CN220370421U - Inflatable fort - Google Patents

Abstract

The utility model discloses an inflatable fort, which comprises an elastic air cushion and a guardrail, wherein the guardrail is arranged around the elastic air cushion and is communicated with the elastic air cushion, at least one rocket launching base model is arranged on the elastic air cushion, the inflatable fort also comprises an automatic inflating device for automatically inflating the elastic air cushion according to the air pressure in the elastic air cushion, the elastic air cushion is provided with at least one inflating opening, the automatic inflating device is connected with the inflating opening, and when the inflatable fort reaches a filling state, the automatic inflating device stops inflating; when the air pressure in the inflatable fort is insufficient, the automatic inflating device automatically inflates, and compared with the existing inflatable fort which is always in an inflated state by the inflating device, the inflatable fort is more energy-saving, and the problems of overlarge noise, long noise time and the like are avoided. In addition, the rocket launching state is simulated through the rocket launching base, so that children learn some technological knowledge, and the market competitiveness is improved.

Description

Inflatable fort

Technical Field

The utility model relates to the technical field of children amusement facilities, in particular to an inflatable fort.

Background

The inflatable combined type recreation device is a new generation juvenile activity center integrating functions of recreation, sport, intelligence development, body building and the like through scientific three-dimensional combination. The novel and extremely comprehensive child park is designed aiming at the naturalness that children like drilling, climbing, sliding, rolling, swaying, swinging, jumping, swaying and the like.

The existing inflatable combined amusement equipment is generally placed near an amusement park or a market and needs to be inflated uninterruptedly, but the mode is quite noisy and affects the life of surrounding residents. In addition, most of the existing inflatable combined type recreation equipment does not have equipment related to aviation subjects, a small number of equipment with aviation subjects are usually in a single model structure, the structure is single, the visual effect or the sound effect of flames emitted by a rocket cannot be truly displayed, and the requirements of children on aviation exploration are not met.

There is thus a need for improvements and improvements in the art.

Disclosure of Invention

In view of the above-described deficiencies of the prior art, it is an object of the present utility model to provide an inflatable fort.

In order to solve the technical problems, the utility model adopts the following technical scheme:

the utility model provides an inflatable fort, includes elasticity air cushion and guardrail, the guardrail surrounds elasticity air cushion setting, and with elasticity air cushion intercommunication, be provided with at least one rocket launch base model on the elasticity air cushion, it still includes the automatic air charging device who is arranged in automatic for elasticity air cushion inflation according to the atmospheric pressure in the elasticity air cushion to inflate the fort, elasticity air cushion is provided with at least one inflation inlet, automatic air charging device is connected with the inflation inlet.

In the inflatable fort, the automatic inflating device comprises at least one air pressure sensor and at least one inflator pump, wherein the air pressure sensor is arranged inside the elastic air cushion, the air pressure sensor is electrically connected with the inflator pump, an air outlet of the inflator pump is connected with an inflating opening of the elastic air cushion, and when the air pressure sensor detects that the air pressure inside the elastic air cushion is lower than a preset value, the inflator pump is started to inflate the elastic air cushion.

In the inflatable fort, the rocket launching base model comprises a rocket model and a base seat, wherein the rocket model is arranged on the base seat, and a lamplight device is further arranged at the tail of the rocket model.

In the inflatable fort, the lighting device comprises a control component, an LED lamp post, a conical lampshade and a flame pattern layer, wherein the LED lamp post is arranged at the tail end of the rocket model, the control component is electrically connected with the LED lamp post, the conical lampshade is sleeved outside the LED lamp post, and the flame pattern layer is adhered to the outer surface of the conical lampshade.

In the inflatable fort, the flame pattern layer is made of transparent or semitransparent materials.

In the inflatable fort, the LED lamp pole comprises a support column and a plurality of LED lamp bars, the support column is of a regular polygonal column structure, and the LED lamp bars are respectively fixed on each side face of the support column.

In the inflatable fort, the light device further comprises a loudspeaker, the loudspeaker is arranged in the supporting column and is electrically connected with the control assembly, a sound outlet of the loudspeaker is exposed out of the rocket model, and the side wall of the loudspeaker is sealed with the rocket model.

In the inflatable fort, the elastic air cushion is divided into at least two layers of air cushion chambers, each layer of air cushion chamber is internally provided with the air pressure sensor, and the inflation inlet of each air cushion chamber is connected with the inflation pump.

Compared with the prior art, the inflatable fort provided by the utility model comprises the elastic air cushion and the guardrail, wherein the elastic air cushion is provided with at least one rocket launching base model, the inflatable fort further comprises an automatic inflating device for automatically inflating the elastic air cushion according to the air pressure in the elastic air cushion, the inflatable fort can be automatically inflated through the automatic inflating device, and when the inflatable fort reaches a filling state, the automatic inflating device stops inflating; when the air pressure in the inflatable fort is insufficient, the automatic inflating device automatically inflates, and has the characteristics of energy conservation, low overall noise, short noise time and the like. In addition, the rocket launching state is simulated through the rocket launching base, so that children learn some technological knowledge, and the market competitiveness is improved.

Drawings

Fig. 1 is a schematic structural view of an inflatable fort according to the present utility model.

Fig. 2 is a schematic structural view of a first alternative embodiment of the inflatable structure of the inflatable fort provided by the present utility model.

Fig. 3 is a schematic structural view of a second alternative embodiment of the inflatable structure of the inflatable fort provided by the present utility model.

The drawings are marked with the following description:

the air cushion comprises an elastic air cushion 1, an air cushion chamber 11, an air cushion chamber inflation inlet 12, a guardrail 2, a rocket launching base model 3, a rocket model 31, a base seat 32, a lighting device 4, an LED lamp post 41, a conical lampshade 42, a flame pattern layer 43 and an inflator pump 5

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

It is noted that when an element is referred to as being "mounted," "secured," or "disposed" on another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or intervening elements may also be present.

It should be noted that, in the embodiments of the present utility model, terms such as left, right, up, and down are merely relative concepts or references to normal use states of the product, and should not be construed as limiting.

Referring to fig. 1, 2 and 3, the inflatable fort provided by the present utility model includes an elastic cushion 1 and a guardrail 2, the guardrail 2 is disposed around the elastic cushion 1 and is communicated with the elastic cushion 1, at least one rocket launching base model 3 is disposed on the elastic cushion 1, the inflatable fort further includes an automatic inflating device 5 for automatically inflating the elastic cushion 1 according to the air pressure in the elastic cushion 1, the elastic cushion 1 is provided with at least one inflating port (not numbered in the figure), the automatic inflating device 5 is connected with the inflating port, and when the inflatable fort reaches the full state, the automatic inflating device 5 stops inflating; when the air pressure in the inflatable fort is insufficient, the automatic inflating device 5 automatically inflates, and compared with the existing inflatable device which is always in an inflated state, the embodiment is more energy-saving, and the problems of overlarge noise, long noise time and the like are avoided. In addition, the rocket launching state is simulated through the rocket launching base model 3, so that children can learn some technological knowledge, and the market competitiveness is improved. Of course, the elastic air cushion 1 is also provided with a plurality of other entertainment facilities, so that children can play as much as possible.

The automatic air charging device 5 comprises at least one air pressure sensor (not shown in the figure) and at least one air pump 51, wherein the air pressure sensor is arranged inside the elastic air cushion 1, the air pressure sensor is electrically connected with the air pump 51, the air outlet of the air pump 51 is connected with the air charging port of the elastic air cushion 1, when the air pressure sensor detects that the air pressure inside the elastic air cushion 1 is lower than a preset value, the air pump 51 is started to charge the elastic air cushion 1, the air pressure inside the elastic air cushion 1 can be monitored in real time through the air pressure sensor, and whether the air pump 51 charges the elastic air cushion 1 timely is judged according to the monitoring result, so that the air pressure of the elastic air cushion 1 is not enough or the air pump 51 is always in an air charging state, and energy waste and noise are avoided. The automatic inflation device 5 is widely used in tire inflation products and will not be described in detail herein.

Wherein, the elastic air cushion 1 is divided into at least two layers of air cushion chambers 11, each layer of air cushion chamber 11 is provided with an air pressure sensor, each air cushion chamber inflation inlet 12 is connected with the inflation pump 51, the air cushion chambers 11 are matched and used without mutual influence through the multi-layer air cushion chambers 11, if a certain layer of air cushion chamber 11 is damaged, the elastic air cushion 1 can not leak air rapidly to cause potential safety hazards, and the air pressure of each layer of air cushion chamber 11 is monitored through a plurality of air pressure sensors, so that the elastic air cushion 1 is inflated and filled, and has enough elasticity for children to play.

In a first alternative embodiment, the cushion chamber inflation port 12 may be connected to the same inflator 51 (as shown in FIG. 2), with one inflator 51 inflating multiple cushion chambers 11.

In the second alternative embodiment, each air cushion chamber inflation port 12 corresponds to one inflation pump 51 (as shown in fig. 3), so that the inflatable bag can be inflated and molded rapidly, and the inflation state of each layer of air cushion chamber 11 can be ensured, of course, each air cushion chamber 11 can be arranged at a plurality of air cushion chamber inflation ports 12, and connected with a plurality of inflation pumps 51, so that the effect of rapid inflation can be achieved, and the noise time of the inflation pumps 51 can be reduced, which is not limited herein. The present utility model preferably employs a second alternative embodiment.

With continued reference to fig. 1, the rocket launching base model 3 includes a rocket model 31 and a base 32, the rocket model 31 is disposed on the base 32, a lighting device 4 is further disposed at the tail of the rocket model 31, and flames generated during rocket launching are simulated by the lighting device 4, so that the rocket model 31 has stronger visual impact.

The lighting device 4 includes a control component (not shown), an LED lamp post 41, a cone-shaped lampshade 42 and a flame pattern layer 43, wherein the LED lamp post 41 is mounted at the tail end of the rocket model 31, the control component is electrically connected with the LED lamp post 41, the cone-shaped lampshade 42 is sleeved outside the LED lamp post 41, and the flame pattern layer 43 is adhered to the outer surface of the cone-shaped lampshade 42. When the LED lamp pole 41 is turned on, the LED lamp pole 41 emits light, the light emitting effect during rocket launching can be simulated through the flame pattern layer 43, the conical lampshade 42 plays a role in supporting the rocket model 31 by the auxiliary base 32, meanwhile, the LED lamp pole 41 can be protected, and potential safety hazards caused by contact of children with the LED lamp pole 41 in the playing process are avoided. The conical lampshade 42 is made of transparent or semitransparent materials, and plastic suction materials can be adopted, so that light emitted by the LED lamp post 41 can emit more uniformly and softly after passing through the conical lampshade 42.

Specifically, the control component comprises an LED driving power supply and can control the states of on-off, long-lighting, or flickering of the LED lamp post. The flame pattern layer 43 is made of transparent or semitransparent material, and the pattern is in a rocket-emission spray-shaped structure, so that the actual smog effect and luminous effect can be simulated realistically when the light of the LED lamp passes through the flame pattern layer 43.

The LED lamp post 41 includes a support column (not numbered in the figure) and a plurality of LED lamp strips (not numbered in the figure), the support column is a column or a regular polygonal column structure, the LED lamp strips are arranged in the support column, and the effect of uniform light can be achieved through the support column, so that the light emitting effect seen in the 360-degree direction of the rocket launching base model 3 is the same, and the light effect is uniform.

The lighting device 4 further comprises a speaker (not shown in the figure), the speaker is arranged in the support column and is electrically connected with the control component, a sound outlet of the speaker is exposed out of the rocket model 31, the side wall of the speaker is sealed with the rocket model 31, and the speaker simulates sound generated when the rocket is launched, so that the field vision and hearing are more shocking. The control assembly further comprises a main control chip (such as an EM78P152 chip), an LED driving power supply, LED lamp strips, a loudspeaker and the like are connected with an IO port of the main control chip, when the lamplight device 4 and the loudspeaker are started, the LED lamps on the LED lamp strips can be gradually lightened from top to bottom, the flame pattern layer 43 is illuminated, and the impact sound effect of rocket launching is accompanied, so that the rocket is provided with the jet effect.

Wherein, it is still including fixed subassembly (not shown in the figure) to aerify the fort, makes to aerify the fort and be fixed in ground, is difficult for the displacement to guarantee the security of aerifing the fort.

In summary, the inflatable fort provided by the utility model comprises an elastic air cushion and a guardrail, wherein the elastic air cushion is provided with at least one rocket launching base model, the inflatable fort further comprises an automatic inflating device for automatically inflating the elastic air cushion according to the air pressure in the elastic air cushion, the elastic air cushion is provided with at least one inflating opening, the automatic inflating device is connected with the inflating opening, and when the inflatable fort reaches a filling state, the automatic inflating device stops inflating; when the air pressure in the inflatable fort is insufficient, the automatic inflating device automatically inflates, and compared with the existing inflatable fort which is always in an inflated state by the inflating device, the inflatable fort is more energy-saving, and the problems of overlarge noise, overlong noise time and the like are avoided. In addition, the rocket launching state is simulated through the rocket launching base, so that children learn some technological knowledge, and the market competitiveness is improved.

The rocket launching base model comprises a lamplight device and a loudspeaker, when the lamplight device and the loudspeaker are turned on, LED lamps on a plurality of LED lamp bars can be gradually lightened from top to bottom, a flame pattern layer is illuminated, and the rocket launching base model is accompanied with the shocking sound effect of rocket launching, if the rocket is in a jet effect.

It will be understood that equivalents and modifications will occur to those skilled in the art in light of the present utility model and their spirit, and all such modifications and substitutions are intended to be included within the scope of the present utility model as defined in the following claims.

Claims (8)

1. The utility model provides an inflatable fort, includes elasticity air cushion and guardrail, the guardrail surrounds elasticity air cushion setting, and with elasticity air cushion intercommunication, its characterized in that, be provided with at least one rocket launch base model on the elasticity air cushion, it still includes the automatic air charging device who is arranged in automatic for elasticity air cushion to aerify according to the atmospheric pressure in the elasticity air cushion to aerify fort, elasticity air cushion is provided with at least one inflation inlet, automatic air charging device is connected with the inflation inlet.

2. The inflatable fort according to claim 1, wherein the automatic inflating device comprises at least one air pressure sensor and at least one inflator pump, the air pressure sensor is arranged in the elastic air cushion, the air pressure sensor is electrically connected with the inflator pump, an air outlet of the inflator pump is connected with an inflating port of the elastic air cushion, and when the air pressure sensor detects that the air pressure in the elastic air cushion is lower than a preset value, the inflator pump is started to inflate the elastic air cushion.

3. The inflatable fort of claim 1, wherein the rocket-launching base model comprises a rocket model and a base, the rocket model being disposed on the base, and wherein the tail of the rocket model is further provided with a light device.

4. The inflatable fort of claim 3, wherein the light device comprises a control assembly, an LED lamppost, a conical lampshade and a flame pattern layer, wherein the LED lamppost is mounted at the tail end of the rocket model, the control assembly is electrically connected with the LED lamppost, the conical lampshade is sleeved outside the LED lamppost, and the flame pattern layer is adhered to the outer surface of the conical lampshade.

5. The inflatable fort of claim 4, wherein said flame pattern layer is a transparent or translucent material.

6. The inflatable fort of claim 4, wherein the LED light post comprises a support post and a plurality of LED light bars, the support post being of a right polygonal post structure, the LED light bars being secured to respective sides of the support post.

7. The inflatable fort of claim 4, wherein the light device further comprises a speaker disposed in the support post and electrically connected to the control assembly, wherein the speaker has a sound outlet exposed to the exterior of the rocket model, and wherein the speaker has a side wall sealed from the rocket model.

8. The inflatable fort of claim 2, wherein the cushion is divided into at least two cushion chambers, each cushion chamber having the air pressure sensor disposed therein, and each cushion chamber having an inflation port connected to the inflator.