CN211173244U - Cabin body structure of integrated secondary equipment cabin - Google Patents

Abstract

The utility model relates to a cabin body structure in integration secondary equipment cabin, the on-line screen storage device comprises a base, bulkhead and a plurality of top cap, the bulkhead articulates there is the hatch door, and the cross section of top cap is C shape, and the length direction of top cap along the bulkhead sets gradually, and the top cap includes apron and two L shape plate bodies, installs jointly on the adjacent L shape plate body to be used for waterproof connecting cover, is fixed with the fixed plate on the lateral wall that connecting cover is close to its lower surface, and demountable installation has the tight subassembly of support that offsets with the fixed plate on the apron the utility model discloses in, install the connecting cover on adjacent L shape plate body jointly, have good waterproof effect, the fixed plate on the tight subassembly of support on the apron and the connecting cover lateral wall offsets tightly to this makes installing that connecting cover can be firm on adjacent L shape plate body, and can dismantle between tight subassembly and the apron, so that the staff installs and dismantles connecting cover and apron, thereby be convenient for install the top cap and dismantle, be favorable to the staff at this equipment.

Description

Cabin body structure of integrated secondary equipment cabin

Technical Field

The utility model belongs to the technical field of equipment cabin technique and specifically relates to a cabin body structure in integration secondary equipment cabin is related to.

Background

The hatch cover of current secondary equipment cabin includes the cabin roof skeleton and covers the cabin roof apron on the cabin roof skeleton, and the cabin roof apron is formed by a plurality of subshells concatenation, and welded connection is passed through at the border of adjacent subshells, and for waterproof, adjacent border all need the full weld, wastes time and energy, and is high to welding process requirement moreover, if welding process is poor, has the gap between the subshells, and the rainwater can follow the infiltration under-deck between the gap.

The utility model discloses a chinese utility model patent that bulletin number is CN208473359U discloses a secondary equipment cabin, including the base, be fixed in the bulkhead on this base and the hatch cover of lid on the bulkhead, the hatch cover includes cabin roof skeleton and the cabin roof cover board of cover on the cabin roof skeleton, and the cabin roof cover board includes left slope panel and right slope panel, and left slope panel and right slope panel connect gradually along cabin roof skeleton length direction by polylith sub-apron, and the both sides of sub-apron respectively have the portion of bending of a L type, and when two adjacent sub-apron are connected, the T shape structure is constituteed in two looks butt portions of bending.

In the secondary equipment cabin in the technical scheme, the adjacent sub-cover plates only need to be subjected to spot welding without full welding, and the secondary equipment cabin has better waterproof performance. When large-scale equipment needs to be installed in the equipment cabin, the equipment is inconvenient to install due to the small cabin door, and the equipment only needs to be hoisted from the top of the equipment cabin.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a cabin body structure in integration secondary equipment cabin is convenient for install and dismantle between the adjacent apron to this is convenient for the staff and installs the main equipment in this equipment cabin.

The technical scheme of the utility model is that the cabin body structure of integration secondary equipment cabin, including the base, fix the bulkhead on the base and a plurality of top caps of installing on the bulkhead, the bulkhead articulates there is the hatch door, the cross section of top cap is C shape, and the top cap sets gradually along the length direction (l 1) of bulkhead, the top cap includes demountable installation at the apron of bulkhead upper surface and fixes the L shape plate body in the apron both sides, and is adjacent install jointly on the L shape plate body and be used for waterproof connecting cover, the cross section of connecting cover is the U-shaped, the opening of connecting cover is down and both ends are sealed, be fixed with the fixed plate on the lateral wall that the connecting cover is close to its lower surface, demountable installation has the tight subassembly of support that offsets with the fixed plate on the apron.

By adopting the technical scheme, the adjacent L-shaped plate bodies are jointly provided with the waterproof connecting covers, so that rainwater is prevented from flowing into the equipment cabin from a gap between the adjacent L-shaped plate bodies, a good waterproof effect is achieved, the abutting components on the cover plates are abutted with the fixing plates on the side walls of the connecting covers, the connecting covers can be firmly arranged on the adjacent L-shaped plate bodies, the abutting components and the cover plates can be detached, so that workers can conveniently install and detach the connecting covers and the cover plates, the top covers can be conveniently installed and detached, and the large-scale equipment can be conveniently installed and detached in the equipment cabin by the workers.

The utility model discloses further set up to: the abutting assembly comprises a cylindrical shell fixed on the upper surface of the cover plate, a sliding plate installed in the cylindrical shell and connected with the cylindrical shell in a sliding mode, a spring fixed between the sliding plate and the end portion of the cylindrical shell, a connecting rod fixed on one side, far away from the spring, of the sliding plate and a pressing plate fixed at one end, far away from the sliding plate, of the connecting rod, and the lower surface of the pressing plate is abutted to the upper surface of the fixing plate.

Through adopting above-mentioned technical scheme, when the staff dismantles the tight subassembly of support that offsets with the fixed plate, only need hold the pressure strip and promote to cylindricality casing one side for the spring compression, at this moment, the pressure strip lower surface breaks away from the fixed plate upper surface, and the fixed plate loses the constraint, so that the staff of being convenient for takes off the connection lid, thereby the staff of being convenient for dismantles the top cap.

The utility model discloses further set up to: the cross section of the pressure strip is in a right trapezoid shape, the inclined plane of the pressure strip is positioned on one side, away from the connecting rod, of the pressure strip, and the area of the upper surface of the pressure strip is smaller than that of the lower surface of the pressure strip.

By adopting the technical scheme, the side wall of the compression plate, which is in contact with the connecting cover, is designed into the inclined surface, so that a worker only needs to press down the connecting cover, the compression plate can be directly pushed to move to one side away from the fixed plate after the fixed plate on the connecting cover is in contact with the compression plate, additional force does not need to be applied to move the compression plate, and the mounting difficulty of the connecting cover is reduced; after the upper surface of the fixing plate is flush with the lower surface of the pressing plate, the pressing plate restores to the original position and generates a limiting effect on the fixing plate under the elastic action of the spring.

The utility model discloses further set up to: the sliding plate is characterized in that two symmetrically-arranged sliding blocks are fixed on the side wall of the sliding plate, and sliding grooves matched with the sliding blocks in a sliding mode are formed in the inner wall of the cylindrical shell.

Through adopting above-mentioned technical scheme, the slider on the slide cooperates with the spout on the cylindricality shells inner wall slides to this makes the slide can steadily slide in the cylindricality shell, has avoided the slide to take place because of the skew condition of atress inequality in the cylindricality shell.

The utility model discloses further set up to: install the reset assembly who is used for the pressure strip to reset on the bulkhead, reset assembly installs first rotation pole on the bulkhead lateral wall, fixes fixed block on first rotation pole outer wall, installs on the fixed block and rather than threaded connection's holding rod, fixes the square frame body on the fixed block lateral wall and fixes the dead lever on the pressure strip including rotating, the dead lever outer wall is laminated with the square frame body inner wall mutually, just distance between holding rod and the first rotation pole is greater than the distance between first rotation pole and the dead lever.

By adopting the technical scheme, when the connecting cover is disassembled, a worker only needs to hold the holding rod and rotate the holding rod, at the moment, the fixing block synchronously rotates along with the holding rod, and the fixing block drives the square frame body to synchronously rotate, so that the fixing rod on the pressing plate moves along the length direction (l 1) of the bulkhead under the action of the pushing force of the square frame body, meanwhile, the pressing plate also moves along the length direction (l 1), and when the lower surface of the pressing plate is separated from the upper surface of the fixing plate, the worker can disassemble the connecting cover; if the pressure strip can fully compress tightly the fixed plate under the effect of elastic force, the spring with large elastic coefficient needs to be selected, the difficulty that the staff can push the pressure strip is increased by selecting the spring with large elastic coefficient, and the distance between the holding rod and the first rotating rod is larger than the distance between the first rotating rod and the fixed rod, so that the design mode can be known according to the lever principle, the force required by the staff for pushing the pressure strip is reduced, and good labor-saving effect is achieved.

The utility model discloses further set up to: the cross section of fixed block is regular hexagon, just all set up on a plurality of lateral walls of fixed block can with holding rod threaded connection's internal thread.

Through adopting above-mentioned technical scheme, all set up a plurality of internal threads with holding rod threaded connection on a plurality of lateral walls of fixed block to this be convenient for the staff installs the holding rod on the different positions of fixed block, thereby existing be favorable to the staff to operate the fixed block on the apron, be favorable to the staff again at subaerial operation fixed block, in order to install and dismantle the connection lid.

The utility model discloses further set up to: still install fixed subassembly on the bulkhead lateral wall, fixed subassembly is including rotating the second dwang of installing on the bulkhead lateral wall and fixing the fixture block of keeping away from bulkhead lateral wall one end at the second dwang, seted up on the fixture block can with fixed block joint complex draw-in groove.

Through adopting above-mentioned technical scheme, draw-in groove and fixed block joint cooperation on the fixture block to this staff fixes the fixed block through fixed subassembly, thereby has avoided the holding rod to make the fixed block take place the pivoted condition because of receiving the exogenic action and has taken place, has improved reset assembly's stability.

The utility model discloses further set up to: the bulkhead comprises two first vertical plates which are symmetrically arranged and two second vertical plates which are fixed on the first vertical plates, a rectangular frame structure is formed by the two first vertical plates and the two second vertical plates, two first connecting plates and a second connecting plate which are symmetrically arranged are fixed on the lower surface of each cover plate, the first connecting plates are arranged along the length direction (l 1) of the bulkhead, and first mounting grooves which can be matched with the first vertical plates in a clamping mode are formed in the lower surface of each first connecting plate; the second connecting plate sets up along the width direction (l 2) of bulkhead, its both ends respectively with two first connecting plate is fixed, just second connecting plate lower surface seted up can with second riser joint complex second mounting groove, second mounting groove and first mounting groove intercommunication.

Through adopting above-mentioned technical scheme, the cooperation of first mounting groove and the riser joint of first connecting plate lower surface, the cooperation of second mounting groove and the riser joint of second connecting plate lower surface to this makes apron can demountable installation at the bulkhead top, thereby is convenient for the staff to install and dismantle the apron.

To sum up, the utility model discloses a beneficial technological effect does:

1. the connecting cover for water prevention is commonly arranged on the adjacent L-shaped plate bodies to prevent rainwater from flowing into the equipment cabin from a gap between the adjacent L-shaped plate bodies, so that the waterproof function is good;

2. in the scheme, when a worker dismantles the abutting assembly abutting against the fixed plate, the worker only needs to hold the pressing plate and push the pressing plate to one side of the cylindrical shell to compress the spring, at the moment, the lower surface of the pressing plate is separated from the upper surface of the fixed plate, and the fixed plate is not bound, so that the worker can take down the connecting cover, and the worker can conveniently dismantle the top cover;

3. in this scheme, draw-in groove and fixed block joint cooperation on the fixture block to this staff fixes the fixed block through fixed subassembly, thereby has avoided the holding rod to make the fixed block take place the pivoted condition because of receiving exogenic action and has taken place, has improved reset assembly's stability.

Drawings

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

FIG. 2 is a schematic structural view of the cover plate of the present invention;

FIG. 3 is a schematic cross-sectional view of FIG. 1 taken along line A-A;

FIG. 4 is an enlarged schematic view of the structure at A in FIG. 3;

FIG. 5 is a schematic structural view of the middle cylindrical housing and the sliding plate of the present invention;

fig. 6 is an enlarged schematic view of the structure at B in fig. 1.

The reference numbers of the base, the bulkhead, the cabin door, the top cover, the cover plate, the plate bodies 32 and L, the first connecting plate, the first mounting groove, the first connecting plate, the second mounting groove, the cabin door, the top cover, the cover plate 32 and L, the sliding plate 33, the first connecting plate, the first mounting groove 331, the first mounting groove 34, the second connecting plate, the second mounting groove 341, the second mounting groove, the connecting cover 4, the sealing ring, the sealing plate 42, the sealing plate 43, the fixing plate 5, the abutting component 51, the cylindrical shell 511 and the sliding groove 52, the sliding plate 521 and the sliding block 53, the spring 54, the connecting rod 55 and the pressing plate 6, the reset component 61 and the first rotating rod 62, the fixing block 621 and the internal thread 63, the square frame body 64.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1, for the utility model discloses a cabin body structure of an integrated secondary equipment cabin, which comprises a base 1. The base 1 is a rectangular plate, and the lower surface of the base is in contact with the ground. A bulkhead 2 is fixed on the base 1. Bulkhead 2 includes two first risers 21 and two second risers 22. The first vertical plates 21 are rectangular plate bodies, and the two first vertical plates 21 are respectively fixed on two sides of the base 1. The first vertical plate 21 is vertically arranged, and the lower surface of the first vertical plate is fixed with the upper surface of the base 1. The second vertical plate 22 is also a rectangular plate, two ends of the second vertical plate 22 are fixed with the two first vertical plates 21 respectively, and the two second vertical plates 22 are symmetrically arranged. The second vertical plate 22 is vertically arranged, and the lower surface of the second vertical plate is fixed with the upper surface of the base 1. The two first vertical plates 21 and the two second vertical plates 22 form a rectangular frame structure, the length direction of the first vertical plates 21 is the length direction (l 1) of the bulkhead 2, and the length direction of the second vertical plates 22 is the width direction (l 2) of the bulkhead 2. A hatch door 23 is hinged on the side wall of one of the second risers 22, and the hatch door 23 is a rectangular plate body so that workers can enter the equipment compartment from the hatch door 23.

As shown in fig. 1, a plurality of top covers 3 are sequentially installed on the top of a bulkhead 2 along a length direction (l 1), a vertical cross section of each top cover 3 is C-shaped, each top cover 3 comprises a cover plate 31 and two L-shaped plate bodies 32 which are symmetrically arranged, each cover plate 31 is a rectangular plate body, a vertical cross section of each L-shaped plate body 32 is L-shaped, and the two L-shaped plate bodies 32 are respectively fixed on two sides of each cover plate 31, two first connecting plates 33 and one second connecting plate 34 which are symmetrically arranged are fixed on the lower surface of each top cover 3, each first connecting plate 33 and each second connecting plate 34 are rectangular plate bodies, each second connecting plate 34 is integrally formed with the first connecting plate 33, each first connecting plate 33 is arranged along the length direction (l 1) of the bulkhead 2, each second connecting plate 34 is arranged along a width direction (l 2) of the bulkhead 2, as shown in fig. 2, a first mounting groove 331 is formed on the lower surface of the first connecting plate 33, a vertical cross section of the first mounting groove 331 is square, three inner side walls of the first mounting groove 331 are respectively attached to three side walls of the second mounting groove 341, each second mounting groove 341 is formed on the second mounting groove 341, and the second mounting groove 341 is connected to the upper side wall 22 of the second mounting groove 33, and the second mounting groove 341 is connected to the first mounting.

As shown in fig. 3, L-shaped plate bodies 32 located on adjacent top covers 3 are attached to each other, and two adjacent L-shaped plate bodies 32 are commonly provided with a connecting cover 4. the vertical cross section of the connecting cover 4 is U-shaped, and the inner side walls on both sides of the connecting cover 4 are respectively attached to the side walls of the two L-shaped plate bodies 32. the opening of the connecting cover 4 faces downward, and the horizontal cross section thereof is square ring-shaped, both ends of the connecting cover 4 are closed, and the inner side walls on both ends of the connecting cover 4 are respectively attached to the side walls on both sides of the L-shaped plate bodies 32. referring to fig. 4, a sealing ring 41 is fixed to the upper surface of the cover plate 31 at a position corresponding to the lower surface of the connecting cover 4. the sealing ring 41 is square ring-shaped and made of a rubber material, and its upper surface is attached to the lower surface of the connecting cover 4. as shown in fig. 4, a fixing plate 43 is a square plate body whose length direction coincides with the width direction (l 2) of the bulkhead 2 (see fig. 1), and a fixing plate 43 is attached to the upper surface of the cover plate 4, and the fixing plate 31, so that the connecting.

As shown in fig. 4, the cover plate 31 is provided with the abutting assembly 5. The abutting assembly 5 comprises a cylindrical shell 51, a sliding plate 52, a spring 53, a connecting rod 54 and a pressing plate 55. The cylindrical shell 51 has a circular tube shape with both ends closed, the cylindrical shell 51 is fixed to the upper surface of the cover plate 31, and the axial direction of the cylindrical shell 51 coincides with the longitudinal direction (l 1) of the bulkhead 2 (see fig. 1). Referring to fig. 5, the sliding plate 52 is a circular plate, and two symmetrically disposed sliding blocks 521 are fixed on the outer wall of the sliding plate 52. The slider 521 is a square block, two symmetrically arranged sliding grooves 511 are formed in the inner side wall of the cylindrical shell 51, and the sliding grooves 511 are in sliding fit with the slider 521. One end of the spring 53 is fixed to the end face of the slide plate 52, and the other end is fixed to the inner side wall of the cylindrical housing 51 at the end away from the connection cover 4. The connecting rod 54 is in the shape of a round bar, the axis of which coincides with the axis of the cylindrical housing 51, and one end of the connecting rod 54 is fixed to the side of the slide plate 52 away from the spring 53. The horizontal cross section of the pressing plate 55 is a right trapezoid, the lower surface of the pressing plate is abutted against the upper surface of the fixing plate 43, and one side wall of the pressing plate 55 is fixed with one end of the connecting rod 54 far away from the sliding plate 52. The area of the upper surface of the pressing plate 55 is smaller than that of the lower surface thereof, and the inclined surface of the pressing plate 55 is away from the connecting rod 54. When installing connecting cover 4, the staff only need press connecting cover 4 downwards for the inclined plane of fixed plate 43 lower surface and pressure strip 55 offsets, after continuing the application of force, spring 53 contracts, make partly income cylindricality casing 51 of connecting rod 54, after fixed plate 43 upper surface and pressure strip 55 lower surface parallel and level, spring 53 resets and orders about pressure strip 55 and resets, thereby restricted the removal of fixed plate 43 in vertical direction (chooseing for use spring 53 of great elastic coefficient, in order to strengthen the pressure strip 55 to fixed plate 43's compressing tightly effect), thereby make connecting cover 4 firm the installation on apron 31.

As shown in fig. 1 and 6, a return assembly 6 for returning the pressure plate 55 is mounted on the first vertical plate 21 of the bulkhead 2. The reset assembly 6 comprises a first rotating rod 61, a fixed block 62, a square frame 63, a fixed rod 64 and a holding rod 65. The first rotation lever 61 is a round bar, is rotatably attached to the first vertical plate 21, and has an axial direction of the first rotation lever 61 aligned with the width direction (l 2) of the bulkhead 2. The vertical cross section of fixed block 62 is regular hexagon, and its fixed cover is established on first rotation pole 61 outer wall. The vertical cross section of the square frame 63 is in the shape of a square ring and is fixed to one of the side walls of the fixing block 62. The fixing rod 64 is a round rod, one end of which is fixed to the pressing plate 55, and the other end of which is attached to the inner side wall of the square frame 63. Holding rod 65 is round bar-shaped, its one end and fixed block 62 threaded connection, and all set up on a plurality of lateral walls of fixed block 62 can with holding rod 65 threaded connection's internal thread 621, so that the staff installs and dismantles holding rod 65, the staff of being convenient for simultaneously installs holding rod 65 on the different positions of fixed block 62, both be favorable to the staff to operate fixed block 62 on apron 31, be favorable to the staff again at subaerial operation fixed block 62, so as to install and dismantle connection lid 4. The distance between the holding rod 65 and the first rotating rod 61 is greater than the distance between the first rotating rod 61 and the fixing rod 64, and the working personnel can operate the longer holding rod 65 to rotate the fixing block 62 and the first rotating rod 61, so that a good labor-saving effect can be achieved, and the pressing plate 55 can be stirred by the small labor consumed by the working personnel.

As shown in fig. 1 and 6, the fixing member 7 is further mounted on the first vertical plate 21 of the bulkhead 2. The fixing assembly 7 includes a second rotating lever 71 and a latch 72. The second rotating lever 71 is a round bar and is rotatably mounted on the first vertical plate 21. The fixture block 72 is a square block, one side wall of the fixture block 72 is fixed to one end of the second rotating rod 71 away from the first vertical plate 21, and a slot 721 is formed in the fixture block 72. Four inside walls of draw-in groove 721 are laminated with four lateral walls of fixed block 62 respectively mutually to make fixture block 72 joint on fixed block 62, thereby be convenient for the staff uses fixed subassembly 7 to fix fixed block 62.

The principle of the embodiment is that when the top cover 3 is installed, a worker only needs to clamp the first mounting groove 331 of the first connecting plate 33 on the first vertical plate 21 and clamp the second mounting groove 341 of the second connecting plate 34 on the second vertical plate 22, then the worker needs to align the connecting cover 4 with the two L-shaped plate bodies 32, at this time, the opening of the connecting cover 4 faces downward, so that the inner side walls at the two ends of the connecting cover 4 are respectively attached to the side walls at the two sides of the L-shaped plate body, and the inner side walls at the two sides of the connecting cover 4 are respectively attached to the side walls of the two L-shaped plate bodies 32, after the connecting cover 4 is aligned with the two L-shaped plate bodies 32, the worker only needs to press the connecting cover 4 downward, so that the lower surface of the connecting cover 4 is abutted against the inclined surface of the pressing plate 55 and continues to press, and then, under the action of elasticity, the lower surface of the pressing plate 55 is abutted against the upper surface of the rotating rod 43, so as to fix the connecting cover 4, and when the worker removes the connecting cover 4, the second fixing block 71 is rotated, so that the fixing rod 65 is removed, and the fixing rod 64 is pulled to facilitate the fixing rod 64 to be removed.

According to the scheme, the connecting covers 4 used for preventing water are jointly installed on the adjacent L-shaped plate bodies 32 to prevent rainwater from flowing into the equipment compartment from gaps between the adjacent L-shaped plate bodies 32, a good waterproof effect is achieved, the abutting assemblies 5 on the cover plates 31 abut against the fixing plates 43 on the side walls of the connecting covers 4, so that the connecting covers 4 can be firmly installed on the adjacent L-shaped plate bodies 32, the abutting assemblies 5 and the cover plates 31 can be detached, workers can conveniently install and detach the connecting covers 4 and the cover plates 31, the top covers 3 are convenient to install and detach, and the large-scale equipment can be conveniently installed in the equipment compartment by the workers.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (8)

1. The utility model provides a cabin body structure in integration secondary equipment cabin, includes base (1), fixes bulkhead (2) on base (1) and a plurality of top cap (3) of installing on bulkhead (2), bulkhead (2) articulate has hatch door (23), the cross section of top cap (3) is the C shape, and top cap (3) set gradually along the length direction (l 1) of bulkhead (2), its characterized in that, top cap (3) are including demountable installation apron (31) at bulkhead (2) upper surface and fix L shape plate body (32) in apron (31) both sides, and are adjacent install jointly on L shape plate body (32) and be used for waterproof connecting cover (4), the cross section of connecting cover (4) is the U-shaped, the opening of connecting cover (4) is down and both ends are sealed, be fixed with fixed plate (43) on the lateral wall that connecting cover (4) are close to its lower surface, demountable installation has on apron (31) and supports tight subassembly (5) with fixed plate (43) and offset tightly.

2. The integrated secondary equipment compartment structure of claim 1, wherein: the abutting assembly (5) comprises a cylindrical shell (51) fixed on the upper surface of the cover plate (31), a sliding plate (52) installed in the cylindrical shell (51) and connected with the cylindrical shell in a sliding mode, a spring (53) fixed between the sliding plate (52) and the end portion of the cylindrical shell (51), a connecting rod (54) fixed on one side, far away from the spring (53), of the sliding plate (52) and a pressing plate (55) fixed on one end, far away from the sliding plate (52), of the connecting rod (54), and the lower surface of the pressing plate (55) is abutted to the upper surface of the fixing plate (43).

3. The integrated secondary equipment compartment structure of claim 2, wherein: the cross section of the pressing plate (55) is in a right trapezoid shape, the inclined surface of the pressing plate (55) is located on one side, away from the connecting rod (54), of the pressing plate (55), and the area of the upper surface of the pressing plate (55) is smaller than that of the lower surface of the pressing plate.

4. The integrated secondary equipment compartment structure of claim 2, wherein: two symmetrically arranged sliding blocks (521) are fixed on the side wall of the sliding plate (52), and a sliding groove (511) matched with the sliding blocks (521) in a sliding manner is formed in the inner wall of the cylindrical shell (51).

5. The integrated secondary equipment compartment structure of claim 2, wherein: install on bulkhead (2) and be used for reset subassembly (6) that pressure strip (55) reset, reset subassembly (6) including rotate install first rotation pole (61) on bulkhead (2) lateral wall, fix fixed block (62) on first rotation pole (61) outer wall, install on fixed block (62) and rather than threaded connection's holding rod (65), fix square frame (63) on fixed block (62) lateral wall and fix dead lever (64) on pressure strip (55), dead lever (64) outer wall is laminated with square frame (63) inner wall mutually, just the distance between holding rod (65) and first rotation pole (61) is greater than the distance between first rotation pole (61) and dead lever (64).

6. The integrated secondary equipment compartment body structure according to claim 5, wherein: the cross section of fixed block (62) is regular hexagon, just all seted up on a plurality of lateral walls of fixed block (62) can with holding rod (65) threaded connection's internal thread (621).

7. The integrated secondary equipment compartment body structure according to claim 5, wherein: still install fixed subassembly (7) on bulkhead (2) lateral wall, fixed subassembly (7) are including rotating second dwang (71) of installing on bulkhead (2) lateral wall and fixing fixture block (72) of keeping away from bulkhead (2) lateral wall one end at second dwang (71), seted up on fixture block (72) can with fixed block (62) joint complex draw-in groove (721).

8. The integrated secondary equipment compartment structure of claim 1, wherein: the bulkhead (2) comprises two first vertical plates (21) which are symmetrically arranged and two second vertical plates (22) which are fixed on the first vertical plates (21), the two first vertical plates (21) and the two second vertical plates (22) enclose a rectangular frame structure, two first connecting plates (33) which are symmetrically arranged and a second connecting plate (34) are fixed on the lower surface of each cover plate (31), the first connecting plates (33) are arranged along the length direction (l 1) of the bulkhead (2), and first mounting grooves (331) which can be in clamping fit with the first vertical plates (21) are formed in the lower surface of each first connecting plate (33); second connecting plate (34) set up along width direction (l 2) of bulkhead (2), its both ends respectively with two first connecting plate (33) are fixed, just second connecting plate (34) lower surface is seted up can with second riser (22) joint complex second mounting groove (341), second mounting groove (341) and first mounting groove (331) intercommunication.

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