CN217480894U - But shock resistance drying and dehumidification's building steel structure bearing structure - Google Patents
But shock resistance drying and dehumidification's building steel structure bearing structure Download PDFInfo
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- CN217480894U CN217480894U CN202220106236.3U CN202220106236U CN217480894U CN 217480894 U CN217480894 U CN 217480894U CN 202220106236 U CN202220106236 U CN 202220106236U CN 217480894 U CN217480894 U CN 217480894U
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- spring
- groove
- buffer
- plate
- building steel
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- 229910000831 Steel Inorganic materials 0.000 title claims abstract description 19
- 238000001035 drying Methods 0.000 title claims abstract description 19
- 239000010959 steel Substances 0.000 title claims abstract description 19
- 230000035939 shock Effects 0.000 title claims abstract description 12
- 238000007791 dehumidification Methods 0.000 title claims abstract description 10
- 239000000872 buffer Substances 0.000 claims abstract description 41
- 238000001125 extrusion Methods 0.000 claims abstract description 26
- 230000006835 compression Effects 0.000 claims description 3
- 238000007906 compression Methods 0.000 claims description 3
- 230000009286 beneficial effect Effects 0.000 abstract description 3
- 230000003139 buffering effect Effects 0.000 abstract description 3
- 230000000694 effects Effects 0.000 abstract 1
- 238000000034 method Methods 0.000 description 5
- 238000010276 construction Methods 0.000 description 4
- 239000000243 solution Substances 0.000 description 4
- 230000009471 action Effects 0.000 description 3
- 239000007853 buffer solution Substances 0.000 description 3
- 230000008569 process Effects 0.000 description 3
- 230000003111 delayed effect Effects 0.000 description 2
- 238000010586 diagram Methods 0.000 description 2
- 238000013016 damping Methods 0.000 description 1
- 230000009975 flexible effect Effects 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
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Abstract
The utility model discloses a but shock resistance drying and dehumidification's building steel structure bearing structure, including removing the seat, the top of removing the seat is equipped with the cushion socket, the top center department of cushion socket is equipped with the recess, a plurality of work groove and spout one have been seted up on the inner wall of recess, the work inslot portion is equipped with spring one, the other end of spring one is equipped with the buffer board, the other end of buffer board run through extremely in the recess, be equipped with spring two in the spout one, the top of cushion socket just is located the side of recess is equipped with a plurality of threaded rod, a plurality of be equipped with movable support plate between the threaded rod, movable support plate's bottom center department is equipped with the extrusion piece. Has the beneficial effects that: the threaded hole through the movable supporting plate side can take place with the threaded rod meshing effect to delay the falling speed of extrusion piece, give the time of a buffering of spring one and spring two, avoid too big impact force to cause the damage of spring one and spring two structures.
Description
Technical Field
The utility model relates to a building technical field particularly, relates to a but building steel structure bearing structure of shock resistance drying and dehumidification.
Background
In building structure, the support frame is very common, some facilities must support it earlier, avoid because the phenomenon of just collapsing has not firmly yet appeared, steel construction support frame receives extensive use because of its intensity is high, the whole rigidity is good, the characteristics that deformability is strong, however general steel construction bearing structure is because self weight is heavier, inconvenient removal, the high inconvenient regulation of current steel construction bearing structure simultaneously, the damping performance is relatively poor, and the function is comparatively single, the demand that satisfies the user that can not be fine.
An effective solution to the problems in the related art has not been proposed yet.
SUMMERY OF THE UTILITY MODEL
To the problem in the correlation technique, the utility model provides a but shock resistance drying and dehumidification's building steel structure bearing structure to overcome the above-mentioned technical problem that current correlation technique exists.
Therefore, the utility model discloses a specific technical scheme as follows:
a supporting structure of a building steel structure with shock resistance and drying and dehumidification functions comprises a moving seat, wherein a buffer seat is arranged at the top of the moving seat, a groove is formed in the center of the top of the buffer seat, a plurality of working grooves and a first sliding groove are formed in the inner wall of the groove, a first spring is arranged inside the working grooves, a buffer plate is arranged at the other end of the first spring, the other end of the buffer plate penetrates into the groove, a second spring is arranged in the first sliding groove, a plurality of threaded rods are arranged at the top of the buffer seat and positioned on the side edge of the groove, a movable supporting plate is arranged among the threaded rods, an extrusion block is arranged at the center of the bottom of the movable supporting plate, a sliding block matched with the first sliding groove is arranged on the outer surface of the extrusion block, a supporting column is arranged at the center of the top of the movable supporting plate, a moving groove is arranged at the center of the top of the supporting column, the inner wall of the top of the moving groove is provided with a second sliding groove, the center of the inner bottom of the moving groove is provided with a hydraulic cylinder, the top output end of the hydraulic cylinder is provided with a sliding plate, the end part of the sliding plate penetrates into the second sliding groove, the center of the top of the sliding plate is provided with a bearing column, and the top end of the bearing column penetrates through to the upper part of the bearing column and is fixedly connected with the bearing plate.
Preferably, the top of the buffer seat is provided with a connecting groove matched with the threaded rod, a bearing is arranged in the connecting groove, and the bottom end of the threaded rod is connected with the bearing.
Preferably, the outer surface of the support column is provided with a plurality of drying plates, and the middle parts of the drying plates are provided with dehumidifying layers.
Preferably, the length of a plurality of buffer plates is increased by one third from top to bottom in sequence, and the bottom of the extrusion block is of a triangular structure and is matched with the plurality of buffer plates.
Preferably, both the first spring and the second spring are compression springs, and spring washers are arranged at the end parts of both the first spring and the second spring.
Preferably, the side edge of the movable supporting plate is provided with a threaded hole matched with the threaded rod, and the extrusion block and the sliding block are of an integrated structure.
The beneficial effects of the utility model are that: the threaded hole on the side of the movable supporting plate can be meshed with the threaded rod, so that the descending speed of the extrusion block is delayed, the first spring and the second spring are given a buffering time, and the damage of the structures of the first spring and the second spring caused by too large impact force is avoided; through buffer structure's design to through the flexible effect help extrusion piece buffer pressure of spring one and spring two, simultaneously, the extrusion piece descends deepening, receives the pressure of buffer board big more, when pressure surpassed spring one with spring two's bearing capacity, the top extrusion of movable support plate and cushion seat is in the same place, thereby the life of protection spring one and spring two.
Drawings
In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.
Fig. 1 is a general structural schematic diagram of an earthquake-resistant drying and dehumidifying construction steel structure supporting structure according to an embodiment of the present invention;
fig. 2 is an internal structure schematic diagram of a building steel structure supporting structure that shock resistance can be dried and dehumidified according to the utility model discloses an embodiment.
In the figure:
1. a movable seat; 2. a buffer seat; 3. a groove; 4. a working groove; 5. a first sliding chute; 6. a first spring; 7. a buffer plate; 8. a second spring; 9. a threaded rod; 10. a movable support plate; 11. extruding the block; 12. a slider; 13. a support pillar; 14. a moving groove; 15. a second chute; 16. a slide plate; 17. a hydraulic cylinder; 18. a load-bearing column; 19. a bearing plate; 20. drying the plate; 21. and a dehumidification layer.
Detailed Description
For further explanation of the embodiments, the drawings are provided as part of the disclosure and serve primarily to illustrate the embodiments and, together with the description, to explain the principles of operation of the embodiments, and to provide further explanation of the invention and advantages thereof, it will be understood by those skilled in the art that various other embodiments and advantages of the invention are possible, and that elements in the drawings are not to scale and that like reference numerals are generally used to designate like elements.
According to the utility model discloses an embodiment provides a but shock resistance drying and dehumidification's building steel structure bearing structure.
Embodiment one, as shown in fig. 1-2, an earthquake-resistant, drying and dehumidifying support structure for a building steel structure according to an embodiment of the present invention includes a movable base 1, a buffer base 2 is disposed on the top of the movable base 1, a groove 3 is disposed at the center of the top of the buffer base 2, a plurality of working grooves 4 and a first sliding groove 5 are disposed on the inner wall of the groove 3, a first spring 6 is disposed inside the working groove 4, a buffer plate 7 is disposed at the other end of the first spring 6, the other end of the buffer plate 7 penetrates into the groove 3, a second spring 8 is disposed in the first sliding groove 5, a plurality of threaded rods 9 are disposed at the top of the buffer base 2 and at the side of the groove 3, a movable support plate 10 is disposed between the plurality of threaded rods 9, an extrusion block 11 is disposed at the center of the bottom of the movable support plate 10, a slider 12 matched with the first sliding groove 5 is disposed on the outer surface of the extrusion block 11, the top center department of movable support plate 10 is equipped with support column 13, the top center department of support column 13 is equipped with shifting chute 14, two 15 spout have been seted up on the top inner wall in the shifting chute 14, the interior bottom center department of shifting chute 14 is equipped with pneumatic cylinder 17, the top output of pneumatic cylinder 17 is equipped with slide 16, the tip of slide 16 run through extremely in two 15 spout, the top center department of slide 16 is equipped with heel post 18, the top of heel post 18 run through extremely the top of support column 13 is connected fixedly with heel plate 19.
The second embodiment comprises a moving seat 1, wherein a buffer seat 2 is arranged at the top of the moving seat 1, a groove 3 is arranged at the center of the top of the buffer seat 2, a plurality of working grooves 4 and sliding grooves 5 are formed in the inner wall of the groove 3, a spring I6 is arranged in the working groove 4, a buffer plate 7 is arranged at the other end of the spring I6, the other end of the buffer plate 7 penetrates into the groove 3, a spring II 8 is arranged in the sliding groove I5, a plurality of threaded rods 9 are arranged at the top of the buffer seat 2 and at the side edge of the groove 3, a movable support plate 10 is arranged between the threaded rods 9, an extrusion block 11 is arranged at the center of the bottom of the movable support plate 10, a sliding block 12 matched with the sliding grooves I5 is arranged on the outer surface of the extrusion block 11, a support column 13 is arranged at the center of the top of the movable support plate 10, a moving groove 14 is arranged at the center of the top of the support column 13, seted up two 15 of spouts on the inner wall of top in the movable chute 14, the interior bottom center department of movable chute 14 is equipped with pneumatic cylinder 17, the top output of pneumatic cylinder 17 is equipped with slide 16, slide 16's tip run through to in two 15 of spouts, slide 16's top center department is equipped with heel post 18, the top of heel post 18 run through extremely the top of support column 13 is connected fixedly with heel plate 19, the top of cushion socket 2 seted up with threaded rod 9 matched with spread groove, be equipped with the bearing in the spread groove, the bottom of threaded rod 9 with the bearing is connected, the surface of support column 13 is equipped with a plurality of dry plate 20, the middle part of dry plate 20 is equipped with dehumidification layer 21. As can be seen from the above-described design, the humidity of the air can be reduced by the action of the drying plate 20 and the dehumidifying layer 21 so as to avoid the damage of the humid air to the apparatus and the building.
The third embodiment comprises a moving seat 1, a buffer seat 2 is arranged at the top of the moving seat 1, a groove 3 is arranged at the center of the top of the buffer seat 2, a plurality of working grooves 4 and sliding grooves I5 are formed in the inner wall of the groove 3, a spring I6 is arranged inside the working groove 4, a buffer plate 7 is arranged at the other end of the spring I6, the other end of the buffer plate 7 penetrates into the groove 3, a spring II 8 is arranged in the sliding groove I5, a plurality of threaded rods 9 are arranged at the top of the buffer seat 2 and positioned at the side edge of the groove 3, a movable support plate 10 is arranged among the threaded rods 9, an extrusion block 11 is arranged at the center of the bottom of the movable support plate 10, a sliding block 12 matched with the sliding grooves I5 is arranged on the outer surface of the extrusion block 11, a support column 13 is arranged at the center of the top of the movable support plate 10, a moving groove 14 is arranged at the center of the top of the support column 13, a second sliding groove 15 is arranged on the inner wall of the top part in the moving groove 14, a hydraulic cylinder 17 is arranged at the center of the bottom part in the moving groove 14, the top output end of the hydraulic cylinder 17 is provided with a sliding plate 16, the end part of the sliding plate 16 penetrates into the second sliding groove 15, a bearing column 18 is arranged at the center of the top of the sliding plate 16, the top end of the bearing column 18 penetrates above the supporting column 13 to be connected and fixed with a bearing plate 19, the lengths of the plurality of buffer plates 7 are sequentially increased by one third from top to bottom, the bottom of the extrusion block 11 is of a triangular structure and is matched with a plurality of buffer plates 7, the first spring 6 and the second spring 8 are both compression springs, spring washers are arranged at the end parts of the first spring 6 and the second spring 8, the side edge of the movable supporting plate 10 is provided with a threaded hole matched with the threaded rod 9, and the extrusion block 11 and the sliding block 12 are of an integrated structure. It is obvious from the above design that, by designing the plurality of buffer plates 7, the deeper the pressing block 11 is lowered, the more pressure is applied to the buffer plates 7.
For the convenience of understanding the technical solution of the present invention, the following detailed description is made on the working principle or the operation mode of the present invention in the practical process.
In summary, with the aid of the technical solution of the present invention, when in use, the device is moved to the position below the building to be supported by the moving seat 1, and then the hydraulic cylinder 17 is opened, the hydraulic cylinder 17 pushes the sliding plate 16 and the bearing column 18 to ascend, and the bearing column 18 drives the bearing plate 19 to gradually contact with the bottom end of the building, so as to support the building; the humidity of the air can be reduced by the action of the drying plate 20 and the dehumidifying layer 21 when in use, so as to avoid the damage of the damp air to the device and the building; and in the using process of the device, the movable supporting plate 10 can gradually descend with the extrusion blocks 11 along with the stress of the supporting columns 13, and in the descending process of the movable supporting plate 10, the threaded hole on the side edge of the screw rod can be meshed with the threaded rod 9 (the descending speed of the extrusion block 11 is delayed through the meshing action, the first spring 6 and the second spring 8 are given a buffering time, the damage of the structures of the first spring 6 and the second spring 8 caused by too large impact force is avoided), the extrusion block 11 drives the sliding block 12 to gradually enter the groove 3, the sliding block 12 gradually extrudes the second spring 8, the extrusion block 11 is gradually contacted with the plurality of buffer plates 7, if the plurality of buffer plates 7 are gradually stressed to extrude the plurality of springs I6, the springs I6 and II 8 release the elastic force to help the extrusion block 11 to relieve the pressure, thereby greatly reducing the energy generated by vibration and being beneficial to maintaining the stability of the device and the building.
The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.
Claims (6)
1. The building steel structure supporting structure with the shock resistance and the drying and dehumidification functions is characterized by comprising a moving seat (1), wherein a buffer seat (2) is arranged at the top of the moving seat (1), a groove (3) is formed in the center of the top of the buffer seat (2), a plurality of working grooves (4) and sliding grooves (5) are formed in the inner wall of the groove (3), a spring I (6) is arranged inside the working groove (4), a buffer plate (7) is arranged at the other end of the spring I (6), the other end of the buffer plate (7) penetrates into the groove (3), a spring II (8) is arranged in the sliding groove I (5), a plurality of threaded rods (9) are arranged at the top of the buffer seat (2) and on the side edge of the groove (3), movable supporting plates (10) are arranged among the threaded rods (9), an extrusion block (11) is arranged at the center of the bottom of each movable supporting plate (10), the surface of extrusion piece (11) be equipped with spout one (5) matched with slider (12), the top center department of movable support board (10) is equipped with support column (13), the top center department of support column (13) is equipped with shifting chute (14), spout two (15) have been seted up on the top inner wall in shifting chute (14), the interior bottom center department of shifting chute (14) is equipped with pneumatic cylinder (17), the top output of pneumatic cylinder (17) is equipped with slide (16), the tip of slide (16) runs through to in the spout two (15), the top center department of slide (16) is equipped with heel post (18), the top of heel post (18) runs through to the top of support column (13) is connected fixedly with heel plate (19).
2. The earthquake-resistant drying and dehumidifying building steel structure supporting structure as claimed in claim 1, wherein the top of the buffer seat (2) is provided with a connecting groove matched with the threaded rod (9), a bearing is arranged in the connecting groove, and the bottom end of the threaded rod (9) is connected with the bearing.
3. The structural support structure of earthquake-resistant drying and dehumidifying building steel according to claim 2, wherein the outer surface of the supporting column (13) is provided with a plurality of drying plates (20), and the middle parts of the drying plates (20) are provided with dehumidifying layers (21).
4. The structural support structure of a building steel capable of being dried and dehumidified with shock resistance as claimed in claim 3, wherein the length of the buffer plates (7) is increased by one third from top to bottom, the bottom of the extrusion block (11) is triangular and is matched with the buffer plates (7).
5. The structural support structure of a building steel capable of being dried and dehumidified with shock resistance as claimed in claim 4, wherein the first spring (6) and the second spring (8) are both compression springs, and the ends of the first spring (6) and the second spring (8) are both provided with spring washers.
6. The structural support structure of the building steel capable of being dried and dehumidified with shock resistance as claimed in claim 5, wherein the side of the movable support plate (10) is provided with a threaded hole matched with the threaded rod (9), and the pressing block (11) and the sliding block (12) are of an integral structure.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202220106236.3U CN217480894U (en) | 2022-01-17 | 2022-01-17 | But shock resistance drying and dehumidification's building steel structure bearing structure |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202220106236.3U CN217480894U (en) | 2022-01-17 | 2022-01-17 | But shock resistance drying and dehumidification's building steel structure bearing structure |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN217480894U true CN217480894U (en) | 2022-09-23 |
Family
ID=83305042
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN202220106236.3U Expired - Fee Related CN217480894U (en) | 2022-01-17 | 2022-01-17 | But shock resistance drying and dehumidification's building steel structure bearing structure |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN217480894U (en) |
-
2022
- 2022-01-17 CN CN202220106236.3U patent/CN217480894U/en not_active Expired - Fee Related
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Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| GR01 | Patent grant | ||
| GR01 | Patent grant | ||
| CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20220923 |
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| CF01 | Termination of patent right due to non-payment of annual fee |