CN211124723U - Earthquake simulation cabin capable of being rapidly assembled and formed - Google Patents

Abstract

The utility model discloses a can carry out fashioned earthquake simulation cabin of fast assembly, including base, cylinder, shell, connecting plate and extension board, the both sides on base top all are fixed with the cylinder, the top of shell is provided with the diaphragm, and the turning position department of diaphragm bottom all with the top fixed connection of shell, the top of diaphragm is provided with the main wall body, the top of main wall body is provided with the lid, the lid all is provided with the second slide rail with the inside both sides of diaphragm, the inside of second slide rail all is provided with first sliding plate, the lid at second slide rail both ends all is provided with first slide rail with the diaphragm is inside, the inside of first slide rail all is provided with the second sliding plate, second slide rail both sides diaphragm all articulates with the both ends of lid has the joint structure. The utility model discloses not only realized the function of this earthquake simulation cabin equipment of being convenient for, realized the anti-drop function of this earthquake simulation cabin, realized the safeguard function when this earthquake simulation cabin shakes moreover.

Description

Earthquake simulation cabin capable of being rapidly assembled and formed

Technical Field

The utility model relates to a analogue means technical field specifically is a can carry out fashioned earthquake simulation cabin of fast assembly.

Background

Along with the continuous development of society, people's standard of living constantly improves, and people's potential safety hazard consciousness also rises thereupon, and wherein the earthquake is the great disastrous incident of casualties among the natural disasters, and this makes earthquake simulation cabin appear along with it, and this type of earthquake simulation cabin on the market is various now, can satisfy people's user demand basically, but still has certain problem, and specific problem has following several:

(1) when the traditional earthquake simulation cabin is used, due to the inconvenient assembly, great troubles are brought to a user when the traditional earthquake simulation cabin is used;

(2) when the traditional earthquake simulation cabin is used, the practicability is low due to the poor anti-falling effect;

(3) when the traditional earthquake simulation cabin is used, the protection performance is low, so that great trouble is brought to a user when the earthquake simulation cabin is used.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a can carry out fashioned earthquake simulation cabin of fast assembly to solve the inconvenient equipment of the device of proposing in the above-mentioned background art, anti-drop effect is poor and the problem that protectiveness is low.

In order to achieve the above object, the utility model provides a following technical scheme: a earthquake simulation cabin capable of being rapidly assembled and formed comprises a base, air cylinders, a shell, connecting plates and a supporting plate, wherein the air cylinders are fixed on two sides of the top end of the base, the shell is arranged above the air cylinders, a transverse plate is arranged above the shell, the corner positions of the bottom end of the transverse plate are fixedly connected with the top end of the shell, a main wall is arranged above the transverse plate, a side wall is arranged between every two adjacent main walls, a cover body is arranged above the main wall, second sliding rails are arranged on two sides of the cover body and the inside of the transverse plate, a first sliding plate is arranged inside each second sliding rail, the bottom end of each first sliding plate is fixedly connected with the top end of the main wall, first sliding rails are arranged inside the cover body and the transverse plate at two ends of each second sliding rail, a second sliding plate is arranged inside each first sliding rail, and the bottom end of each second sliding plate is fixedly connected with the top end of the side wall, the transverse plates at two sides of the second slide rail and two ends of the cover body are hinged with clamping structures.

Preferably, the inside of shell all is provided with the extension board, and the top and the bottom of extension board respectively with the top of shell and the output fixed connection of cylinder.

Preferably, inside groove, pull ring, commentaries on classics board, logical groove, card structure and reset spring have set gradually in the inside of joint structure, the inside of commentaries on classics board all is provided with logical groove, and all is provided with the inside groove at the second slide rail both ends that lead to groove one side, the inside of inside groove all is provided with the card structure, and the one end of card structure all extends to the outside of commentaries on classics board and is fixed with the pull ring, all be fixed with reset spring on the outer wall of card structure one side, and reset spring keeps away from the one end of card structure all with the inner wall fixed connection that leads to the groove.

Preferably, the outer wall of one side of the main wall body is hinged with a sliding door, a handle is arranged on the surface of the sliding door, and window bodies are fixed on the surface of the main wall body of one side of the sliding door.

Preferably, the inner diameters of the first slide rail and the second slide rail are both larger than the inner diameters of the second slide plate and the first slide plate, and the side wall body and the main wall body respectively form a sliding structure through the second slide plate, the first slide rail, the second slide rail, the first slide plate, the cover body and the transverse plate.

Preferably, the side walls of the support plates are all fixed with connecting plates, and adjacent connecting plates are connected through a protective spring.

Compared with the prior art, the beneficial effects of the utility model are that: the earthquake simulation cabin capable of being rapidly assembled and molded not only realizes the function of convenient assembly of the earthquake simulation cabin, realizes the anti-falling function of the earthquake simulation cabin, but also realizes the protection function of the earthquake simulation cabin during vibration;

(1) the second slide rails are arranged on two sides of the inner parts of the cover body and the transverse plate, the first slide rails are arranged in the second slide rails, the first slide rails are arranged in the cover body and the transverse plate at two ends of each second slide rail, the second slide rails are arranged in the first slide rails, the inner diameters of the first slide rails and the second slide rails are larger than those of the second slide rails and the first slide rails, the side wall bodies and the main wall bodies respectively form a sliding structure with the cover body and the transverse plate through the second slide rails and the first slide rails and the second slide rails and the first slide rails, the function of facilitating assembly of the earthquake simulation cabin is achieved, and therefore the convenience degree of the earthquake simulation cabin in use is improved;

(2) through the through groove arranged inside the rotating plate, the inner grooves are arranged at two ends of the second slide rail at one side of the through groove, the clamping structure is arranged inside the inner groove, one end of the clamping structure extends to the outside of the rotating plate and is used for fixing the pull ring, and the reset spring is fixed on the outer wall at one side of the clamping structure, so that the anti-falling function of the earthquake simulation cabin is realized, and the practicability of the earthquake simulation cabin in use is improved;

(3) the casing is arranged above the cylinder, the support plate is arranged inside the casing, the connecting plates are fixed on the side walls of the support plates and are connected with each other through the protective springs between the adjacent connecting plates, and the protective function of the earthquake simulation cabin during vibration is achieved.

Drawings

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

FIG. 2 is a side view of the enlarged partial cross-section structure of the present invention;

fig. 3 is a schematic view of the enlarged structure of a part a in fig. 1 according to the present invention;

fig. 4 is the enlarged schematic structural diagram of the local section of the cylinder of the present invention.

In the figure: 1. a base; 2. a transverse plate; 3. a first sliding plate; 4. a cylinder; 5. a housing; 6. a clamping structure; 601. an inner tank; 602. a pull ring; 603. rotating the plate; 604. a through groove; 605. a card structure; 606. a return spring; 7. a main wall body; 8. a window body; 9. a cover body; 10. a sliding door; 11. a handle; 12. a side wall body; 13. a first slide rail; 14. a second slide rail; 15. a second sliding plate; 16. a guard spring; 17. a connecting plate; 18. and (4) a support plate.

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. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides an embodiment: a can carry on the earthquake of fast assembly shaping to imitate the cabin, including base 1, cylinder 4, outer cover 5, joint bar 17 and support plate 18, both sides of the top of base 1 are fixed with the cylinder 4, the model of the cylinder 4 can be SC63X250, and there are outer covers 5 above the cylinder 4, there are support plates 18 inside the outer cover 5, and the top and bottom of the support plate 18 are fixedly connected with top of the outer cover 5 and output end of the cylinder 4 separately, all fixed with the joint bar 17 on the sidewall of the support plate 18, and link through the protective spring 16 between the adjacent joint bars 17, have realized the protectiveness when the earthquake imitates the cabin to use;

a transverse plate 2 is arranged above the shell 5, the corner positions of the bottom end of the transverse plate 2 are fixedly connected with the top end of the shell 5, a main wall 7 is arranged above the transverse plate 2, a sliding door 10 is hinged to the outer wall of one side of the main wall 7, a handle 11 is arranged on the surface of the sliding door 10, and a window body 8 is fixed on the surface of the main wall 7 of one side of the sliding door 10, so that the earthquake simulation cabin can be conveniently used;

a side wall body 12 is arranged between adjacent main wall bodies 7, a cover body 9 is arranged above the main wall bodies 7, second slide rails 14 are arranged on the cover body 9 and two sides inside the transverse plate 2, first slide plates 3 are arranged inside the second slide rails 14, the bottom ends of the first slide plates 3 are fixedly connected with the top end of the main wall body 7, first slide rails 13 are arranged inside the cover body 9 and the transverse plate 2 at two ends of each second slide rail 14, second slide plates 15 are arranged inside the first slide rails 13, and the bottom ends of the second slide plates 15 are fixedly connected with the top ends of the side wall bodies 12;

the inner diameters of the first slide rail 13 and the second slide rail 14 are both larger than the inner diameters of the second slide plate 15 and the first slide plate 3, the side wall body 12 and the main wall body 7 respectively form a sliding structure through the second slide plate 15, the first slide rail 13, the second slide rail 14, the first slide plate 3, the cover body 9 and the transverse plate 2, and the function of convenient assembly of the earthquake simulation cabin is realized;

the transverse plates 2 at two sides of the second slide rail 14 and two ends of the cover body 9 are hinged with a clamping structure 6, an inner groove 601, a pull ring 602, a rotating plate 603, a through groove 604, a clamping structure 605 and a return spring 606 are sequentially arranged in the clamping structure 6, the rotating plate 603 is internally provided with the through groove 604, the two ends of the second slide rail 14 at one side of the through groove 604 are provided with the inner groove 601, the inner part of the inner groove 601 is provided with the clamping structure 605, one end of the clamping structure 605 extends to the outside of the rotating plate 603 and is fixed with the pull ring 602, the outer wall at one side of the clamping structure 605 is fixed with the return spring 606, and one end of the return spring 606 far away from the clamping structure 605 is fixedly connected with the inner;

when the mechanism is used, firstly, the pull ring 602 is pressed to press the clamping structure 605, then the rotating plate 603 is rotated to make the clamping structure 605 coincide with the inner groove 601, and at the moment, the pull ring 602 is released to lock the rotating plate 603 and the inner groove 601 under the elastic action of the return spring 606.

The working principle is as follows: when the earthquake simulation cabin is used, the earthquake simulation cabin is externally connected with a power supply, the second sliding plate 15 at the top end of the side wall body 12 is connected with the first sliding rail 13, the second sliding plate 15 slides to a proper position, the first sliding plate 3 at the top end of the main wall body 7 is connected with the second sliding rail 14 and slides to a proper position, the second sliding plate 15 is limited by the second sliding rail 14, then the pull ring 602 is pressed to press the clamping structure 605, the rotating plate 603 is rotated to enable the clamping structure 605 to be overlapped with the inner groove 601, at the moment, the pull ring 602 is released, the rotating plate 603 and the inner groove 601 are locked under the elastic action of the return spring 606, and finally the protective spring 16 at the top end can buffer the transverse plate 2 when the cylinder 4 works, so that the protection performance of the earthquake simulation cabin is realized, and the work of the earthquake simulation cabin is finally completed.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. 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 can carry out fashioned earthquake simulation cabin of fast assembly, includes base (1), cylinder (4), shell (5), connecting plate (17) and extension board (18), its characterized in that: the air cylinders (4) are fixed on two sides of the top end of the base (1), the outer shell (5) is arranged above the air cylinders (4), the transverse plate (2) is arranged above the outer shell (5), the corner positions of the bottom end of the transverse plate (2) are fixedly connected with the top end of the outer shell (5), the main wall body (7) is arranged above the transverse plate (2), the side wall bodies (12) are arranged between the adjacent main wall bodies (7), the cover body (9) is arranged above the main wall body (7), the cover body (9) and two sides inside the transverse plate (2) are provided with second slide rails (14), the first slide plates (3) are arranged inside the second slide rails (14), the bottom ends of the first slide plates (3) are fixedly connected with the top end of the main wall body (7), the cover bodies (9) at two ends of the second slide rails (14) and the inner parts of the transverse plate (2) are provided with first slide rails (13), the inner part of the first sliding rail (13) is provided with a second sliding plate (15), the bottom end of the second sliding plate (15) is fixedly connected with the top end of the side wall body (12), and transverse plates (2) on two sides of the second sliding rail (14) and two ends of the cover body (9) are hinged with clamping structures (6).

2. A seismic simulation cabin capable of being quickly assembled and formed according to claim 1, wherein: the inner part of the shell (5) is provided with a support plate (18), and the top end and the bottom end of the support plate (18) are respectively and fixedly connected with the top of the shell (5) and the output end of the cylinder (4).

3. A seismic simulation cabin capable of being quickly assembled and formed according to claim 1, wherein: the inner side of the clamping structure (6) is sequentially provided with an inner groove (601), a pull ring (602), a rotating plate (603), a through groove (604), a clamping structure (605) and a return spring (606), the inner side of the rotating plate (603) is provided with the through groove (604), the two ends of a second sliding rail (14) on one side of the through groove (604) are provided with the inner groove (601), the inner side of the inner groove (601) is provided with the clamping structure (605), one end of the clamping structure (605) extends to the outer side of the rotating plate (603) and is fixed with the pull ring (602), the outer wall on one side of the clamping structure (605) is fixed with the return spring (606), and one end, far away from the clamping structure (605), of the return spring (606) is fixedly connected with the inner wall of the through groove (604).

4. A seismic simulation cabin capable of being quickly assembled and formed according to claim 1, wherein: the outer wall of one side of the main wall body (7) is hinged with a sliding door (10), a handle (11) is arranged on the surface of the sliding door (10), and window bodies (8) are fixed on the surface of the main wall body (7) of one side of the sliding door (10).

5. A seismic simulation cabin capable of being quickly assembled and formed according to claim 1, wherein: the inner diameters of the first sliding rail (13) and the second sliding rail (14) are larger than the inner diameters of the second sliding plate (15) and the first sliding plate (3), and the side wall body (12) and the main wall body (7) respectively form a sliding structure with the cover body (9) and the transverse plate (2) through the second sliding plate (15), the first sliding rail (13), the second sliding rail (14), the first sliding plate (3).

6. A seismic simulation cabin capable of being quickly assembled and formed as claimed in claim 2, wherein: the side walls of the support plates (18) are all fixed with connecting plates (17), and the adjacent connecting plates (17) are connected through protective springs (16).

Images