CN214123311U - Stress simulation device for building structure design - Google Patents
Stress simulation device for building structure design Download PDFInfo
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- CN214123311U CN214123311U CN202023193770.2U CN202023193770U CN214123311U CN 214123311 U CN214123311 U CN 214123311U CN 202023193770 U CN202023193770 U CN 202023193770U CN 214123311 U CN214123311 U CN 214123311U
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Abstract
The utility model discloses a atress analogue means for architectural structure design, include a supporting bench and place the board, a supporting bench's last fixed surface is connected with the sleeve pipe, sheathed tube inside joint has the pivot, the top fixedly connected with backup pad of pivot, the last fixed surface of backup pad is connected with the fixture block, a supporting bench upper surface's one end fixedly connected with bracing piece, the outside sliding connection of bracing piece has the sliding block. This atress analogue means for building structure design, through the setting of placing board, fixture block, sliding block, expansion plate and depression bar, the designer can be with the building model joint on the fixture block, through the height and the position of sliding block and expansion plate adjusting pressure pole, make the depression bar can place at the building model top, then to placing the balancing weight of placing different weight on the board to apply different pressure to the building model through the depression bar, can be convenient for the designer with the gravity test building structure's of difference the atress condition.
Description
Technical Field
The utility model relates to a building structure design analogue means technical field specifically is a stress analogue means for building structure design.
Background
The building is a general term of buildings and structures, the building in a narrow sense refers to a house, does not include structures, refers to a house which has a foundation, a wall, a roof, a door and a window, can shield wind and rain, and is used for people to live in, work, study, entertainment, store articles or carry out other activities, the building related professions refer to the building in the narrow sense, and the concept of the building which can best explain the study of the building related professions is old: "mix mud with water each new house each new house each new house each new house each new house each new house each new house each new.
The external force that the building received has two kinds, for great lateral force (horizontal wind-force or horizontal earthquake power), and vertical force is also very big at building structure bottom, when carrying out the building atress analysis, needs carry out the atress simulation test to the building to adopt minimum cost, construct the building that satisfies the demands.
SUMMERY OF THE UTILITY MODEL
Technical problem to be solved
Not enough to prior art, the utility model provides a stress simulation device for building structure design has solved the problem of proposing in the above-mentioned background art.
(II) technical scheme
In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: the utility model provides a atress analogue means for architectural structure design, includes the brace table and places the board, the last fixed surface of brace table is connected with the sleeve pipe, sheathed tube inside joint has the pivot, the top fixedly connected with backup pad of pivot, the last fixed surface of backup pad is connected with the fixture block, the one end fixedly connected with bracing piece of brace table upper surface, the outside sliding connection of bracing piece has the sliding block, the side fixedly connected with dead lever of sliding block, the inside sliding connection of dead lever has the expansion plate, the expansion plate is kept away from the one end fixedly connected with of dead lever place the board, the side of placing the board has seted up the spout, the inside sliding connection of spout has the slider, the lower fixed surface of slider is connected with the depression bar, the other end fixedly connected with ventilating board of brace table upper surface.
Optionally, one end of the lower surface of the supporting table, which is close to the supporting rod, is fixedly connected with a clamping frame, and a storage box is inserted into the clamping frame.
Optionally, a clamping hole is formed in the side face of the supporting rod, a clamping column is inserted into the side face of the sliding block, and the clamping column penetrates through one end of the sliding block and is inserted into the clamping hole.
Optionally, the upper surface of the fixing rod is in threaded connection with a positioning bolt, the upper surface of the expansion plate is provided with a plurality of threaded holes, and the positioning bolt is in threaded connection with the threaded holes.
Optionally, the sliding blocks are connected to two sides inside the sliding grooves in a sliding mode, the number of the sliding grooves is two, and the two sliding grooves are symmetrically arranged with the vertical central line of the placing plate as a symmetry axis.
Optionally, the number of the clamping blocks is several, and the several clamping blocks are fixedly connected to the upper surface of the supporting plate in a rectangular array.
(III) advantageous effects
The utility model provides a stress analogue means for architectural structure design possesses following beneficial effect:
1. this atress analogue means for building structure design, through the setting of placing board, fixture block, sliding block, expansion plate and depression bar, the designer can be with the building model joint on the fixture block, through the height and the position of sliding block and expansion plate adjusting pressure pole, make the depression bar can place at the building model top, then to placing the balancing weight of placing different weight on the board to apply different pressure to the building model through the depression bar, can be convenient for the designer with the gravity test building structure's of difference the atress condition.
2. This stress simulation device for architectural structure design, through the sleeve pipe, the setting of pivot and ventilating board, the designer can blow to the ventilating board at ventilating board one side with external equipment, wind blows to the architectural model in the backup pad through the ventilating board on, can simulate the horizontal power of blowing of level wind-force to the building in the reality, and the backup pad can rotate on a supporting bench through pivot and sleeve pipe, can make all around of architectural model receive the blowing of simulation wind-force, the accuracy of stress simulation has been improved, use when the stress simulation of being more convenient for.
Drawings
FIG. 1 is a schematic perspective view of the present invention;
FIG. 2 is a schematic diagram of the structure of the placement plate of the present invention;
fig. 3 is a schematic side view of the present invention.
In the figure: 1. a support table; 2. placing the plate; 3. a sleeve; 4. a rotating shaft; 5. a support plate; 6. a clamping block; 7. a support bar; 8. a slider; 9. fixing the rod; 10. a retractable plate; 11. a chute; 12. a slider; 13. a pressure lever; 14. a ventilation board; 15. a clamping frame; 16. a storage box; 17. a clamping hole; 18. and (5) clamping the column.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.
Referring to fig. 1 to 3, the present invention provides a technical solution: a stress simulator for building structure design comprises a supporting table 1 and a placing plate 2, wherein the upper surface of the supporting table 1 is fixedly connected with a sleeve 3, a rotating shaft 4 is clamped inside the sleeve 3, the top end of the rotating shaft 4 is fixedly connected with a supporting plate 5, the upper surface of the supporting plate 5 is fixedly connected with a clamping block 6, one end of the upper surface of the supporting table 1 is fixedly connected with a supporting rod 7, the outer part of the supporting rod 7 is slidably connected with a sliding block 8, the side surface of the sliding block 8 is fixedly connected with a fixed rod 9, the inner part of the fixed rod 9 is slidably connected with a telescopic plate 10, one end of the telescopic plate 10, which is far away from the fixed rod 9, is fixedly connected with the placing plate 2, the side surface of the placing plate 2 is provided with a sliding groove 11, the inner part of the sliding groove 11 is slidably connected with a sliding block 12, the lower surface of the sliding block 12 is fixedly connected with a pressure rod 13, the sliding block 12 slides in the sliding groove 11, and the distance between the pressure rods 13 can be adjusted according to building models with different areas, the other end of the upper surface of the support table 1 is fixedly connected with a ventilation plate 14;
through the arrangement of the placing plate 2, the clamping block 6, the sliding block 8, the expansion plate 11 and the compression rod 13, a designer can clamp the building model on the clamping block 6, the height and the position of the compression rod 13 are adjusted through the sliding block 8 and the expansion plate 11, so that the compression rod 13 can be placed at the top of the building model, and then counter weights with different weights are placed on the placing plate 2, so that different pressures are applied to the building model through the compression rod 13, and the designer can conveniently test the stress condition of the building structure by using different gravity forces;
through the arrangement of the sleeve 3, the rotating shaft 4 and the ventilating plate 14, a designer can blow air to the ventilating plate 14 by using external equipment on one side of the ventilating plate 14, the air is blown to the building model on the supporting plate 5 through the ventilating plate 14, the transverse blowing force of horizontal wind power to a building in reality can be simulated, the supporting plate 5 can rotate on the supporting table 1 through the rotating shaft 4 and the sleeve 3, the periphery of the building model can be blown by the simulated wind power, the accuracy of stress simulation is improved, and the stress simulation is more convenient to use during stress simulation;
a clamping frame 15 is fixedly connected to one end of the lower surface of the supporting platform 1 close to the supporting rod 7, a storage box 16 is inserted in the clamping frame 15, the storage box 16 can be used for storing balancing weights conveniently by users, a clamping hole 17 is formed in the side surface of the supporting rod 7, a clamping column 18 is inserted in the side surface of the sliding block 8, the clamping column 18 penetrates through one end of the sliding block 8 and is inserted in the clamping hole 17, the height of the sliding block 8 is fixed, the upper surface of the fixed rod 9 is in threaded connection with a positioning bolt, the upper surface of the expansion plate 10 is provided with a plurality of threaded holes, the positioning bolt is in threaded connection with the threaded holes and can fix the expansion plate 10, two sliding blocks 12 are connected on two sides of the inner part of the sliding groove 11 in a sliding manner, the number of the sliding grooves 11 is two, and two spout 11 are the symmetry setting with the perpendicular central line of placing board 2 as the symmetry axis, and the quantity of fixture block 6 is a plurality of, and the form fixed connection of a plurality of fixture block 6 with rectangular array is on the upper surface of backup pad 5.
The utility model discloses in, the device's working procedure as follows:
1. a designer can clamp the building model on the fixture block 6, the height and the position of the compression bar 13 are adjusted through the sliding block 8 and the expansion plate 11, the sliding block 12 slides in the sliding groove 11, the distance between the compression bars 13 can be adjusted according to the building models with different areas, and the compression bar 13 can be placed on the top of the building model;
2. then, counter weights with different weights are placed on the placing plate 2, so that different pressures are applied to the building model through the pressure lever 13, and a designer can conveniently test the stress condition of the building structure by using different gravity;
3. a designer can blow air to the ventilating plate 14 by using external equipment on one side of the ventilating plate 14, and the air is blown to the building model on the supporting plate 5 through the ventilating plate 14, so that the transverse blowing force of the horizontal wind force to the building in reality can be simulated;
4. the supporting plate 5 can rotate on the supporting table 1 through the rotating shaft 4 and the sleeve 3, so that the building model can be blown by simulated wind power all around, the accuracy of stress simulation is improved, and the stress simulation is more convenient to use.
The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.
Claims (6)
1. The utility model provides a stress simulation device for architectural structure design, includes brace table (1) and places board (2), its characterized in that: the upper surface of the supporting table (1) is fixedly connected with a sleeve (3), the inner part of the sleeve (3) is clamped with a rotating shaft (4), the top end of the rotating shaft (4) is fixedly connected with a supporting plate (5), the upper surface of the supporting plate (5) is fixedly connected with a clamping block (6), one end of the upper surface of the supporting table (1) is fixedly connected with a supporting rod (7), the outer part of the supporting rod (7) is slidably connected with a sliding block (8), the side surface of the sliding block (8) is fixedly connected with a fixing rod (9), the inner part of the fixing rod (9) is slidably connected with a telescopic plate (10), one end of the telescopic plate (10) far away from the fixing rod (9) is fixedly connected with the placing plate (2), the side surface of the placing plate (2) is provided with a sliding groove (11), the inner part of the sliding groove (11) is slidably connected with a sliding block (12), the lower surface of the sliding block (12) is fixedly connected with a pressing rod (13), and the other end of the upper surface of the supporting table (1) is fixedly connected with a ventilating plate (14).
2. The force simulator for architectural structural design according to claim 1, wherein: one end of the lower surface of the supporting table (1) close to the supporting rod (7) is fixedly connected with a clamping frame (15), and a storage box (16) is inserted into the clamping frame (15).
3. The force simulator for architectural structural design according to claim 1, wherein: the side of the supporting rod (7) is provided with a clamping hole (17), the side of the sliding block (8) is inserted with a clamping column (18), and the clamping column (18) penetrates through one end of the sliding block (8) and is inserted with the clamping hole (17).
4. The force simulator for architectural structural design according to claim 1, wherein: the upper surface of the fixed rod (9) is in threaded connection with a positioning bolt, the upper surface of the expansion plate (10) is provided with a plurality of threaded holes, and the positioning bolt is in threaded connection with the threaded holes.
5. The force simulator for architectural structural design according to claim 1, wherein: the inside both sides of spout (11) all sliding connection have slider (12), the quantity of spout (11) is two, and two spout (11) use place the perpendicular central line of board (2) and be the symmetry setting as the symmetry axis.
6. The force simulator for architectural structural design according to claim 1, wherein: the number of the clamping blocks (6) is a plurality, and the clamping blocks (6) are fixedly connected to the upper surface of the supporting plate (5) in a rectangular array mode.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202023193770.2U CN214123311U (en) | 2020-12-27 | 2020-12-27 | Stress simulation device for building structure design |
Applications Claiming Priority (1)
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CN202023193770.2U CN214123311U (en) | 2020-12-27 | 2020-12-27 | Stress simulation device for building structure design |
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CN214123311U true CN214123311U (en) | 2021-09-03 |
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CN202023193770.2U Active CN214123311U (en) | 2020-12-27 | 2020-12-27 | Stress simulation device for building structure design |
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2020
- 2020-12-27 CN CN202023193770.2U patent/CN214123311U/en active Active
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