CN218952920U - Airship-shaped interactive entertainment device - Google Patents

Abstract

The utility model relates to an airship-shaped interactive entertainment device which comprises a supporting unit, a slide unit, a ladder stand unit, a holographic display unit, an unpowered pneumatic unit, an induction lighting unit and a control unit. The support unit is airship-shaped, the bottom of the support unit is arranged on the ground, the left end and the right end of the support unit are respectively provided with a slide unit, a ladder stand unit and a holographic display unit, the top end and the rear end of the support unit are provided with an unpowered pneumatic unit and an induction lighting unit, and the front end of the support unit is provided with the holographic display unit. The utility model decorates the modeling of the supporting unit through the unpowered pneumatic unit, so that the airship-shaped interactive entertainment device performs local rotation when wind blows nearby, enriches the structure of the slide and has attractive and elegant modeling; through the cooperation between response lighting element and the control unit to realize carrying out light interaction with children, improve the interest.

Description

Airship-shaped interactive entertainment device

Technical Field

The utility model relates to the technical field of entertainment facilities, in particular to an airship-shaped interactive entertainment device.

Background

The traditional children's amusement facilities have single modeling, are almost identical in function except for different colors, modeling and material texture, and lead to lower interest of children in the children's amusement facilities and lower activity enthusiasm. In addition, conventional child play facilities simply crawl and glide, and have no more functionality.

In order to save construction cost and reduce site construction difficulty, most of finished sliding slides are simply placed, so that children amusement facilities provided in many places are uniformly provided. In addition, the finished children amusement facilities produced in an intensive manner in the factory have almost the same functions except for different colors, shapes and material textures, and are difficult to excite activity enthusiasm of children and improve cognitive ability of the children.

The existing children slides are single in shape, are not fused with the existing technology, and are low in overall interactivity, so that activity enthusiasm of children is low, and children cannot be encouraged to explore to learn fresh things; the existing child slide has no structure for throwing in stereoscopic images, namely children cannot experience feeling of being personally on the scene, and the thinking and imagination of the children cannot be conveniently expanded.

At present, an effective solution is not proposed for solving the problems that the function of the children slide is single, interaction with the children cannot be performed, the children cannot be taught in lively activities and the like in the related technology.

Disclosure of Invention

The utility model aims to overcome the defects in the prior art and provides an airship-shaped interactive entertainment device, so as to solve the problems that a child slide in the related art is single in function, cannot interact with a child, cannot teach the child in an entertainment and the like.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows:

the utility model provides an interactive entertainment device of airship shape, includes supporting element, slide unit, cat ladder unit, holographic display unit, unpowered pneumatic unit, response lighting unit and control unit, wherein:

the support unit is in an airship shape, and the bottom of the support unit is arranged on the ground;

the slide board unit is arranged at one of the left end and the right end of the supporting unit, the top end of the slide board unit is communicated with the middle part of the supporting unit, and the bottom end of the slide board unit is arranged on the ground for sliding of children;

the climbing ladder unit is arranged at the other end of the left end and the right end of the supporting unit, the top end of the climbing ladder unit is communicated with the middle part of the supporting unit, and the bottom end of the climbing ladder unit is arranged on the ground and used for climbing children;

the holographic display unit is arranged at the side part and the front end of the supporting unit, is connected with the control unit and is used for playing images under the control of the control unit;

the unpowered pneumatic unit is arranged at the top end and the rear end of the supporting unit and used for rotating under the action of wind power;

the induction lighting unit is arranged at the top end of the supporting unit, is connected with the control unit and is used for inducing whether a child exists or not and lighting under the condition that the child exists;

the control unit is arranged in the supporting unit and is respectively connected with the holographic display unit and the induction lighting unit.

Further, the support unit comprises a body element, a first support element and a platform element, wherein:

the main body element is arranged in an airship shape, the bottom end of the main body element is horizontally arranged, the front end of the main body element is provided with the holographic display unit, the left and right ends of the main body element are respectively provided with the slide unit, the ladder stand unit and the holographic display unit, the rear end and the top end of the main body element are provided with the unpowered pneumatic unit, and the top end of the main body element is provided with the induction lighting unit;

the first supporting element is obliquely arranged at the bottom of the main body element, and the bottom end of the first supporting element is arranged on the ground and is used for supporting the main body element;

the platform element is arranged in the middle of the main body element, and the left end and the right end of the platform element are respectively communicated with the slide unit and the climbing ladder unit.

Further, the support unit further comprises a number of window elements, wherein:

the window elements are arranged at the side part of the main body element at intervals, and at least one of the window elements is provided with the holographic display unit.

Further, the support unit further comprises a drainage element, wherein:

the top end of the drainage element penetrates through the top end of the main body element, and the bottom end of the drainage element is communicated with the outer wall of the main body element and is used for draining accumulated water at the top end of the main body element.

Further, the slide unit comprises a slide element, wherein:

the slide element is arranged at one of the left end and the right end of the supporting unit, the top end of the slide element is communicated with the middle part of the supporting unit, and the bottom end of the slide element is arranged on the ground and used for sliding of children.

Further, the slide unit further comprises a second support element, wherein:

the second supporting elements are vertically arranged at intervals at the bottom ends of the slide elements, the top ends of the second supporting elements are connected with the slide elements, the bottom ends of the second supporting elements are arranged on the ground and are used for supporting and fixing the slide elements.

Further, the ladder unit comprises a ladder element and a first guardrail element, wherein:

the ladder stand element is arranged at the other end of the left end and the right end of the supporting unit, the top end of the ladder stand element is communicated with the middle part of the supporting unit, and the bottom end of the ladder stand element is arranged on the ground for children to climb;

the first guardrail elements are arranged on two sides of the ladder stand element and are used for protecting children.

Further, the ladder stand unit further comprises a second barrier element, wherein:

the second guardrail element is arranged at the bottom end of the cat ladder element and is detachably connected with the first guardrail element for protecting children.

Further, the holographic display unit comprises a first holographic display element and a second holographic display element, wherein:

the first holographic display element is arranged on the side part of the supporting unit and connected with the control unit, and is used for playing images under the control of the control unit;

the second holographic display element is arranged at the front end of the supporting unit and connected with the control unit for playing the image under the control of the control unit.

Further, the unpowered pneumatic unit comprises a first unpowered pneumatic element and a second unpowered pneumatic element, wherein:

the first unpowered pneumatic element is arranged at the top end of the supporting unit and used for rotating under the action of wind power;

the second unpowered pneumatic element is arranged at the rear end of the supporting unit and used for rotating under the action of wind power.

Further, the induction lighting unit comprises an induction element and a lighting element, wherein:

the sensing element is arranged in and/or outside the supporting unit, is connected with the control unit, and is used for sensing whether a child exists or not and transmitting sensing information to the control unit;

the illumination element is arranged at the top end of the supporting unit and connected with the control unit, and is used for illuminating under the action of the control unit.

Further, the control unit comprises a control element, wherein:

the control element is arranged in the supporting unit, is respectively connected with the holographic display unit and the induction lighting unit, and is used for controlling the operation of the holographic display unit and the induction lighting unit.

Further, the airship-shaped interactive entertainment device further comprises a climbing unit, wherein:

the climbing unit is vertical set up in the bottom of supporting element, and its top with supporting element is linked together, and its bottom sets up in ground for children scramble.

Further, the climbing unit further comprises a climbing element, wherein:

the climbing element is vertical set up in the bottom of supporting element, and its top with supporting element is linked together, and its bottom sets up in ground for children scramble.

Compared with the prior art, the utility model has the following technical effects:

(1) According to the airship-shaped interactive entertainment device, the model of the supporting unit is decorated through the unpowered pneumatic unit, so that the airship-shaped interactive entertainment device can locally rotate when wind blows nearby, the structure of a slide is enriched, and the appearance is attractive and elegant;

(2) According to the airship-shaped interactive entertainment device, the interaction with the light of the child is realized through the cooperation between the induction lighting unit and the control unit, so that the interestingness is improved;

(3) According to the airship-shaped interactive entertainment device, the stereoscopic images related to the universe starry sky are put in through the cooperation between the holographic display unit and the control unit, so that children can intuitively know universe knowledge, experience feeling of being personally on the scene, improve interestingness, educate in the entertainment and expand thinking.

Drawings

FIG. 1 is a schematic view (one) of a partial cross-sectional structure of an airship-shaped interactive entertainment device according to the utility model;

FIG. 2 is a schematic perspective view of an airship-shaped interactive entertainment device according to the utility model;

fig. 3 is a schematic perspective view (one) of the supporting unit of the present utility model;

fig. 4 is a schematic perspective view (two) of the supporting unit of the present utility model;

FIG. 5 is a schematic perspective view of a slide unit of the present utility model;

fig. 6 is a schematic perspective view of a ladder stand unit of the present utility model;

fig. 7 is a schematic perspective view of a holographic display unit of the present utility model;

FIG. 8 is a schematic perspective view of an unpowered pneumatic unit in accordance with the present utility model;

fig. 9 is a schematic perspective view of an induction lighting unit of the present utility model;

FIG. 10 is a schematic diagram of a control unit of the present utility model;

FIG. 11 is a schematic view of a partial cross-sectional structure of an airship-shaped interactive entertainment device according to the utility model;

fig. 12 is a schematic perspective view of the climbing unit of the present utility model.

Wherein the reference numerals are as follows:

10. a supporting unit; 11. a body member; 12. a first support element; 13. a platform element; 14. a window element; 15. a drainage element;

20. a slide unit; 21. a slide element; 22. second support element

30. A ladder stand unit; 31. a ladder element; 32. a first barrier element; 33. a second barrier element;

40. a holographic display unit; 41. a first holographic display element; 42. a second holographic display element;

50. an unpowered pneumatic unit; 51. a first unpowered pneumatic element; 52. a second unpowered pneumatic element;

60. an induction lighting unit; 61. an inductive element; 62. a lighting element;

70. a control unit; 71. a control element;

80. a climbing unit; 81. climbing elements.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

It should be noted that, without conflict, the embodiments of the present utility model and features of the embodiments may be combined with each other.

The utility model is further described below with reference to the drawings and specific examples, which are not intended to be limiting.

Example 1

An exemplary embodiment of the present utility model, as shown in fig. 1 to 2, an airship-shaped interactive entertainment device includes a support unit 10, a slide unit 20, a ladder stand unit 30, a holographic display unit 40, an unpowered pneumatic unit 50, an induction lighting unit 60, and a control unit 70. Wherein the supporting unit 10 is in the shape of an airship, and the bottom of the supporting unit 10 is arranged on the ground; the slide unit 20 is disposed at one of the left and right ends of the support unit 10, and has a top end communicating with the middle of the support unit 10 and a bottom end disposed on the ground for sliding of the child; the ladder stand unit 30 is provided at the other end of the left and right ends of the support unit 10, and has a top end connected with the middle of the support unit 10 and a bottom end provided on the ground for children to climb; the holographic display unit 40 is disposed at the side and front end of the support unit 10 and connected to the control unit 70 for playing images under the control of the control unit 70; the unpowered pneumatic unit 50 is arranged at the top end and the rear end of the supporting unit 10 and is used for rotating under the action of wind power; the sensing lighting unit 60 is disposed at the top end of the supporting unit 10 and connected with the control unit 70, for sensing whether a child exists or not and lighting in case that the child exists; the control unit 70 is disposed inside the support unit 10 and is connected to the holographic display unit 40 and the induction lighting unit 60, respectively.

As shown in fig. 3 to 4, the support unit 10 includes a main body member 11, a first support member 12, and a platform member 13. Wherein, the main body element 11 is arranged in an airship shape, the bottom end of the main body element 11 is horizontally arranged, the front end of the main body element is provided with a holographic display unit 40, the left and right ends of the main body element are respectively provided with a slide unit 20, a ladder stand unit 30 and a holographic display unit 40, the rear end and the top end of the main body element are provided with an unpowered pneumatic unit 50, and the top end of the main body element is provided with an induction lighting unit 60; the first supporting element 12 is obliquely arranged at the bottom of the main body element 11, and the bottom end of the first supporting element is arranged on the ground for supporting the main body element 11; the platform member 13 is provided in the middle of the main body member 11, and both left and right ends thereof are respectively communicated with the slide unit 20 and the ladder stand unit 30.

Wherein the platform element 13 communicates with the top end of the slide unit 20 and the top end of the crawling ladder unit 30, respectively.

The first support members 12 are provided at both front and rear ends of the main body member 11.

In some embodiments, the number of the first supporting elements 12 is four, and the first supporting elements are symmetrically arranged at the bottom of the main body element 11.

In some of these embodiments, the first support element 12 is a bottom bracket.

The platform element 13 is provided inside the main body element 11, and is provided with inlets at both left and right ends of the main body element 11, and is connected to the slide unit 20 and the ladder stand unit 30 through the inlets, respectively.

In some of these embodiments, the platform element 13 is a resting platform.

Further, the body element 11 also comprises several window elements 14. Wherein a plurality of window elements 14 are disposed at intervals on the side of the main body element 11, at least one window element 14 is mounted with a holographic display unit 40.

A plurality of window elements 14 are provided at intervals in the middle upper portion of the left and right ends of the main body element 11.

In some of these embodiments, several window elements 14 are located above the ladder unit 30.

In some of these embodiments, a window element 14 is connected to the top end of the slide unit 20, the window element 14 being considered an entrance to the body element 11.

In some of these embodiments, a window element 14 is provided on each side of an inlet on one side of the body element 11; an inlet on the other side of the body element 11 is provided below the window element 14.

In some of these embodiments, a window element 14 is provided on each side of the inlet on each side of the body element 11.

In some of these embodiments, 6 window elements 14 are provided at the middle upper portion of the left and right ends of the main body element 11 at symmetrical intervals.

Further, the support unit 10 further comprises a drainage element 15. The top end of the drainage element 15 is penetrated at the top end of the main body element 11, and the bottom end of the drainage element is communicated with the outer wall of the main body element 11, so as to drain accumulated water at the top end of the main body element 11.

In some embodiments, the drainage elements 15 are several and pass through the main body element 11 at intervals.

In some of these embodiments, the drain element 15 is a drain pipe.

As shown in fig. 5, the slide unit 20 includes a slide element 21. Wherein the slide member 21 is provided at one of the left and right ends of the support unit 10, and has a top end communicating with the middle of the support unit 10 and a bottom end provided on the ground for sliding of the child.

Specifically, the slide member 21 is provided at one of the left and right ends of the main body member 11, and the tip end thereof communicates with the platform member 13.

The slide member 21 is spirally formed, and has a top end connected to an inlet of the platform member 13 and a bottom end located at a front end of the body member 11.

In some of these embodiments, the slide element 21 is a stationary slide.

In some of these embodiments, the slide element 21 is a cylindrical slide.

Further, the slide unit 20 also comprises a second support element 22. The second supporting elements 22 are vertically arranged at intervals at the bottom ends of the slide elements 21, the top ends of the second supporting elements are connected with the slide elements 21, the bottom ends of the second supporting elements are arranged on the ground, and the second supporting elements are used for supporting and fixing the slide elements 21.

The number of the second supporting elements 22 is several, the second supporting elements 22 are arranged at intervals, and the heights of the second supporting elements 22 are different.

In some of these embodiments, the second support element 22 is a support bar.

In some of these embodiments, the number of second support elements 22 is 2.

As shown in fig. 6, the ladder unit 30 includes a ladder element 31 and a first rail element 32. Wherein, the ladder stand element 31 is arranged at the other end of the left and right ends of the supporting unit 10, the top end thereof is communicated with the middle part of the supporting unit 10, and the bottom end thereof is arranged on the ground for children to climb; the first barrier members 32 are provided on both sides of the ladder stand member 31 for protecting children.

Specifically, the ladder member 31 is provided at the other end of the left and right ends of the main body member 11, and the tip thereof communicates with the platform member 13.

The ladder element 31 is stepped and has its top end connected to the other entrance of the platform element 13.

In some of these embodiments, the top end of the ladder element 31 is located below the window element 14.

In some of these embodiments, a window element 14 is provided on each side of the top end of the ladder element 31.

In some of these embodiments, the ladder element 31 is a ladder.

In some of these embodiments, the first barrier element 32 is a hand rail.

In some of these embodiments, the first barrier element 32 is a grid-like barrier, i.e. the first barrier element 32 on one side of the ladder element 31 is formed by a number of vertical bars and a rail. Wherein the vertical bars are arranged perpendicular to the steps of the ladder element 31 and in the middle of the steps.

In some of these embodiments, the first barrier element 32 is a plate-shaped barrier, i.e. the first barrier element 32 on one side of the ladder element 31 is constituted by a guard plate, avoiding that the child's arms or legs extend outwards from the first barrier element 32.

Further, the ladder unit 30 further comprises a second barrier element 33. The second guardrail element 33 is disposed at the bottom end of the ladder stand element 31 and detachably connected to the first guardrail element 32 for protecting children.

In some of these embodiments, the second barrier element 33 is a grid-like barrier. Wherein, one end of the second guardrail element 33 is hinged to the first guardrail element 32 arranged on one side of the ladder element 31, and the other end is detachably connected with the first guardrail element 32 arranged on the other side of the ladder element 31.

As shown in fig. 7, the holographic display unit 40 includes a first holographic display element 41 and a second holographic display element 42. The first holographic display element 41 is disposed at a side portion of the support unit 10 and connected to the control unit 70, for playing an image under the control of the control unit 70; the second holographic display element 42 is disposed at the front end of the support unit 10 and connected to the control unit 70 for playing images under the control of the control unit 70.

Specifically, the first holographic display element 41 is provided at the side of the main body element 11; the second holographic display element 42 is disposed at the front end of the body element 11.

More specifically, the first holographic display element 41 is detachably mounted to the interior of the window element 14.

More specifically, the first holographic display element 41 is detachably mounted inside the window element 14 on the same side as the ladder element 31.

The control unit 70 sends out instructions, and the control unit 70 controls the first holographic display element 41 and the second holographic display element 42 to play images respectively.

In some of these embodiments, the first holographic display element 41 is a number that is less than or equal to the number of window elements 14.

In some embodiments, the number of first holographic display elements 41 is equal to the number of window elements 14 on the same side of the ladder element 31, i.e. each window element 14 on the same side of the ladder element 31 is provided with a first holographic display element 41.

In some of these embodiments, the first holographic display element 41 is a holographic display screen. Specifically, the holographic display screen consists of a display module, a video processor, multimedia playing software, a distribution box and the like; by presenting 3D virtual pictures and combining holographic technology with the child amusement art device, the 3D images in the aspects of child animation images and cosmic stars can be rolled and played, and the presented 3D virtual stereoscopic images can be subjected to technological interaction with children

In some of these embodiments, the first holographic display element 41 is 3.

The second holographic display element 42 is detachably mounted to the front end of the main body element 11.

The second holographic display element 42 is shaped to match the front end of the body element 11 to present the head end of the airship.

In some embodiments, the second holographic display element 42 is a holographic display screen, and is used for throwing an interactive pattern of a space to present a 3D virtual stereoscopic image, so that children can more intuitively understand the space knowledge, experience the feeling of being personally on the scene, and feel the shock brought by the information technology while playing.

As shown in fig. 8, the unpowered pneumatic unit 50 includes a first unpowered pneumatic element 51 and a second unpowered pneumatic element 52. The first unpowered pneumatic element 51 is arranged at the top end of the supporting unit 10 and is used for rotating under the action of wind power; the second unpowered pneumatic element 52 is disposed at the rear end of the supporting unit 10 for rotation under the wind force.

Specifically, the first passive pneumatic element 51 is disposed at the top end of the main body element 11; the second unpowered pneumatic element 52 is disposed at the rear end of the main body element 11.

The first unpowered pneumatic element 51 is of a plant-shaped design including, but not limited to, flowers, grass, etc., and is capable of rocking or rotating under the influence of wind.

In some embodiments, the first passive wind-driven elements 51 are disposed at intervals on the top end of the main body 11.

The second unpowered pneumatic element 52 is windmill shaped and is capable of rotating under the force of wind to simulate the operation of the airship.

As shown in fig. 9, the induction lighting unit 60 includes an induction element 61 and a lighting element 62. The sensing element 61 is disposed inside and/or outside the supporting unit 10, and is connected to the control unit 70, and is used for sensing whether a child exists or not, and transmitting sensing information to the control unit 70; the illumination element 62 is disposed at the top end of the support unit 10 and connected to the control unit 70 for illumination under the action of the control unit 70.

Specifically, the sensing element 61 is provided to the body element 11 and/or the platform element 13; the illumination element 62 is provided at the top end of the body element 11.

The sensing element 61 senses whether a child exists or not, and transmits sensing information to the control unit 70, and the control unit 70 judges whether the child exists or not according to the received information, so as to send out an instruction; when the control unit 70 determines that there is a child, the control unit 70 controls the illumination element 62 to illuminate.

In some of these embodiments, a sensing element 61 is provided inside the platform element 13 for sensing whether a child is inside the platform element 13.

In some of these embodiments, a sensing element 61 is provided at a side of the main body element 11 for sensing whether there is a child around the main body element 11.

In some of these embodiments, the sensing element 61 is one, and the sensing element 61 corresponds to the illumination element 62, so that the corresponding illumination element 62 illuminates.

In some embodiments, the sensing elements 61 are a plurality of sensing elements 61, and the plurality of sensing elements 61 are distributed and arranged for sensing whether children exist at different positions, so as to control the illumination elements 62 at corresponding positions to illuminate.

In some embodiments, the number of sensing elements 61 is matched to the number of first unpowered pneumatic elements 51, i.e. a first unpowered pneumatic element 51 is provided with at least one sensing element 61.

In some of these embodiments, the sensing element 61 includes, but is not limited to, an infrared sensor.

The number of lighting elements 62 matches the number of first unpowered pneumatic elements 51. Typically, each first passive pneumatic element 51 is provided with at least one lighting element 62.

The number of the illumination elements 62 is matched with the number of the sensing elements 61, and the sensing elements comprise a sensing element 61 corresponding to a plurality of illumination elements 62, a sensing element 61 corresponding to a lighting element 62, and a plurality of sensing elements 61 corresponding to a lighting element 62.

In some of these embodiments, the lighting element 62 is a decorative light.

In some of these embodiments, the lighting element 62 is an LED lamp.

In some of these embodiments, the lighting elements 62 are provided in a plurality and spaced apart from the first plurality of passive wind-powered elements 51.

As shown in fig. 10, the control unit 70 includes a control element 71. The control element 71 is disposed inside the support unit 10 and connected to the holographic display unit 40 and the induction lighting unit 60, respectively, for controlling the operation of the holographic display unit 40 and the induction lighting unit 60.

Specifically, the control element 71 is disposed inside the main body element 11, and is connected to the first holographic display element 41, the second holographic display element 42, the sensing element 61, and the illumination element 62, respectively.

In some of these embodiments, the control element 71 is a single chip microcomputer, a controller, a PLC, or the like.

The application method of the utility model is as follows:

the child moves to the platform element 13 by climbing the ladder element 31;

when a child is on the platform element 13, the sensing element 61 transmits its monitoring information to the control element 71; the control element 71 determines whether a child is on the platform element 13 based on the received information, thereby giving an instruction;

when the control element 71 judges that a child is on the platform element 13, the control element 71 controls the corresponding illumination element 62 to illuminate;

the child travels via the platform element 13 to the slide element 21, sliding on the slide element 21.

When wind blows around the support unit 10, the first and second unpowered wind driven elements 51 and 52 are rotated by the wind.

The utility model has the advantages that the model of the supporting unit is decorated by the unpowered pneumatic unit, so that the airship-shaped interactive entertainment device locally rotates when wind blows nearby, the structure of the slide is enriched, and the model is attractive and elegant; the interaction between the induction lighting unit and the control unit is realized to realize the lamplight interaction with children, so that the interestingness is improved; through the cooperation between holographic display unit and the control unit, put in the relevant stereoscopic image of universe sky, let children can more directly perceived know the universe knowledge, experience feeling of being personally on the scene, improve the interest, extend children's thinking.

Example 2

This embodiment is a modified embodiment of embodiment 1.

As shown in fig. 11, the airship-shaped interactive entertainment device further includes a climbing unit 80. Wherein, climbing unit 80 is vertical to be set up in the well lower part of supporting unit 10, and its top is linked together with supporting unit 10, and its bottom sets up in ground for children scramble.

As shown in fig. 12, the climbing unit 80 includes a climbing element 81. Wherein, climbing unit 80 is vertical to be set up in the bottom of supporting element 10, and its top is linked together with supporting element 10, and its bottom sets up in ground for children scramble.

Specifically, the climbing member 81 is vertically provided at the bottom end of the main body member 11, and the top end thereof communicates with the platform member 13.

In some of these embodiments, the climbing element 81 is a cylindrical climbing frame.

The application method of the utility model is as follows:

the child moves to the platform element 13 by climbing the climbing element 81;

when a child is on the platform element 13, the sensing element 61 transmits its monitoring information to the control element 71; the control element 71 determines whether a child is on the platform element 13 based on the received information, thereby giving an instruction;

when the control element 71 judges that a child is on the platform element 13, the control element 71 controls the corresponding illumination element 62 to illuminate;

the child travels via the platform element 13 to the slide element 21, sliding on the slide element 21.

When wind blows around the support unit 10, the first and second unpowered wind driven elements 51 and 52 are rotated by the wind.

The utility model has the advantages that the climbing unit is additionally arranged, so that the path from the child to the platform element is additionally arranged, and the interestingness is improved.

The foregoing description is only illustrative of the preferred embodiments of the present utility model and is not to be construed as limiting the scope of the utility model, and it will be appreciated by those skilled in the art that equivalent substitutions and obvious variations may be made using the description and illustrations of the present utility model, and are intended to be included within the scope of the present utility model.

Claims (10)

1. The utility model provides an interactive entertainment device of airship shape, its characterized in that includes supporting element (10), slide unit (20), cat ladder unit (30), holographic display unit (40), unpowered pneumatic unit (50), response lighting unit (60) and control unit (70), wherein:

the support unit (10) is in the shape of an airship, and the bottom of the support unit (10) is arranged on the ground;

the slide unit (20) is arranged at one of the left end and the right end of the supporting unit (10), the top end of the slide unit is communicated with the middle part of the supporting unit (10), and the bottom end of the slide unit is arranged on the ground for sliding of children;

the ladder stand unit (30) is arranged at the other end of the left end and the right end of the supporting unit (10), the top end of the ladder stand unit is communicated with the middle part of the supporting unit (10), and the bottom end of the ladder stand unit is arranged on the ground for children to climb;

the holographic display unit (40) is arranged at the side part and the front end of the supporting unit (10) and is connected with the control unit (70) for playing images under the control of the control unit (70);

the unpowered pneumatic unit (50) is arranged at the top end and the rear end of the supporting unit (10) and is used for rotating under the action of wind power;

the induction lighting unit (60) is arranged at the top end of the supporting unit (10) and is connected with the control unit (70) for inducing whether a child exists or not and lighting under the condition that the child exists;

the control unit (70) is arranged in the supporting unit (10) and is respectively connected with the holographic display unit (40) and the induction lighting unit (60).

2. Airship-shaped interactive entertainment device according to claim 1, characterized in that the support unit (10) comprises a body element (11), a first support element (12) and a platform element (13), wherein:

the main body element (11) is arranged in an airship shape, the bottom end of the main body element (11) is horizontally arranged, the front end of the main body element is provided with the holographic display unit (40), the left end and the right end of the main body element are respectively provided with the slide unit (20), the ladder stand unit (30) and the holographic display unit (40), the rear end and the top end of the main body element are provided with the unpowered pneumatic unit (50), and the top end of the main body element is provided with the induction lighting unit (60);

the first supporting element (12) is obliquely arranged at the bottom of the main body element (11), and the bottom end of the first supporting element is arranged on the ground and is used for supporting the main body element (11);

the platform element (13) is arranged in the middle of the main body element (11), and the left end and the right end of the platform element are respectively communicated with the slide unit (20) and the cat ladder unit (30); and/or

The slide unit (20) comprises a slide element (21), wherein:

the slide element (21) is arranged at one of the left end and the right end of the supporting unit (10), the top end of the slide element is communicated with the middle part of the supporting unit (10), and the bottom end of the slide element is arranged on the ground for sliding of children; and/or

The ladder unit (30) comprises a ladder element (31) and a first guardrail element (32), wherein:

the ladder stand element (31) is arranged at the other end of the left end and the right end of the supporting unit (10), the top end of the ladder stand element is communicated with the middle part of the supporting unit (10), and the bottom end of the ladder stand element is arranged on the ground for children to climb;

the first guardrail elements (32) are arranged on two sides of the ladder stand element (31) and are used for protecting children.

3. The airship-shaped interactive entertainment device according to claim 2, characterized in that the support unit (10) further comprises several window elements (14), wherein:

the window elements (14) are arranged at the side part of the main body element (11) at intervals, and at least one window element (14) is provided with the holographic display unit (40); and/or

The support unit (10) further comprises a drainage element (15), wherein:

the top end of the drainage element (15) penetrates through the top end of the main body element (11), and the bottom end of the drainage element is communicated with the outer wall of the main body element (11) and is used for draining accumulated water at the top end of the main body element (11).

4. The airship-shaped interactive entertainment device according to claim 2, characterized in that the slide unit (20) further comprises a second support element (22), wherein:

the second supporting element (22) is vertically arranged at the bottom end of the slide element (21) at intervals, the top end of the second supporting element is connected with the slide element (21), and the bottom end of the second supporting element is arranged on the ground and used for supporting and fixing the slide element (21); and/or

The ladder stand unit (30) further comprises a second barrier element (33), wherein:

the second guardrail element (33) is arranged at the bottom end of the cat ladder element (31) and is detachably connected with the first guardrail element (32) for protecting children.

5. The airship-shaped interactive entertainment device according to claim 1, characterized in that the holographic display unit (40) comprises a first holographic display element (41) and a second holographic display element (42), wherein:

the first holographic display element (41) is arranged at the side part of the supporting unit (10) and is connected with the control unit (70) for playing images under the control of the control unit (70);

the second holographic display element (42) is arranged at the front end of the supporting unit (10) and is connected with the control unit (70) for playing images under the control of the control unit (70).

6. The airship-shaped interactive entertainment device according to claim 1, characterized in that the unpowered pneumatic unit (50) comprises a first unpowered pneumatic element (51) and a second unpowered pneumatic element (52), wherein:

the first unpowered pneumatic element (51) is arranged at the top end of the supporting unit (10) and is used for rotating under the action of wind force;

the second unpowered pneumatic element (52) is arranged at the rear end of the supporting unit (10) and is used for rotating under the action of wind force.

7. The airship-shaped interactive entertainment device according to claim 1, characterized in that the induction lighting unit (60) comprises an induction element (61) and a lighting element (62), wherein:

the sensing element (61) is arranged inside and/or outside the supporting unit (10), is connected with the control unit (70), and is used for sensing whether a child exists or not and transmitting sensing information to the control unit (70);

the illumination element (62) is arranged at the top end of the supporting unit (10) and is connected with the control unit (70) for illumination under the action of the control unit (70).

8. Airship-shaped interactive entertainment device according to claim 1, characterized in that the control unit (70) comprises a control element (71), wherein:

the control element (71) is arranged in the supporting unit (10), is respectively connected with the holographic display unit (40) and the induction lighting unit (60), and is used for controlling the operation of the holographic display unit (40) and the induction lighting unit (60).

9. The airship-shaped interactive entertainment device according to any one of claims 1 to 8, characterized by further comprising a climbing unit (80), wherein:

the climbing unit (80) is vertically arranged at the bottom of the supporting unit (10), the top end of the climbing unit is communicated with the supporting unit (10), and the bottom end of the climbing unit is arranged on the ground and used for climbing children.

10. The airship-shaped interactive entertainment device according to claim 9, characterized in that the climbing unit (80) further comprises a climbing element (81), wherein:

the climbing element (81) is vertically arranged at the bottom of the supporting unit (10), the top end of the climbing element is communicated with the supporting unit (10), and the bottom end of the climbing element is arranged on the ground and used for climbing children.

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