CN213066159U - Water-cooling chute of convenient transportation - Google Patents

Abstract

The utility model discloses a water-cooling chute of convenient transportation belongs to msw incineration power generation technical field. This water-cooling chute of convenient transportation includes: a first U-shaped body unit; a second U-shaped body unit; at least one first sheet-type body unit; and at least one second sheet-type body unit, wherein the first U-shaped body unit, the second U-shaped body unit, the at least one first sheet-type body unit and the at least one second sheet-type body unit are all provided with cavities, and the cavities are communicated with each other. The utility model discloses can promote the preparation quality of water-cooling chute, practice thrift the convenient transportation of cost and the freight reduces, simple, the easy to assemble is made in each body unit installation simultaneously.

Description

Water-cooling chute of convenient transportation

Technical Field

The utility model relates to a waste incineration power generation technical field, especially a water-cooling chute of convenient transportation.

Background

In the garbage power generation feeding process, garbage is firstly fermented for 7 days in a garbage pool, then is hoisted into a hopper by a crane, and the quantity and times of feeding are controlled by opening and closing a baffle door in a baffle frame.

The garbage to be fed into the furnace is arranged on one side of two sides of the baffle door, and the other side of the baffle door is communicated with the high-temperature flue gas in the furnace chamber. In order to prevent the flue gas from affecting the garbage, the existing solution is to install a water-cooling chute at the lower side of the baffle frame. The chute is formed by welding an inner layer of steel plate and an outer layer of steel plate, the middle part of the chute is welded into a whole by the section steel with the opening and the inner plate and the outer plate, the interlayer is filled with cooling water, the temperature of flue gas is reduced by the cooling water, and the risk of self-combustion of garbage to be fired is reduced.

The minimum water-cooling chute has long dimension: 12 m, width: 3.4 meters, 4.6 meters high and weighs about 50 tons. The size of this water-cooling chute is too big and too heavy in process of production, is unfavorable for size and welding deformation control, and because of its bulky, inconvenient transportation, the transportation cost is high.

Disclosure of Invention

The utility model provides a water-cooling chute of convenient transportation, the transportation of convenience reduces the cost of transportation of equipment.

In order to achieve the above object, the utility model discloses a technical scheme is: the first U-shaped body unit is positioned at the left end of the water-cooling chute; the second U-shaped body unit is positioned at the right end of the water-cooling chute; the water cooling chute comprises a water cooling chute, at least one first sheet body unit, at least one second sheet body unit and at least one first sheet body unit, wherein the water cooling chute is provided with a water inlet, a water outlet and a water outlet; and at least one second-sheet-type body unit located at the rear of the water-cooling chute, when there is one second-sheet-type body unit, the left end of the at least one second-sheet-type body unit is connected to the other end of the first U-shaped body, the right end of the at least one second-sheet-type body unit is connected to the other end of the second U-shaped body, when there is a plurality of second-sheet-type body units, the at least one second-sheet-type body unit is sequentially connected from left to right, and the left end of one of the at least one second-sheet-type body unit located at the leftmost end is connected to the other end of the first U-shaped body, and the right end of one of the at least one second-sheet-type body unit located at the rightmost end is connected to the other end of the second U-shaped body, wherein the first U-sheet-type body unit, the second U-type body unit, the at least one first-sheet-type body unit, the cavities are communicated with each other.

The utility model discloses beneficial effect that technical scheme can reach is: the utility model discloses a first U type body unit, second U type body unit, at least one first slice type body unit, at least one second slice type body unit, because foretell body unit is simpler for whole water-cooling chute manufacture process to can promote the water-cooling chute the preparation quality, practice thrift the cost, make things convenient for transportation and transportation cost to reduce, foretell body unit can easy to assemble when using simultaneously.

Drawings

Fig. 1 is a schematic view of an embodiment of a water-cooled chute of the present invention for easy transport;

fig. 2 is a schematic view of a specific embodiment of a U-shaped body unit in a water-cooled chute of the present invention, which is convenient for transportation;

fig. 3 is a schematic view of a sheet-type body unit in a water-cooled chute convenient for transportation according to an embodiment of the present invention.

The reference numerals are explained below: 1-first supporting member, 1 '-second supporting member, 2-U-shaped inner wall plate, 3-U-shaped outer wall plate, 4-flange, 5-U-shaped blocking plate, 6-cooling medium inlet, 7-first communication port pipe fitting, 7' -second communication port pipe fitting, 8-steam outlet, 9-overflow port, 10-sheet type inner wall plate, 11-sheet type outer wall plate, 12-sheet type blocking plate, 13-bolt and 14-heat insulating material.

Detailed Description

The following detailed description of the preferred embodiments of the present invention will be provided in conjunction with the accompanying drawings, so as to enable those skilled in the art to more easily understand the advantages and features of the present invention, and thereby define the scope of the invention more clearly and clearly.

It is noted that, herein, relational terms such as first and second, and the like may be 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. Also, 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. Without further limitation, an element defined by the phrase "comprising … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

The water-cooling chute that exists among the prior art is too big and too heavy in size, is unfavorable for size and welding deformation control, and because of its bulky, inconvenient transportation, the transportation cost is high.

To above problem, the utility model designs a first U type body unit, second U type body unit, at least one first slice type body unit, at least one second slice type body unit to transport the project scene, just can use after the completion of splicing each other. The technical scheme of the utility model because foretell body unit is simpler for whole water-cooling chute manufacturing process to can promote the water-cooling chute the preparation quality, practice thrift the cost, make things convenient for transportation and transportation cost to reduce, foretell body unit can easy to assemble when using simultaneously.

The utility model relates to an among the concrete implementation of the water-cooling chute of convenient transportation, this water-cooling chute mainly includes: the first U-shaped body unit is positioned at the left end of the water-cooling chute; the second U-shaped body unit is positioned at the right end of the water-cooling chute; the water cooling chute comprises a water cooling chute, at least one first sheet body unit, at least one second sheet body unit and at least one first sheet body unit, wherein the water cooling chute is provided with a water inlet, a water outlet and a water outlet; and at least one second-sheet-type body unit located at the rear of the water-cooling chute, when there is one second-sheet-type body unit, the left end of the at least one second-sheet-type body unit is connected to the other end of the first U-shaped body, the right end of the at least one second-sheet-type body unit is connected to the other end of the second U-shaped body, when there is a plurality of second-sheet-type body units, the at least one second-sheet-type body unit is sequentially connected from left to right, and the left end of one of the at least one second-sheet-type body unit located at the leftmost end is connected to the other end of the first U-shaped body, and the right end of one of the at least one second-sheet-type body unit located at the rightmost end is connected to the other end of the second U-shaped body, wherein the first U-sheet-type body unit, the second U-type body unit, the at least one first-sheet-type body unit, the cavities are communicated with each other.

In this embodiment, the first U-shaped body unit and the second U-shaped body unit may be symmetrical or asymmetrical in structure. The at least one first sheet-type body element and the at least one second sheet-type body element may have the same or different structures, and when there is one first sheet-type body element, there may be a plurality of second sheet-type body elements, or when there is a plurality of first sheet-type body elements, there may be one second sheet-type body element. In addition, the number of the at least one first sheet-type body unit and the at least one second sheet-type body unit may be plural for convenience of transportation. Wherein, the first sheet type body unit or the second sheet type body unit can be symmetrical in structure. However, in this embodiment, the number and structure of the at least one first sheet-type body unit and the at least one second sheet-type body unit are not particularly limited, and those skilled in the art can arrange them according to actual circumstances.

In this embodiment, the water-cooling chute is divided into the first U-shaped body unit, the second U-shaped body unit, the at least one first sheet-shaped body unit, the at least one second sheet-shaped body unit and the like, so that the manufacturing quality of the water-cooling chute can be improved, the cost can be saved, the transportation can be facilitated, and the transportation cost can be reduced.

In a specific embodiment of the present invention, one or more cooling medium inlets are disposed below one of the first U-shaped body unit, the second U-shaped body unit, the at least one first sheet-type body unit, and the at least one second sheet-type body unit, and one or more steam outlets are disposed above one of the first U-shaped body unit, the second U-shaped body unit, the at least one first sheet-type body unit, and the at least one second sheet-type body unit; or one or more cooling medium inlets are formed below each of the first U-shaped body unit, the second U-shaped body unit, the at least one first sheet-type body unit and the at least one second sheet-type body unit; and one or more steam outlets are formed above each of the first U-shaped body unit, the second U-shaped body unit, the at least one first sheet-type body unit and the at least one second sheet-type body unit.

Specifically, on the one hand, when the steam outlet and the cooling medium inlet are one, the cooling medium inlet is opened below one of the first U-shaped body unit, the second U-shaped body unit, the at least one first sheet-type body unit, and the at least one second sheet-type body unit; and the steam outlet is arranged above one of the first U-shaped body unit, the second U-shaped body unit, the at least one first sheet-type body unit and the at least one second sheet-type body unit. It should be noted that the steam outlet and the cooling medium inlet may be provided in one body unit or in both body units.

On the other hand, when there are a plurality of steam outlets and cooling medium inlets, the cooling medium inlet may be provided in one of or more of the first U-shaped body unit, the second U-shaped body unit, the at least one first sheet-type body unit, and the at least one second sheet-type body unit; meanwhile, the steam outlet may be provided in one of the first U-shaped body unit, the second U-shaped body unit, the at least one first sheet-type body unit, and the at least one second sheet-type body unit, or may be provided in a plurality of them. Specifically, all steam outlets and cooling medium inlets may be formed in one body unit; or the body unit can be provided with a part of steam outlet and cooling medium inlet; or the body unit can be only provided with all steam outlets or cooling medium inlets; or only part of the steam outlet or the cooling medium inlet can be arranged in the body unit; or the steam outlet and the cooling medium inlet are not formed in the body unit. Wherein the number of the steam outlets and the cooling medium inlets formed on different body units can be different.

In this embodiment, the number of the cooling medium inlets and the steam outlets, which body unit is specifically provided, and the number of the steam outlets provided on the body unit are not particularly limited, and as long as the steam outlets are provided above the cooling medium inlets, the circulation of the cooling medium between the cavities can be achieved.

Preferably, the cooling medium is water. The heat exchange capacity is large in the whole cooling process, and cold water is almost always in a water replenishing state.

In the process that the cooling medium is cooled in the interlayer, the cooling medium is changed into steam after heat exchange and is discharged through the steam outlet, the temperature in the interlayer can be greatly reduced, and the cooling efficiency is obviously improved.

Preferably, the lower part of each steam outlet is provided with an overflow port or part of the lower parts of the steam outlets are provided with an overflow port. The overflow port is used for opening the overflow valve when certain steam pressure is achieved in the cavity, so that the water-cooling chute is unloaded, and the safety of the water-cooling chute can be ensured. It should be noted that the number of overflow openings and which steam outlet or outlets are provided are not particularly limited.

In an embodiment of the present invention, the first U-shaped body unit and the second U-shaped body unit each further include:

a U-shaped inner wall plate which provides an inner area for the water-cooling chute; one end of the first supporting part is connected with the outer wall of the U-shaped inner wall plate; the inner wall of the U-shaped outer wall plate is connected with the other end of the first supporting component; the U-shaped plugging plate is respectively connected with the tops of the U-shaped outer wall plate and the U-shaped inner wall plate and the bottoms of the U-shaped outer wall plate and the U-shaped inner wall plate; and the first communication port pipe fittings are arranged above the U-shaped outer wall plates in pairs and below the U-shaped outer wall plates in pairs.

In this embodiment, the U-shaped inner and outer wall panels form the basic frame of the water-cooled chute, and the design of the support members makes the structure of the water-cooled chute more stable. Preferably, the support member is welded to the U-shaped inner wall plate and the U-shaped outer wall plate, respectively.

And secondly, the first U-shaped body unit or the second U-shaped body unit can form an interlayer of a cooling medium by adopting the U-shaped plugging plate, so that the contact with the external environment can be avoided, and the cooling capacity of the cooling medium is improved.

In this embodiment, the first supporting member mainly includes the shaped steel, wherein the shaped steel is provided with the multiunit, has seted up the through-hole on the shaped steel, and the shaped steel provides the circulation passageway for coolant.

In this embodiment, the porous section steel enables the cooling medium to circulate in the interlayer of the first U-shaped body unit or the second U-shaped body unit.

In a specific embodiment of the present invention, the at least one first sheet-type body unit and the at least one second sheet-type body unit each further include: a sheet-type inner wall plate providing an inner area for the water-cooled chute; a second supporting member having one end connected to an outer wall of the sheet-type inner wall plate; a sheet-type outer wall plate, the inner wall of which is connected with the other end of the second supporting member; the sheet-type plugging plate is respectively connected with the tops of the sheet-type outer wall plate and the sheet-type inner wall plate and the bottoms of the sheet-type outer wall plate and the sheet-type inner wall plate; and second communication port pipes provided above and below the sheet-type exterior wall panels in pairs.

In this embodiment, the sheet-type inner and outer wall panels form the basic frame of the water-cooled chute, and the second support member is designed to provide a more stable structure of the water-cooled chute. Preferably, the second supporting member is welded to the sheet-type inner wall panel and the sheet-type outer wall panel, respectively.

Secondly, the employment of the sheet type blocking plate makes it possible to form an interlayer of the cooling medium for each of the at least one first sheet type body unit or the at least one second sheet type body unit, and to avoid contact with the external environment, thereby improving the cooling capacity of the cooling medium.

It should be noted that the thicknesses of the U-shaped inner wall plate and the sheet-shaped inner wall plate are consistent, and the thicknesses of the U-shaped outer wall plate and the sheet-shaped outer wall plate are consistent, so that after the first U-shaped body unit, the second U-shaped body unit, the at least one first sheet-shaped body unit and the at least one second sheet-shaped body unit are connected, the outer surface of the whole water-cooling chute can be smooth, and the attractiveness of the water-cooling chute is improved.

Preferably, the steam outlet is formed above the U-shaped outer wall plate and/or the sheet-type outer wall plate, and the cooling medium inlet is formed below the U-shaped outer wall plate and/or the sheet-type outer wall plate, so that the cooling medium can circulate from bottom to top, thereby increasing the cooling capacity.

Preferably, two side walls of the U-shaped outer wall plate, the U-shaped plugging wall plate, the sheet-type outer wall plate and the sheet-type plugging wall plate are respectively connected with corresponding flanges.

The arrangement of the communicating pipe fittings can enable the cooling media between the interlayers to flow mutually, and effective intercommunication is formed in the interlayers. Preferably, the first communicating port pipe fitting is close to the flanges connected with the two side walls of the U-shaped outer wall plate, and the second communicating port pipe fitting is close to the flanges connected with the two side walls of the sheet-type outer wall plate. In this example, the setting of the intercommunication mouth pipe fitting near the flange can shorten the length of intercommunication mouth pipe fitting, reduces the exposure of intercommunication mouth pipe fitting in the external environment simultaneously, can increase the aesthetic property and the saving cost of water-cooling chute, increases cooling medium's cooling capacity. Preferably, the first communicating port pipe fitting and the second communicating port pipe fitting are connected through bolts, and the second communicating port pipe fitting is connected through bolts.

In a specific embodiment of the present invention, the length of each U-shaped inner wall plate is the sum of the length of each U-shaped outer wall plate, the width of the flange connected to both ends of each U-shaped outer wall plate, and the length threshold; and the length of each sheet-type inner wall plate is the sum of the length of each sheet-type outer wall plate, the width of a flange connected with the two ends of each sheet-type outer wall plate and a length threshold value. Preferably, the U-shaped inner wall plate and the sheet-type inner wall plate are welded to each other, and the sheet-type inner wall plates are welded to each other.

In this embodiment, the length of the inner wall plate exceeds the length of the outer wall plate by a certain length, so that the sealing damage to the interlayers of the body units can be avoided during the connection of the inner wall plate. Preferably, the length threshold is any value between 45-55 mm, and in this example, the value of the length threshold is not particularly limited and can be determined by one skilled in the art according to actual situations.

In a specific embodiment of the present invention, the size of each body unit can be controlled within 3m, which facilitates transportation. And after each body unit is manufactured, each interlayer is subjected to pressure test and leakage test, and the quality qualification of each body unit is guaranteed.

In a specific embodiment of the present invention, after the installation, a gap with a width of two length thresholds is formed between the flanges, and the gap is filled with a heat insulating material. In this embodiment, the use of the heat insulating material ensures the heat insulation and sealing of the water-cooling chute.

The utility model discloses a first U type body unit, second U type body unit, at least one first slice type body unit, at least one second slice type body unit, because foretell body unit is simpler for whole water-cooling chute manufacture process to can promote the water-cooling chute the preparation quality, practice thrift the cost, make things convenient for transportation and transportation cost to reduce, foretell body unit can easy to assemble when using simultaneously.

Fig. 1 shows a specific embodiment of a water-cooled chute of the present invention for easy transportation. In this particular embodiment, the water-cooled chute essentially comprises: the first U-shaped body unit, the second U-shaped body unit, two first sheet-type body units and two second sheet-type body units. The first U-shaped body unit and the second U-shaped body unit are symmetrical in structure and same in length, the two first sheet-type body units are symmetrical in structure, the two second sheet-type body units are symmetrical in structure, one first sheet-type body unit and one second sheet-type body unit are identical in structure, and the four sheet-type body units are identical in length.

Fig. 3 shows a specific embodiment of the U-shaped body unit in a water-cooled chute of the present invention, which is convenient for transportation. Fig. 1 and 2 are combined to explain the structure of the first U-shaped body unit in detail.

The first U-shaped body unit mainly includes: the U-shaped inner wall plate 2 is close to the baffle frame, and the U-shaped inner wall plate 2 provides an inner area for the water-cooling chute; a first support member 1 having one end connected to an outer wall of the U-shaped inner wall panel 2; a U-shaped outer wall plate 3, the inner wall of which is connected with the other end of the supporting component 1; u-shaped plugging plates 5, wherein one surface of one U-shaped plugging plate 5 is respectively welded with the tops of the U-shaped outer wall plate 3 and the U-shaped inner wall plate 2, and one surface of the other U-shaped plugging plate 5 is respectively welded with the bottoms of the U-shaped outer wall plate 3 and the U-shaped inner wall plate 2, so that an interlayer of a cooling medium is formed; the steam outlet 8 is formed in the upper left side of the U-shaped outer wall plate 3, and the steam outlet 8 is used for discharging steam generated after cooling media enter the interlayer for heat exchange; and first communication port pipes 7 which are opened in pairs above and below the U-shaped outer wall plate 3, the first communication port pipes 7 providing a passage for a cooling medium.

In one example of this embodiment, the lower part of the steam outlet 8 is provided with an overflow 9.

Similarly, the second U-shaped body unit and the first U-shaped body unit are structurally symmetrical, and the steam outlet 8 is arranged above the right side of the U-shaped outer wall plate 3 of the second U-shaped body unit.

Fig. 3 shows a specific embodiment of the sheet-type body unit in a water-cooled chute of the present invention, which is convenient for transportation. Fig. 1 and 3 are combined to explain the structure of a first sheet-type body unit in detail.

The first sheet type body unit mainly includes: a sheet-type inner wall plate 10 which is close to the baffle frame, the sheet-type inner wall plate 10 providing an inner area for the water-cooled chute; a second supporting member 1' having one end connected to an outer wall of the sheet-type inner wall panel; a sheet-type exterior wall panel 11 whose inner wall is connected to the other end of the second supporting member 1'; sheet-type plugging plates 12, one side of one sheet-type plugging plate 12 being welded to the top of the sheet-type outer wall plate 11 and the top of the sheet-type inner wall plate 10, respectively, and one side of the other sheet-type plugging plate 12 being welded to the bottom of the sheet-type outer wall plate 11 and the bottom of the sheet-type inner wall plate 10, respectively, thereby forming an interlayer of a cooling medium; a cooling medium inlet 6 opened below the sheet-type outer wall plate 11, the cooling medium inlet 6 providing an inlet passage for a cooling medium; the second communication port pipes 7 'are provided above and below the sheet-type outer wall plate 11 in pairs, and the second communication port pipes 7' provide a passage through which the cooling medium flows.

Similarly, the first sheet-type body unit is structurally defined, and the structure between another first sheet-type body unit and two second U-shaped body units can also be defined.

In the embodiment shown in fig. 1, the installation process of each body unit may be implemented by:

first, a right side surface of the U-shaped inner wall panel 2 of the first U-shaped body unit is connected correspondingly to a left side surface of the sheet-type inner wall panel 10 of one first sheet-type body unit, the right side surface of the sheet-type inner wall panel 10 in the first sheet-type body unit is joined to the left side surface of the sheet-type inner wall panel 10 in another first sheet-type body unit, the right side surface of the sheet-type inner wall panel 10 in another first sheet-type body unit is joined to a corresponding left side surface of the U-type inner wall panel 2 in a second U-type body unit, the other left side surface of the U-type inner wall panel 2 in the second U-type body unit is joined to the right side surface of the sheet-type inner wall panel 10 in a second sheet-type body unit, the left side surface of the sheet-type inner wall panel 10 of the fourth sheet-type body unit is connected to the right side surface of the sheet-type inner wall panel 10 of the other second sheet-type body unit, and the left side surface of the sheet-type inner wall panel 10 of the other second sheet-type body unit is connected to the other right side surface corresponding to the U-type inner wall panel 2 of the first U-type body unit. Preferably, the U-shaped inner wall plate and the sheet-type inner wall plate are connected by welding, and the sheet-type inner wall plates are connected by welding.

Secondly, one right side of the U-shaped exterior wall panel 3 and the U-shaped plugging plate 5 in the first U-shaped body unit is connected to the left side of the one first sheet-type body unit middle sheet-type exterior wall panel 11 and the one sheet-type plugging plate 12, the right side of the one first sheet-type body unit middle sheet-type exterior wall panel 11 and the one sheet-type plugging plate 12 is connected to the left side of the other first sheet-type body unit middle sheet-type exterior wall panel 11 and the one sheet-type plugging plate 12, the right side of the other first sheet-type body unit middle sheet-type exterior wall panel 11 and the one sheet-type plugging plate 12 is connected to the corresponding left side of the U-shaped exterior wall panel 3 and the U-type plugging plate 5 in the second U-shaped body unit, the other corresponding left side of the second U-type body unit middle sheet-type exterior wall panel 11 and the one sheet-type plugging plate 12 is connected to the right side of the one second sheet-type body unit middle sheet-type exterior wall panel 11 and the one sheet-type plugging plate 12, the left side of the second sheet-type body unit middle sheet-type exterior wall panel 11 The right side of 12 is connected and the left side of the sheet-type exterior wall panel 11 and the sheet-type closure panel 12 in the other second sheet-type body unit is connected to the other right side of the U-type exterior wall panel 3 and the U-type closure panel 5 in the first U-type body unit. Preferably, the U-shaped outer wall plate 3, the U-shaped plugging wall plate 5, the sheet-type outer wall plate 11, and the sheet-type plugging wall plate 12 have respective flanges 4 connected to both side walls thereof, and all the flanges 4 are connected to each other by bolts 13.

Finally, the upper and lower first communicating port pipes 7 on the right side in the first U-shaped body unit are correspondingly connected with the upper and lower second communicating port pipes 7 'on the left side in one first sheet-type body unit, the upper and lower second communicating port pipes 7' on the right side in the first sheet-type body unit are correspondingly connected with the upper and lower second communicating port pipes 7 'on the left side in another first sheet-type body unit, the upper and lower second communicating port pipes 7' on the right side in another first sheet-type body unit are correspondingly connected with the upper and lower first communicating port pipes 7 'on the left side in one second U-shaped body unit, the upper and lower first communicating port pipes 7 on the left side in the second U-shaped body unit are correspondingly connected with the upper and lower communicating port pipes 7' on the right side in one second sheet-type body unit, the upper and lower communicating port pipes 7 'on the left side in the second sheet-type body unit are correspondingly connected with the upper and lower communicating port pipes 7' on the, the upper and lower second communication port pipes 7' on the left side in the other second sheet-type body unit are correspondingly connected with the upper and lower first communication port pipes 7 on the right side in the first U-shaped body unit. Preferably, the corresponding communication port pipe members 7 are bolted.

The above only is the embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structure changes made in the specification and the attached drawings or directly or indirectly applied to other related technical fields are included in the same principle as the present invention.

Claims (10)

1. The utility model provides a water-cooling chute of convenient transportation which characterized in that includes:

a first U-shaped body unit located at the left end of the water-cooling chute;

the second U-shaped body unit is positioned at the right end of the water-cooling chute;

at least one first sheet-type body unit located at a front portion of the water-cooled chute,

when the number of the at least one first sheet-type body unit is one, the left end of the at least one first sheet-type body unit is connected with one end of the first U-shaped body, the right end of the at least one first sheet-type body unit is connected with one end of the second U-shaped body,

when the number of the at least one first sheet-type body unit is multiple, the at least one first sheet-type body unit is sequentially connected from left to right, the left end of one of the at least one first sheet-type body unit positioned at the leftmost end is connected with the one end of the first U-shaped body, and the right end of one of the at least one first sheet-type body unit positioned at the rightmost end is connected with the one end of the second U-shaped body; and

at least one second sheet-type body unit located at a rear portion of the water-cooled chute,

when there is one second sheet-type body unit, the left end of the at least one second sheet-type body unit is connected to the other end of the first U-shaped body, and the right end of the at least one second sheet-type body unit is connected to the other end of the second U-shaped body,

when the at least one second sheet-type body unit is plural, the at least one second sheet-type body unit is connected in sequence from left to right, and a left end portion of one of the at least one second sheet-type body unit located at the leftmost end is connected to the other end of the first U-shaped body, and a right end portion of one of the at least one second sheet-type body unit located at the rightmost end is connected to the other end of the second U-shaped body,

the first U-shaped body unit, the second U-shaped body unit, the at least one first sheet-type body unit and the at least one second sheet-type body unit are all provided with cavities, and the cavities are communicated with one another.

2. The transportation-friendly water-cooled chute as claimed in claim 1, wherein one of said first U-shaped body unit, said second U-shaped body unit, said at least one first sheet-type body unit, said at least one second sheet-type body unit has one or more cooling medium inlets open below it and one of said first U-shaped body unit, said second U-shaped body unit, said at least one first sheet-type body unit, said at least one second sheet-type body unit has one or more steam outlets open above it; or

One or more cooling medium inlets are formed below each of the plurality of the first U-shaped body unit, the second U-shaped body unit, the at least one first sheet-type body unit, and the at least one second sheet-type body unit, and one or more vapor outlets are formed above each of the plurality of the first U-shaped body unit, the second U-shaped body unit, the at least one first sheet-type body unit, and the at least one second sheet-type body unit.

3. The water-cooled trough convenient to transport of claim 2, wherein each of said first U-shaped body unit and said second U-shaped body unit further comprises:

a U-shaped inner wall plate providing an inner area for the water-cooled chute;

a first support member having one end connected to an outer wall of the U-shaped inner wall panel;

the inner wall of the U-shaped outer wall plate is connected with the other end of the first supporting component;

the U-shaped plugging plates are respectively connected with the top and the bottom of the U-shaped outer wall plate and the U-shaped inner wall plate;

and the first communication port pipe fittings are arranged above and below the U-shaped outer wall plate in pairs.

4. The transportation facilitating water-cooled chute of claim 2 wherein said at least one first sheet-type body unit and said at least one second sheet-type body unit each further comprise:

a sheet-type inner wall plate providing an inner area for the water-cooled chute;

a second supporting member having one end connected to an outer wall of the sheet-type inner wall panel;

a sheet-type outer wall plate, an inner wall of which is connected to the other end of the second supporting member;

the sheet-type plugging plates are respectively connected with the top and the bottom of the sheet-type outer wall plate and the sheet-type inner wall plate;

and second communicating pipe fittings which are arranged above and below the sheet-type outer wall plate in pairs.

5. The water-cooled chute convenient to transport as claimed in claim 3, wherein the first supporting component comprises section steel, the section steel is provided with a plurality of groups, and the section steel is provided with through holes.

6. The water-cooled chute convenient to transport as claimed in claim 4, wherein the second supporting component comprises section steel, the section steel is provided with a plurality of groups, and the section steel is provided with through holes.

7. The water-cooled chute convenient to transport as claimed in claim 3, wherein two side walls of the U-shaped outer wall plate and the U-shaped plugging plate are respectively connected with a flange, and the length of each U-shaped inner wall plate is the sum of the length of each U-shaped outer wall plate, the width of the flange at two ends of each U-shaped outer wall plate and a length threshold value.

8. The water-cooled chute facilitating transportation according to claim 4, wherein flanges are respectively connected to two side walls of said sheet-type outer wall plate and said sheet-type blocking plate, and the length of each of said sheet-type inner wall plates is the sum of the length of each of said sheet-type outer wall plates, the width of said flange at two ends of each of said sheet-type outer wall plates and a length threshold value.

9. The water-cooled chute that facilitates transportation of claim 7 or 8, wherein two corresponding flanges are filled with a thermal insulation material therebetween.

10. The water-cooled trough for easy transport according to claim 2, wherein at least one of said at least one steam outlet is provided with an overflow opening at the bottom.

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