CN215427329U

CN215427329U - Performance environment simulation device

Info

Publication number: CN215427329U
Application number: CN202120612898.3U
Authority: CN
Inventors: 张晰
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-03-25
Filing date: 2021-03-25
Publication date: 2022-01-07
Anticipated expiration: 2031-03-25

Abstract

The utility model discloses a performance environment simulation device which comprises a bottom plate, a transmission structure for replacing a background, an adjusting structure for adjusting the position of light and a lifting structure for assisting in carrying, wherein a supporting groove is arranged in the middle of the top end of the bottom plate, steps are arranged on two sides of the top end of the bottom plate, the adjusting structures are arranged on two sides of the inside of the bottom plate, an installation groove is formed in the top end of the bottom plate, and telescopic rods are arranged on two sides of the bottom end of the installation groove. According to the utility model, the crank is arranged to rotate, the driving rod is driven to rotate, the driven rod is driven to rotate under the transmission of the first driven wheel and the first driving wheel through the first transmission belt, the threaded roller is driven to rotate through the driven rod, and the threaded roller is driven to rotate through the driven rod.

Description

Performance environment simulation device

Technical Field

The utility model relates to the technical field of performance equipment, in particular to a performance environment simulation device.

Background

The performance environment simulation device applies a system analysis principle to establish a theoretical or solid model of an environment system, changes the state of the environment by changing specific parameters under the condition of artificial control, so that audiences can obtain information during performance through the change of the environment.

First, the required large-scale stage property of traditional performance environment analogue means needs artificial transport in the in-process of using, and efficiency is lower.

Second, the conventional performance environment simulation apparatus cannot adjust the position of the light when in use, and cannot clearly express the time indicated during the performance.

Third, when the conventional performance environment simulation device is used, the background picture needs to be replaced, which affects the fluency of the performance.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a performance environment simulation device to solve the problems that props proposed in the background technology need to be manually carried, light cannot be adjusted, and background pictures need to be replaced.

In order to achieve the purpose, the utility model provides the following technical scheme: a performance environment simulation device comprises a bottom plate, a transmission structure for replacing a background, an adjusting structure for adjusting the position of light and a lifting structure for assisting in carrying;

a supporting groove is arranged in the middle of the top end of the bottom plate, steps are arranged on two sides of the top end of the bottom plate, and the adjusting structures are arranged on two sides of the inner part of the bottom plate;

the lifting structure comprises a bottom plate, a supporting groove, a supporting plate, a top plate, lifting structures and a supporting plate, wherein the top end of the supporting groove is provided with a top plate, the lifting structures are arranged on two sides of the inner part of the top plate;

the transmission structure is positioned in the supporting groove.

Preferably, transmission structure includes first servo motor, first servo motor installs in one side of supporting the inside bottom of inslot, and first servo motor's output installs the actuating lever, support the inside actuating lever outer wall cover of inslot and be equipped with the second action wheel, and support the opposite side of the inside bottom of inslot and install the bull stick through the pivot, support the inside bull stick outer wall cover of inslot and be equipped with the second from the driving wheel, and second action wheel and second are connected with second driving belt from between the driving wheel, the actuating lever of backplate top and the outer wall of bull stick all overlap and are equipped with the installation roller, and are connected with background cloth between the installation roller.

Preferably, the top ends of the driving rod and the rotating rod penetrate through the mounting plate and extend to the bottom end of the top plate, and the driving rod and the rotating rod are mounted at the bottom end of the top plate through the rotating shaft.

Preferably, the adjusting structure comprises a second servo motor, a second threaded slider, threaded rods, a second cavity and a stage lamp, the second cavity is formed in two sides inside the top plate, the second servo motors are mounted on two sides of the top plate, the threaded rods are mounted at the output ends of the second servo motors, the second threaded slider is sleeved on the outer wall of each threaded rod inside the second cavity, and the stage lamp is mounted at the bottom end of each second threaded slider;

one end of the threaded rod extends to one side of the interior of the second cavity, and the threaded rod is installed on one side of the interior of the second cavity through the rotating shaft.

Preferably, the lifting structure comprises a first driving wheel, a first driven wheel, a first cavity, a driving rod, a crank, a chute, a threaded roller, a first threaded slider, a driven rod and a first transmission belt, the first cavity is arranged on two sides inside the base plate, the driving rod is arranged on one side, away from the buffer spring, of the bottom end inside the first cavity through a rotating shaft, the crank is arranged at the top end of the driving rod, the first driven wheel is sleeved on the outer wall of the driving rod inside the first cavity, the driven rod is arranged on one side, close to the buffer spring, of the bottom end inside the first cavity through a rotating shaft, the first driving wheel is sleeved on the outer wall of the driven rod inside the first cavity, the first driving wheel is connected with the first driven wheel through the first transmission belt, the chutes are arranged on two sides of the bottom end inside the supporting groove, and the threaded roller is sleeved on the outer wall of the rod inside the chute, the bottom of threaded roller outer wall all is equipped with first screw thread slider.

Preferably, the top of driven lever all passes bottom plate and spout in proper order and extends to the inside top of spout, and the driven lever all installs in the inside top of spout through the pivot, the top of driving lever all extends to the inside of supporting the groove, and first screw slider all installs in the both sides of placing the board.

Compared with the prior art, the utility model has the beneficial effects that:

(1) the crank is arranged to rotate, the driving rod is driven to rotate, the driven rod is driven to rotate under the transmission of the first driven wheel and the first driving wheel through the first transmission belt, the threaded roller is driven to rotate through the driven rod, and the threaded roller is meshed with the first threaded slider;

(2) the first servo motor is started through the arrangement of the first servo motor, the first servo motor starts to work to drive the driving rod to rotate, the second driving wheel starts to rotate, the second driving wheel is connected with the second driven wheel through the second transmission belt to drive the second driven wheel to rotate, the rotating rod is made to rotate to drive the installation roller to rotate, the background cloth is made to rotate, and the back picture of the background cloth is rotated to the front side;

(3) through being provided with second servo motor, open second servo motor, drive the threaded rod, it is rotatory to make the threaded rod, because second thread slider and threaded rod intermeshing, at threaded rod pivoted in-process, horizontal direction's translation is done in the inside of second cavity to second thread slider, position through second thread slider control stage lamp, the position through control stage lamp comes the position of simulation illumination to express different time, the staff can also be used for assisting through the colour that changes stage lamp illumination light-emitting, this structure has realized the adjustment to the illumination position.

Drawings

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

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

FIG. 3 is a schematic side view of the present invention;

fig. 4 is an enlarged schematic view of a portion a in fig. 1 according to the present invention.

In the figure: 1. a base plate; 2. a step; 3. a drive rod; 4. a first servo motor; 5. placing the plate; 6. mounting grooves; 7. a telescopic rod; 8. an adjustment structure; 9. a lifting structure; 901. a first drive wheel; 902. a first driven wheel; 903. a first cavity; 904. a driving lever; 905. a crank; 906. a chute; 907. a threaded roller; 908. a first threaded slider; 909. a driven lever; 910. a first drive belt; 10. a buffer spring; 11. a rotating rod; 12. a second drive belt; 13. a second driven wheel; 14. a background cloth; 15. a second servo motor; 16. a second threaded slider; 17. a threaded rod; 18. a second cavity; 19. a top plate; 20. stage lamps; 21. mounting a roller; 22. a back plate; 23. mounting a plate; 24. a support groove; 25. a second driving wheel.

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. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1: referring to fig. 1-4, a performance environment simulation device includes a base plate 1, a transmission structure for replacing background, an adjusting structure 8 for adjusting light position, and a lifting structure 9 for assisting transportation;

a supporting groove 24 is arranged in the middle of the top end of the bottom plate 1, steps 2 are arranged on two sides of the top end of the bottom plate 1, and the adjusting structures 8 are arranged on two sides of the inside of the bottom plate 1;

the inner part of the top end of the bottom plate 1 is provided with a mounting groove 6, telescopic rods 7 are mounted on two sides of the bottom end of the inner part of the mounting groove 6, buffer springs 10 are sleeved on the outer walls of the telescopic rods 7, a placing plate 5 is mounted on the top end of the telescopic rods 7, a mounting plate 23 is mounted on the top end of a supporting groove 24, a back plate 22 is mounted at the rear end of the top end of the mounting plate 23, a top plate 19 is mounted at the top end of the back plate 22, and the lifting structures 9 are located on two sides of the inner part of the top plate 19;

the transmission structure is positioned inside the supporting groove 24;

referring to fig. 1-4, a performance environment simulation device further includes a transmission structure, the transmission structure includes a first servo motor 4, the first servo motor 4 is installed at one side of the bottom end inside the supporting groove 24, the model of the first servo motor 4 can be RDX-201-V36F5E13, the output end of the first servo motor 4 is provided with a driving rod 3, the outer wall of the driving rod 3 inside the supporting groove 24 is sleeved with a second driving wheel 25, the other side of the bottom end inside the supporting groove 24 is provided with a rotating rod 11 through a rotating shaft, the outer wall of the rotating rod 11 inside the supporting groove 24 is sleeved with a second driven wheel 13, a second transmission belt 12 is connected between the second driving wheel 25 and the second driven wheel 13, the driving rod 3 above the back plate 22 and the outer wall of the rotating rod 11 are both sleeved with installation rollers 21, and a background cloth 14 is connected between the installation rollers 21;

the top ends of the driving rod 3 and the rotating rod 11 extend to the bottom end of the top plate 19 through the mounting plate 23, and the driving rod 3 and the rotating rod 11 are mounted at the bottom end of the top plate 19 through rotating shafts;

specifically, as shown in fig. 1, fig. 2 and fig. 3, when the mechanism is used, the first servo motor 4 is turned on, the first servo motor 4 starts to work to drive the driving rod 3 to rotate, the second driving wheel 25 starts to rotate, the second driving wheel 25 drives the second driven wheel 13 to rotate through the connection between the second driving belt 12 and the second driven wheel 13, so that the rotating rod 11 rotates to drive the installation roller 21 to rotate, the background cloth 14 rotates, and the back picture of the background cloth 14 rotates to the front side.

Example 2: the adjusting structure 8 comprises a second servo motor 15, a second threaded slider 16, a threaded rod 17, a second cavity 18 and a stage lamp 20, the second cavity 18 is formed in two sides of the inside of the top plate 19, the second servo motor 15 is installed on two sides of the top plate 19, the threaded rod 17 is installed at the output end of the second servo motor 15, the second servo motor 15 can be in the type of RDX-201-V36F5E13, the outer wall of the threaded rod 17 in the inside of the second cavity 18 is sleeved with the second threaded slider 16, and the stage lamp 20 is installed at the bottom end of the second threaded slider 16;

one end of each threaded rod 17 extends to one side inside the second cavity 18, and the threaded rods 17 are mounted on one side inside the second cavity 18 through rotating shafts;

specifically, as shown in fig. 1, 2 and 3, when the mechanism is used, the second servo motor 15 is started to drive the threaded rod 17 to rotate the threaded rod 17, and because the second threaded slider 16 is meshed with the threaded rod 17, in the rotating process of the threaded rod 17, the second threaded slider 16 horizontally translates inside the second cavity 18, the position of the stage lamp 20 is controlled through the second threaded slider 16, the position of the stage lamp 20 is controlled to simulate different illumination time by controlling the position of the stage lamp 20, and a worker can also assist by changing the color of the light emitted by the stage lamp 20.

Example 3: the lifting structure 9 comprises a first driving wheel 901, a first driven wheel 902, a first cavity 903, a driving rod 904, a crank 905, a sliding chute 906, a threaded roller 907, a first threaded slider 908, a driven rod 909 and a first transmission belt 910, wherein the first cavity 903 is arranged on two sides inside the base plate 1, the driving rod 904 is arranged on one side of the bottom end inside the first cavity 903 far away from the buffer spring 10 through a rotating shaft, the crank 905 is arranged on the top end of the driving rod 904, the first driven wheel 902 is sleeved on the outer wall of the driving rod 904 inside the first cavity 903, the driven rod 909 is arranged on one side of the bottom end inside the first cavity 903 close to the buffer spring 10 through a rotating shaft, the first driving wheel 901 is sleeved on the outer wall of the driven rod 909 inside the first cavity 903, the first driving wheel 901 is connected with the first driven wheel through the first transmission belt 910, the sliding chutes 906 are arranged on two sides of the bottom end inside the support groove 24, the outer walls of the driven rods 909 in the sliding grooves 906 are sleeved with threaded rollers 907, and the bottom ends of the outer walls of the threaded rollers 907 are sleeved with first threaded sliding blocks 908;

the top ends of the driven rods 909 sequentially penetrate through the bottom plate 1 and the sliding groove 906 and extend to the top end inside the sliding groove 906, the driven rods 909 are mounted at the top end inside the sliding groove 906 through rotating shafts, the top ends of the driving rods 904 extend to the inside of the supporting groove 24, and the first threaded sliding blocks 908 are mounted at two sides of the placing plate 5;

specifically, as shown in fig. 1 and 4, when the mechanism is used, the crank 905 is rotated to drive the driving rod 904 to rotate, the driven rod 909 is driven to rotate under the transmission of the first driven wheel 902 and the first driving wheel 901 through the first transmission belt 910, the driven rod 909 drives the threaded roller 907 to rotate, and as the threaded roller 907 is meshed with the first threaded slider 908, the first threaded slider 908 is vertically displaced during the rotation of the threaded roller 907, and the placing plate 5 is driven to carry a prop to be transported to the top end of the mounting plate 23.

The working principle is as follows: when the device is used, firstly, a worker places a large prop to be carried on the top end of the placing plate 5, the crank 905 is rotated to drive the driving rod 904 to rotate, the driven rod 909 is driven to rotate under the transmission of the first driven wheel 902 and the first driving wheel 901 through the first transmission belt 910, the driven rod 909 is driven to rotate, the threaded roller 907 is driven to rotate through the driven rod 909, and the threaded roller 907 is meshed with the first threaded slider 908, so that the first threaded slider 908 is vertically displaced in the rotating process of the threaded roller 907, and the placing plate 5 is driven to bear the prop to be transported to the top end of the installing plate 23.

Afterwards, if a certain scene is finished, the next scene needs to be switched quickly, the worker can turn on the first servo motor 4, the first servo motor 4 starts to work to drive the driving rod 3 to rotate, the second driving wheel 25 starts to rotate, the second driving wheel 25 drives the second driven wheel 13 to rotate through the connection of the second driving belt 12 and the second driven wheel 13, the rotating rod 11 is made to rotate to drive the installation roller 21 to rotate, the background cloth 14 is made to rotate, and the back picture of the background cloth 14 is made to rotate to the front side.

Finally, if different times of the day need to be expressed, the worker can turn on the second servo motor 15 to drive the threaded rod 17 to rotate the threaded rod 17, due to the fact that the second threaded slider 16 is meshed with the threaded rod 17, in the rotating process of the threaded rod 17, the second threaded slider 16 horizontally translates inside the second cavity 18, the position of the stage lamp 20 is controlled through the second threaded slider 16, the position of illumination is simulated through controlling the position of the stage lamp 20 to express different times, and the worker can also use for assistance by changing the color of the light emitted by the stage lamp 20.

It will be evident to those skilled in the art that the utility model 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 utility model 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

1. A performance environment simulation device comprises a bottom plate (1), and is characterized in that: the device also comprises a transmission structure for replacing the background, an adjusting structure (8) for adjusting the position of the light and a lifting structure (9) for assisting in carrying;

a support groove (24) is arranged in the middle of the top end of the bottom plate (1), steps (2) are arranged on two sides of the top end of the bottom plate (1), and the adjusting structures (8) are arranged on two sides of the inner part of the bottom plate (1);

the lifting device is characterized in that a mounting groove (6) is formed in the top end of the bottom plate (1), telescopic rods (7) are mounted on two sides of the bottom end of the inside of the mounting groove (6), buffer springs (10) are sleeved on the outer walls of the telescopic rods (7), a placing plate (5) is mounted on the top end of each telescopic rod (7), a mounting plate (23) is mounted on the top end of the supporting groove (24), a back plate (22) is mounted at the rear end of the top end of the mounting plate (23), a top plate (19) is mounted on the top end of the back plate (22), and the lifting structures (9) are located on two sides of the inside of the top plate (19);

the transmission structure is positioned inside the supporting groove (24).

2. A performance environment simulation apparatus as claimed in claim 1, wherein: the transmission structure comprises a first servo motor (4), the first servo motor (4) is installed on one side of the inner bottom end of a supporting groove (24), the output end of the first servo motor (4) is provided with a driving rod (3), the outer wall of the driving rod (3) in the supporting groove (24) is sleeved with a second driving wheel (25), the other side of the inner bottom end of the supporting groove (24) is provided with a rotating rod (11) through a rotating shaft, the outer wall of the rotating rod (11) in the supporting groove (24) is sleeved with a second driven wheel (13), a second transmission belt (12) is connected between the second driving wheel (25) and the second driven wheel (13), the driving rod (3) above the back plate (22) and the outer wall of the rotating rod (11) are both sleeved with an installation roller (21), and background cloth (14) is connected between the installation roller (21).

3. A performance environment simulation apparatus as claimed in claim 2, wherein: the top ends of the driving rod (3) and the rotating rod (11) penetrate through the mounting plate (23) and extend to the bottom end of the top plate (19), and the driving rod (3) and the rotating rod (11) are mounted at the bottom end of the top plate (19) through rotating shafts.

4. A performance environment simulation apparatus as claimed in claim 1, wherein: adjust structure (8) and include second servo motor (15), second screw slider (16), threaded rod (17), second cavity (18) and stage lamp (20), the both sides inside roof (19) are all seted up in second cavity (18), and second servo motor (15) all install in the both sides of roof (19), threaded rod (17) are all installed to the output of second servo motor (15), and all overlap of threaded rod (17) outer wall inside second cavity (18) and be equipped with second screw slider (16), stage lamp (20) are all installed to the bottom of second screw slider (16).

5. A performance environment simulation apparatus as claimed in claim 4, wherein: one end of the threaded rod (17) extends to one side of the interior of the second cavity (18), and the threaded rod (17) is installed on one side of the interior of the second cavity (18) through a rotating shaft.

6. A performance environment simulation apparatus as claimed in claim 1, wherein: the lifting structure (9) comprises a first driving wheel (901), a first driven wheel (902), a first cavity (903), a driving rod (904), a crank (905), a sliding chute (906), a threaded roller (907), a first threaded slider (908), a driven rod (909) and a first transmission belt (910), wherein the first cavity (903) is formed in two sides of the inner portion of the base plate (1), the driving rod (904) is installed on one side, far away from the buffering spring (10), of the bottom end of the inner portion of the first cavity (903) through a rotating shaft, the crank (905) is installed at the top end of the driving rod (904), the first driven wheel (902) is sleeved on the outer wall of the driving rod (904) in the first cavity (903), the driven rod (909) is installed on one side, near the buffering spring (10), of the bottom end of the inner portion of the first cavity (903) through the rotating shaft, and the first driving wheel (901) is sleeved on the outer wall of the driven rod (909) in the inner portion of the first cavity (903), and first action wheel (901) all is connected with first driven wheel (902) through first driving belt (910), spout (906) all install in the both sides of the inside bottom of support groove (24), and the driven lever (909) outer wall in spout (906) all overlaps and is equipped with screw thread roller (907), the bottom of screw thread roller (907) outer wall all overlaps and is equipped with first screw thread slider (908).

7. A performance environment simulation apparatus according to claim 6, wherein: the top end of the driven rod (909) sequentially penetrates through the bottom plate (1) and the sliding groove (906) and extends to the top end of the sliding groove (906), the driven rod (909) is installed at the top end of the sliding groove (906) through a rotating shaft, the top end of the driving rod (904) extends to the inside of the supporting groove (24), and the first threaded sliding blocks (908) are installed on two sides of the placing plate (5).