.

Further, the lower port department of L shape cooling tube is fixed with the connecting tube, and the outer bore of connecting tube is unanimous with the interior bore of flexible pipeline, the lateral wall of the upper tank body is passed to the one end of flexible pipeline, and meets with the lower port of L shape cooling tube, the inside of flexible pipeline is arranged in to the connecting tube, arranges the inside of flexible pipeline in through the connecting tube to this guarantees that the cooling material can follow the inside landing of L shape cooling tube to the inside of flexible pipeline.

Further, be close to the position department of the last jar of body on the table lateral wall of flexible pipeline and be fixed with spacing ring board, keep away from the position cover of the last jar of body on the table lateral wall of flexible pipeline and be equipped with the ring board, flexible pipeline is located the one end table lateral wall of the internal portion of jar and is fixed with the fender ring board, and is spacing in the inside of the last jar of body through keeping off the ring board, therefore flexible pipeline when removing, can be spacing by the fender ring board to this blocks flexible pipeline.

Further, the ring board is fixed with the movable rod on being close to the lateral wall of the last jar of body, is that the movable rod is annular equipartition along the all lateral walls of ring board and has four, the activity hole has all been seted up to the position department that the lateral wall of spacing ring board corresponds the movable rod, the one end that the movable rod passed the activity hole all is fixed on the department lateral wall of the last jar of body, guarantees the stable position of ring board through the movable rod, and the movable rod card is in the inside of movable rod simultaneously to this guarantees that rotatory problem can not appear in spacing ring board and flexible pipeline.

Furthermore, the springs are sleeved on the side walls of the movable rod meter between the limit ring plate and the circular ring plate, one ends of the springs are fixed on the limit ring plate, and the L-shaped cooling pipe and the telescopic pipeline are stably connected by pushing the limit ring plate through the springs.

The utility model has the following beneficial effects:

1. according to the utility model, the L-shaped cooling pipe is arranged in the upper tank body, so that when the material is cooled, an additional cooler is not needed for cooling, the floor area is reduced, and the cost is reduced.

2. According to the utility model, the spiral ring sliding plate is arranged, so that after materials are poured into the upper tank body from the interior of the feeding pipeline, the materials can slide down to the spiral ring sliding plate, and then the materials can slide against the L-shaped cooling pipe on the spiral ring sliding plate, so that the materials can slide down against the side wall of the L-shaped cooling pipe, and the materials can be rapidly cooled.

3. According to the L-shaped cooling pipe dismounting device, the I-shaped thread cylinder and the external thread cylinder are arranged, when the L-shaped cooling pipe needs to be dismounted from the inner part of the upper tank body, the I-shaped thread cylinder can drive the external thread cylinder to rotate by rotating the I-shaped thread cylinder, and then the external thread cylinder drives the L-shaped cooling pipe to rotate in the inner part of the upper tank body, so that the L-shaped cooling pipe can be screwed out of the upper end of the upper tank body by the I-shaped thread cylinder, and then the external thread cylinder is separated from the I-shaped thread cylinder, so that the L-shaped cooling pipe is dismounted from the upper tank body, and the L-shaped cooling pipe can be conveniently dismounted and replaced.

Drawings

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

FIG. 1 is a schematic view of the internal structure of the present invention;

FIG. 2 is an external structural view of the present invention;

FIG. 3 is a view showing the connection structure of the L-shaped cooling pipe and the telescopic pipe according to the present invention;

FIG. 4 is a view showing a connection structure of an upper tank and a lower tank according to the present invention;

fig. 5 is a structural view of an i-shaped threaded cylinder according to the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

1. feeding the tank body; 101. a detection mechanism; 102. a feed conduit; 103. a circular ring plate; 104. a movable rod; 2. an I-shaped threaded barrel; 3. an L-shaped cooling tube; 301. an externally threaded barrel; 302. connecting a pipeline; 4. a telescopic pipeline; 401. a retainer plate; 402. a limit ring plate; 403. a spring; 404. a movable hole; 5. a tank body is arranged; 6. a spiral ring sliding plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention.

Referring to fig. 1-5, the utility model is a detachable cooler for a storage tank rectifying tower, comprising an upper tank body 1 and a lower tank body 5, wherein the lower tank body 5 is connected with the upper tank body 1 through a flange, an L-shaped cooling pipe 3 is arranged at a vertical axis line inside the upper tank body 1, the upper end of the L-shaped cooling pipe 3 passes through the upper end of the upper tank body 1, an external thread cylinder 301 is fixed on the surface side wall of the upper tank body 1 of the L-shaped cooling pipe 3, an i-shaped thread cylinder 2 is rotatably connected at the joint of the upper end of the upper tank body 1 and the external thread cylinder 301, the i-shaped thread cylinder 2 is spirally connected with the external thread cylinder 301, a telescopic pipeline 4 is arranged at the lower part of the surface side wall of the upper tank body 1 corresponding to the lower end of the L-shaped cooling pipe 3, the upper tank body 1 is detached from the lower tank body 5, the inside of the upper tank body 1 is exposed at the moment, therefore, when the L-shaped cooling pipe 3 is replaced, by pulling the telescopic pipeline 4, the telescopic pipeline 4 is separated from the connecting pipeline 302, so that the connecting pipeline 302 and the L-shaped cooling pipe 3 are not limited, at the moment, the I-shaped thread cylinder 2 is rotated, so that the I-shaped thread cylinder 2 can drive the external thread cylinder 301 to rotate, and the external thread cylinder 301 drives the L-shaped cooling pipe 3 to rotate in the upper tank body 1, so that the L-shaped cooling pipe 3 can be screwed out of the upper end of the upper tank body 1 by the I-shaped thread cylinder 2, and the external thread cylinder 301 is separated from the I-shaped thread cylinder 2, so that the L-shaped cooling pipe 3 is detached from the upper tank body 1;

a spiral ring sliding plate 6 is fixed on the inner side wall of the upper tank body 1, a gap is formed between the inner side of the spiral ring sliding plate 6 and the L-shaped cooling pipe 3, after the upper tank body 1 and the lower tank body 5 are assembled together, when the interior of the upper tank body 1 needs to be cooled, firstly, cooling materials are put into the interior of the L-shaped cooling pipe 3, and the cooled material slides down inside the telescopic pipe 4 in the L-shaped cooling pipe 3, so that after the material is poured into the upper tank body 1 from the inside of the feeding pipe 102, the material slides down to the spiral ring sliding plate 6, further, the material can slide on the spiral ring sliding plate 6 to lean against the L-shaped cooling pipe 3 and slide downwards from the spiral ring sliding plate 6, and then fall the inside of the lower jar of body 5, can open the valve of the lower jar of body 5 this moment, can take out the material of the inside of the lower jar of body 5, the flexible pipeline 4 is located the inside one end table lateral wall of the upper jar of body 1 and is fixed with fender ring board 401.

Wherein as shown in fig. 1-3, a feeding pipe 102 is fixed on the upper part of the surface side wall of the upper tank 1, the feeding pipe 102 is connected with the inside of the upper tank 1, a detection mechanism 101 is fixed on the surface side wall of the upper tank 1 under the feeding pipe 102, the detection mechanism 101 comprises a pressure gauge, a thermometer and a liquid level meter, the inside of the upper tank 1 is detected by the detection mechanism 101, when the inner ring of the upper tank 1 reaches the value detected by the detection mechanism 101, the material in the upper tank 1 and the lower tank 5 is extracted, a connecting pipe 302 is fixed at the lower port of the L-shaped cooling pipe 3, the outer diameter of the connecting pipe 302 is consistent with the inner diameter of the telescopic pipe 4, one end of the telescopic pipe 4 passes through the side wall of the upper tank 1 and is connected with the lower port of the L-shaped cooling pipe 3, the connecting pipe 302 is arranged in the telescopic pipe 4, when the L-shaped cooling pipe 3 is fixed in the upper tank 1, the lower port of the L-shaped cooling pipe 3 is rotated to be consistent with the position of the telescopic pipe 4, so that the telescopic pipe 4 can be directly sleeved on the surface side wall of the connecting pipe 302 after the telescopic pipe 4 is loosened.

As shown in fig. 2-4, a position on the surface side wall of the telescopic pipe 4 close to the upper tank body 1 is fixed with a limit ring plate 402, a position on the surface side wall of the telescopic pipe 4 far from the upper tank body 1 is sleeved with a ring plate 103, when the telescopic pipe 4 is drawn out from the upper tank body 1, the telescopic pipe 4 drives the limit ring plate 402 to move towards the ring plate 103, and then a spring 403 between the limit ring plate 402 and the ring plate 103 is squeezed, the side wall of the ring plate 103 close to the upper tank body 1 is fixed with movable rods 104, four movable rods 104 are annularly and uniformly distributed along the circumferential side wall of the ring plate 103, the side wall of the limit ring plate 402 corresponding to the position of the movable rods 104 is provided with movable holes 404, one end of the movable rod 104 penetrating through the movable holes 404 is fixed on the side wall of the upper tank body 1, when the distance between the limit ring plate 402 and the ring plate 103 is adjusted, the movable holes 404 on the side wall of the movable rods 104 slide, all the cover is equipped with spring 403 on the movable rod 104 table lateral wall between spacing ring board 402 and the ring board 103, and the one end of spring 403 all fixes on spacing ring board 402, and when flexible pipeline 4 did not receive the effect of external force, spring 403 can push spacing ring board 402, and then spring 403 pushes flexible pipeline 4 to jar body 1 that makes progress to this confirms that flexible pipeline 4 overlaps on the table lateral wall of connecting tube 302 always.

The above are only preferred embodiments of the present invention, and the present invention is not limited thereto, and any modification, equivalent replacement, and improvement made to the technical solutions described in the above embodiments, and to some of the technical features thereof, are included in the scope of the present invention.

Claims (6)

1. The utility model provides a just, tear formula cooler open that storage tank rectifying column was used, includes jar body (1) and lower jar of body (5), through flange joint, its characterized in that between jar body (5) and the last jar of body (1) down: an L-shaped cooling pipe (3) is arranged at a vertical axis in the upper tank body (1), the upper end of the L-shaped cooling pipe (3) penetrates through the upper end of the upper tank body (1), an external thread cylinder (301) is fixed on the surface side wall of the upper tank body (1) of the L-shaped cooling pipe (3), an I-shaped thread cylinder (2) is rotatably connected at the joint of the upper end of the upper tank body (1) and the external thread cylinder (301), the I-shaped thread cylinder (2) is spirally connected with the external thread cylinder (301), and a telescopic pipeline (4) is arranged at the lower end of the surface side wall of the upper tank body (1) corresponding to the lower end of the L-shaped cooling pipe (3);

a spiral ring sliding plate (6) is fixed on the inner side wall of the upper tank body (1), and a gap exists between the inner side of the spiral ring sliding plate (6) and the L-shaped cooling pipe (3).

2. The easy-to-detach cooler for the storage tank rectifying tower is characterized in that a feeding pipeline (102) is fixed to the upper portion of the surface side wall of the upper tank body (1), the feeding pipeline (102) is communicated with the interior of the upper tank body (1), a detection mechanism (101) is fixed to the surface side wall of the upper tank body (1) right below the feeding pipeline (102), and the detection mechanism (101) comprises a pressure gauge, a thermometer and a liquid level meter.

3. The easy-to-detach cooler for the storage tank rectifying tower is characterized in that a connecting pipeline (302) is fixed at the lower port of the L-shaped cooling pipe (3), the outer diameter of the connecting pipeline (302) is consistent with the inner diameter of the telescopic pipeline (4), one end of the telescopic pipeline (4) penetrates through the side wall of the upper tank body (1) and is connected with the lower port of the L-shaped cooling pipe (3), and the connecting pipeline (302) is arranged inside the telescopic pipeline (4).

4. The easy-to-detach cooler for the storage tank rectifying tower is characterized in that a limiting ring plate (402) is fixed to a position, close to the upper tank body (1), on the surface side wall of the telescopic pipeline (4), a circular ring plate (103) is sleeved on a position, far away from the upper tank body (1), on the surface side wall of the telescopic pipeline (4), and a retaining ring plate (401) is fixed to one end surface side wall, located inside the upper tank body (1), of the telescopic pipeline (4).

5. The easy-to-detach cooler for the storage tank rectifying tower according to claim 4, wherein the side wall, close to the upper tank body (1), of the circular ring plate (103) is fixed with movable rods (104), the movable rods (104) are uniformly distributed in a ring shape along the peripheral side wall of the circular ring plate (103), movable holes (404) are formed in positions, corresponding to the movable rods (104), of the side wall of the limiting ring plate (402), and one ends, penetrating through the movable holes (404), of the movable rods (104) are fixed on the side wall of the upper tank body (1).

6. The easy-to-detach cooler for the storage tank rectifying tower is characterized in that springs (403) are sleeved on the surface side walls of the movable rods (104) between the limiting ring plates (402) and the circular ring plates (103), and one ends of the springs (403) are fixed on the limiting ring plates (402).

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