CN210006539U - kinds of pallet degassing room - Google Patents

Abstract

The utility model discloses a kind of tray room of degassing, assemble the unit including a plurality of modularized, every is assembled the unit and is used for forming the top cap assembly unit of the wall body assembly unit of wall body including being used for constituteing, a plurality of wall bodies are assembled the unit and are enclosed to assemble the wall body that forms the room of degassing, a plurality of top caps are assembled the unit and are enclosed to assemble the top cap that forms the room of degassing, the advantage is that the wall body in room of degassing encloses through the wall body assembly unit and is assembled and form, the top cap in room of degassing encloses through the top cap assembly unit and encloses to assemble and form, moreover, the steam generator is simple in structure, make whole room of degassing can realize removing and build, the adaptation those are difficult to remove and send into the heart yearn in the traditional room of degassing and carry out the processing of degassing, and convenient for operation, and can not occupy great fixed building space, the whole size in the room of.

Description

kinds of pallet degassing room

Technical Field

The utility model belongs to the technical field of cable, submarine cable manufacturing and specifically relates to a room is degasified to kinds of trays.

Background

In order to quickly volatilize and discharge the byproducts from the insulated core wires under the condition of heating to constant temperature, the conventional method is to coil the insulated core wires of the cable into a degassing room built specially for for degassing processing, the traditional tray degassing room is built inside a factory building, the size of the degassing room is designed according to the size of a cable tray, and the traditional tray degassing room has the following characteristics that the size is fixed and the tray degassing room cannot move.

However, the length of the insulated core wire of the large-length submarine power cable (hereinafter referred to as submarine cable) is far longer than that of the common medium-high voltage power cable, so that the large-length submarine power cable cannot be shipped and circulated by using a conventional steel cable reel, -like domestic submarine cable enterprises construct large trays capable of automatically rotating to take up and pay off the insulated core wire of the submarine cable in a factory building, the diameter of the trays is -like several meters to dozens of meters, so that the insulated core wire of the large-length submarine cable cannot be sent into a traditional degassing room, and the normal production of the cable can be influenced by constructing the reinforced concrete-type degassing room with the conventional structure on the trays.

Disclosure of Invention

The utility model aims to solve the technical problem that tray degassing rooms that simple structure, be convenient for remove and build are provided.

The utility model provides a technical scheme that above-mentioned technical problem adopted does:

kinds of tray room of degassing, including a plurality of modularized units of assembling, every the unit of assembling including the wall body that is used for constituteing the wall body assemble the unit and be used for constituteing the top cap and assemble the unit, it is a plurality of the wall body assemble the unit and enclose and assemble the wall body that forms the room of degassing, it is a plurality of the top cap assemble the unit and enclose and assemble the top cap that forms the room of degassing.

The wall assembling unit comprises at least vertically-arranged rectangular assembling plates, the top cover assembling unit comprises at least triangular assembling plates, and triangular assembling plates are arranged on each rectangular assembling plate in a turnable manner.

The rectangular assembling plates and the triangular assembling plates are connected in a turnover mode through hinges. Low cost, stable turnover and simple structure. The mounting number of the hinges can be selected according to the size of a specific assembling plate so as to ensure stable overturning mounting between the hinges and the assembling plate.

The rectangular assembled plate comprises a wall inner supporting layer and a wall outer supporting layer which are sequentially arranged from inside to outside, and a wall heat-insulating layer is arranged between the wall inner supporting layer and the wall outer supporting layer; the triangular assembling plate comprises a top cover inner supporting layer and a top cover outer supporting layer which are sequentially arranged from inside to outside, and a top cover heat-insulating layer is arranged between the top cover inner supporting layer and the top cover outer supporting layer. The inner supporting layer and the outer supporting layer are used for supporting, so that the stable construction of the degassing room is ensured; the heat preservation layer is used for preserving heat and ensuring the temperature of degassing treatment.

Temperature probes are arranged on the supporting layer in the wall body and the supporting layer in the top cover. The temperature measuring probe is used for monitoring the temperature in the degassing room at any time.

And the outer end surface of the outer support layer of the wall body is provided with a roller. The transportation of the assembly units is convenient, and the installation quantity of the rollers can be adjusted according to the size of the assembly plate.

The inner supporting layer of the wall body, the outer supporting layer of the wall body, the inner supporting layer of the top cover and the outer supporting layer of the top cover are all made of iron sheets. Simple structure and low cost.

Each wall assembly unit comprises rectangular assembly plates, a th side part of each rectangular assembly plate is convexly provided with a th splicing lug, the other side of each rectangular assembly plate is provided with a th splicing groove which corresponds to and is matched with the th splicing lug in position, the adjacent two wall assembly units are assembled and connected by virtue of a th splicing groove which is arranged on another 6 rectangular assembly plates in an inserted manner through a 5 th splicing lug on of the rectangular assembly plates, side parts of the triangular assembly plates are convexly provided with second splicing lugs, the other side of each triangular assembly plate is provided with a second splicing groove which corresponds to and is matched with the second splicing lug in position, the adjacent two top cover units are assembled and connected by virtue of the second splicing lugs arranged on triangular assembly plates, the adjacent two top cover units are assembled and connected by virtue of the second splicing lugs arranged on the other triangular assembly plates, the energy-saving splicing grooves and the energy-saving splicing grooves are formed by mutual connection of the adjacent two splicing units, the two splicing units are assembled and the two splicing units can be assembled and transported easily.

The air removal room comprises a rectangular splicing plate, a plurality of th splicing lugs and th splicing grooves, a plurality of th splicing lugs and a plurality of th splicing grooves which are uniformly distributed on two side portions of the rectangular splicing plate, a plurality of second splicing lugs and a plurality of second splicing grooves which are uniformly distributed on two side portions of the triangular splicing plate, a plurality of th splicing lugs and th splicing grooves which are uniformly distributed and matched enable a wall body of the air removal room to be stably and firmly spliced, and a plurality of th splicing lugs and a th splicing groove which are uniformly distributed and matched enable a top cover of the air removal room to be stably and firmly spliced.

Each wall assembly unit comprises at least two rectangular assembly plates, and adjacent rectangular assembly plates in each wall assembly unit are connected in a turnable manner;

inserting and connecting lugs are convexly arranged at the outer side parts of the rectangular assembling plates positioned at the outer sides of each wall assembling unit, inserting and connecting grooves which correspond to and are matched with the inserting and connecting lugs are arranged at the outer side parts of the rectangular assembling plates positioned at the other outer sides of each wall assembling unit, and two adjacent wall assembling units realize assembling and connecting through the inserting and connecting grooves which are arranged on the wall assembling units in an inserting and connecting way through the inserting and connecting lugs arranged on wall assembling units;

the assembling structure comprises side parts of each triangular assembling plate, wherein a second splicing lug is convexly arranged on the other side of each triangular assembling plate, a second splicing groove which corresponds to and is matched with the position of the second splicing lug is arranged on the other side of each triangular assembling plate, the two adjacent triangular assembling plates are spliced and installed on the other second splicing grooves of the triangular assembling plates through the second splicing lugs arranged on triangular assembling plates when being enclosed and installed, splicing units are formed by two or more rectangular assembling plates and the triangular assembling plates, the integral assembling efficiency is high, the adjacent rectangular assembling plates in each wall assembling unit are connected in a turnover mode, the whole assembling unit can be folded after being disassembled, the transportation and storage volume is effectively reduced, the splicing lugs are matched with the splicing grooves to realize the mutual connection of the two adjacent wall units, the second splicing lugs are matched with the second splicing grooves to realize the mutual assembling and connection of the two adjacent top cover units, and the structure is simple to assemble and disassemble and assemble and disassemble.

The air removal room comprises a rectangular splicing plate, a plurality of th splicing lugs and th splicing grooves, a plurality of th splicing lugs and a plurality of th splicing grooves which are uniformly distributed at the side parts of the rectangular splicing plate, a plurality of second splicing lugs and a plurality of second splicing grooves which are uniformly distributed at two side parts of the triangular splicing plate, a plurality of th splicing lugs and th splicing grooves which are uniformly distributed and matched enable the wall body of the air removal room to be stably and firmly spliced, and a plurality of th splicing lugs and a th splicing groove which are uniformly distributed and matched enable the top cover of the air removal room to be stably and firmly spliced.

And adjacent rectangular assembling plates in each wall assembling unit are connected in a turnover manner through hinges. Simple structure, the upset is stable, and is with low costs. The mounting number of the hinges can be selected according to the size of a specific assembling plate so as to ensure stable overturning mounting between the hinges and the assembling plate.

Compared with the prior art, the utility model has the advantages of: the wall body in room of degassing encloses through the wall body unit of assembling and assembles and form, the top cap in room of degassing encloses through the top cap unit of assembling and assembles and form, moreover, the steam generator is simple in structure, make whole room of degassing can realize removing and build, the adaptation is difficult to remove and is sent into the heart yearn in the traditional room of degassing and go to degas the processing, high durability and convenient operation, and can not occupy great fixed space of building, the use amount of assembling the unit can be according to the whole size in the room of degassing that concrete needs built and select the commonality, good.

Drawings

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

fig. 2 is a schematic front view of a single assembly unit in embodiment of the present invention;

FIG. 3 is a schematic view of a cross-sectional structure of a rectangular assembled board according to the present invention;

fig. 4 is a schematic perspective view of a single assembly unit in embodiment of the present invention;

FIG. 5 is the schematic view of the sectional structure of the middle triangular assembling plate of the present invention

Fig. 6 is a schematic front view of a single assembly unit in the second embodiment of the present invention;

fig. 7 is a schematic perspective view of a single assembly unit in the second embodiment of the present invention.

Detailed Description

The present invention will be described in further detail in with reference to the following embodiments.

Embodiment , as shown in fig. 1 to 5, kinds of tray degassing rooms include a plurality of modularized assembling units, each assembling unit includes a wall assembling unit for forming a wall and a top cover assembling unit for forming a top cover, the plurality of wall assembling units enclose and assemble the wall forming the degassing room, and the plurality of top cover assembling units enclose and assemble the top cover forming the degassing room.

In this embodiment, the wall assembly unit includes at least vertically arranged rectangular assembly boards 1, the top cover assembly unit includes at least triangular assembly boards 2, and each rectangular assembly board 1 is provided with triangular assembly boards 2 in a turnable manner.

In this embodiment, the rectangular assembly plate 1 and the triangular assembly plate 2 are connected in a reversible manner by hinges 3.

In this embodiment, the rectangular assembled plate 1 comprises an inner wall supporting layer 101 and an outer wall supporting layer 102 which are sequentially arranged from inside to outside, and a wall insulating layer 103 is arranged between the inner wall supporting layer 101 and the outer wall supporting layer 102; the triangular assembling plate 2 comprises a top cover inner supporting layer 201 and a top cover outer supporting layer 202 which are sequentially arranged from inside to outside, and a top cover heat preservation layer 203 is arranged between the top cover inner supporting layer 201 and the top cover outer supporting layer 202.

In this embodiment, temperature probes (not shown) are disposed on both the inner support layer 101 of the wall and the inner support layer 201 of the top cover.

In this embodiment, rollers 104 are disposed on the outer side surface of the outer wall support layer 102.

In this embodiment, the inner wall supporting layer 101, the outer wall supporting layer 102, the inner top supporting layer 201 and the outer top supporting layer 202 are made of iron sheet.

In this embodiment, each wall assembly unit includes rectangular assembly boards 1, side portions of the rectangular assembly boards 1 are convexly provided with 0 th insertion bumps 11, the other 1 side of each rectangular assembly board 1 is provided with 3 th insertion grooves 12 corresponding to and matching with the 2 th insertion bumps 11, the adjacent two wall assembly units are connected in an assembled manner by inserting the th insertion bumps 11 arranged on rectangular assembly boards 1 into the th insertion grooves 12 arranged on the other rectangular assembly boards 1, the side portions of each triangular assembly board 2 are convexly provided with second insertion bumps 21, the other side of each triangular assembly board 2 is provided with second insertion grooves 22 corresponding to and matching with the second insertion bumps 21, and the adjacent two roof assembly units are connected in an assembled manner by inserting the second insertion bumps 21 arranged on triangular assembly boards 2 into the second insertion grooves 22 arranged on the other triangular assembly boards 2.

In this embodiment, the th and th inserting projections 11 and 12 are plural, the plural th and th inserting projections 11 and 12 are uniformly arranged at two side portions of the rectangular assembling plate 1, the plural second inserting projections 21 and 22 are plural, and the plural second inserting projections 21 and 22 are uniformly arranged at two side portions of the triangular assembling plate 2.

In the second embodiment, as shown in fig. 6 and 7, the other parts are the same as those in the first embodiment , and the difference is that each wall assembly unit comprises at least two rectangular assembly plates 1, and the adjacent rectangular assembly plates 1 in each wall assembly unit are connected in a reversible manner;

inserting and connecting lugs 11 are convexly arranged at the outer side parts of the outer sides of each wall assembling unit, inserting and connecting grooves 12 which correspond to and are matched with the inserting and connecting lugs 11 are arranged at the outer side parts of the other outer sides of each wall assembling unit, and the adjacent two wall assembling units are inserted and installed in inserting and connecting grooves 12 on the other wall assembling units through inserting and connecting lugs 11 arranged on wall assembling units;

lateral parts of each triangular assembling plate 2 are convexly provided with second splicing lugs 21, the other side of each triangular assembling plate 2 is provided with second splicing grooves 22 which correspond to and are matched with the positions of the second splicing lugs 21, and the second splicing grooves 22 which are arranged on the other triangular assembling plates 2 are spliced and installed through the second splicing lugs 21 arranged on triangular assembling plates 2 when the two adjacent triangular assembling plates 2 are arranged in a closed mode to realize splicing connection.

In this embodiment, the th and th inserting projections 11 and 12 are plural, the plural th and th inserting projections 11 and 12 are uniformly arranged on the side of the rectangular assembling plate 1, the plural second inserting projections 21 and 22 are plural, and the plural second inserting projections 21 and 22 are uniformly arranged on the two sides of the triangular assembling plate 2.

In this embodiment, the adjacent rectangular assembling plates 1 in each wall assembling unit are connected in a turnable way through hinges 3.

In this embodiment, each wall module comprises two rectangular modules 1.

Claims (10)

1. The utility model provides a room of going flatly of kinds of trays, its characterized in that includes a plurality of modularized units of assembling, every the unit of assembling including the wall body that is used for constituteing the wall body assemble the unit and be used for constituteing the top cap and assemble the unit, a plurality of the wall body assemble the unit and enclose and assemble the wall body that forms the room of going flatly, a plurality of the top cap assemble the unit and enclose and assemble the top cap that forms the room of going flatly.
2. 2. The tray air removal room of claim 1, wherein the wall units comprise at least vertically disposed rectangular units, and the roof units comprise at least triangular units, each of the rectangular units being reversibly disposed with of the triangular units.
3. 3. The tray degassing room of claim 2 wherein said rectangular panels are hinged to said triangular panels for reversible connection.
4. 4. The tray air removal room of claim 2, wherein the rectangular assembled plate comprises an inner wall supporting layer and an outer wall supporting layer which are arranged from inside to outside in sequence, a wall insulating layer is arranged between the inner wall supporting layer and the outer wall supporting layer, the triangular assembled plate comprises an inner top cover supporting layer and an outer top cover supporting layer which are arranged from inside to outside in sequence, and a top cover insulating layer is arranged between the inner top cover supporting layer and the outer top cover supporting layer.
5. 5. The tray degassing room of claim 4 wherein temperature probes are disposed on both the inner wall support layer and the inner top support layer.
6. 6. The tray degassing room of claim 4, wherein the wall body outer supporting layer is provided with rollers on the outer end surface.
7. 7. The tray air removal room of claim 4, wherein the inner wall support layer, the outer wall support layer, the inner top cover support layer and the outer top cover support layer are made of iron sheet.
8. 8. The tray air removal room of claim 2, wherein each of the wall assembly units comprises rectangular assembly boards, side protrusions of the rectangular assembly boards are provided with plug-in bumps, the other side of each of the rectangular assembly boards is provided with th plug-in grooves corresponding to and mating with the th plug-in bumps, two adjacent wall assembly units are connected by the th plug-in bumps arranged on rectangular assembly boards and mounted on the th plug-in grooves on rectangular assembly boards, side protrusions of each of the triangular assembly boards are provided with second plug-in bumps, the other side of each of the triangular assembly boards is provided with second plug-in grooves corresponding to and mating with the second plug-in bumps, and two adjacent top cover units are connected by the second plug-in grooves 84 mounted on triangular assembly boards.
9. 9. The tray air removal room of claim 2, wherein each wall module includes at least two rectangular modules, and adjacent rectangular modules in each wall module are connected in a reversible manner;

   inserting and connecting lugs are convexly arranged at the outer side parts of the rectangular assembling plates positioned at the outer sides of each wall assembling unit, inserting and connecting grooves which correspond to and are matched with the inserting and connecting lugs are arranged at the outer side parts of the rectangular assembling plates positioned at the other outer sides of each wall assembling unit, and two adjacent wall assembling units realize assembling and connecting through the inserting and connecting grooves which are arranged on the wall assembling units in an inserting and connecting way through the inserting and connecting lugs arranged on wall assembling units;

   lateral parts of each triangular assembling plate are convexly provided with second splicing lugs, the other side of each triangular assembling plate is provided with second splicing grooves which correspond to the positions of the second splicing lugs and are matched with the second splicing lugs, and two adjacent triangular assembling plates are spliced and installed in the other second splicing grooves of the triangular assembling plates through the second splicing lugs arranged in triangular assembling plates when being arranged in a closed mode.
10. 10. The tray air removal room of claim 9, wherein adjacent rectangular panels in each wall module are hinged for reversible connection.

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