CN113738148B - Reinforced structure is used to ready-package house antidetonation - Google Patents

Abstract

The invention discloses a reinforced structure for seismic resistance of a ready-package house, relates to the field of ready-package houses, and aims to solve the problems that the ready-package house cannot have enough seismic capacity and is poor in safety in long-term use in the prior art. Dampproofing base is all installed to the below in first ready-package house and second ready-package house, the internally mounted of dampproofing base has the base strengthening rib, just the both sides in first ready-package house and second ready-package house all are provided with the spacing draw-in groove of first board house, just the preceding terminal surface and the rear end face in first ready-package house and second ready-package house all are provided with the spacing draw-in groove of second board house, the inside in the spacing draw-in groove of second board house all installs the reinforcement connecting plate, the antidetonation reinforcing frame is installed to the below of reinforcement connecting plate, reinforcing frame PMKD is installed to the below of antidetonation reinforcing frame, install the reinforcement pneumatic cylinder between reinforcing frame PMKD and the reinforcement connecting plate.

Description

Reinforced structure is used to ready-package house antidetonation

Technical Field

The invention relates to the technical field of fast-assembled houses, in particular to a reinforced structure for earthquake resistance of a fast-assembled house.

Background

In recent years, the fast-assembly house is applied to various construction sites, construction sites and the like, and is made of color steel insulation boards and light steel frameworks. The combined house is characterized in that a framework is firstly built, and then a heat-preservation color steel plate is attached; if multi-layered, they are stacked like containers. The ready-package house is widely applied to the fields of construction sites, field construction, temporary houses and the like due to the advantages of being relatively light, fast to install, short in construction time and the like, in the structure of the existing prefabricated house, a house frame is mainly made of steel sections such as channel steel, I-steel and square tubes, the weight is large, all the parts are connected in a welding mode, the stability of the structure is guaranteed, the prefabricated house is an environment-friendly economical movable house which takes light steel as a framework, takes sandwich plates as enclosure materials, performs space combination by standard modulus series, and adopts bolt connection as components.

The fast-assembled house can be assembled and disassembled conveniently and quickly, universal standardization of temporary buildings is realized, environment-friendly, energy-saving and fast and efficient building concepts are established, and the temporary house enters the field of a set product which is developed in series, produced in an integrated mode, supplied in a matched mode, stockable and reusable for many times. Generally, the device is suitable for outdoor use. However, in long-term use, the fast-assembled house cannot have enough shock resistance, and the safety is poor; therefore, the market urgently needs to develop a fast-assembling type house earthquake-resistant reinforcing structure to help people solve the existing problems.

Disclosure of Invention

The invention aims to provide a reinforcement structure for earthquake resistance of a ready-package house, which aims to solve the problems that the ready-package house cannot have enough earthquake resistance and is poor in safety in long-term use proposed in the background art.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a reinforced structure for fast-assembling house antidetonation, includes first fast-assembling house and second fast-assembling house, dampproofing base is all installed to the below in first fast-assembling house and second fast-assembling house, the internally mounted of dampproofing base has the base strengthening rib, just the both sides in first fast-assembling house and second fast-assembling house all are provided with the spacing draw-in groove of first board house, just the preceding terminal surface and the rear end face in first fast-assembling house and second fast-assembling house all are provided with the spacing draw-in groove of second board house, the reinforcement connecting plate is all installed to the inside of the spacing draw-in groove of second board house, the antidetonation frame is installed to the below of reinforcement connecting plate, reinforcement frame PMKD is installed to the below of antidetonation reinforcement frame, install the reinforcement pneumatic cylinder between reinforcement frame PMKD and the reinforcement connecting plate, the reinforcement shock attenuation board is installed to the one end of reinforcement connecting plate, the interior reinforcement shock attenuation board is installed with first fast-assembling house and second fast-assembling house and is connected the spring house lower extreme of second board, the second lift plate house and second lift plate base are installed and the second lift plate spring mounting plate.

Preferably, the weather shield is all installed to the up end in first ready-package house and second ready-package house, dampproofing base and first ready-package house and second ready-package house welded connection, the base strengthening rib is provided with a plurality of, a plurality of the base strengthening rib all with dampproofing base welded connection.

Preferably, the both sides in first ready-package house and second ready-package house all are provided with the vent with the front and back terminal surface, the externally mounted of vent has the house window, the externally mounted of house window has windproof movable plate, the board room door plant is all installed to the preceding terminal surface in first ready-package house and second ready-package house, the inside in first ready-package house and second ready-package house all is provided with the house inner chamber.

Preferably, a bearing foot seat is installed below the front end face of the board room door board, a stair tread is installed inside the bearing foot seat, and the bearing foot seat is connected with the damp-proof base in a welded mode.

Preferably, antidetonation reinforcement frame and reinforcement connecting plate welded connection, the reinforcement connecting plate runs through inside and the first ready-package house block of the spacing draw-in groove of first board house, interior reinforcement shock attenuation board and reinforcement connecting plate welded connection, the both ends of consolidating the pneumatic cylinder respectively with reinforcement connecting plate and reinforcement frame PMKD fixed connection.

Preferably, house corner reinforcing plates are all installed to the both sides in first ready-package house and second ready-package house, just the surface in first ready-package house and second ready-package house all is provided with board house assembly spacing groove, be provided with the outer opening of board house in the middle of the inside in board house assembly spacing groove, just the internally mounted of board house assembly spacing groove has the board house to consolidate the location cardboard, board house consolidates location cardboard embedding board house assembly spacing inslot portion and first ready-package house block.

Preferably, fixed iron plate is all installed to the lower extreme in first ready-package house and second ready-package house, smooth rod has all been installed at the both ends of fixed iron plate, smooth rod respectively with fixed iron plate and interior reinforcement shock attenuation board welded connection, smooth rod's externally mounted has the slip lantern ring, slip lantern ring and smooth rod sliding connection, install a pressure damping spring between slip lantern ring and the fixed iron plate, the both ends of shock attenuation telescoping cylinder all through the engaging lug respectively with the slip lantern ring with interior reinforcement shock attenuation board swing joint.

Preferably, the fixed slot is all installed to the lower terminal surface that the lifter plate is connected to the up end of board house connecting plate base and board house, the lifter plate sliding connection is connected with board house connecting plate base and board house respectively through the fixed slot at the both ends of first movable rod and second movable rod, electronic jar is installed to the rear end of first movable rod, electronic jar both ends all through the engaging lug respectively with first movable rod and board house connecting plate base swing joint, first movable rod passes through the connecting axle rotation with the second movable rod and is connected.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, through the arrangement of the reinforcing connecting plate, when the fast-assembly house is used for a long time, the front end surface and the rear end surface of the first fast-assembly house and the second fast-assembly house can be limited and supported by the anti-seismic reinforcing frame and the reinforcing connecting plate, the reinforcing hydraulic cylinder at the lower end of the reinforcing connecting plate can be used for supporting the anti-seismic reinforcing frame integrally, so that the anti-seismic reinforcing frame is kept stable, the stability of the outer sides of the first fast-assembly house and the second fast-assembly house is improved by matching the inner reinforcing damping plate with the reinforcing connecting plate, the inner side of the inner reinforcing damping plate is stabilized with the inner walls of the first fast-assembly house and the second fast-assembly house through the damping cushion blocks, so that the sliding lantern ring can be pushed by the damping telescopic cylinder at the outer side of the inner reinforcing damping plate when the first fast-assembly house and the second fast-assembly house are impacted by external force, the sliding lantern ring extrudes the first pressure damping spring, the vibration amplitude is reduced by the first pressure damping spring, the stability can be improved, the vibration is reduced, and the safety effect is improved.

2. According to the invention, through the arrangement of the plate house connecting lifting plate, when the quick-assembly house is used for a long time, two ends of the plate house connecting lifting plate can be embedded into the first plate house limiting clamping grooves outside the first quick-assembly house and the second quick-assembly house, the electric cylinder can extend to push the first movable rod to slide, so that the first movable rod and the second movable rod drive the plate house connecting lifting plate to lift, the integral stability of the first quick-assembly house and the second quick-assembly house is improved, the damping effect can be improved through the second pressure damping spring at two ends of the first movable rod, when the first quick-assembly house or the second quick-assembly house is impacted, the vibration amplitude is reduced through the second pressure damping spring, and then the impact strength is buffered through the electric cylinder to further improve the stabilizing effect.

Drawings

FIG. 1 is an overall schematic view of the present invention;

fig. 2 is an internal structural view of a first ready-package house of the present invention;

FIG. 3 is a partial enlarged view of region A of the present invention;

FIG. 4 is a side view schematic of the first ready-to-assemble housing of the present invention;

fig. 5 is a partial structural view of a first ready-package house of the present invention.

In the figure: 1. a first ready-to-install house; 2. a second ready-to-install house; 3. a rain shield; 4. a house window; 5. a board room door panel; 6. a moisture-proof base; 7. a house corner reinforcing plate; 8. a base reinforcing rib; 9. a load-bearing foot seat; 10. a stair tread; 11. a seismic strengthening frame; 12. reinforcing the connecting plate; 13. the reinforcing frame is used for fixing the bottom plate; 14. a windproof movable plate; 15. a vent; 16. a first board room limiting clamping groove; 17. a board house is reinforced and positioned by a clamping board; 18. a second board room limiting clamping groove; 19. reinforcing the hydraulic cylinder; 20. an inner cavity of a house; 21. an inner reinforcing and damping plate; 22. damping cushion blocks; 23. fixing the iron blocks; 24. a smooth rod; 25. a slip collar; 26. a first pressure damping spring; 27. a shock-absorbing telescopic cylinder; 28. the board house is connected with a lifting board; 29. a board house connecting board base; 30. fixing grooves; 31. a first movable bar; 32. a second pressure damping spring; 33. a second movable bar; 34. an electric cylinder; 35. a connecting shaft; 36. assembling a limiting groove on the board house; 37. the board house is opened.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-5, an embodiment of the present invention is shown: a reinforcing structure for the earthquake resistance of a fast-assembled house comprises a first fast-assembled house 1 and a second fast-assembled house 2, a damp-proof base 6 is arranged below the first fast-assembled house 1 and the second fast-assembled house 2, base reinforcing ribs 8 are arranged inside the damp-proof base 6, reinforcing connecting plates 12 are arranged inside the first fast-assembled house 1 and the second fast-assembled house 2, an earthquake-resistant reinforcing frame 11 is arranged below the reinforcing connecting plates 12, a reinforcing frame fixing bottom plate 13 is arranged below the earthquake-resistant reinforcing frame 11, a reinforcing hydraulic cylinder 19 is arranged between the reinforcing frame fixing bottom plate 13 and the reinforcing connecting plates 12, an inner reinforcing shock-absorbing plate 21 is arranged at one end of the reinforcing connecting plates 12, the inner reinforcing shock-absorbing plate 21, a second shock-absorbing plate lifting base block 27 and a second shock-absorbing plate lifting base 27 are arranged on one side of the first fast-assembled house 2, the inner side of the second fast-assembled house 2 is connected with the inner side of the second shock-absorbing plate 21 and the second shock-absorbing base 28, a second shock-absorbing plate 21 is connected with the inner lifting spring 28, and the second shock-absorbing base 21, when first ready-package house 1 or second ready-package house 2 received the impact, reduce the vibrations range through second pressure damping spring 32, rethread electric cylinder 34 promotes, and buffering impact strength can further improve stable effect.

Further, weather shield 3 is all installed to the up end in first ready-package house 1 and second ready-package house 2, dampproofing base 6 and first ready- package house 1 and 2 welded connection in second ready-package house, base strengthening rib 8 is provided with a plurality of, a plurality of base strengthening rib 8 all with 6 welded connection in dampproofing base, through dampproofing base 6 with the lifting in 2 positions in first ready-package house 1 and the second ready-package house, it receives the ground humidity influence to reduce first ready-package house 1 and second ready-package house 2.

Further, the both sides and the front and back terminal surface in first ready-package house 1 and second ready-package house 2 all are provided with vent 15, the externally mounted of vent 15 has house window 4, the externally mounted of house window 4 has prevent wind fly leaf 14, board room door plant 5 is all installed to the preceding terminal surface in first ready-package house 1 and second ready-package house 2, the inside in first ready-package house 1 and second ready-package house 2 all is provided with house inner chamber 20, through house window 4 and board room door plant 5 so that use of living.

Further, a bearing foot seat 9 is installed below the front end face of the board room door board 5, a stair tread 10 is installed inside the bearing foot seat 9, the bearing foot seat 9 is connected with the damp-proof base 6 in a welding mode, and the first fast-assembly house 1 and the second fast-assembly house 2 can conveniently enter and exit through the stair tread 10 and the bearing foot seat 9.

Further, antidetonation reinforcement frame 11 and reinforcement connecting plate 12 welded connection, reinforcement connecting plate 12 runs through the spacing draw-in groove 16 of first board house inside and 1 block in first ready-packaged house, internal reinforcement shock attenuation board 21 and reinforcement connecting plate 12 welded connection, the both ends of reinforcement hydraulic cylinder 19 respectively with reinforcement connecting plate 12 and reinforcement frame fixed baseplate 13 fixed connection, the reinforcement hydraulic cylinder 19 of reinforcement connecting plate 12 lower extreme can support to the whole frame 11 that adds that shakes, make antidetonation reinforcement frame 11 remain stable, and through the cooperation reinforcement connecting plate 12 of internal reinforcement shock attenuation board 21, promote the 2 outside stability in first ready-packaged house 1 and the second ready-packaged house.

Further, house corner reinforcing plate 7 is all installed to the both sides in first ready-package house 1 and second ready-package house 2, and the surface in first ready-package house 1 and second ready-package house 2 all is provided with board room assembly spacing groove 36, be provided with board room outer opening 37 in the middle of the inside of board room assembly spacing groove 36, and the internally mounted of board room assembly spacing groove 36 has board room reinforcement location cardboard 17, board room reinforcement location cardboard 17 imbeds board room assembly spacing groove 36 inside and first ready-package house 1 block, improve the intensity of first ready-package house 1 and second ready-package house 2 corner through house corner reinforcing plate 7.

Further, fixed iron blocks 23 are installed at the lower ends of the first fast-assembled house 1 and the second fast-assembled house 2, smooth rods 24 are installed at the two ends of the fixed iron blocks 23, the smooth rods 24 are respectively connected with the fixed iron blocks 23 and the inner reinforcing damping plate 21 in a welded mode, a sliding lantern ring 25 is installed outside the smooth rods 24, the sliding lantern ring 25 is connected with the smooth rods 24 in a sliding mode, a first pressure damping spring 26 is installed between the sliding lantern ring 25 and the fixed iron blocks 23, the two ends of the damping telescopic cylinder 27 are respectively connected with the sliding lantern ring 25 and the inner reinforcing damping plate 21 in a movable mode through connecting lugs, when the first fast-assembled house 1 and the second fast-assembled house 2 are impacted by external force, the damping telescopic cylinder 27 on the outer side of the inner reinforcing damping plate 21 can push the sliding lantern ring 25, the sliding lantern ring 25 can extrude the first pressure damping spring 26, the vibration amplitude is reduced through the first pressure damping spring 26, the stability can be improved, the vibration is reduced, and the safety effect is improved.

Further, the upper end face of the plate house connecting plate base 29 and the lower end face of the plate house connecting lifting plate 28 are both provided with fixing grooves 30, the two ends of the first movable rod 31 and the second movable rod 33 are respectively connected with the plate house connecting plate base 29 and the plate house connecting lifting plate 28 in a sliding mode through the fixing grooves 30, the rear end of the first movable rod 31 is provided with an electric cylinder 34, the two ends of the electric cylinder 34 are respectively connected with the first movable rod 31 and the plate house connecting plate base 29 in a movable mode through connecting lugs, the first movable rod 31 and the second movable rod 33 are connected in a rotating mode through a connecting shaft 35, the two ends of the plate house connecting lifting plate 28 are embedded into the first plate house limiting clamping grooves 16 outside the first fast-assembled house 1 and the second fast-assembled house 2, the electric cylinder 34 can stretch to push the first movable rod 31 to slide, the first movable rod 31 and the second movable rod 33 to drive the plate house connecting lifting plate 28 to lift, and the stability of the whole first fast-assembled house 1 and the second fast assembled house 2 is improved.

The working principle is as follows: during installation, the two ends of the board room connecting lifting plate 28 are embedded into the first board room limiting clamping groove 16 outside the first fast-assembly house 1 and the second fast-assembly house 2, the electric cylinder 34 can extend to push the first movable rod 31 to slide, so that the first movable rod 31 and the second movable rod 33 drive the board room connecting lifting plate 28 to lift, the integral stability of the first fast-assembly house 1 and the second fast-assembly house 2 is improved, the house corner reinforcing plate 7 is embedded into the board room assembling limiting groove 36, the house corner reinforcing plate 7 can be quickly disassembled and assembled, the damping effect can be improved through the second pressure damping springs 32 at the two ends of the first movable rod 31, when the first fast-assembly house 1 or the second fast-assembly house 2 is impacted, the vibration amplitude is reduced through the second pressure damping springs 32, the electric cylinder 34 pushes, the impact strength is buffered, and the stabilizing effect can be further improved, when the fast-assembled house is used for a long time, the front end surface and the rear end surface of the first fast-assembled house 1 and the second fast-assembled house 2 can be limited and supported by the anti-seismic reinforcing frame 11 and the reinforcing connecting plate 12, the reinforcing hydraulic cylinder 19 at the lower end of the reinforcing connecting plate 12 can support the anti-seismic reinforcing frame 11 integrally, so that the anti-seismic reinforcing frame 11 is kept stable, the stability of the outer sides of the first fast-assembled house 1 and the second fast-assembled house 2 is improved by the inner reinforcing damping plate 21 matching with the reinforcing connecting plate 12, the inner side of the inner reinforcing damping plate 21 is stabilized with the inner walls of the first fast-assembled house 1 and the second fast-assembled house 2 by the damping cushion block 22, so that the sliding lantern ring 25 can be pushed by the damping telescopic cylinder 27 at the outer side of the inner reinforcing damping plate 21 when the first fast-assembled house 1 and the second fast-assembled house 2 are impacted by external force, so that the sliding lantern ring 25 extrudes the first pressure damping spring 26, the vibration amplitude is reduced through the first pressure damping spring 26, so that the stability can be improved, the vibration is reduced, and the safety effect is improved.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (6)

1. The utility model provides a reinforced structure is used to ready-package house antidetonation, includes first ready-package house (1) and second ready-package house (2), its characterized in that: the damping device comprises a first quick-assembly house (1), a second quick-assembly house (2), a damp-proof base (6), base reinforcing ribs (8) and second plate room limiting clamping grooves (16), a reinforcing connecting plate (12) is installed in the first quick-assembly house (1) and the second quick-assembly house (2), an anti-seismic reinforcing frame (11) is installed below the reinforcing connecting plate (12), a reinforcing frame fixing base plate (13) is installed below the anti-seismic reinforcing frame (11), a reinforcing hydraulic cylinder (19) is installed between the reinforcing frame fixing base plate (13) and the reinforcing connecting plate (12), an inner reinforcing damping plate (21) is installed at one end of the reinforcing connecting plate (12), a reinforcing cushion block (13) is installed between the inner damping plate (21) and the first quick-assembly house (1), a second damping cylinder (27) is installed between the reinforcing connecting plate (2) and the second quick-assembly house (2), and a lifting cylinder (27) is arranged between the second quick-assembly house (2) and the second quick-assembly house (2), the house is connected the below of lifter plate (28) and is installed house connecting plate base (29), install first movable rod (31) and second movable rod (33) between house connecting plate base (29) and house connecting lifter plate (28), second pressure damping spring (32) are all installed to the upper end and the lower extreme of first movable rod (31), weather shield (3) are all installed to the up end in first ready-package house (1) and second ready-package house (2), dampproofing base (6) and first ready-package house (1) and second ready-package house (2) welded connection, base strengthening rib (8) are provided with a plurality of, a plurality of base strengthening rib (8) all with dampproofing base (6) welded connection, fixed iron plate (23) are all installed to the lower extreme in first ready-package house (1) and second ready-package house (2), smooth lantern ring (24) are installed respectively with light slide bar (24) and smooth base (24) to the both ends of fixed iron plate (23), smooth lantern ring (25) are installed with smooth lantern ring (24) to light slide bar (24) and second ready-package house (23) respectively, smooth lantern ring (25) and smooth lantern ring (25) are installed to smooth damping spring (24) and smooth lantern ring (25), and the two ends of the shock-absorbing telescopic cylinder (27) are respectively movably connected with the sliding lantern ring (25) and the inner reinforcing shock-absorbing plate (21) through connecting lugs.

2. The earthquake-resistant reinforced structure for the ready-package house according to claim 1, characterized in that: both sides and the front and back terminal surface in first ready-package house (1) and second ready-package house (2) all are provided with vent (15), the externally mounted of vent (15) has house window (4), the externally mounted of house window (4) has windproof fly leaf (14), board room door plant (5) is all installed to the preceding terminal surface in first ready-package house (1) and second ready-package house (2), the inside in first ready-package house (1) and second ready-package house (2) all is provided with house inner chamber (20).

3. The earthquake-resistant reinforced structure for the ready-package house according to claim 2, characterized in that: bearing foot stool (9) are installed to the below of terminal surface before board house door plant (5), the internally mounted of bearing foot stool (9) has stair tread (10), just bearing foot stool (9) and dampproofing base (6) welded connection.

4. The earthquake-resistant reinforced structure for the ready-package house according to claim 1, characterized in that: antidetonation reinforcement frame (11) and reinforcement connecting plate (12) welded connection, reinforcement connecting plate (12) run through the inside and first ready-package house (1) block of the spacing draw-in groove of first board house (16), interior reinforcement shock attenuation board (21) and reinforcement connecting plate (12) welded connection, the both ends of consolidating pneumatic cylinder (19) respectively with reinforcement connecting plate (12) and reinforcement frame PMKD (13) fixed connection.

5. The earthquake-resistant reinforced structure for the ready-package house according to claim 1, characterized in that: house corner reinforcing plate (7) are all installed to the both sides in first ready-package house (1) and second ready-package house (2), just the surface in first ready-package house (1) and second ready-package house (2) all is provided with board house assembly spacing groove (36), be provided with the outer opening of board house (37) in the middle of the inside of board house assembly spacing groove (36), just the internally mounted of board house assembly spacing groove (36) has board house reinforcement location cardboard (17), board house reinforcement location cardboard (17) imbeds inside board house assembly spacing groove (36) and first ready-package house (1) block.

6. The earthquake-resistant reinforced structure for the ready-package house according to claim 1, characterized in that: fixed slot (30) are all installed to the lower terminal surface that lifter plate (28) is connected to the up end of board house connecting plate base (29) and board house, lifter plate (28) sliding connection is connected with board house connecting plate base (29) and board house respectively through fixed slot (30) at the both ends of first movable rod (31) and second movable rod (33), electronic jar (34) are installed to the rear end of first movable rod (31), the both ends of electronic jar (34) all rotate with first movable rod (31) and board house connecting plate base (29) swing joint respectively through the engaging lug, first movable rod (31) rotate with second movable rod (33) through connecting axle (35) and are connected.

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