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CN-121992988-A - Pressure boost sleeping cabin structure

CN121992988ACN 121992988 ACN121992988 ACN 121992988ACN-121992988-A

Abstract

The application discloses a pressure-increasing sleeping cabin structure. The pressure boost sleep cabin structure includes cabin body frame, the airtight door, membrane structure and rope structure, cabin body frame includes four stands and many boundary beams, four stands all vertical setting, and be the range distribution in the horizontal plane, respectively detachable connection and two vertically boundary beams between the both ends tip of adjacent stand, the airtight door sets up between adjacent stand to be connected with the boundary beam at stand both ends, the region outside each side of cabin body frame, top and bottom degasification airtight door all forms the fretwork district, membrane structure detachable sealing installation is in the fretwork district, rope structure detachable installs in the fretwork district to set up in the outside of membrane structure. The pressure boost sleeping cabin structure possesses good gas tightness and assembly convenience, can evenly transmit the load of the inside atmospheric pressure of bearing of membrane structure to the frame through the cable structure, and overall structure bearing performance is better, and the deformation resistance is showing and is promoting.

Inventors

  • ZHANG KUN
  • CAO YANG
  • LI CHENG
  • WU ZIMIN
  • WANG LIANG
  • WANG KAIQIANG
  • LU DENG
  • LIU ZHIMAO
  • YE ZHIWU
  • XIA JINSONG
  • LONG AN
  • ZHANG YINGHUI
  • SHAN HONGBO

Assignees

  • 中建三局集团有限公司
  • 中建三局云居科技有限公司

Dates

Publication Date
20260508
Application Date
20260402

Claims (10)

  1. 1. A pressurized sleep compartment structure comprising: the cabin body frame (1), the cabin body frame (1) comprises four upright posts (11) and a plurality of side beams (12), the four upright posts (11) are vertically arranged and distributed in rows and columns in a horizontal plane, and two end parts of two adjacent upright posts (11) are respectively detachably connected with the side beams (12) perpendicular to the upright posts; The airtight door (2) is arranged between the adjacent upright posts (11) and is connected with the side beams (12) at the two ends of the upright posts (11), and the side surfaces, the top and the bottom of the cabin frame (1) all form hollow areas except the airtight door (2); the membrane structure (3) is detachably and hermetically arranged in the hollow area; the cable structure (4), the detachable installation of cable structure (4) is in the fretwork area, and set up in the outside of membrane structure (3).
  2. 2. The pressurized sleep cabin structure according to claim 1, wherein a sealing bead (31) is arranged on the edge ring of the membrane structure (3), press blocks (311) are arranged on the inner surface of the edge of the hollowed-out area at intervals, and the press blocks (311) are pressed on the sealing bead (31) so that the sealing bead (31) is attached to the inner surface of the edge of the hollowed-out area.
  3. 3. The pressure boost sleep cabin structure according to claim 1, characterized in that a plurality of secondary columns (5) parallel to and spaced from each other are distributed between adjacent upright columns (11), a plurality of parallel and spaced secondary beams (6) are vertically arranged between two side beams (12) which are oppositely arranged at any one end of each upright column (11), two ends of each secondary column (5) and two ends of each secondary beam (6) are detachably connected with corresponding side beams (12) through connecting components respectively, and the airtight door (2) is mounted between any upright column (11) and the adjacent secondary column (5) in a sealing manner, and hollow areas are respectively formed between the adjacent secondary columns (5), between the upright columns (11) and the adjacent secondary columns (5), between the adjacent secondary beams (6) and between the side beams (12) and the adjacent secondary beams (6).
  4. 4. A pressurized sleep cabin structure according to claim 3, characterized in that the inner edges of four upright posts (11) are respectively provided with a first groove (111) extending along the respective length direction, the inner edges of side beams (12) at the two ends of the upright posts (11) are respectively provided with a second groove (121) extending along the respective length direction to the end parts thereof, the second grooves (121) of four side beams (12) at the same end of the upright posts (11) are respectively communicated with the first groove (111) of the upright posts (11), the first groove (111) and the second groove (121) together form a groove on each edge of the same cuboid type, the edges of the film structure (3) at different sides of the air-tight door (2) are respectively extended into the corresponding groove and are in sealing connection with the wall surfaces of the groove, the three side edges of the film structure (3) at the same side of the air-tight door (2) are respectively extended into the corresponding groove and are respectively connected with the inner side surfaces of the other air-tight door (2), and the inner edges of the other air-tight door (5) are connected with the inner side edges of the air-tight door (5).
  5. 5. The structure according to claim 4, wherein the end of the side beam (12) and the end of the upright (11) are connected in a sealing manner by a sealing connection member, the sealing connection member comprises a first tongue-and-groove flange (71) and a first tongue-and-groove seat (72), the first tongue-and-groove flange (71) is fixed at the end of the side beam (12), the first tongue-and-groove seat (72) is fixed at the connection position between the end of the upright (11) and the side beam (12), a first flange groove (711) is concavely arranged at one end of the first tongue-and-groove flange (71) facing away from the side beam (12), a first bump (721) matched with the first flange groove (711) is arranged at one end of the first tongue-and-groove seat (72), a first annular embedding groove is formed between the first bump (721) and the surface of the first tongue-and-groove seat (72), a first flange groove (711) is embedded in the first flange groove (11), a hollow bolt (73) is embedded in the first flange groove (711), and the first tongue-and groove (711) is embedded in the first tongue-and groove (72), the outer surface of the part, close to the first tongue-and-groove flange (71), of the two ends of the side beam (12) is provided with a first opening (122) for taking out or putting in the first bolt (73), and the inner edges of the first tongue-and-groove flange (71) and the first tongue-and-groove seat (72) are provided with notches communicated with the second groove (121).
  6. 6. The pressurized sleep module structure as claimed in claim 5, characterized in that, a sealing strip is sandwiched between the edge of the first flange groove (711) and the first fitting groove.
  7. 7. The structure of claim 3, wherein the connecting assembly comprises a second tongue-and-groove flange (81) and a second tongue-and-groove seat (82), the second tongue-and-groove flange (81) is fixed at two ends of the secondary column (5) and the secondary beam (6), a second flange groove is formed at one end of the second tongue-and-groove flange (81) facing away from the secondary column (5) or one end of the secondary beam (6), the second tongue-and-groove seat (82) is fixed at one side of two side beams (12) connected with two ends of the secondary column (5) and at one side of two side beams (12) connected with two ends of the secondary beam (6) and at one side of two side beams (12) adjacent to each other, the second tongue-and-groove seat (82) is arranged in one-to-one correspondence with the second tongue-and-groove flange (81), a second projection (821) is formed at one end of the second tongue-and-groove seat (82), a second groove is formed between surfaces of the secondary column (5) and the second tongue-and-groove seat (82) is formed, the second flange (82) is embedded in the second groove seat (82) and the second flange (82) is embedded in the second groove (82), the two ends of the secondary column (5) and the two end surfaces of the secondary beam (6) are respectively provided with a second opening (51) communicated with the respective inner cavity.
  8. 8. A pressurized sleep cabin structure according to claim 3, characterized in that the rope structure (4) comprises rope bodies (41), a plurality of rope bodies (41) are respectively connected between adjacent secondary columns (5), between the upright columns (1) and the adjacent secondary columns (5), between the adjacent secondary beams (6) and between the side beams (12) and the adjacent secondary beams (6), and the rope bodies (41) are woven into a net shape or are distributed at intervals in parallel with each other, or a plurality of rope bodies (41) are connected between the adjacent upright columns (1) and between two side beams (12) which are oppositely arranged.
  9. 9. A pressurized sleep module structure as claimed in claim 3, characterized in that, between adjacent secondary columns (5) and side rails (12), respectively, stiffening beams (9) are connected vertically.
  10. 10. The pressurized sleep compartment structure according to any one of claims 1to 9, further comprising a decorative panel detachably mounted to the respective sides and top of the compartment body frame (1) and arranged outside the cable structure (4).

Description

Pressure boost sleeping cabin structure Technical Field The application relates to the technical field of pressurizing cabins, in particular to a pressurizing sleeping cabin structure. Background The pressurizing sleeping cabin improves sleeping quality by creating a moderate pressurizing environment, and the strength, the sealing performance and the dismounting convenience of the frame structure directly influence the using effect. The traditional pressure-increasing sleeping cabin structure has the obvious defects that the traditional welding type frame has high strength and good sealing performance, but cannot be disassembled, the occupied space is large during transportation, the cost is high, the maintenance and the replacement are difficult during later maintenance or partial damage, and the traditional welding type frame can only be scrapped integrally, so that the resource waste is caused. The conventional bolt-connected frame is detachable, but the distribution of stress is unreasonable. In addition, the air tightness guarantee of the traditional sleeping cabin depends on a single sealing structure, the sealing reliability is insufficient, and the design of a membrane structure and a cable structure specially adapting to the pressurizing environment is lacking, so that the pressure bearing stability and the structural suitability of the cabin body are further limited. In addition, since the conventional booster building mostly adopts a fixed structural design, in order to meet the load requirement of internal booster and the load bearing requirement of multi-layer arrangement, the body of the booster building usually needs a steel material with higher strength or other existing materials, which results in larger volume and heavier weight. Disclosure of Invention The embodiment of the application provides a pressurizing sleeping cabin structure which is used for solving the problems of high assembly difficulty, difficult maintenance and replacement, unreasonable stress and insufficient air tightness of the traditional pressurizing sleeping cabin frame. The invention solves the technical problems mainly by the following technical proposal: The utility model provides a pressure boost sleep cabin structure, including cabin body frame, airtight door, membrane structure and rope structure, the cabin body frame includes four stands and many boundary beams, four the stand is all vertical setting, and is the range distribution in the horizontal plane, adjacent respectively detachable connect with two vertically between the both ends tip of stand the boundary beam, airtight door set up in adjacent between the stand, and with the boundary beam at stand both ends is connected, each side of cabin body frame, top and bottom are except that the region of airtight door all forms the fretwork district, membrane structure detachable sealing mounting is in the fretwork district, rope structure detachable install in the fretwork district, and set up in the outside of membrane structure. In some embodiments, the edge ring of the membrane structure is provided with sealing beads, the inner surface of the edge of the hollow area is provided with pressing blocks at intervals, and the pressing blocks are pressed on the sealing beads so that the sealing beads are attached to the inner surface of the edge of the hollow area In some embodiments, a plurality of secondary columns parallel to the columns and distributed at intervals are distributed between the columns, a plurality of secondary beams parallel to each other and distributed at intervals are vertically arranged between the side beams at any one end of the columns, two ends of each secondary column and two ends of each secondary beam are detachably connected with the corresponding side beam through connecting components respectively, and the airtight door is installed between any one column and the adjacent secondary column in a sealing mode, and hollow areas are formed between the adjacent secondary columns, between the adjacent secondary beams and between the side beams. In some embodiments, the inner edges of the four upright posts are respectively provided with a first groove extending along the respective length direction, the inner edges of the side beams at the two ends of the upright posts are respectively provided with a second groove extending to the end parts of the side beams along the respective length direction, the second grooves of the four side beams at the same end of the upright posts are respectively communicated with the first grooves of the upright posts, the first grooves and the second grooves together form a groove on each edge of the same cuboid, the edges of the film structure at different sides of the airtight door respectively extend into the corresponding grooves and are in sealing connection with the wall surfaces of the grooves, the three side edges of the film structure at the same side of the airtight door respectively extend into th