CN218970430U - Supporting structure of assembled house - Google Patents

Abstract

The application relates to a bearing structure of assembled house, it includes first wallboard, first wallboard installs the second wallboard mutually perpendicular with first wallboard along one side of horizontal direction, the roof is installed to the upper end of first wallboard and second wallboard, the bottom plate is installed to the lower extreme of first wallboard and second wallboard, still include the buffer post that sets up along vertical direction, buffer post surface and first wallboard and second wallboard looks butt, buffer post upper end and roof can be dismantled and be connected, the lower extreme can be dismantled with the bottom plate and be connected, be equipped with a plurality of spliced poles one on the buffer post, one end that the spliced pole was deviate from the buffer post links to each other with the roof lower surface, be equipped with a plurality of spliced poles two on the buffer post, the one end that the spliced pole was deviate from the buffer post links to each other with the bottom plate upper surface. The application has the effect of improving the support stability and the service life of the fabricated building.

Description

Supporting structure of assembled house

Technical Field

The application relates to the field of integrated houses, in particular to a supporting structure of an assembled house.

Background

Because the prefabricated house is convenient for transportation and reuse, the prefabricated house is widely applied to the aspects of temporary houses, offices, medical treatment and the like at present, and in the use process, in order to make the prefabricated house more durable, a supporting structure of the prefabricated house is indispensable.

The related art can refer to Chinese patent publication No. CN210917743U to disclose an assembled mobile house, which comprises a roof board, a bottom board and basic wallboards, wherein the roof board and the bottom board are standardized large boards with the same size, the basic wallboards comprise window body modules, door body modules and common wall body modules, the three modules are standardized small boards with the same length and width dimensions, each basic wallboard is formed by splicing a plurality of standardized small boards, and the upper edge of each basic wallboard is in threaded connection with one side edge of the roof board through a basic angle steel; the lower edge of each foundation wallboard is also in threaded connection with one side of the bottom plate through a foundation angle steel.

Aiming at the related technology, the foundation wallboard, the roof board and the bottom plate are all connected through foundation angle steel screw connection, and the connection strength is lower. In long-term use, in the face of severe weather such as strong wind, the structural stability of assembled mobile house is difficult to guarantee, and the supporting stability is relatively poor.

Disclosure of Invention

In order to improve the support stability and the service life of the prefabricated house, the application provides a support structure of the prefabricated house.

The application provides a supporting structure of assembled house adopts following technical scheme:

the utility model provides a bearing structure of assembled house, includes first wallboard, first wallboard along one side of horizontal direction install with first wallboard looks vertically second wallboard, the roof is installed to the upper end of first wallboard and second wallboard, and the bottom plate is installed to the lower extreme of first wallboard and second wallboard, still includes the buffer post that sets up along vertical direction, buffer post surface and first wallboard and second wallboard looks butt, buffer post upper end can be dismantled with the roof and be connected, and the lower extreme can be dismantled with the bottom plate and be connected, be equipped with a plurality of spliced poles one on the buffer post, one end that the spliced pole was deviate from the buffer post links to each other with the roof lower surface, be equipped with a plurality of spliced poles two on the buffer post, one end that the spliced pole two deviate from the buffer post links to each other with the bottom plate upper surface.

Through adopting above-mentioned technical scheme, at the in-process of assembling assembled house, be connected first wallboard and second wallboard, then install the bottom plate in the lower extreme of first wallboard, install the upper end at the second wallboard with the roof. And then the buffer column is connected with the top plate and the bottom plate along the connecting position of the first wallboard and the second wallboard, a plurality of first connecting columns at the upper end are installed on the top plate, and a plurality of second connecting columns at the lower end are installed on the bottom plate. The top plate, the first wallboard, the second wallboard and the bottom plate are further connected and reinforced through the buffer column, the first connecting columns and the second connecting columns. When the assembled house is impacted by external force, the assembled house is supported by the buffer rod, the first connecting column and the second connecting column, and partial external force borne by the assembled house is dispersed, so that the supporting stability and the service life of the assembled house are improved.

Optionally, the both ends of spliced pole one all rotate and are connected with pivot one, spliced pole one is connected with roof and buffer column rotation respectively through pivot one.

By adopting the technical scheme, when the roof is subjected to severe weather such as strong wind, the roof is impacted by external force, and the first connecting column is extruded. According to the stress degree, the first connecting column rotates on the first rotating shaft, so that partial external force borne by the top plate is dispersed, the top plate is prevented from moving, and the deformation of the top plate is reduced.

Optionally, the both ends of spliced pole two all rotate and are connected with pivot two, spliced pole two pass through pivot two and rotate with bottom plate and buffer column respectively and be connected.

Through adopting above-mentioned technical scheme, when facing severe weather such as strong wind, assembled house receives external force impact, extrudees the buffer column and then extrudees spliced pole two. According to the stress degree, the second connecting column rotates on the second rotating shaft, so that partial external force borne by the upper part and the periphery is dispersed, and the deformation degree of the assembled house is reduced.

Optionally, the buffer post includes movable rod and dead lever, pivot one and pivot two all link to each other with the movable rod is fixed, the spout has been seted up in the movable rod, dead lever and spout inner wall sliding connection, the dead lever surface cover is equipped with buffer spring, buffer spring one end and dead lever deviate from the fixed continuous of tip of movable rod, and the other end links to each other with the movable rod is fixed.

Through adopting above-mentioned technical scheme, when assembled house receives the external force of top, external force extrusion movable rod for the movable rod moves extrusion buffer spring along vertical direction, and the position of dead lever at the spout inner wall also changes thereupon simultaneously. The buffer spring is extruded to provide a reverse buffer force, so that the movable rod and the fixed rod can provide the buffer force to the external force for the prefabricated house when the supporting effect is maintained, and the supporting stability of the prefabricated house is improved.

Optionally, the tip of movable rod is fixed with the stopper, stopper and dead lever sliding connection, the tip of dead lever is fixed with the slider, slider and spout inner wall sliding connection and with stopper swing joint.

Through adopting above-mentioned technical scheme, at the in-process of movable rod motion, the slider slides at the spout inner wall, through the butt on stopper and dead lever surface for in the slider slip can not go out the spout, thereby make the motion of movable rod more stable, promote the supporting stability to assembled house.

Optionally, the tip that movable rod and dead lever deviate from mutually is fixed with connecting plate one and connecting plate two respectively, connecting plate one and connecting plate two are connected with roof and bottom plate respectively through the bolt, pivot one and pivot are fixed respectively at connecting plate one and connecting plate two surfaces.

Through adopting above-mentioned technical scheme, after assembled room, operating personnel screw in connecting plate one and roof, connecting plate two and bottom plate respectively in to install movable rod and fixed rod's part in assembled room, easy operation is convenient. Meanwhile, when the first connecting plate, the movable rod, the fixed rod and the second connecting plate which are seriously worn are detached by operators, the first connecting plate, the movable rod, the fixed rod and the second connecting plate can be replaced, so that long-term stable support of the assembled house is realized, and the service life of the assembled house is prolonged.

Optionally, a plurality of buffer holes I are formed in the surface of the connecting column at equal intervals.

Through adopting above-mentioned technical scheme, when spliced pole atress, through a plurality of buffer holes one of extrusion for buffer hole one warp, thereby provides certain buffer force, has improved the supporting stability to assembled house.

Optionally, a plurality of buffer holes II are formed in the surface of the connecting column II at equal intervals.

Through adopting above-mentioned technical scheme, when spliced pole two atress, through a plurality of buffer holes two of extrusion for buffer hole two warp, thereby provide certain buffer force, improved the supporting stability to assembled house.

In summary, the present application includes at least one of the following beneficial technical effects:

1. through the arrangement of the buffer spring, when the assembled house is subjected to the external force above, the movable rod is extruded by the external force, and moves along the vertical direction to extrude the buffer spring, and the buffer spring is extruded to provide a reverse buffer force, so that the movable rod and the fixed rod can provide the buffer force for the external force when the supporting effect is kept, and the supporting stability of the assembled house is improved;

2. through the arrangement of the buffer holes I, when the connecting column I is stressed, the buffer holes I and the buffer holes I are extruded to deform, so that a certain buffer force is provided, and the supporting stability of the assembled house is improved;

3. through the setting of buffer hole two for when spliced pole two atress, through a plurality of buffer holes two, buffer hole two deformation of extrusion, thereby provide certain buffer force, improved the supporting stability to assembled house.

Drawings

Fig. 1 is a schematic view of the overall structure of a support structure of a fabricated building.

Fig. 2 is a schematic view showing the structure of the protruding connecting column one and the connecting column two.

Fig. 3 is a schematic view showing the structure of the protruding movable rod and the fixed rod.

Reference numerals illustrate: 1. a first wallboard; 11. a second wallboard; 12. a top plate; 13. a bottom plate; 2. a buffer column; 21. a movable rod; 211. a chute; 212. a limiting block; 22. a fixed rod; 221. a buffer spring; 222. a slide block; 31. a first connecting column; 311. a first rotating shaft; 312. buffering a first hole; 32. a second connecting column; 321. a second rotating shaft; 322. buffering a second hole; 33. a first connecting plate; 34. a second connecting plate; 35. and (5) a bolt.

Detailed Description

The present application is described in further detail below with reference to the accompanying drawings.

The embodiment of the application discloses a supporting structure of an assembled house.

Referring to fig. 1 and 2, a supporting structure of an assembled house includes a first wall plate 1 and a buffer column 2 disposed along a vertical direction, a second wall plate 11 perpendicular to the first wall plate 1 is installed at one side of the first wall plate 1 along a horizontal direction, a top plate 12 is installed at upper ends of the first wall plate 1 and the second wall plate 11, and a bottom plate 13 is installed at lower ends of the first wall plate 1 and the second wall plate 11. And after the assembly type house is installed, a basic structure of the assembly type house is formed for operators to use. The outer surface of the buffer column 2 is fixedly connected with the first wallboard 1 and the second wallboard 11, the upper end of the buffer column 2 is detachably connected with the top plate 12, and the lower end of the buffer column is detachably connected with the bottom plate 13. The buffer column 2 connects the top plate 12 with the bottom plate 13, and is abutted against the first wallboard 1 and the second wallboard 11, so that the prefabricated house is further connected and reinforced, and the supporting stability of the prefabricated house is improved.

Referring to fig. 2 and 3, a first connection plate 33 is fixed to the top end of the buffer rod, and the first connection plate 33 is connected to the top plate 12 by a bolt 35. The first connecting plate 33 is used for installing the buffer post 2 under the top plate 12 through the bolts 35, so that the buffer post 2 is more stably assembled and has stronger supporting effect on the assembled house. Meanwhile, the buffer column 2 with high abrasion is convenient to detach and replace, and the service life of the assembled house is prolonged.

Referring to fig. 2 and 3, a plurality of first connecting posts 31 are provided on the buffer post 2, two ends of the first connecting posts 31 are rotatably connected with first rotating shafts 311, and the first connecting posts 31 are rotatably connected with first connecting plates 33 and the buffer post 2 through the first rotating shafts 311. The first connecting column 31 reinforces the connection between the top plate 12 and the buffer column 2, and the supporting stability of the fabricated building is improved through the formed triangular structure. The first rotating shaft 311 enables the first connecting column 31 to move movably, and when the top plate 12, the first wall plate 1 and the second wall plate 11 bear external force, the first connecting column 31 rotates along with the angle of the first rotating shaft 311, so that the external force is dispersed, and the deformation degree of the assembled house is reduced. A plurality of buffer holes 312 are formed on the surface of the first connecting column 31 at equal intervals. The buffer hole I312 is extruded and deformed in the stress process of the connecting column I31, so that the external force is dispersed, a certain buffer force is provided, and the supporting stability of the assembled house is improved.

Referring to fig. 2 and 3, the buffer column 2 includes a movable rod 21 and a fixed rod 22, a first rotating shaft 311 is fixedly connected with the movable rod 21, a sliding groove 211 is formed in the movable rod 21, the fixed rod 22 is slidably connected with the inner wall of the sliding groove 211, a buffer spring 221 is sleeved on the outer surface of the fixed rod 22, one end of the buffer spring 221 is fixedly connected with the end portion, deviating from the movable rod 21, of the fixed rod 22, and the other end of the buffer spring 221 is fixedly connected with the movable rod 21. The fixed lever 22 serves as a fixed portion of the support structure, and supports the movable lever 21. When the movable rod 21 plays a supporting role and an external force from the upper part impacts the top plate 12, the movable rod 21 is stressed to slide on the fixed rod 22 to partially absorb the force received by the top plate 12, so that the damage degree of the top plate 12 is reduced, and the service life of the assembled house is prolonged. The buffer spring 221 is pressed by the movement of the movable rod 21 to provide a reverse elastic force, thereby providing a certain buffer effect to the top plate 12. The end of the movable rod 21 is fixed with a limiting block 212, the limiting block 212 is in sliding connection with the fixed rod 22, the end of the fixed rod 22 is fixed with a sliding block 222, and the sliding block 222 is in sliding connection with the inner wall of the sliding groove 211 and is in movable connection with the limiting block 212. The sliding groove 211 provides a movement space for the movable bar 21 to slide on the fixed bar 22. When the sliding block 222 abuts against the limiting block 212, the sliding block is the maximum distance for the movable rod 21 to move, so that the movable rod 21 is prevented from being separated from the fixed rod 22 without supporting.

Referring to fig. 2 and 3, a plurality of second connecting posts 32 are provided on the buffer post 2, two ends of the second connecting posts 32 are rotatably connected with a second rotating shaft 321, a second connecting plate 34 is fixed on top of the bottom end of the fixing rod 22, and the second connecting plate 34 is connected with the bottom plate 13 through bolts 35. The second connecting post 32 is rotatably connected with the second connecting plate 34 and the fixed rod 22 through the second rotating shaft 321. The second connecting column 32 reinforces the connection between the bottom plate 13 and the movable rod 21, and the supporting stability of the assembled house is improved through the formed triangle structure. The second rotating shaft 321 enables the second connecting post 32 to movably move, and in the moving process of the movable rod 21 in a short distance, the second connecting post 32 rotates along with the angle of the second rotating shaft 321, so that external force is dispersed, and the deformation degree of the assembled house is reduced. The second connecting plate 34 enables the fixing rod 22 to be installed on the bottom plate 13 through the bolts 35, so that the fixing rod 22 is more stable to assemble and has stronger supporting effect on the assembled house. A plurality of buffer holes II 322 are formed on the surface of the connecting post II 32 at equal intervals. The buffer hole II 322 is extruded and deformed in the stress process of the connecting column II 32, so that the external force is dispersed, a certain buffer force is provided, and the supporting stability of the assembled house is improved.

The implementation principle of the supporting structure of the assembled house in the embodiment of the application is as follows: first the operator connects and connects the first wall panel 1 and the second wall panel 11 to the bottom panel 13 and then installs the top panel 12 above. The fixed rod 22 and the movable rod 21 are installed at the junction of the first wall plate 1 and the second wall plate 11 by screwing the bolt 35 into the first connection plate 33 and the top plate 12, and the second connection plate 34 and the bottom plate 13. When the assembled house is impacted by external force in severe weather such as strong wind, the first connecting column 31 is forced to rotate on the first rotating shaft 311 to disperse partial force, and the movable rod 21 is pressed to slide on the fixed rod 22, and the buffer spring 221 and the second connecting column 32 are pressed. The assembled house is supported and reinforced by the reverse acting force generated by the deformation of the buffer spring 221 and the buffer force provided by the deformation of the buffer hole I312 and the buffer hole II 322, so that the erosion of the external force is reduced.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (8)

1. The utility model provides a bearing structure of assembled house, includes first wallboard (1), first wallboard (1) install along one side of horizontal direction with first wallboard (1) looks vertically second wallboard (11), roof (12) are installed to the upper end of first wallboard (1) and second wallboard (11), bottom plate (13) are installed to the lower extreme of first wallboard (1) and second wallboard (11), its characterized in that: still include buffering post (2) along vertical direction setting, buffering post (2) surface and first wallboard (1) and second wallboard (11) looks butt, buffering post (2) upper end can be dismantled with roof (12) and be connected, and the lower extreme can be dismantled with bottom plate (13) and be connected, be equipped with a plurality of spliced poles one (31) on buffering post (2), one end that spliced pole one (31) deviate from buffering post (2) links to each other with roof (12) lower surface, be equipped with a plurality of spliced poles two (32) on buffering post (2), one end that spliced pole two (32) deviate from buffering post (2) links to each other with bottom plate (13) upper surface.

2. A support structure for a fabricated building as claimed in claim 1, wherein: the two ends of the first connecting column (31) are rotatably connected with a first rotating shaft (311), and the first connecting column (31) is rotatably connected with the top plate (12) and the buffer column (2) through the first rotating shaft (311) respectively.

3. A support structure for a fabricated building as claimed in claim 1, wherein: the two ends of the second connecting column (32) are rotatably connected with a second rotating shaft (321), and the second connecting column (32) is rotatably connected with the bottom plate (13) and the buffer column (2) through the second rotating shaft (321) respectively.

4. A support structure for a fabricated building as claimed in claim 2, wherein: the buffer column (2) comprises a movable rod (21) and a fixed rod (22), a first rotating shaft (311) and a second rotating shaft (321) are fixedly connected with the movable rod (21), a sliding groove (211) is formed in the movable rod (21), the fixed rod (22) is slidably connected with the inner wall of the sliding groove (211), a buffer spring (221) is sleeved on the outer surface of the fixed rod (22), one end of the buffer spring (221) is fixedly connected with the end portion, deviating from the movable rod (21), of the fixed rod (22), and the other end of the buffer spring is fixedly connected with the movable rod (21).

5. The fabricated building support structure according to claim 4, wherein: the end part of the movable rod (21) is fixedly provided with a limiting block (212), the limiting block (212) is in sliding connection with the fixed rod (22), the end part of the fixed rod (22) is fixedly provided with a sliding block (222), and the sliding block (222) is in sliding connection with the inner wall of the sliding groove (211) and is movably connected with the limiting block (212).

6. The fabricated building support structure according to claim 4, wherein: the movable rod (21) and the fixed rod (22) are respectively fixed with a first connecting plate (33) and a second connecting plate (34) at the end parts, which are away from each other, of the movable rod, the first connecting plate (33) and the second connecting plate (34) are respectively connected with the top plate (12) and the bottom plate (13) through bolts (35), and the first rotating shaft (311) and the second rotating shaft (321) are respectively fixed on the surfaces of the first connecting plate (33) and the second connecting plate (34).

7. A support structure for a fabricated building as claimed in claim 1, wherein: a plurality of buffer holes I (312) are formed in the surface of the connecting column I (31) at equal intervals.

8. A support structure for a fabricated building as claimed in claim 1, wherein: a plurality of buffer holes II (322) are formed in the surface of the connecting column II (32) at equal intervals.

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