阅读说明：本技术 一种具有迷雾模式的随机迷宫 (Random labyrinth with dense fog mode ) 是由 朱琪 于 2020-11-17 设计创作，主要内容包括：本发明公开了一种具有迷雾模式的随机迷宫,涉及玩具技术领域,包括壳体,所述壳体顶壁由单向玻璃板构成,所述壳体内底部固定连接有迷宫盘,所述迷宫盘上开设有多个向上连通的滑动腔,多个所述滑动腔均呈方格线式分布且将迷宫盘分隔成多个方形的底板,位于迷宫盘对角的两个所述底板分别设为起点和终点,其中起点上放置有移动球；所述滑动腔内滑动连接有壁板,所述壁板内开设有向下连通的内腔,本发明通过控制器的随机模块生成随机迷宫,提高迷宫可玩性；采用单向玻璃板配合控制器内的照明模块形成迷雾模式的迷宫游戏,同时可以调节迷雾可视范围大小并显示最近移动路径,进一步提高迷宫可玩性。(The invention discloses a random labyrinth with a fog pattern, which relates to the technical field of toys and comprises a shell, wherein the top wall of the shell is formed by a one-way glass plate, a labyrinth disc is fixedly connected to the bottom in the shell, a plurality of sliding cavities which are communicated upwards are formed in the labyrinth disc, the plurality of sliding cavities are distributed in a grid line manner and divide the labyrinth disc into a plurality of square bottom plates, two bottom plates positioned at opposite angles of the labyrinth disc are respectively set as a starting point and an end point, and a moving ball is placed on the starting point; the sliding cavity is connected with a wall plate in a sliding mode, and the wall plate is internally provided with an inner cavity communicated downwards; the maze game of the maze mode is formed by adopting the one-way glass plate to be matched with the lighting module in the controller, and meanwhile, the size of the visual range of the maze is adjusted and the nearest moving path is displayed, so that the maze playability is further improved.)

1. The random labyrinth with the labyrinth fog mode comprises a shell (1) and is characterized in that the top wall of the shell (1) is composed of a one-way glass plate (11), a labyrinth disc (2) is fixedly connected to the bottom in the shell (1), a plurality of sliding cavities (21) which are communicated upwards are formed in the labyrinth disc (2), the sliding cavities (21) are distributed in a grid line mode and divide the labyrinth disc (2) into a plurality of square bottom plates (22), two bottom plates (22) which are located on opposite angles of the labyrinth disc (2) are respectively set as a starting point and an end point, and a moving ball (3) is placed on the starting point; the sliding cavity (21) is connected with a wall plate (4) in a sliding mode, an inner cavity (41) which is communicated downwards is formed in the wall plate (4), an electrorheological fluid sac (42) is fixedly connected in the inner cavity (41), electrorheological fluid is filled in the electrorheological fluid sac (42) and communicated with a communicating pipe (43), an electromagnetic valve (44) is installed in the communicating pipe (43), a suction pump (45) is fixedly connected in the shell (1), the communicating pipes (43) are all communicated with the working end of the suction pump (45) through a pipeline, and a hydraulic gauge (46) is installed in the pipeline;

remove ball (3) embedded magnetic core (31), install light (5) and induction coil (51) in bottom plate (22), wherein induction coil (51) takes place electromagnetic induction and produces the induction signal of telecommunication when removing ball (3) through its place bottom plate (22), install controller (6) in casing (1), controller (6) and solenoid valve (44), suction pump (45), hydromanometer (46), induction coil (51) and light (5) electric connection and through the electrorheological fluids electric connection in electrode slice and electrorheological fluids bag (42).

2. The random maze with fog pattern as claimed in claim 1, wherein said one-way glass plate (11) is made of one-way visible glass and its reflective surface faces the outside of the case (1), the top of said bottom plate (22) is made of colorless transparent plastic sheet, and said illuminating lamp (5) is powered to illuminate and penetrate the top of the bottom plate (22).

3. Random labyrinth with pattern of fog according to claim 1, characterized in that the wall (4) constitutes the labyrinth wall when sliding up the sliding chamber (21) to the extreme position and its tip end surface is flush with the upper surface of the labyrinth disc (2) when sliding down to the extreme position.

4. A randomised maze with a pattern of fog according to claim 1 wherein the controller (6) comprises a randomised module for generating a randomised maze, a lighting module for illuminating a localised area and an acoustic recognition module for modifying the sound produced by the impact of the moving ball (3) on the wall plate (4).

5. The random maze with a fog-pattern mode as claimed in claim 4, wherein the random module generates a random maze by using an existing maze random generation algorithm, and controls the solenoid valves (44) at corresponding positions to be energized and conducted independently, and controls the suction pump (45) to charge the electrorheological fluid into the electrorheological fluid bag (42) through the communication pipe (43) until the received hydraulic signal of the hydraulic gauge (46) reaches an upper threshold value, so as to push the wall plate (4) to move upwards to form a maze wall; the controller (6) is provided with a starting button (61), and the starting button (61) adopts an existing push type switch and controls the random module to be started and closed.

6. The random maze with fog pattern as claimed in claim 4, wherein the lighting module receives the induction signal from the induction coil (51) and supplies power to the lighting lamp (5) at the corresponding position after the signal intensity reaches the start threshold, a start circuit and a delay circuit are provided in the lighting module, wherein the start circuit is used to control the size of the start threshold, the delay circuit is used to control the duration of the power supply to the lighting lamp (5), the controller (6) is provided with a range knob (62) and a light tail knob (63), the range knob (62) is electrically connected with the start circuit and controls the size of the start threshold by rotation, and the light tail knob (63) is electrically connected with the delay circuit and controls the duration of the delay by rotation.

7. The stochastic labyrinth with the fog-masking pattern as claimed in claim 4, wherein the sound recognition module controls the current intensity of electrode pads electrically connected with the electro-rheological fluid in the electro-rheological fluid bags (42), wherein the electro-rheological fluid increases in viscosity after being powered on and undergoes a liquid-solid phase change after the current intensity increases to a certain intensity to change the tone of the wall panel after being impacted, and the controller (6) is provided with a sound recognition button (64), and the sound recognition button (64) is electrically connected with the sound recognition module and controls the power intensity through rotation.

Technical Field

The invention relates to the technical field of toys, in particular to a random maze with a fog pattern.

Background

The traditional maze game is carried by a solid toy, and children can hold the maze disc by hands to swing a moving ball in the maze disc to play the maze game, but after the fixed maze disc is played by the children for many times and leaves the maze, the playability of the fixed maze disc is reduced sharply due to the fact that the maze of the fixed maze disc cannot be changed, and the fixed maze disc is basically idle; meanwhile, due to the open arrangement of the traditional entity maze, children can overview the whole situation during the game, so that the path of the maze can be found easily, the children only go out of the maze according to the path seen by the children during the game, and the power for finding the path of the maze and the fun of going out of the maze are lacked.

Disclosure of Invention

The invention provides a random maze with a fog pattern, and aims to solve the problem that the playability of the maze is reduced because an open fixed entity maze in the traditional technology cannot change the path of the maze inside and the whole maze is directly exposed in the vision of children.

In order to achieve the purpose, the invention adopts the following technical scheme:

a random labyrinth with a labyrinth fog mode comprises a shell, wherein the top wall of the shell is formed by a one-way glass plate, a labyrinth disc is fixedly connected to the bottom in the shell, a plurality of sliding cavities which are communicated upwards are formed in the labyrinth disc, the sliding cavities are distributed in a grid line manner and divide the labyrinth disc into a plurality of square bottom plates, two bottom plates which are positioned on opposite corners of the labyrinth disc are respectively set as a starting point and an end point, and a moving ball is placed on the starting point; a wall plate is connected in the sliding cavity in a sliding mode, an inner cavity which is communicated downwards is formed in the wall plate, an electrorheological fluid sac is fixedly connected in the inner cavity, electrorheological fluid is filled in the electrorheological fluid sac and communicated with a communicating pipe, an electromagnetic valve is installed in the communicating pipe, a suction pump is fixedly connected in the shell, the communicating pipes are all communicated with the working end of the suction pump through a pipeline, and a hydraulic gauge is installed in the pipeline;

the electric rheological liquid electrorheological fluid ball is characterized in that a magnetic core is embedded in the moving ball, a lighting lamp and an induction coil are installed in the bottom plate, electromagnetic induction is generated when the induction coil passes through the bottom plate of the moving ball, an induction electric signal is generated, a controller is installed in the shell, and the controller is electrically connected with the electromagnetic valve, the suction pump, the hydraulic gauge, the induction coil and the lighting lamp and is electrically connected with electrorheological liquid in the electrorheological liquid capsule through an electrode plate.

Preferably, the one-way glass plate is made of existing one-way visible glass, the reflecting surface of the one-way glass plate faces the outside of the shell, the top of the bottom plate is made of a colorless transparent plastic sheet, and the illuminating lamp emits light after being electrified and penetrates through the top of the bottom plate.

Preferably, the wall plate forms a labyrinth wall when sliding upwards along the sliding cavity to the limit position, and the end surface of the top end of the wall plate is flush with the upper surface of the labyrinth disc when sliding downwards to the limit position.

Preferably, the controller includes a random module for generating a random maze, an illumination module for illuminating a localized area, and an acoustic recognition module for altering the sound produced by the impact of the moving ball on the wall plate.

Preferably, the random module generates a random labyrinth by adopting an existing labyrinth random generation algorithm, independently controls the electromagnetic valves at corresponding positions to be electrified and conducted, and controls the suction pump to charge the electrorheological fluid into the electrorheological fluid bag through the communicating pipe until a received hydraulic signal of the hydraulic gauge reaches an upper limit threshold value, so as to push the wall plate to move upwards to form a labyrinth wall; the controller is provided with a starting button, and the starting button adopts the existing push type switch and controls the random module to be started and closed.

Preferably, the lighting module receives an induction electric signal of the induction coil and supplies power to the lighting lamp at a corresponding position after the signal intensity of the induction coil reaches a starting threshold value, a starting circuit and a delay circuit are arranged in the lighting module, wherein the starting circuit is used for controlling the size of the starting threshold value, the delay circuit is used for controlling the time of supplying power to the lighting lamp, a range knob and an optical tail knob are mounted on the controller, the range knob is electrically connected with the starting circuit and controls the size of the starting threshold value through rotation, and the optical tail knob is electrically connected with the delay circuit and controls the time delay through rotation.

Preferably, the controller is provided with a sound recognition button, and the sound recognition button is electrically connected with the sound recognition module and controls the power-on intensity through rotation.

Compared with the prior art, the invention has the following beneficial effects:

1. the starting button on the controller is started, so that the random module generates a random labyrinth, the electromagnetic valve in the communicating pipe at the corresponding position on the labyrinth disc is independently controlled to be electrified and conducted, then the suction pump is controlled to charge electrorheological fluid into the electrorheological fluid sac at the bottom of the wall plate through the pipeline and the communicating pipe, the electrorheological fluid sac expands to push the wall plate to move upwards to form a labyrinth wall, and the random labyrinth is built;

2. the invention adopts the reflecting surface to face the unidirectional glass plate outside the shell, and because the light intensity inside the shell is weaker than the light intensity outside the shell under the normal state, the unidirectional glass plate is similar to a mirror surface outwards, so that children cannot directly observe the layout of the random labyrinth inside the shell; the removal of the ball is removed in children's control this moment, the magnetic field that its interior magnetic core formed forms electromagnetic induction to the induction coil in its bottom plate on every side, lighting module in the controller receives this induction signal of telecommunication and for the light power supply of relevant position, the light illuminates bottom plate and its local space on every side, make near light intensity increase of removal ball in the casing, the light intensity contrast of one-way glass board both sides changes this moment makes its external mirror surface effect weaken, thereby make children can see near local maze outline of removal ball, play in the maze of this formation maze mode, the object for appreciation nature of maze is further improved.

3. In the maze game in the fog pattern, the range knob on the controller is rotated, so that the starting threshold of the starting circuit of the lighting module electrically connected with the controller is reduced, the induction electrical signals generated by the induction coils in a larger range near the moving ball can reach the lowest starting threshold, the lighting lamps in the larger range are lightened, the visual area near the moving ball in the fog pattern is enlarged, the purpose of adjusting the game difficulty is achieved, and the game playability is improved; meanwhile, the light tail knob on the controller is rotated, so that the time for supplying power to the illuminating lamp by the delay circuit of the illuminating module electrically connected with the controller is prolonged, the power-on illumination time of the illuminating lamp on the moving path of the moving ball is prolonged, and the moving path of the moving ball is temporarily lightened to form a light tail for displaying the recent moving path of the moving ball, so that the aim of adjusting the game difficulty is further fulfilled, and the game playability is improved.

4. In the maze recreation, can be with scope knob and light tail knob revolve to closing, form the maze recreation of dark mode this moment, start the sound dialectic button on the controller, the circular telegram of sound dialectic module control electrode piece and its electric strength, thereby make the electrorheological fluids in the electrorheological fluids bag in the wallboard inner cavity of electric connection with it change of nature, in order to change the tone behind the wallboard by the impact of removal ball, thereby under the maze recreation of dark mode, can carry out the maze recreation through sound dialectic ability completely, the playability of this maze has further been improved, the play hindrance of traditional maze recreation that leans on the vision has been abolished for the children of visual disturbance simultaneously.

In conclusion, the random maze is generated through the random module of the controller, and the playability of the maze is improved; the labyrinth game in the labyrinth mode is formed by adopting the one-way glass plate and the lighting module in the controller, and meanwhile, the size of the visual range of the labyrinth fog can be adjusted and the nearest moving path can be displayed, so that the playability of the labyrinth is further improved; the lighting module is turned off and the sound recognition module is started to form the dark-mode maze game, so that the playability of the maze is further improved, and the traditional game obstacle of the maze game depending on the vision is broken for the children with vision disorder.

Drawings

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

FIG. 2 is a schematic view in partial vertical section of the present invention;

FIG. 3 is an enlarged view of portion A of FIG. 2;

FIG. 4 is an enlarged schematic view of the controller of the present invention;

FIG. 5 is a schematic diagram of the two-bin illumination range and three-bin light tail effect of the present invention;

FIG. 6 is a schematic diagram of the maze moving path and dark pattern of the present invention.

In the figure: the device comprises a shell 1, a one-way glass plate 11, a labyrinth plate 2, a sliding cavity 21, a bottom plate 22, a moving ball 3, a magnetic core 31, a wall plate 4, an inner cavity 41, an electro-rheological fluid bag 42, a communicating pipe 43, an electromagnetic valve 44, a suction pump 45, a hydraulic pressure gauge 46, a lighting lamp 5, an induction coil 51, a controller 6, a start button 61, a range knob 62, an optical tail knob 63 and an acoustic identification button 64.

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.

Referring to fig. 1-6, a random maze with a fog pattern comprises a shell 1, wherein the top wall of the shell 1 is composed of a one-way glass plate 11, the one-way glass plate 11 is made of the existing one-way visual glass, the reflecting surface of the one-way glass plate is opposite to the outside of the shell 1, and under the normal state, the external light intensity is higher than the light intensity in the shell 1, so that the one-way visual glass is opposite to one side of the outside to form a mirror surface effect, and a child cannot directly visit the whole maze.

Bottom fixedly connected with labyrinth dish 2 in casing 1, the slip chamber 21 of a plurality of upwards intercommunications has been seted up on the labyrinth dish 2, and a plurality of slip chambers 21 all are square line formula and distribute and separate into a plurality of square bottom plates 22 with labyrinth dish 2, and two bottom plates 22 that are located 2 diagonal angles of labyrinth dish establish respectively to starting point and terminal point, wherein have placed on the starting point and have removed ball 3, remove ball 3 and make casing 1 slope move to the terminal point from the starting point under the action of gravity along with children's control.

Sliding connection has wallboard 4 in the sliding cavity 21, and wallboard 4 constitutes the maze wall when upwards sliding to extreme position along sliding cavity 21, and its top terminal surface and maze dish 2 upper surface parallel and level when downwards sliding to extreme position do not hinder and move ball 3 and remove.

An inner cavity 41 which is communicated downwards is arranged in the wall plate 4, an electro-rheological fluid sac 42 is fixedly connected in the inner cavity 41, and the electro-rheological fluid sac 42 moves upwards when expanding and recovers when contracting.

The electro-rheological fluid capsule 42 is filled with electro-rheological fluid and communicated with the communicating pipe 43, the electro-rheological fluid is a complex fluid formed by mixing dielectric particles and insulating liquid, the electro-rheological fluid is converted from liquid to solid under the action of an electric field with certain intensity, and the viscosity of the electro-rheological fluid is increased along with the enhancement of the electric field intensity.

The communicating pipes 43 are internally provided with an electromagnetic valve 44, the shell 1 is internally and fixedly connected with a suction pump 45, the communicating pipes 43 are communicated with the working end of the suction pump 45 through pipelines, the suction pump 45 is matched with the electromagnetic valve 44 to control the electrorheological fluid to be charged into or pumped out of the electrorheological fluid bag 42, a hydraulic gauge 46 is arranged in the pipelines to display the hydraulic pressure in the pipelines and assist in controlling the working and stopping of the suction pump 45.

Remove ball 3 embedded magnetic core 31, install light 5 and induction coil 51 in the bottom plate 22, wherein induction coil 51 takes place electromagnetic induction and produces the induction signal of telecommunication when removing ball 3 through its place bottom plate 22, bottom plate 22 top adopts colorless transparent plastic sheet to make, 5 circular telegrams of light are luminous after lighting up and pass bottom plate 22 tops, thereby illuminate 1 local space of casing, make local light intensity be stronger than external light intensity in the casing 1, thereby weaken one-way visual glass's mirror surface effect, make near 3 local maze profiles of removal ball can be seen to children.

The controller 6 is installed in the housing 1, and the controller 6 is electrically connected with the electromagnetic valve 44, the suction pump 45, the hydraulic pressure gauge 46, the induction coil 51 and the illumination lamp 5 and is electrically connected with the electrorheological fluid in the electrorheological fluid capsule 42 through an electrode plate.

The controller 6 comprises a random module, an illumination module and a sound identification module, wherein the random module generates a random labyrinth by adopting the existing labyrinth random generation algorithm, independently controls the electromagnetic valve 44 at the corresponding position to be electrified and conducted, and controls the suction pump 45 to fill the electrorheological fluid into the electrorheological fluid bag 42 through the communicating pipe 43 until the received hydraulic signal of the hydraulic gauge 46 reaches the upper limit threshold value so as to push the wall plate 4 to move upwards to form a labyrinth wall; the controller 6 is provided with an actuating button 61, and the actuating button 61 adopts an existing push type switch and controls the random module to be started and closed.

The lighting module receives the induction electric signal of the induction coil 51 and supplies power to the lighting lamp 5 at the corresponding position after the signal intensity reaches the starting threshold value, a starting circuit and a delay circuit are arranged in the lighting module, wherein the starting circuit is used for controlling the size of the starting threshold value, the delay circuit is used for controlling the time length of supplying power to the lighting lamp 5, a range knob 62 and a light tail knob 63 are installed on the controller 6, the range knob 62 is electrically connected with the starting circuit and controls the size of the starting threshold value through rotation, and the light tail knob 63 is electrically connected with the delay circuit and controls the time length through rotation.

The sound identification module controls the electrifying intensity of the electrode plates electrically connected with the electrorheological fluids in the electrorheological fluid bags 42, wherein the viscosity of the electrorheological fluids is increased after the electrorheological fluids are electrified, the liquid-solid phase change is generated after the electrorheological fluids are increased to certain intensity so as to change the tone of the wall plate after being impacted, the sound identification button 64 is installed on the controller 6, and the sound identification button 64 is electrically connected with the sound identification module and controls the electrifying intensity through rotation.

The principles of the present invention are now described as follows:

firstly starting a starting button 61 on a controller 6, starting a random module of the controller 6 and generating a random maze through a random maze random generation algorithm, and independently controlling the electromagnetic valve 44 in the communicating pipe 43 at the corresponding position on the maze disc 2 to be electrified and conducted, then controlling the suction pump 45 to fill electrorheological fluid into the electrorheological fluid bag 42 at the bottom of the wall plate 4 through the pipeline and the communicating pipe 43 until the received hydraulic signal of the hydraulic gauge 46 in the pipeline reaches an upper limit threshold value, stopping the suction pump 45, pushing the wall plate 4 upwards to a limit position by the expanded electrorheological fluid bag 42 to form a maze wall, forming a maze by a plurality of maze walls together, thereby completing the establishment of the random maze, enabling the shell 1 to incline by the action of both hands of a child, further moving the moving ball 3 of the maze disc 2 to move, and finally moving from a starting point to an end point to a random maze, compared with the traditional fixed labyrinth toy, the labyrinth can form different labyrinths through the controllable wall plate, so that the playability of the labyrinth is improved;

meanwhile, the reflecting surface of the labyrinth is opposite to the one-way glass plate 11 outside the shell 1, and because the light intensity in the shell 1 is lower than the light intensity outside the shell 1, the one-way glass plate 11 is similar to a mirror surface to the outside, so that children cannot directly observe the layout of the random labyrinth in the shell 1, and cannot look through the whole labyrinth to directly find out a labyrinth route;

at the moment, the child controls the shell 1 to incline to enable the moving ball 3 to move, a magnetic field formed by the magnetic core 31 in the moving ball 3 forms electromagnetic induction on the induction coil 51 in the surrounding bottom plate 22, an induction electric signal is generated in the induction coil 51, the illumination module in the controller 6 receives the induction electric signal of the induction coil 51 and supplies power to the illumination lamp 5 at the corresponding position after the signal intensity reaches a starting threshold value, the illumination lamp 5 emits light after being electrified and penetrates through the top of the bottom plate 22, so that the light intensity near the moving ball 3 in the shell 1 is increased, and the light intensity contrast at two sides of the one-way glass plate 11 is changed to weaken the external mirror effect, so that the child can see the local maze outline near the moving ball 3, thereby forming a maze game in a fog pattern and further improving the playability of the maze;

in the maze game in the fog pattern, the range knob 62 on the controller 6 is rotated, so that the starting threshold of the starting circuit of the lighting module electrically connected with the range knob is reduced, the inductive electric signals generated by the inductive coil 51 in the bottom plate 22 in a larger range near the moving ball 3 can reach the lowest starting threshold, the lighting lamp 5 in the bottom plate 22 in the larger range is lightened, the visual area near the moving ball 3 in the fog pattern is enlarged, the purpose of adjusting the game difficulty is achieved, and the game playability is improved;

meanwhile, the light tail knob 63 on the controller 6 is rotated, so that the time for the lighting lamp 5 to be powered by the delay circuit of the lighting module electrically connected with the light tail knob is prolonged, the lighting lamp 5 in the bottom plate 22 on the moving path of the moving ball 3 is electrified and the lighting time is prolonged, and then the moving ball 3 is temporarily lighted on the passing moving path to form a light tail when moving, so that the latest moving path is displayed, the aim of adjusting the game difficulty is further fulfilled, and the game playability is improved;

in the maze game, the range knob 62 and the optical tail knob 63 can be turned off, the maze game in a dark mode is formed at the moment, the acoustic identification button 64 on the controller 6 is started, the acoustic identification module in the controller is started, the electrification and the electrification intensity of the electrode plates electrically connected with the electrorheological fluids in the electrorheological fluids bags 42 are controlled, the viscosity of the electrorheological fluids is increased after the electrorheological fluids are electrified, the liquid-solid phase change is generated after the electrification intensity is increased to a certain intensity, so that the change of the properties of the electrorheological fluids in the electrorheological fluids bags 42 in the inner cavity 41 of the wall plate 4 is realized, the tone of the wall plate 4 after being impacted by the moving ball 3 is changed, the currents with different intensities are introduced into the corner wall plate and the side wall plate which form the maze passage, the corner wall plate and the side wall plate which form the non-maze passage and the electrorheological fluids in the side plate, the wall plates which can be classified into various types are only classified into one type with high priority, so that the maze game can be completely played through the sound and discrimination capability under the maze game in the dark mode, the playability of the maze is further improved, and the traditional game obstacle of the maze game depending on the vision is broken away for the children with vision disorder.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.