CN220206134U - Circulating water cooling system of junked tire oil refining equipment - Google Patents

Abstract

The utility model discloses a circulating water cooling system of junked tire oil refining equipment, which relates to the technical field of oil refining cooling and comprises a cooling pool, a circulating pump and a circulating water pipe, wherein a cooling assembly is connected to the circulating water pipe; the cooling assembly comprises a water supply main pipe and a return water main pipe which are connected with the circulating water pipe; a plurality of branch water pipes are connected between the water supply main pipe and the water return main pipe, and the branch water pipes are connected with a condenser and an adjustable first valve; one end of the water supply main pipe is connected with a safety valve, the output end of the safety valve is connected with an auxiliary water return pipe, and the auxiliary water return pipe is connected with the cooling pool; the utility model has the first valve for adjusting the cooling water flow of each condenser, so that the cooling water is reasonably distributed in each condenser, and the oil gas condensation effect of each oil refining production line is improved; the water supply pressure is limited by the safety valve, so that the cooling water flows back in time through the auxiliary water return pipe due to overlarge pressure, and the safety is ensured.

Description

Circulating water cooling system of junked tire oil refining equipment

Technical Field

The utility model relates to the technical field of oil refining and cooling, in particular to a circulating water cooling system of junked tire oil refining equipment.

Background

The general process of the waste tire oil refining operation is as follows: feeding, namely, small tires can be directly fed for whole tires, and large tires need to be cut first and then fed; heating to generate oil gas; cooling, wherein the oil gas is condensed into oil through a cooling system; tail gas is recycled; carbon black and steel wire slag removal. The cooling process is a key step of oil production, and a circulating water cooling system isolated from oil gas is generally utilized to realize oil gas condensation and avoid water pollution.

In the prior art, the circulating water cooling system of the utility model patent junked tire oil refining equipment with the publication number of CN214598056U adopts a single centralized water supply power equipment, can provide cooling for a plurality of oil refining production lines, and effectively reduces construction cost and operation energy consumption. However, the following disadvantages exist in the actual use process: each oil refining production line refines different tires, and the required amount of coolant is different; the periods of all production lines are different, and simultaneous cooling is not needed; only the water separator is used for distributing cooling water, so that circulating cooling water can be uniformly distributed, and the flow of cooling water of each path of condensing device is inconvenient to adjust.

Disclosure of Invention

The utility model aims to solve the problem that the cooling water flow of each condensing device of a circulating water cooling system of junked tire oil refining equipment in the prior art is inconvenient to adjust, and provides the circulating water cooling system of the junked tire oil refining equipment.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the circulating water cooling system of the junked tire oil refining equipment comprises a cooling pool, a circulating pump and a circulating water pipe, wherein the circulating water pipe is connected with a cooling assembly; the cooling assembly comprises a water supply main pipe and a return water main pipe which are connected with the circulating water pipe; a plurality of branch water pipes are connected between the water supply main pipe and the water return main pipe, and the branch water pipes are connected with a condenser and an adjustable first valve; one end of the water supply main pipe is connected with a safety valve, the output end of the safety valve is connected with an auxiliary water return pipe, and the auxiliary water return pipe is connected with the cooling pool.

The beneficial effects are that: through a first valve capable of adjusting the cooling water flow of each condenser, the cooling water is reasonably distributed in each condenser, and the oil gas condensation effect of each oil refining production line is improved; the water supply pressure is limited by the safety valve, so that the cooling water flows back in time through the auxiliary water return pipe due to overlarge pressure, and the safety is ensured.

Further, a second valve is connected to the circulating water pipe.

The beneficial effects are that: the second valve is used as a total valve for controlling the on-off of the circulating water pipe.

Further, two ends of the circulating water pipe are respectively connected with two ends of the cooling tank, and the circulating pump is arranged at the joint of one end of the circulating water pipe and the cooling tank; the other end of the circulating water pipe is connected with a sprayer, and the sprayer is arranged on the upper side of the end part of the cooling pool.

The beneficial effects are that: the circulating pump pumps out cooling water of the cooling pool, so that the cooling water circularly flows in the circulating water pipe and the condenser; the sprayer outputs hot water to enable the hot water to enter the cooling tank in a spraying mode, so that the hot water is in more sufficient contact with air, and the cooling of the water can be accelerated.

Further, a plurality of vertical partition boards are arranged in the cooling tank, a plurality of water permeable holes are formed in the upper portion or the lower portion of each partition board, and the water permeable holes of the adjacent partition boards are respectively located in the upper portion and the lower portion of each partition board.

The beneficial effects are that: the partition plate divides cold and hot in the cooling pool, so that hot water is prevented from being directly introduced into the circulating water pipe by the pump without being fully cooled; the water permeable holes arranged up and down alternately increase the flow path of cooling water, so that the water is gradually cooled, and the cold-hot separation effect is more obvious.

Further, a partition plate near the water inlet end of the cooling tank and water permeable holes thereof are positioned at the lower part of the partition plate.

The beneficial effects are that: the cooling Chi Huishui enters the cooling tank from the upper part, so that the water permeable holes of the upstream partition plate are arranged at the lower part, so that hot water flows from top to bottom, and hot water is prevented from directly passing through the water permeable holes.

Further, an aeration structure is arranged in the middle of the cooling tank.

The beneficial effects are that: the aeration structure enables water in the cooling tank to be in full contact with air, and cooling of the water is accelerated.

Further, a plurality of aeration discs are arranged in the middle of the cooling tank, and the aeration discs are positioned at the bottom of the cooling tank; an aeration fan is arranged at the outer side of the cooling tank, and the aeration fan is connected with the aeration disc through an air pipe.

The beneficial effects are that: the aeration disc can enable a large number of bubbles to be formed in water, so that the water is fully contacted with air, and the aeration fan provides gas and air pressure for the aeration disc.

Drawings

Fig. 1 is a schematic perspective view of a first side view of the present utility model.

Fig. 2 is a schematic view of a second side view perspective of the present utility model.

Fig. 3 is a schematic top view of the present utility model.

In the figure: 1. a cooling pool; 2. a circulation pump; 3. a circulating water pipe; 4. a water supply main; 5. a backwater main pipe; 6. a branch water pipe; 7. a condenser; 8. a first valve; 9. a safety valve; 10. an auxiliary return pipe; 11. a sprayer; 12. a second valve; 13. a partition plate; 14. a water permeable hole; 15. an aeration disc; 16. an aeration fan; 17. and an air pipe.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the particular embodiments described herein are illustrative only and are not intended to limit the utility model, i.e., the embodiments described are merely some, but not all, of the embodiments of the utility model. The components of the embodiments of the present utility model generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the utility model, as presented in the figures, is not intended to limit the scope of the utility model, as claimed, but is merely representative of selected embodiments of the utility model. All other embodiments, which can be made by a person skilled in the art without making any inventive effort, are intended to be within the scope of the present utility model.

It is noted that relational terms such as "first" and "second", and the like, are 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. Moreover, 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.

In the description of the present utility model, the terms "mounted," "connected," "coupled," and "connected," as may be used broadly, and may be connected, for example, fixedly, detachably, or integrally, unless otherwise specifically defined and limited; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model can be understood by those skilled in the art in specific cases.

In the description of the present utility model, it should be noted that, unless explicitly stated and limited otherwise, the term "provided" may be interpreted broadly, and for example, an object "provided" may be a part of a body, may be separately disposed from the body, and may be connected to the body, where the connection may be a detachable connection or an undetachable connection. The specific meaning of the above terms in the present utility model can be understood by those skilled in the art in specific cases.

The present utility model is described in further detail below with reference to examples.

The utility model provides a concrete embodiment of a circulating water cooling system of junked tire oil refining equipment, which comprises the following steps:

referring to fig. 1-3, a circulating water cooling system of junked tire oil refining equipment comprises a cooling tank 1, a circulating pump 2 and a circulating water pipe 3, wherein two ends of the circulating water pipe 3 are respectively connected with two ends of the cooling tank 1, and the circulating pump 2 is arranged at the joint of one end of the circulating water pipe 3 and the cooling tank 1; the circulation pump 2 pumps out the cooling water in the cooling tank 1, and circulates the cooling water through the circulation water pipe 3.

The other end of the circulating water pipe 3 is connected with a sprayer 11, and the sprayer 11 is arranged on the upper side of the end part of the cooling pool 1. The shower 11 outputs hot water to make the hot water enter the cooling tank 1 in a shower manner, and the hot water is in more sufficient contact with air, so that the cooling of the water can be accelerated.

In this embodiment, the sprayer 11 has a disc-shaped hollow shell structure, and the inside of the sprayer 11 is communicated with the circulating water pipe 3. The upper part of the cooling tank 1 is provided with a door-shaped frame for supporting the sprayer 11, and the lower side of the sprayer 11 is provided with a plurality of spray heads.

A plurality of vertical partition plates 13 are arranged in the cooling tank 1, a plurality of water permeable holes 14 are arranged at the upper part or the lower part of each partition plate 13, and the water permeable holes 14 of the adjacent partition plates 13 are respectively positioned at the upper part and the lower part of each partition plate 13. In the present embodiment, the number of the separators 13 is set to two. The partition plate 13 divides the cooling pool 1 into cold and hot areas, so that hot water is prevented from being directly led into the circulating water pipe 3 by the circulating pump 2 due to insufficient cooling; the water permeable holes 14 alternately arranged up and down increase the flow path of the cooling water, gradually cool the water, and make the cold-hot separation effect more remarkable.

The partition 13 near the water inlet end of the cooling tank 1 and the water permeable holes 14 are positioned at the lower part of the partition 13. In this embodiment, the water sprayer 11 for returning water from the cooling tank 1 allows hot water to enter the cooling tank 1 from the upper portion, so that the water permeable holes 14 of the upstream partition 13 are arranged at the lower portion, so that the hot water flows from top to bottom, and the hot water is prevented from directly passing through the water permeable holes 14.

A cooling component is connected to the circulating water pipe 3; the cooling assembly comprises a water supply main pipe 4 and a return water main pipe 5 which are connected with the circulating water pipe 3; a plurality of branch water pipes 6 are connected between the water supply main pipe 4 and the backwater main pipe 5, the branch water pipes 6 are connected with a condenser 7 and a first valve 8 with adjustable flow, and the first valve 8 respectively adjusts the flow rate of cooling water flowing through the condenser 7 and the branch water pipes 6.

And oil gas is introduced into the condenser 7, and the oil gas exchanges heat with cooling water in the condenser 7 sufficiently, so that the oil gas is condensed to produce liquid oil.

One end of the water supply main pipe 4 is connected with a safety valve 9, the output end of the safety valve 9 is connected with an auxiliary water return pipe 10, and the auxiliary water return pipe 10 is connected with the cooling pool 1. When the pressure in the main water supply pipe 4 is overlarge, the safety valve 9 is automatically opened to guide cooling water back to the cooling pool 1, so that the pressure of the main water supply pipe 4 is prevented from continuously increasing, and the pipeline safety is ensured.

The circulating water pipe 3 is connected with a second valve 12. The second valve 12 is used as a circulating main valve for controlling the on-off of the circulating water pipe 3.

An aeration structure is arranged in the middle of the cooling tank 1. The aeration structure enables the water in the cooling tank 1 to fully contact with the air, and accelerates the cooling of the water. The middle part of the cooling tank 1 is provided with a plurality of aeration discs 15, and the aeration discs 15 are positioned at the bottom of the cooling tank 1; an aeration fan 16 is arranged outside the cooling tank 1, and the aeration fan 16 is connected with an aeration disc 15 through an air pipe 17. The aeration disc 15 can form a large number of bubbles in the water, so that the water is fully contacted with the air, and the aeration fan 16 provides gas and air pressure for the aeration disc 15.

The working process comprises the following steps: water is injected into the cooling tank 1 so that the water level is lower than the upper end surface of the partition plate 13. The second valve 12 is opened, the circulating pump 2 pumps cooling water at the cold end of the cooling tank 1 into the circulating water pipe 3, the cooling water passes through the water supply main pipe 4, the branch water pipe 6 and the backwater main pipe 5, and then returns to the cooling tank 1 from the sprayer 11 at the other end of the cooling tank 1, so that circulation is realized.

The first valve 8 of each branch water pipe 6 is adjusted according to the cooling water flow required by each production line, and when cooling is not required, the first valve 8 of the branch water pipe 6 can be closed. When the water pressure in the water supply main pipe 4 is overlarge, the safety valve 9 is jacked up to realize pressure relief.

The cooling water exchanges heat with oil gas in the condenser 7 to form hot water, the hot water enters the cooling tank 1 through the sprayer 11 to realize certain heat dissipation, and then repeatedly flows up and down in the cooling tank 1 to the end close to the circulating pump 2. The aeration fan 16 introduces external cold air into the aeration disc 15 through the air pipe 17, and the aeration disc 15 enables a large amount of bubbles to be formed in water, so that the water and the air are fully contacted, and the cooling of the water is accelerated.

It should be noted that the above description is only a preferred embodiment of the present utility model, and the present utility model is not limited to the above embodiment, but may be modified without inventive effort or equivalent substitution of some technical features thereof by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (7)

1. The circulating water cooling system of the junked tire oil refining equipment comprises a cooling tank (1), a circulating pump (2) and a circulating water pipe (3), wherein the circulating water pipe (3) is connected with a cooling assembly; the cooling assembly comprises a water supply main pipe (4) and a return water main pipe (5) which are connected with the circulating water pipe (3); the method is characterized in that: a plurality of branch water pipes (6) are connected between the water supply main pipe (4) and the water return main pipe (5), and a condenser (7) and an adjustable first valve (8) are connected to the branch water pipes (6); one end of the water supply main pipe (4) is connected with a safety valve (9), the output end of the safety valve (9) is connected with an auxiliary water return pipe (10), and the auxiliary water return pipe (10) is connected with the cooling pool (1).

2. The circulating water cooling system of junked tire oil refining equipment of claim 1, wherein: the circulating water pipe (3) is connected with a second valve (12).

3. The circulating water cooling system of junked tire oil refining equipment of claim 1, wherein: two ends of the circulating water pipe (3) are respectively connected with two ends of the cooling tank (1), and the circulating pump (2) is arranged at the joint of one end of the circulating water pipe (3) and the cooling tank (1); the other end of the circulating water pipe (3) is connected with a sprayer (11), and the sprayer (11) is arranged on the upper side of the end part of the cooling tank (1).

4. The circulating water cooling system of junked tire oil refining equipment of claim 1, wherein: a plurality of vertical partition plates (13) are arranged in the cooling tank (1), a plurality of water permeable holes (14) are formed in the upper portion or the lower portion of each partition plate (13), and the water permeable holes (14) of the adjacent partition plates (13) are respectively located on the upper portion and the lower portion of each partition plate (13).

5. The circulating water cooling system of junked tire oil refining equipment of claim 4, wherein: the baffle plate (13) close to the water inlet end of the cooling tank (1) and the water permeable holes (14) thereof are positioned at the lower part of the baffle plate (13).

6. The circulating water cooling system of junked tire oil refining equipment of claim 1, wherein: an aeration structure is arranged in the middle of the cooling tank (1).

7. The circulating water cooling system of junked tire oil refining equipment of claim 6, wherein: the middle part of the cooling tank (1) is provided with a plurality of aeration discs (15), and the aeration discs (15) are positioned at the bottom of the cooling tank (1); an aeration fan (16) is arranged at the outer side of the cooling tank (1), and the aeration fan (16) is connected with the aeration disc (15) through an air pipe (17).