CN215679780U

CN215679780U - Seismograph simulation display model

Info

Publication number: CN215679780U
Application number: CN202090000141.2U
Authority: CN
Inventors: 顾亮
Original assignee: Kunshan Inverse 3d Technology Co ltd
Current assignee: Kunshan Inverse 3d Technology Co ltd
Priority date: 2020-09-18
Filing date: 2020-09-18
Publication date: 2022-01-28
Anticipated expiration: 2030-09-18
Also published as: WO2020249140A3; WO2020249140A2; JP3235432U

Abstract

The utility model provides a seismograph simulation display model, which comprises a base, wherein a barrel-shaped body is arranged on the base, 8 dragon-shaped structures are uniformly arranged on the outer wall of the barrel-shaped body, a rotatable mechanism is arranged at the mouth part of each dragon-shaped structure, a ball is arranged between each rotatable mechanism and the mouth part, a ball receiving mechanism is arranged at the lower part of each dragon-shaped structure, a plurality of pressure sensors are arranged at the edge of the base, the pressure sensors correspond to the dragon-shaped structures, and are electrically communicated with the rotatable mechanisms, the display model is provided with the pressure sensors, when a visitor visits, the blocking piece of the corresponding dragon-shaped body can be started to rotate by knocking the pressure sensors at the corresponding positions, so that the ball falls into a toad, the action form of the seismograph after an earthquake is simulated, and the visitor can have more vivid visiting experience, and no misjudgment is caused.

Description

Seismograph simulation display model

Technical Field

The utility model relates to the field of display molds, in particular to a seismograph simulation display model.

Background

The seismograph is invented by Chinese Han dynasty scientist Zhang Heng, in 132 g Yuan, and comprises a main body of a convex belly teacup with a cover, eight dragons are cast on the surface of the main body, the dragons are movable, each dragons mouth contains a ball, a column and eight paths are installed in the main body, each column is a rod with a thick upper part and a thin lower part and plays a role of shaking, the eight paths are arranged in eight directions around the column and are connected with a mechanical transmission device, and in addition, eight toads are opened. The seismograph is placed on the ground, the tap aims at eight directions of east, south, west, north, southeast, northeast, southwest, northwest, eight open-mouth oviductus ranae squat on the ground facing to the tap, when earthquake occurs, the ball falls into the oviductus ranae, in some teaching or museum's show, if the patent publication number is: the utility model patent of CN201084309Y is the fixed mode of placing of model show usually, actually also can't show the device through there being the earthquake, has the erroneous judgement to a certain extent, when using as the museum show, not vivid enough.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a seismograph simulation display model which comprises a base, wherein a barrel-shaped body is arranged on the base, 8 dragon-shaped structures are uniformly arranged on the outer wall of the barrel-shaped body, a rotatable mechanism is arranged at a mouth of each dragon-shaped structure, balls are arranged between the rotatable mechanism and the mouth, a ball receiving mechanism is arranged at the lower part of each dragon-shaped structure, a plurality of pressure sensors are arranged at the edge of the base, the pressure sensors correspond to the dragon-shaped structures, and the pressure sensors are electrically communicated with the rotatable mechanisms.

Preferably, the ball catching mechanism is in a shape of a toad, and the mouth part of the ball catching mechanism is aligned with the dragon-shaped mechanism upwards.

Preferably, the rotatable mechanism comprises a blocking piece, the end part of the blocking piece is connected to the head part of the dragon-shaped mechanism through a rotating shaft, and the end part of the rotating shaft is connected with a motor; and a torsion spring is arranged between the separation blade and the head part, and the separation blade is pressed on the lower part of the head part by the torsion spring.

Preferably, the pressure sensor is in electrical communication with the motor via a wire.

Preferably, a slot is formed in the bottom of the base corresponding to the pressure sensor, the slot points to the center of the base, and the wire is clamped in the slot, penetrates through the base, extends to the dragon-shaped structure and is connected with the motor.

The seismograph simulation display model provided by the utility model has the following beneficial effects: this show model is through the form that has set up pressure sensor, when the visitor is visiting, can be through the pressure sensor who beats corresponding position, then can start the separation blade rotation of the dragon shape body that corresponds for the ball drops to the toad in, has simulated the action form of earthquake post-seismic detector, gives the more vivid visit of visitor and experiences, and does not have the condition of erroneous judgement.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below.

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic view of the rotatable mechanism of the present invention;

FIG. 3 is a schematic view of the rotation of the rotatable mechanism of the present invention;

FIG. 4 is a bottom schematic view of the floor of the present invention;

wherein, 1, a base; 2. a ball catching mechanism; 3. a barrel-shaped body; 4. a dragon-shaped structure; 5. a ball bearing; 6. a baffle plate; 7. a pressure sensor; 8. grooving; 9. a torsion spring; 10. a rotating shaft.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

As shown in figure 1, the utility model provides a seismograph simulation display model, which comprises a base 1, wherein a barrel-shaped body 3 is arranged on the base 1, 8 dragon-shaped structures 4 are uniformly arranged on the outer wall of the barrel-shaped body 3, a ball receiving mechanism 2 is arranged at the lower part of each dragon-shaped structure 4, the ball receiving mechanism 2 is in a toad shape, the mouth part of each dragon-shaped structure is aligned with the corresponding dragon-shaped structure, the barrel-shaped body 3, the dragon-shaped structures 4 and the ball receiving mechanisms 2 in the toad shape are the same as the tensing scale seismograph in structure, the seismograph is displayed in an image form, but the difference is that a rotatable mechanism is arranged at the mouth part of each dragon-shaped structure 4, balls 5 are arranged between the rotatable mechanism and the mouth part, the rotatable mechanism is initially pressed on the head part and is internally provided with an arc-shaped edge for accommodating and pressing the balls 5, a plurality of pressure sensors 7 are arranged at the edge of the base 1, pressure sensor 7 with dragon shape mechanism corresponds, pressure sensor 7 with rotatable mechanism electricity intercommunication, the principle of this device is: when knocking pressure sensor 7 on base 1, pressure sensor 7 gives an electric signal of slewing mechanism, can drive slewing mechanism and rotate for ball 5 on the separation blade 6 drops, with the function of simulation seismograph, above-mentioned in-process, the user can simulate earthquake direction by oneself, and makes corresponding ball 5 drop, and is more vivid. The circuit control between the pressure sensor 7 and the motor is a common control mode, and the description is not repeated in the application. The rotatable mechanism comprises a baffle 6, the end part of the baffle 6 is connected to the head part of the dragon-shaped mechanism through a rotating shaft 10, and the end part of the rotating shaft 10 is connected with a motor; a torsion spring 9 is arranged between the baffle 6 and the head, and the torsion spring 9 enables the baffle 6 to be pressed on the lower part of the head.

In addition, the rotation mode of the rotatable mechanism will be specifically described: the rotatable mechanism comprises a baffle 6, the end part of the baffle 6 is connected to the head part of the dragon-shaped mechanism through a rotating shaft 10, and the end part of the rotating shaft 10 is connected with a motor (not shown in the figure); separation blade 6 with be equipped with torsional spring 9 between the head, torsional spring 9 makes separation blade 6 press in the head lower part, when the motor starts, then drive pivot 10 rotates, pivot 10 is fixed with separation blade 6, then can make separation blade 6 downward, and torsional spring 9 sets up between 6 tip of separation blade and head, and when motor rotation drive separation blade 6 rotated, torsional spring 9 was stretched, and after the motor stall, because torsional spring 9's effort, can make separation blade 6 return, the user can put back the ball in separation blade 6, the operation of the next time of being convenient for.

And in order to guarantee the pleasing to the eye degree of whole device, pressure sensor 7 with the motor passes through the wire electricity and communicates, 1 bottom of base corresponds pressure sensor 7 department and sets up fluting 8, fluting 8 is directional 1 center of base, the wire card in fluting 8 and pass the base extend to dragon shape structure 4 and with the motor is connected, sets up fluting 8 in the bottom, and the wire is whole to be passed to the center and extend to dragon shape structure 4 inside and be connected with the motor from the lower part, guarantees that no wire exposes.

The visitor of the device knocks the pressure sensor 7, namely the earthquake is simulated, the situation that the earthquake ball 5 falls off can be shown, and the interest of visiting is increased.

Claims

1. The seismograph simulation display model is characterized by comprising a base, wherein a barrel-shaped body is arranged on the base, 8 dragon-shaped structures are uniformly arranged on the outer wall of the barrel-shaped body, a rotatable mechanism is arranged at the mouth of each dragon-shaped structure, balls are arranged between the rotatable mechanisms and the mouth, a ball receiving mechanism is arranged at the lower part of each dragon-shaped structure, a plurality of pressure sensors are arranged at the edge of the base, the pressure sensors correspond to the dragon-shaped structures, and the pressure sensors are electrically communicated with the rotatable mechanisms.

2. The seismograph simulation display model of claim 1, wherein the ball catching mechanism is toad shaped and the mouth is directed upwardly at the dragon shaped mechanism.

3. The seismograph simulation display model of claim 1, wherein the rotatable mechanism comprises a blocking piece, the end of the blocking piece is connected to the head of the dragon-shaped mechanism through a rotating shaft, and the end of the rotating shaft is connected with a motor; and a torsion spring is arranged between the separation blade and the head part, and the separation blade is pressed on the lower part of the head part by the torsion spring.

4. The seismograph simulation display model of claim 3, wherein the pressure sensor is in electrical communication with the motor via a wire.

5. The seismograph simulation display model of claim 4, wherein a slot is provided at the bottom of the base corresponding to the pressure sensor, the slot is directed to the center of the base, and the wire is clamped in the slot and passes through the base to extend to the dragon-shaped structure and be connected with the motor.