CN215324657U - Tank heating system and tank with same - Google Patents

Abstract

The utility model provides a tank heating system and a tank with the same. The tank box heating system comprises an air inlet pipe; the air inlet pipe is communicated with an air inlet of the heat exchange pipe set; the air outlet pipe is communicated with an air outlet of the heat exchange pipe set; and the drain pipe is connected to the pipe wall of the air outlet pipe and communicated with the air outlet pipe so as to drain accumulated water in the heat exchange pipe set. The tank heating system and the tank with the same can solve the problem that the tank heating system of the tank container in the prior art is easy to damage in the transportation and use process.

Description

Tank heating system and tank with same

Technical Field

The utility model relates to the relevant technical field of tank containers, in particular to a tank heating system and a tank with the same.

Background

The tank heating system of the non-circular section tank container is mostly in a steam pipe groove and heat exchange pipe assembly welding structure, a steam pipe is inserted into the end part of the steam pipe groove, the steam pipe groove is the lowest point of the tank from the bearing surface of the carrying equipment, and the steam pipe groove is easy to contact and impact with the contact bearing surface in the transportation process. Because steam pipe groove rigidity is greater than the jar body, the striking leads to destroying the jar body, causes the medium to leak, influences safe in utilization, and this jar case heating system structure is complicated, and manufacturing and maintenance cost are high, receive jar case structure bottom space restriction simultaneously, and the steam pipe groove can't be at the collecting pipe bottommost, after the steam heating operation, can't arrange the comdenstion water in the pipeline to the greatest extent, causes the pipeline ponding to freeze in winter and blocks up the pipeline and influence next steam heating operation, freezes for a long time and destroys the pipeline structure.

From the above, the tank heating system of the tank container has the problem that the tank heating system is easy to damage in the using process.

SUMMERY OF THE UTILITY MODEL

The utility model mainly aims to provide a tank heating system and a tank with the same, and aims to solve the problem that the tank heating system of a tank container in the prior art is easy to damage in the transportation and use process.

In order to achieve the above object, according to one aspect of the present invention, there is provided a tank heating system and a tank having the same. The tank box heating system comprises an air inlet pipe; the air inlet pipe is communicated with an air inlet of the heat exchange pipe set; the air outlet pipe is communicated with an air outlet of the heat exchange pipe set; and the drain pipe is connected to the pipe wall of the air outlet pipe and communicated with the air outlet pipe so as to drain accumulated water in the heat exchange pipe set.

Further, the heat exchange tube group comprises an air inlet collecting tube, and the air inlet collecting tube is provided with an air inlet; the air outlet collecting pipe is provided with an air outlet, and the air outlet is positioned at the lowest point of the air outlet collecting pipe in the vertical direction; the heat exchange tubes are multiple and communicated between the air inlet collecting tube and the air outlet collecting tube.

Furthermore, the tank box heating system further comprises a steam pipe groove, the steam pipe groove is formed in the air inlet, and the air inlet pipe is connected to the side wall of the steam pipe groove and communicated with the steam pipe groove.

Further, the air inlet collecting pipe is in an arc shape; and/or the air outlet collecting pipe is in a circular arc shape.

Further, the heat exchange pipe is vertical to the air inlet collecting pipe; and/or the heat exchange tubes are perpendicular to the gas outlet collecting tube.

Furthermore, the plurality of heat exchange tubes comprise heat tracing tubes, and one ends of the heat tracing tubes are communicated with the air inlet collecting tube; one end of the heat conduction pipe is communicated with the air outlet collecting pipe; the other end of the heat tracing pipe is communicated with the conduction pipe, and the other end of the heat conducting pipe is communicated with the conduction pipe.

Furthermore, the conducting pipe is arc-shaped, and the heat tracing pipe and the heat conducting pipe are both linear.

Furthermore, the plurality of heat tracing pipes and the plurality of heat conducting pipes are all parallel to each other.

Furthermore, the length of the air inlet collecting pipe is greater than that of the air outlet collecting pipe, two ends of the air inlet collecting pipe are respectively connected with at least one heat tracing pipe, so that a heat conduction area is formed between the heat tracing pipes at the two ends of the air inlet collecting pipe, and the heat conduction pipe and the air outlet collecting pipe are located in the heat conduction area.

Furthermore, two conduction pipes are provided, and the two conduction pipes are not communicated with each other; the heat tracing pipes are provided with two groups, each group of heat tracing pipes comprises at least one heat tracing pipe, and the two groups of heat tracing pipes are respectively communicated with the two conducting pipes; the heat pipe is equipped with two sets ofly, and every group heat pipe includes an at least heat pipe, and two sets of heat pipes communicate two conduction pipes respectively.

Further, the tank heating system further comprises a connecting piece, and the drain pipe is communicated with the air outlet pipe through the connecting piece.

According to another aspect of the utility model, a tank is provided. The tank comprises a tank body and a tank heating system, wherein the tank heating system is arranged on the outer side wall of the tank body, and the tank heating system is a tank heating system.

Further, a first distance between an air inlet collecting pipe of the heat exchange pipe group of the tank box heating system and the outer side wall of the tank body is equal to a second distance between an air outlet collecting pipe of the heat exchange pipe group of the tank box heating system and the outer side wall of the tank body.

By applying the technical scheme of the utility model, the heat exchange tube set realizes the heating effect by introducing steam, and the steam can form condensed water to be remained in the heat exchange tube set after heat exchange is finished. Through with drain pipe connection on the pipe wall of outlet duct to with the ponding discharge of heat exchange tube group inside, avoid appearing partial comdenstion water and can't get rid of in heat exchange tube group inside, lead to condensing into ice and split the frost of heat exchange tube group under cold condition, effectively avoided the problem that leads to jar body destruction in transportation transport vechicle striking steam pipe groove simultaneously.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, illustrate embodiments of the utility model and, together with the description, serve to explain the utility model and not to limit the utility model. In the drawings:

FIG. 1 shows a schematic of the heating system of the present invention;

fig. 2 shows a schematic view of the structure of the heating system and tank body of the utility model.

Wherein the figures include the following reference numerals:

10. a tank body; 100. an air outlet pipe; 110. an air inlet pipe; 200. a steam pipe groove; 300. an intake manifold; 400. an air outlet collecting pipe; 500. a heat tracing pipe; 600. a heat conducting pipe; 700. a conduction pipe; 800. and a water discharge pipe.

Detailed Description

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present invention will be described in detail below with reference to the embodiments with reference to the attached drawings.

It is noted that, unless otherwise indicated, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs.

In the present invention, unless specified to the contrary, use of the terms of orientation such as "upper, lower, top, bottom" or the like, generally refer to the orientation as shown in the drawings, or to the component itself in a vertical, perpendicular, or gravitational orientation; likewise, for ease of understanding and description, "inner and outer" refer to the inner and outer relative to the profile of the components themselves, but the above directional words are not intended to limit the utility model.

The utility model provides a tank heating system and a tank with the same, and aims to solve the problem that a tank heating system of a tank container in the prior art is easily damaged in the transportation and use process.

As shown in fig. 1, the tank heating system includes an air inlet pipe 110, a heat exchange pipe set, an air outlet pipe 100 and a water outlet pipe 800, the air inlet pipe 110 is communicated with an air inlet of the heat exchange pipe set, the air outlet pipe 100 is communicated with an air outlet of the heat exchange pipe set, and the water outlet pipe 800 is connected to a pipe wall of the air outlet pipe 100 and communicated with the air outlet pipe 100, so that accumulated water inside the heat exchange pipe set is discharged.

Specifically, the heat exchange tube set realizes the heating effect through letting in steam, and steam can form the comdenstion water and persist in the inside of heat exchange tube set after the heat transfer is accomplished. Through connecting drain pipe 800 on the pipe wall of outlet duct 100 to the ponding discharge of the inside of heat exchange tube group, avoid appearing the phenomenon that partial comdenstion water can't be got rid of in the inside of heat exchange tube group, lead to condensing into ice and freeze the heat exchange tube group and split under cold condition.

As shown in fig. 1, the heat exchange tube set includes an air inlet manifold 300, an air outlet manifold 400 and heat exchange tubes, the air inlet manifold 300 has an air inlet, the air outlet manifold 400 has an air outlet, in the vertical direction, the air outlet is located at the lowest point of the air outlet manifold 400, the heat exchange tubes are multiple, and the plurality of heat exchange tubes are communicated between the air inlet manifold 300 and the air outlet manifold 400.

Specifically, heating medium enters into the inside of heat exchange tube through the collecting pipe 300 of admitting air, the heat exchange tube begins to have the heating effect, the heating medium of the inside of heat exchange tube discharges the heat exchange tube through the collecting pipe 400 of giving vent to anger, simultaneously when there is ponding in the inside of heat exchange tube, the accessible lets in gas to the inside of heat exchange tube and gets into the collecting pipe 400 of giving vent to anger the ponding roof pressure entering, and discharge through the gas outlet, consequently the gas outlet sets up the extreme lower position prescription at the collecting pipe 400 of giving vent to anger in vertical direction, conveniently carry out the gas flow, conveniently discharge the ponding of the inside of heat exchange tube completely simultaneously.

Further, the heat exchange pipe is provided with a plurality of pipes so as to conveniently enlarge the heating range.

It should be noted that the air outlet is located in the area near the lowest point of the air outlet manifold 400, and may not be located at the lowest point of the air outlet manifold 400, but may also be located at another position near the lowest point of the air outlet manifold 400, and the air outlet is based on being able to completely discharge accumulated water.

As shown in fig. 1, the tank heating system further includes a steam pipe groove 200, the steam pipe groove 200 is disposed at the air inlet, and the air inlet pipe 110 is connected to a side wall of the steam pipe groove 200 and communicates with the steam pipe groove 200.

In this embodiment, the steam pipe groove 200 is disposed between the intake pipe 110 and the intake manifold 300, the gas in the intake pipe 110 enters the intake manifold 300 through the steam pipe groove 200, the steam pipe groove 200 has a certain strength to ensure the connection stability, and the gas in the steam pipe groove 200 can uniformly enter the intake manifold 300.

Specifically, the steam pipe slots 200 may be arc-shaped slots and disposed on the pipe wall of the intake manifold 300, or may be other structures that can achieve technical effects, and the types of the steam pipe slots 200 are too many, which is not listed here.

As shown in fig. 1, the intake manifold 300 is in the shape of a circular arc to facilitate heating of the tank in the circular arc.

As shown in fig. 1, the gas outlet manifold 400 is arc-shaped to facilitate heating of the tank box arranged in arc shape, and meanwhile, accumulated water in the gas outlet manifold 400 is discharged from the gas outlet to the gas outlet pipe 100 in the lowest point region of the gas outlet manifold 400 in the vertical direction.

As shown in fig. 1, the heat exchange tubes are perpendicular to the inlet manifold 300 and the heat exchange tubes are perpendicular to the outlet manifold 400.

Specifically, the heat exchange tube comprises a heat tracing tube 500, a heat conducting tube 600 and a conducting tube 700, wherein one end of the heat tracing tube 500 is communicated with the air inlet collecting tube 300, and one end of the heat conducting tube 600 is communicated with the air outlet collecting tube 400; the other end of the heat tracing pipe 500 is communicated with the conduction pipe 700, and the other end of the heat conduction pipe 600 is communicated with the conduction pipe 700. The heat tracing pipe 500 and the heat conducting pipe 600 form a communicating effect through the conduction pipe 700 to achieve a uniform heating effect.

As shown in fig. 1, the conduction pipe 700 has an arc shape, and the heat trace pipe 500 and the heat conduction pipe 600 have a straight shape.

Specifically, the conduction pipe 700 has a sufficiently large pipe diameter to facilitate that the other ends of the heat trace pipe 500 and the heat conductive pipe 600 are both connected to the conduction pipe 700 to achieve communication of the heat trace pipe 500 and the heat conductive pipe 600.

In the present embodiment, the plurality of heat trace pipes 500 and the plurality of heat conductive pipes 600 are all parallel to each other. Wherein, two adjacent heat tracing pipes 500 are arranged in parallel and at equal intervals, and two adjacent heat conducting pipes 600 are arranged in parallel and at equal intervals.

It should be noted that the heat tracing pipe 500 and the heat conducting pipe 600 are not limited to be linear, and may be other shapes capable of achieving technical effects; the two adjacent heat tracing pipes 500 may be arranged at unequal intervals, and the two adjacent heat conduction pipes 600 may be arranged at unequal intervals.

As shown in fig. 1, the length of the inlet manifold 300 is greater than the length of the outlet manifold 400, and two ends of the inlet manifold 300 are respectively connected with at least one heat tracing pipe 500, so that a heat conducting area is formed between the heat tracing pipes 500 at the two ends of the inlet manifold 300, and the heat conducting pipe 600 and the outlet manifold 400 are located in the heat conducting area.

Specifically, two conduction pipes 700 are not communicated with each other, the heat tracing pipes 500 are provided with two sets, each set of heat tracing pipe 500 comprises at least one heat tracing pipe 500, the two sets of heat tracing pipes 500 are respectively communicated with the two conduction pipes 700, the heat conduction pipes 600 are provided with two sets, each set of heat conduction pipe 600 comprises at least one heat conduction pipe 600, and the two sets of heat conduction pipes 600 are respectively communicated with the two conduction pipes 700. The air inlet collecting pipe 300, the heat tracing pipe 500, the conduction pipe 700, the heat conduction pipe 600 and the air outlet collecting pipe 400 are matched to form a U-shaped loop, so that the technical effect of sufficient heating is achieved. The designed conduction pipe 700 is disconnected to make the two U-shaped loops realize conduction effect more quickly, so as to improve the heating efficiency.

As shown in fig. 1, the tank heating system further includes a connector, and the drain pipe 800 is communicated with the outlet pipe 100 through the connector. Preferably, the connector may be a tee.

It should be noted that the connecting member is not limited to a tee, but may be other connecting members capable of achieving technical effects.

In the present embodiment, a tank is further provided, as shown in fig. 2, the tank includes a tank body 10 and a tank heating system, the tank heating system is disposed on an outer side wall of the tank body 10, and the tank heating system is the tank heating system.

Specifically, a first distance between the air inlet collecting pipe 300 of the heat exchange pipe set of the tank heating system and the outer side wall of the tank body 10 is equal to a second distance between the air outlet collecting pipe 400 of the heat exchange pipe set of the tank heating system and the outer side wall of the tank body 10, so that the heat tracing pipe 500 and the heat conducting pipe 600 can conveniently exchange heat with the tank.

The strength of the drain pipe 800 is smaller than that of the tank.

From the above description, it can be seen that the above-described embodiments of the present invention achieve the following technical effects:

1. the heat exchange tube set realizes the heating effect by introducing steam, and the steam can form condensed water to be reserved inside the heat exchange tube set after heat exchange is finished. Through connecting drain pipe 800 on the pipe wall of outlet duct 100 to with the ponding discharge of heat exchange tube group inside, avoid appearing partial comdenstion water and can't get rid of in heat exchange tube group inside, lead to the problem that the comdenstion water condenses into ice and freezes the heat exchange tube group under cold condition.

2. The steam pipe groove 200 is not arranged at the position far away from the tank, so that the collision in the transportation process is avoided.

3. The material intensity of heat exchange tube group, the collecting pipe 300 that admits air and the collecting pipe 400 of giving vent to anger is less than the material intensity of jar case, when heat exchange tube group, the collecting pipe 300 that admits air and the collecting pipe 400 of giving vent to anger bumps with jar case, avoids haring the jar case.

It is to be understood that the above-described embodiments are only a few, but not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments according to the present application. As used herein, the singular is intended to include the plural unless the context clearly dictates otherwise, and it should be further understood that the terms "comprises" and/or "comprising," when used in this specification, specify the presence of features, steps, operations, devices, components, and/or combinations thereof.

It should be noted that the terms "first," "second," and the like in the description and claims of this application and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the application described herein are capable of operation in sequences other than those illustrated or described herein.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (13)

1. A tank heating system, comprising:

an intake pipe (110);

the air inlet pipe (110) is communicated with an air inlet of the heat exchange pipe set;

the air outlet pipe (100), the air outlet pipe (100) is communicated with the air outlet of the heat exchange pipe set;

the water discharging pipe (800) is connected to the pipe wall of the air outlet pipe (100) and communicated with the air outlet pipe (100) so that accumulated water in the heat exchange pipe set is discharged.

2. The tank heating system of claim 1, wherein the set of heat exchange tubes comprises:

an intake manifold (300), the intake manifold (300) having the intake port;

the air outlet collecting pipe (400), the air outlet collecting pipe (400) is provided with the air outlet, and the air outlet is positioned at the lowest point of the air outlet collecting pipe (400) in the vertical direction;

the heat exchange tubes are multiple and communicated between the air inlet collecting tube (300) and the air outlet collecting tube (400).

3. The tank heating system according to claim 2, further comprising a steam pipe groove (200), wherein the steam pipe groove (200) is provided at the air inlet, and the air inlet pipe (110) is connected to a side wall of the steam pipe groove (200) and communicates with the steam pipe groove (200).

4. The tank heating system according to claim 2,

the air inlet collecting pipe (300) is arc-shaped; and/or

The air outlet collecting pipe (400) is arc-shaped.

5. The tank heating system according to claim 2,

the heat exchange tubes are perpendicular to the air intake manifold (300); and/or

The heat exchange pipe is perpendicular to the air outlet collecting pipe (400).

6. The tank heating system of claim 2, wherein the plurality of heat exchange tubes comprises:

a heat tracing pipe (500), one end of the heat tracing pipe (500) being communicated with the air intake collecting pipe (300);

one end of the heat conduction pipe (600) is communicated with the air outlet collecting pipe (400);

and the other end of the heat tracing pipe (500) is communicated with the conduction pipe (700), and the other end of the heat conduction pipe (600) is communicated with the conduction pipe (700).

7. The tank heating system according to claim 6, wherein the conducting pipe (700) has a circular arc shape, and the heat tracing pipe (500) and the heat conducting pipe (600) each have a linear shape.

8. The tank heating system according to claim 6, wherein the plurality of heat trace pipes (500) and the plurality of heat conductive pipes (600) are all parallel to each other.

9. The tank heating system according to claim 6, wherein the length of the inlet manifold (300) is greater than the length of the outlet manifold (400), and at least one heat trace pipe (500) is connected to each end of the inlet manifold (300) so that a heat conduction region is formed between the heat trace pipes (500) located at each end of the inlet manifold (300), and the heat conduction pipe (600) and the outlet manifold (400) are located in the heat conduction region.

10. The tank heating system according to claim 6, wherein said conducting pipes (700) are two, and said conducting pipes (700) are not communicated with each other;

the heat tracing pipes (500) are provided with two groups, each group of heat tracing pipes (500) comprises at least one heat tracing pipe (500), and the two groups of heat tracing pipes (500) are respectively communicated with the two conducting pipes (700);

the heat conduction pipes (600) are provided with two groups, each group of heat conduction pipes (600) comprises at least one heat conduction pipe (600), and the two groups of heat conduction pipes (600) are respectively communicated with the two conduction pipes (700).

11. A tank heating system according to any one of claims 1 to 10, further comprising a connector through which the drain pipe (800) communicates with the outlet pipe (100).

12. Tank, characterized in that it comprises a tank body (10) and a tank heating system arranged on an outer side wall of the tank body (10), the tank heating system being the tank heating system according to any one of claims 1 to 11.

13. A tank according to claim 12, characterized in that a first distance between an inlet manifold (300) of the set of heat exchange tubes of the tank heating system and an outer side wall of the tank (10) is equal to a second distance between an outlet manifold (400) of the set of heat exchange tubes of the tank heating system and an outer side wall of the tank (10).

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