JP5610619B2 - Playground equipment and playground equipment system - Google Patents

Description

  The present invention relates to a playground equipment device and a playground equipment system, and more particularly to a playground equipment device and a playground equipment system in which filled air hardly leaks for a long time.

  A playground equipment provided with a soft member at a predetermined location is popular with children and is highly demanded as a playground equipment. A manufacturer of a playground equipment device can form the soft member by processing an elastic member such as sponge or urethane, or form an elastic sheet in a bag shape and fill the bag with air. Many. For example, in Patent Document 1 below, when an elastic member having a predetermined shape is installed, an elastic sheet is sewn into a predetermined shape with a sewing machine or the like, air is fed from the opening end with a blower or the like, and the elastic member is A technique for achieving an elastic state is disclosed.

JP 2005-131063 A

  As in the technique disclosed in the above patent document, a technique of sewing an elastic sheet with a sewing machine and injecting air from an opening is often used in the technical field of the present invention. If it is a simple bag-like elastic sheet, it can not be used for playground equipment with complicated shapes, and when applied to playground equipment that needs to be mass-produced, rather than processing urethane or sponge into a predetermined shape Because it is efficient. However, as described above, when sewing is performed with a perforation or the like, some air leaks from the perforations. Therefore, in the case of the above-described playground equipment by the sewing process, air is discharged over time, so that air must be continuously fed by a blower or the like in order to maintain a certain elasticity in the member.

That is, since it is necessary to always install an air feeding means such as a blower, it has been a problem of the above playground equipment to secure an installation place of the air feeding means. It is possible to install the air feeding means in the play equipment device so that the air feeding means cannot be seen from the outside, but it is necessary to secure a place for placing the air feeding means in the play equipment device. There has been a demand for a playground equipment that does not require a means of delivery. An object of the present invention is to provide a playground equipment that can process a playground equipment having a somewhat complicated shape without always installing an air feeding means such as a blower.

  The present invention for achieving the above object is premised on a playground equipment comprising an elastic playground equipment that retains elasticity by being filled with air and a base body device on which the elastic playground equipment is disposed. The elastic playground equipment of the playground equipment according to the present invention is a playground equipment formed by connecting a plurality of elastic units that are formed of an elastic sheet and can be filled with air in an airtight manner, and can communicate with an air flow path. A communication hole is formed in the elastic unit. And each elastic unit is connected via the said communicating hole. Furthermore, a valve body for sending air into the elastic unit is provided.

If it is said structure, a playground equipment apparatus is comprised by arrange | positioning on the base | substrate the elastic playground equipment with which the several elastic unit which can be filled with air airtightly was connected. Therefore, since the play unit having a complicated shape can be configured by connecting the elastic units, it is not necessary to always operate an air feeding means such as a blower. That is, in order to send air into the elastic unit, air feeding means such as a blower is required, but it is not always necessary to operate the blower due to air leakage.

In the above configuration, the base device can employ a configuration (rotary base) in which the lower rotary body and the upper rotary body are stacked with the central axis aligned. The lower rotating body includes a lower substrate and a drive motor. The drive motor is a motor that is disposed at the center of the upper surface of the lower substrate and can rotate the upper rotating body. A caster that supports the upper rotating body is provided at a position where the upper rotating body can rotate around the central axis. The casters are desirably provided on a predetermined circumference on the lower rotating body.

Furthermore, a base body device (rotary base body) that rotates eccentrically from the central axis can be configured as follows. That is, it is possible to adopt a configuration in which the base body device is formed by laminating the lower rotating body and the upper rotating body with the central axis aligned. The lower rotating body includes a lower substrate and a drive motor. The drive motor is a motor that is disposed at the center of the upper surface of the lower substrate and can rotate the upper rotating body. A caster for supporting the upper rotating body is provided at a position where the crank is pivotally supported on the rotating shaft rotated by the drive motor and the upper rotating body is rotatable about the central axis. That is, the elastic playground tool rotates eccentrically together with the rotating base. The casters are preferably provided on a predetermined circumference on the lower rotating body.

In the above configuration, it is possible to adopt a configuration in which the elastic playground equipment is arranged on the base body device in an inclined state. By arranging the elastic playground equipment in an inclined state on the rotating base, it is possible to cause complicated rotation with a simple configuration.

  In the above configuration, by including a slip ring that supplies power to the playground equipment, even if the playground equipment is rotating, it is possible to supply power to an electric decoration member such as an LED provided in the playground equipment. . Further, a torque limiter may be provided that is attached to the rotation shaft of the drive motor and controls the drive torque of the rotation shaft to be within a predetermined value. The elastic playground equipment may be a playground equipment that simulates a yacht. You may provide the elastic unit for seat parts which made the elasticity of the elastic unit soft.

The elastic playground equipment disposed on the base device is not limited. For example, a climbing stick, a rotating playground equipment, a steel bar, a slide, a swing, a jungle gym, a hunting, a seesaw, a playground equipment such as a jungle gym, and a combination of the play equipment may be configured by connecting the elastic units.

A playground equipment system including a plurality of playground equipment configured as described above can also be configured. Each playground equipment of the playground equipment system includes a camera capable of photographing a user and a monitor capable of projecting a video in an elastic playground equipment. And the video image | photographed with one playground equipment is transmitted to another playground equipment, and it can project on the monitor with which the said other playground equipment was equipped.

  The present invention is premised on a playground equipment comprising an elastic playground equipment that retains elasticity by being filled with air and a base device on which the elastic playground equipment is disposed. The elastic playground equipment of the playground equipment according to the present invention is a playground equipment formed by connecting a plurality of elastic units that are formed of an elastic sheet and can be filled with air in an airtight manner, and can communicate with an air flow path. A communication hole is formed in the elastic unit. And each elastic unit is connected via the said communicating hole. Furthermore, a valve body for sending air into the elastic unit is provided.

If it is said structure, a playground equipment apparatus is comprised by arrange | positioning on the base | substrate the elastic playground equipment with which the several elastic unit which can be filled with air airtightly was connected. Therefore, since the play unit having a complicated shape can be configured by connecting the elastic units, it is not necessary to always operate an air feeding means such as a blower.

It is a conceptual diagram which shows the whole structure of the playground equipment apparatus which concerns on embodiment of this invention. It is a conceptual diagram which shows the whole structure when the playground equipment apparatus which concerns on embodiment of this invention is seen from upper direction. It is a conceptual diagram which shows the whole structure of the playground equipment apparatus which concerns on embodiment of this invention. It is a conceptual diagram which shows the whole structure of the playground equipment apparatus which concerns on embodiment of this invention. It is a conceptual diagram which shows the whole structure of the playground equipment apparatus which concerns on embodiment of this invention. It is a conceptual diagram which shows the whole structure of the playground equipment system provided with two or more playground equipment apparatuses which concern on embodiment of this invention. It is a conceptual diagram which shows the whole structure of the rotary base | substrate with which the playground equipment apparatus which concerns on embodiment of this invention is provided. It is a conceptual diagram which shows the whole structure of the base | substrate apparatus (rotary base | substrate) with which the playground equipment apparatus which concerns on embodiment of this invention is provided. It is a conceptual diagram which shows the whole structure of the playground equipment apparatus which concerns on embodiment of this invention. It is a conceptual diagram which shows the whole structure of the playground equipment apparatus which concerns on embodiment of this invention.

(Embodiment 1)
Below, the playground equipment 100 of this invention is demonstrated with reference to drawings. FIG. 1 is a schematic diagram showing the overall configuration of the playground equipment 100 according to the present invention, FIG. 2 is a schematic view when the playground equipment according to the present invention is viewed from above, and FIG. 3 is viewed from the side. FIG. 4 and 5 are schematic schematic diagrams showing the overall configuration of a playground equipment 100 according to another embodiment of the present invention. However, details of each part not directly related to the present invention are omitted. The description of the rotating base 200 (corresponding to the base unit) shown in FIGS. 3 and 5 will be described later.

That is, as shown in FIG. 1, the playground equipment 100 of the present invention is assembled by forming a plurality of elastic units 110 with elastic sheets or the like and connecting the plurality of elastic units 110 to each other. First, the elastic unit 110 is formed as follows. For example, the elastic unit 110 is formed by welding a predetermined elastic sheet to form a cylinder and welding the upper and lower open ends with a circular elastic sheet. Note that the elastic unit 110 can be manufactured by any method as long as air can be hermetically filled therein.

And when connecting the said elastic unit 110, a hole (equivalent to the communicating hole 114 of this invention) is opened in the predetermined location of each elastic unit 110 which is going to connect. The two elastic units 110 are connected so that the formed communication holes 114 are brought into contact with each other (the air flow paths need only be in communication with each other, and the communication holes 114 are not necessarily in contact with each other). That is, an air flow path (for example, corresponding to the arrow shown in FIG. 2) is communicated with the elastic unit 110 through the communication hole 114. Therefore, when air is sent from the outside to the one elastic unit 110, it is possible to fill the plurality of elastic units 110 having the air flow paths communicated with each other. As a connecting member (not shown) of the elastic unit 110, an adhesive tape may be used, or a configuration in which a plurality of elastic units 110 are welded together may be employed. By connecting a plurality of elastic units 110, it is possible to configure a play device member 120 having a complicated shape (corresponding to the elastic play device of the present invention) as an assembly of the elastic units 110.

Furthermore, an air inlet for sending air from the outside is provided in any one of the plurality of elastic units 110. For example, a hole is formed in a predetermined portion of the selected one elastic unit 110, and the valve body 112 is attached to the hole as an air inlet. The valve body 112 may be made of any material as long as the air inlet / outlet can be opened and closed by a predetermined method. In the present invention, the valve body 112 integrally molded with plastic or the like using a predetermined mold is used.

It is also possible to form a plurality of playground equipment members 120 configured as described above, and to configure a playground equipment member 120 (corresponding to the elastic playground equipment of the present invention) having a complicated shape as an aggregate of the plurality of playground equipment members 120. For example, by connecting or independent between the play equipment members 120 so that the air flow paths do not communicate with each other, when the air is fed from the valve body 112 provided in one play equipment member 120, It can be configured not to be filled with air. By configuring as described above, even if, for example, one playground equipment member 120 is damaged and air leaks, only the damaged playground equipment 120 needs to be replaced or repaired. All playground equipment members 120 need not be replaced or repaired.

Next, an example of the playground equipment 100 to which the playground equipment member 120 is applied will be described. A substrate (not shown) is disposed on a rotating base 200 (corresponding to the base device of the present invention) described later. In the present embodiment, in order to constitute the playground equipment 100 shaped like a yacht, the substrate disposed on the rotary base 200 is processed into a shape imitating the shape of a yacht deck. In this example, the top of the rectangular plate was processed into a tapered shape to form a deck-shaped substrate.

As described above, when the substrate is disposed on the rotating base 200, the play equipment member 120 constituted by the elastic unit 110 is disposed on the substrate. In this embodiment, the elastic units 110 formed in a cylindrical shape are arranged along the outer periphery of the substrate, and the elastic units 110 are connected so that the air flow paths communicate with each other. And the play equipment member 120 was comprised by providing the air inlet (valve body 112) in any one elastic unit 110. FIG.

As described above, a configuration may be employed in which the seat elastic unit 110 is disposed between the side elastic units 110 of the play equipment member 120 provided along the outer periphery of the board. Furthermore, it is desirable to adjust the amount of air filled in the seat elastic unit 110 so as to be softer than the elastic unit 110 disposed on the outer periphery of the substrate. By configuring the member used as the seat (elastic unit for seat 110) to be softer than the member (elastic unit 110) arranged on the outer periphery of the board, a user sitting on the elastic unit for seat 110 can play stably. It becomes possible to do. By arranging the pole 140 and the sail 142 in the play equipment 100 simulating the yacht in the same manner as an actual yacht, it is possible to provide the play equipment 100 simulating an actual yacht.

Next, with reference to FIGS. 4 and 5, a playground equipment device 100 according to another embodiment including the elastic unit 110 will be described. The playground equipment 100 according to the present embodiment includes a base device (a rotary base 200 described later), a control unit storage device 160, a camera 167, and a monitor 166. The control unit storage device 160, the camera 167, and the monitor 166 may employ a configuration that is covered with the playground equipment member 120 configured by the elastic unit 110.

A decorative body 150 may be disposed above the monitor 166. For example, in the playground equipment 100 of the present invention shown in FIG. A ring is arranged as a decorative body 150 above the control unit storage device 160 to constitute a UFO type decorative body as a whole. The ring may be formed by connecting the elastic units 110, or the ring-shaped elastic unit 110 may be formed. Further, a support 155 is formed to arrange the ring.

The support 155 can be formed by bending a metal cylinder and standing on the rotating base 200. And the structure which the support body 155 supports the said decoration body 150 is employ | adopted. In the above case, the support 155 is covered with an elastic body such as urethane. Alternatively, a configuration in which the support body 155 is formed by connecting the cylinder formed by the elastic unit 110 in a bent state, and one end of the support body 155 is erected on the upper surface of the rotating base 200 may be adopted. Good. The other end of the support body 155 is combined with a ring (corresponding to the decorative body 150) so that the support body 155 supports the ring.

Further, it is possible to adopt a configuration in which a ball (not shown) is arranged at the center of the ring. As with the elastic unit 110, the ball is preferably formed of an elastic sheet. You may comprise the said ball | bowl with elastic bodies, such as urethane. Furthermore, you may employ | adopt the structure by which the inside of the said ball | bowl is decorated with a lighting decoration body (for example, LED).

Furthermore, the control unit storage device 160, the camera 167, and the monitor 166 provided in the playground equipment 100 of the present embodiment are shown in FIG. The control unit stored in the control unit storage device 160 can control the monitor 166 and the camera 167 and transmit the user's video image displayed on the monitor 166 to the remote playground equipment 100. As described above, the images captured by the cameras 167 included in each other's playground equipment 100 are transmitted and received, so that users at remote locations can communicate with each other. Therefore, it is possible to configure as a playground equipment system 300 (described later) including a plurality of playground equipment 100 of the present embodiment. The shape of the control unit storage device 160 is arbitrary as long as the monitor 166 can be disposed on the upper portion. In this embodiment, a hollow cylindrical body is used as the control unit storage device 160.

As described above, when the control unit storage device 160 is arranged on the rotary base 200, the monitor 166 and the camera 167 are arranged on the upper part of the control unit storage device 160. For example, in this embodiment, the monitor 166 is covered so that the video display unit can be visually recognized from the outside, and the monitor 166 is arranged on the control unit storage device 160. The monitor 166 can be covered with a play equipment member 120 to which the elastic unit 110 is connected. Or you may coat | cover with elastic bodies, such as urethane, a reinforced plastic. In the case of covering with an elastic body such as urethane, the image display unit of the monitor 166 is covered with being exposed to the outside. Also when covering with the elastic unit 110, the monitor periphery can be covered with the elastic unit 110 or the play equipment member 120 constituted by the elastic unit 110 in a state where the image display portion of the monitor 166 is exposed to the outside.

Furthermore, the playground equipment 100 of the embodiment shown in FIG. 5 includes a camera 167 that can photograph a user who plays with the apparatus 100 (assuming a young person such as an infant). For example, the camera 167 can be provided on the control unit storage device 160. At this time, the direction of the camera 167 is set in the control unit storage device 160 in a state where the play equipment 100 and the user playing the play equipment in the vicinity of the equipment 100 can be photographed.

FIG. 6 is a schematic configuration diagram of control system hardware of a playground equipment system 300 using the playground equipment 100 of the present invention. However, details of each part not directly related to the present invention are omitted. The control circuit of the playground equipment system 300 of the present invention includes a CPU (Central Processing Unit) 301, a ROM (Read Only Memory) 302, a RAM (Random Access Memory) 303, an HDD (Hard Disk Drive) 304, and drivers corresponding to the respective driving units. 305 are connected by an internal bus 306. The CPU 301 uses, for example, the RAM 303 as a work area, executes a program stored in the ROM 302, the HDD 304, and the like, and transmits and receives data and instructions of the driver 305 based on the execution result. To control the operation. A server 360 for transmitting / receiving the video of the camera 167 to / from the playground equipment 100 is provided, and the data is transmitted / received via the network 351.

(Rotating substrate)
Next, a rotating base body 200 as a base body device provided in the play equipment 100 of the present invention will be described with reference to the drawings. 7 and 8 are conceptual schematic diagrams of the rotating base. However, details of each part not directly related to the present invention are omitted. The rotating base 200 includes an upper rotating body 210 and a lower rotating body 130. The upper rotating body 210 is a circular substrate, but may be rectangular or polygonal as long as rotation does not hinder.

As shown in FIG. 8A, the lower rotating body 220 includes a central gear 227, a drive motor 226 that drives the central gear 227, and a caster 224. First, when the lower substrate 221 of the lower rotating body 220 (circular shape is adopted in the present invention but the shape thereof is arbitrary) is viewed from above, the central gear 227 is arranged at a central position. Of course, the central gear 227 and the lower substrate 221 are arranged in a fixed state so that the rotational axis of the central gear 227 coincides with the central axis of the lower substrate 221. A drive motor 226 is arranged at a position where the central gear 227 can be rotationally driven. A roller chain is wound around the central gear 227 and the rotation shaft of the drive motor 226 so that the central gear 227 can be rotated by the drive motor 226. When the rotation shaft of the drive motor 226 rotates, the roller chain is The central gear 227 may be configured to rotate through.

Furthermore, a plurality of casters 224 are disposed on the lower rotating body 220 on the same plane as the central gear 227 and the drive motor 226. The caster 224 is disposed on the lower rotating body with the wheel portion of the caster 224 facing up. The plurality of casters 224 are arranged such that the opposite casters 224 are symmetric with respect to the center of the lower rotating body 220, and the adjacent casters 224 are equally spaced.
As will be described later, when the upper rotator 210 and the lower rotator 220 are combined, an annular rail (not shown) may be provided at a position where the caster 224 contacts the upper rotator 210. The caster 224 rotates while being in contact with the rail, so that the upper rotating body 210 rotates according to the rotation of the caster 224. Therefore, in the present invention, the wheels of the casters 224 of the lower rotating body 220 support the upper rotating body 210.

Next, the upper rotating body 210 and the lower rotating body 220 are combined. First, the lower rotating body 220 is disposed on the floor surface with the surface on which the casters 224, the central gear 227, and the drive motor 226 are disposed facing upward. Then, the upper rotating body 210 is stacked on the lower rotating body 220 so that the centers of the lower substrate 221 and the upper rotating body 210 overlap. At this time, when the central gear 227 of the lower rotator 220 rotates, the central gear 227 is fitted to the upper rotator 210 so that the upper rotator 210 rotates, thereby constituting the playground equipment 100 of the present invention. . For maintenance, it is desirable that the central gear 227 is detachably fitted to the upper rotating body 210. The shape of the upper rotating body 210 may be any shape as long as the elastic playground equipment constituted by the elastic unit 110 can be attached, and various types of substrates such as a rectangular shape, a polygonal shape, and a circular shape can be attached.

The drive motor 226 may be configured such that the rotational speed is controlled by a control unit (not shown). The control unit stores an optimum rotation number in advance, and a configuration in which the drive motor 226 is rotationally driven based on the rotation number can be employed. A switch (not shown) for operating the drive motor 226 may be provided on the rotating base 200 so that the rotational speed of the drive motor 226 can be controlled by the switch.

(Embodiment 2)
By configuring the configuration of the rotary base 200 used in Embodiment 1 as follows, it is possible to configure the playground equipment 100 that rotates eccentrically. In addition, except the eccentric shaft mentioned later, the same structure as the playground equipment 100 demonstrated in embodiment is employ | adopted. Therefore, illustration and explanation of the configuration other than the eccentric shaft are saved.

As shown in FIGS. 8B and 8C, an eccentric shaft, which will be described later, is used as the rotation shaft of the drive motor 226. That is, as shown in FIG. 8B, by providing the drive motor 226 with an eccentric shaft (for example, a crank 228) having a handle connecting an axis shifted by a predetermined distance from the rotation shaft of the drive motor 226, The rotational axis of the drive motor can be configured to be shifted within a predetermined range.

That is, one end of the crank 112 rotates on the same axis as the rotation axis of the drive motor 226, and the other end of the crank 228 rotates eccentrically with respect to the rotation axis (with the rotation axis shifted). Means rotating). Of course, it goes without saying that a switch (not shown) for operating the drive motor 226 is provided on the rotary base 200. You may comprise so that the rotational speed of the drive motor 226 can be controlled with the said switch. Of course, the rotating base 200 shown in FIG. 8B includes an upper rotating body 210 and a lower rotating body 220. The upper rotating body 210 is a circular substrate, and the lower rotating body 220 includes a central gear 227, a drive motor 226 that drives the central gear 227, and a plurality of casters 224. Needless to say, the upper rotating body 210 is supported.

A restricting means 229 for restricting the rotation of the upper rotating body 210 may be provided. The regulating means 229 is an elastic body (a rubber, a spring or the like is preferably used) that couples the lower substrate 221 on which the drive motor 226 is disposed and the upper rotating body 210. The restricting means 229 may be arranged in any manner as long as it can be configured to restrict the rotation of the upper rotating body 210. In this embodiment, as shown in FIG. 8C, a configuration is adopted in which the regulating means 229 is disposed on the lower surface of the upper rotating body 210 from the vicinity of the drive motor 226 disposed on the lower substrate 221. A configuration in which the restriction means 229 is arranged in the vertical direction from the lower substrate 221 may be adopted, or may be arranged obliquely. Since the upper rotating body 210 is restricted from rotating by the restricting means 229, the upper rotating body 210 rotates around the rotation axis of the drive motor 226 while swinging.

(Embodiment 3)
In the second embodiment, a configuration in which the upper rotating body 210 is horizontally attached to one end of the crank 228 (the other end is attached to the rotating shaft of the drive motor 226) is employed. On the other hand, the structure attached to the said one end of the crank 228 in the state which inclined the upper rotary body 210 is employable. Since the configuration other than the configuration in which the upper rotating body 210 is attached with an inclination is the same as in the first and second embodiments, description and illustration are omitted.

As shown in FIG. 9A, a support body 400 on which the upper rotating body 210 can be placed horizontally is formed. As long as the upper rotating body 210 can be horizontally supported on the upper side or the side surface of the support body 400, the shape thereof is arbitrary. In the present embodiment, a configuration is adopted in which the columnar support 400 is formed, a predetermined playground equipment base 420 is placed on the upper surface of the cylinder, and the playground equipment member 120 is disposed on the playground equipment base 420.

The support body 400 can be fixed to the rotation shaft of the drive motor 226 in a state where the portion on which the upper rotation body 210 of the support body 400 is placed is inclined with respect to the horizontal plane. In this example, a pair of fixtures 410 for fixing the support body 400 to the rotating shaft in an inclined state was attached to the side surface of the support body 400, and the playground equipment base 420 was fixed to the support body 400. The other end of the support 400 was fixed to the rotating shaft via a predetermined member. In addition, you may employ | adopt the structure attached to the desired position of the said upper rotary body 210 instead of the said support body 400 being fixed to the said rotating shaft.

By adopting a configuration in which the support body 400 places a predetermined playground equipment base 420 and the playground equipment member 120 is disposed on the playground equipment base 420, the playground equipment member 120 is disposed on the upper rotating body 210 in an inclined state. It becomes possible to do. The rotation shaft of the drive motor 226 may be the rotation shaft used in the first embodiment, or the crank 228 used in the second embodiment may be used.

FIG. 10 illustrates a configuration in which the upper rotating body 210 is provided with the inclined plate 500 and the playground equipment member 120 is disposed on the upper rotating body 210 in an inclined state. Also in this case, the rotation shaft of the drive motor 226 may be the rotation shaft used in the first embodiment (see FIG. 10A), or the crank 228 used in the second embodiment may be used. It does not matter (see FIG. 10B).

(Other)
An overload protection means (for example, a torque limiter) that protects the overload of the drive motor 226 provided in the rotary base 200 (hereinafter, including the case where the crank 228 is provided and not provided) is provided as the drive motor. You may attach to the rotating shaft of 226 or the said crank 228. FIG. As described above, since the play equipment member 120 (elastic play equipment) imitating a yacht or the like is disposed above the drive motor 226, a load corresponding to the weight of the user who wants to play is applied to the drive motor 226. . When a predetermined load or more is applied to the drive motor 226, the above-described overload protection unit can detect the load and cause the drive motor 226 to idle.

That is, for example, a torque limiter that protects the drive motor 226 from excessive torque and a torque sensor that detects the rotational torque are provided between the output shaft (rotary shaft) of the drive motor 226 and the central gear 227. As the torque sensor, a contact type torque sensor may be used, or a non-contact type torque sensor may be used. When the torque detected by the torque sensor exceeds the expected range, the rotational power from the drive motor 226 is not transmitted to the central gear 227 by the torque limiter.

Furthermore, a slip ring (not shown) may be provided in the play equipment 100, and electric power may be supplied to an electrical decoration member (for example, an LED ribbon provided on the outer surface of the play equipment) by the slip ring. By using a slip ring as the power supply means, even if the playground equipment rotates, there is no twisting of the wiring, and power can be supplied.

  The present invention is premised on a playground equipment comprising an elastic playground equipment that retains elasticity by being filled with air and a base device on which the elastic playground equipment is disposed. The elastic playground equipment of the playground equipment according to the present invention is a playground equipment formed by connecting a plurality of elastic units that are formed of an elastic sheet and can be filled with air in an airtight manner, and can communicate with an air flow path. A communication hole is formed in the elastic unit. And each elastic unit is connected via the said communicating hole. Furthermore, a valve body for sending air into the elastic unit is provided. Therefore, since the play unit having a complicated shape can be configured by connecting the elastic units, when the play unit is configured with the play unit apparatus of the present invention, it is not necessary to always operate the air feeding means such as the blower. Therefore, when constructing a playground equipment having a complicated shape, it is possible to eliminate the need for air feeding means such as a blower, and the industrial applicability is great.

DESCRIPTION OF SYMBOLS 100 Playground equipment apparatus 110 Elastic unit 112 Air inlet (valve body)
114 communication hole 120 play equipment member 130 elastic unit for seat 150 decorative body 155 support 160 control unit storage device 166 monitor 167 camera 200 rotating base (base device)
210 Upper Rotating Body 220 Lower Rotating Body 224 Casters 226 Drive Motor 227 Central Gear 228 Crank

Claims (5)

A playground equipment system comprising a plurality of playground equipment comprising an elastic playground that retains elasticity by being filled with air and a base device on which the elastic playground equipment is disposed,
The elastic playground equipment is a playground equipment formed by connecting a plurality of elastic units that are formed of an elastic sheet and can be filled with air in an airtight manner.
The elastic units are connected to each other through a communication hole formed in the elastic unit and capable of communicating with an air flow path.
The base unit is configured by laminating a lower rotating body and an upper rotating body with the central axis aligned,
The lower rotating body is
A lower substrate,
A drive motor capable of rotationally driving the upper rotating body disposed in the center of the upper surface of the lower substrate;
,
A crank pivotally supported on a rotating shaft rotated by the drive motor;
The upper rotating body is provided at a position where the upper rotating body can rotate around the central axis, and supports the upper rotating body.
With casters to hold,
Along with the base device, the elastic play equipment rotates eccentrically,
A valve body for sending air to the elastic unit provided in the playground equipment;
The elastic playground equipment includes a camera capable of photographing a user and a monitor capable of projecting an image,
A playground equipment system capable of transmitting an image captured by one playground equipment to another playground equipment and projecting the video on a monitor provided in the other playground equipment. The playground equipment system according to claim 1, wherein the elastic playground equipment is disposed on the base body device in an inclined state. The playground equipment system according to claim 1 , further comprising a slip ring that supplies electric power to the playground equipment. The playground equipment system according to any one of claims 1 to 3 , further comprising a torque limiter that is attached to the rotation shaft of the drive motor and controls the drive torque of the rotation shaft to be within a predetermined value. The elastic unit for seat part which made the elasticity of the said elastic unit soft was further provided.
The playground equipment system according to any one of 4 above.

Images