CN219558713U - Bubble machine with liquid level monitoring and automatic fluid infusion function - Google Patents

Abstract

The utility model discloses a bubble machine with liquid level monitoring and automatic liquid supplementing functions, which comprises: the bubble generating tank is embedded in the bubble liquid box; a liquid supplementing pump, a liquid level sensor and a liquid supplementing port are arranged in the liquid soaking box; the bubble liquid box is communicated with the bubble generating groove through a liquid supplementing pump; the bubble generating groove is provided with a floating ball type liquid level switch which is electrically connected with the liquid supplementing pump. The utility model is provided with two sets of liquid storage tanks, one set of bubble generating tank for generating bubbles and one set of bubble liquid tank for supplementing bubble liquid in the original bubble machine. Two different liquid level sensing devices are arranged in the two sets of liquid storage tanks, when the liquid amount of bubbles in the bubble generating tank is low, the liquid storage tank for supplementing the bubble liquid is automatically used for supplementing liquid, and when the liquid amount of bubbles in the bubble liquid tank is low, a user is reminded of supplementing the bubble liquid. The advantage of setting like this is that both can save the bubble liquid, also can monitor the liquid level in real time and realize automatic fluid replacement.

Description

Bubble machine with liquid level monitoring and automatic fluid infusion function

Technical Field

The utility model relates to the technical field of bubble machines, in particular to a bubble machine with liquid level monitoring and automatic liquid supplementing functions.

Background

At present, two types of bubble machines are mainly available in the market, one type is a gun type toy bubble machine, the other type is a stage special effect bubble machine, the stage special effect bubble machine is generally fixedly used, a bubble liquid groove is formed, the filling amount of bubble liquid is limited, only a short time can be used for one filling, the bubble liquid level can be reduced along with consumption of the bubble liquid, the bubble generation effect is affected when the bubble liquid level is lower, bubbles are not generated any more by an impeller of the bubble machine, and the manual addition of the bubble liquid is needed for continuous use. The existing bubble liquid tank is provided with a liquid level sensor, when the liquid level is insufficient, the liquid level sensor reminds, but the automatic liquid supplementing function cannot be realized, and the generated bubbles do not float far enough.

Disclosure of Invention

Therefore, the utility model aims to provide a bubble machine with liquid level monitoring and automatic liquid replenishing functions, which can have the liquid level monitoring and automatic liquid replenishing functions.

According to one aspect of the present utility model, there is provided a bubble machine having liquid level monitoring and automatic liquid replenishment functions, comprising: the bubble generating tank is embedded in the bubble liquid box; a liquid supplementing pump, a liquid level sensor and a liquid supplementing port are arranged in the liquid soaking box; the bubble liquid box is communicated with the bubble generating groove through a liquid supplementing pump; the bubble generating groove is provided with a floating ball type liquid level switch which is electrically connected with the liquid supplementing pump.

In the technical scheme, two sets of liquid storage tanks are respectively arranged in the original bubble machine, one set of liquid storage tanks is used for generating bubbles, and the other set of liquid storage tanks is used for supplementing bubble liquid. Two different liquid level sensing devices are arranged in the two sets of liquid storage tanks, when the liquid amount of bubbles in the bubble generating tank is low, the liquid storage tank for supplementing the bubble liquid is automatically used for supplementing liquid, and when the liquid amount of bubbles in the bubble liquid tank is low, a user is reminded of supplementing the bubble liquid. The advantage of setting like this is that both can save the bubble liquid, also can monitor the liquid level in real time and realize automatic fluid replacement.

In some embodiments, the bubble tank is trapezoidal; the bubble generating groove is arranged at the top of the bubble liquid box, and an electric impeller is arranged at the top position.

In the above technical scheme, the purpose of setting the bubble liquid box to be trapezoid is to establish the subsequent air duct. Because the bubble generating groove is independently embedded in the bubble liquid box, the bubble generating groove can be set to be in a groove according to the size of the electric impeller, so that the utilization rate of the space in the groove reaches the maximum when the electric impeller is immersed in the bubble generating groove.

In some embodiments, an air duct is arranged at the left inclined surface of the bubble liquid box, a first fan is arranged at the air inlet of the air duct, and the air outlet is aligned with an electric impeller arranged on the bubble liquid box.

In the above technical scheme, because the bubble liquid box is designed to be trapezoid in the technical scheme, an efficient air duct can be established by utilizing the inclined plane of the trapezoid bubble liquid box, and the electric impeller is blown by utilizing the air duct, so that a large number of bubbles are generated. The advantage of setting up like this is that utilize the shape design wind channel of bubble liquid case, reduces bubble machine's volume, and the efficiency that bubble produced also can be improved in the establishment of wind channel simultaneously.

In some embodiments, a second fan is disposed at the right side bevel of the bubble tank.

In the above technical scheme, since the liquid soaking box is designed to be trapezoid in the technical scheme, the inclined plane of the trapezoid liquid soaking box can be utilized to prepare an additional fan. When the electric impeller at the top generates bubbles, the fan can blow the bubbles at a certain angle, so that the bubbling direction is controlled, and the bubbles are further floated.

In some embodiments, the bottom angle of the right side slope of the bubble tank is 30 ° -45 °.

In the above technical scheme, because the technical scheme designs the air duct and the second fan, comprehensive aerodynamics finds that when the bottom angle of the right inclined plane of the bubble liquid box is 30-45 degrees, bubbles float furthest, preferably 40 degrees.

In some embodiments, the bubble machine further comprises a relay and a bubble machine switch, wherein the relay is electrically connected with the bubble machine switch, the floating ball type liquid level switch and the liquid supplementing pump respectively.

In the technical scheme, bubble liquid does not exist in the bubble generating tank, at the moment, the floating ball type liquid level switch floating ball can touch the lower limit, the relay sends a closing signal, the liquid supplementing pump is started, bubble liquid is pumped into the bubble generating tank from the bubble liquid tank, when the liquid level in the bubble generating tank reaches the upper limit value of the floating ball type liquid level switch, the relay sends a breaking signal, and the liquid supplementing pump stops working, so that the liquid level in the bubble generating tank is always maintained between the upper limit and the lower limit of the floating ball type liquid level switch, bubble liquid can be always taken out when the impeller rotates, continuous bubbles can be generated, and the automatic liquid supplementing function of the bubble machine is realized.

In some embodiments, the bubble machine is further wrapped with a shell, and the bottom surface is provided with a base.

In the above technical scheme, the purpose of setting up the shell is to wrap up bubble machine, and then forms the wind channel, the direction in limited wind channel. The stability of bubble machine is guaranteed in the setting of base.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of an oblique two-measurement view of an embodiment of a bubble machine with liquid level monitoring and automatic liquid replenishing functions according to the present utility model;

FIG. 2 is a front view of the internal structure of an embodiment of a bubble machine with liquid level monitoring and automatic liquid replenishing functions according to the scheme of the utility model;

FIG. 3 is a cross-sectional view A-A of FIG. 2 of an embodiment of a bubble machine with level monitoring and automatic fluid replacement according to the present utility model;

fig. 4 is a top view of an apparatus of an embodiment of a bubble machine with level monitoring and automatic fluid replacement according to the present utility model.

Detailed Description

The utility model is described in further detail below with reference to the drawings and examples. It is specifically noted that the following examples are only for illustrating the present utility model, but do not limit the scope of the present utility model. Likewise, the following examples are only some, but not all, of the examples of the present utility model, and all other examples, which a person of ordinary skill in the art would obtain without making any inventive effort, are within the scope of the present utility model.

The utility model aims to provide a bubble machine with liquid level monitoring and automatic liquid replenishing functions, which can be used for achieving the liquid level monitoring and automatic liquid replenishing functions.

According to an aspect of the present utility model, a bubble machine with liquid level monitoring and automatic liquid replenishing functions is provided, and refer to fig. 1 to 4. The utility model provides a bubble machine with liquid level monitoring and automatic liquid supplementing functions, which comprises: the bubble generating tank is embedded in the bubble liquid box; a liquid supplementing pump, a liquid level sensor and a liquid supplementing port are arranged in the liquid soaking box; the bubble liquid box is communicated with the bubble generating groove through a liquid supplementing pump; the bubble generating groove is provided with a floating ball type liquid level switch which is electrically connected with the liquid supplementing pump. The specific architecture is as follows:

the bubble machine is composed of a shell 1, a base 2 and a bubble machine body 3. The main structure of the bubble machine body 3 is a bubble liquid box 301, the main function of the bubble liquid box 301 is that bubble liquid is stored, a bubble generating groove 307 is arranged on the upper portion of the bubble liquid box 301, an impeller 313 is rotatably arranged on the bubble generating groove 307, an impeller motor 312 for enabling the impeller 313 to rotate is arranged on the bubble generating groove 307, a fan I302 and an air duct 303 are further arranged on the upper portion of the bubble liquid box 301, an air inlet of the fan I302 faces outwards, an air outlet faces inwards, and the air outlet is communicated with one end of the air duct 303. Above the wind tunnel are a switching power supply 305 and a relay 304. A liquid supplementing pump 310 is fixedly arranged at the bottom of the bubble liquid tank 301, a liquid supplementing pipe 309 is connected to a discharge port of the liquid supplementing pump 310, and the other end of the liquid supplementing pipe 309 is connected to the bubble generating tank 307. The bubble generating tank 307 is provided with a float type liquid level switch 314. The upper portion of the bubble liquid box 301 is provided with a liquid level sensor 306, and mainly for accessing an electric control system of a tour performance car, the liquid level height in the bubble liquid box 301 is monitored in real time, and a user is reminded of timely replenishing liquid. Further, the float-type liquid level switch 314 is further electrically connected to the first fan 302, the float-type liquid level switch 314 collects the liquid level in the bubble generating tank 307, when the liquid level in the bubble generating tank 307 is lower than the threshold value, the wind speed of the first fan 302 is regulated down, and when the liquid level in the bubble generating tank 307 is higher than the threshold value, the wind speed of the first fan 302 is regulated up. The purpose of this arrangement is that when the liquid level is low, the amount of bubble liquid carried by the impeller 313 is small, and an excessively high wind speed is not required, and when the liquid level is high, the amount of bubble liquid carried by the impeller 313 is large, and more bubbles can be blown by the higher wind speed, so that the arrangement can save energy.

In this embodiment, two sets of liquid storage tanks are respectively provided in the original bubble machine, one set of bubble generating tanks is used for generating bubbles, and the other set of bubble liquid tanks is used for supplementing bubble liquid. Two different liquid level sensing devices are arranged in the two sets of liquid storage tanks, when the liquid amount of bubbles in the bubble generating tank is low, the liquid storage tank for supplementing the bubble liquid is automatically used for supplementing liquid, and when the liquid amount of bubbles in the bubble liquid tank is low, a user is reminded of supplementing the bubble liquid. The advantage of setting like this is that both can save the bubble liquid, also can monitor the liquid level in real time and realize automatic fluid replacement.

In the embodiment, the bubble liquid box is trapezoid; the bubble generating groove is arranged at the top of the bubble liquid box, and an electric impeller is arranged at the top position. The purpose of the trapezoid-shaped bubble liquid box is to establish a subsequent air duct. Because the bubble generating groove is independently embedded in the bubble liquid box, the bubble generating groove can be set to be in a groove according to the size of the electric impeller, so that the utilization rate of the space in the groove reaches the maximum when the electric impeller is immersed in the bubble generating groove. An air duct is arranged on the left inclined surface of the liquid soaking box, a first fan is arranged at the air inlet of the air duct, and an electric impeller arranged on the liquid soaking box is aligned at the air outlet. Because the bubble liquid box is designed to be trapezoidal in the technical scheme, an efficient air channel can be established by utilizing the inclined plane of the trapezoidal bubble liquid box, and the electric impeller is blown by utilizing the air channel, so that a large number of bubbles are generated. The advantage of setting up like this is that utilize the shape design wind channel of bubble liquid case, reduces bubble machine's volume, and the efficiency that bubble produced also can be improved in the establishment of wind channel simultaneously.

In this embodiment, the relay is electrically connected to the bubble machine switch, the float-type liquid level switch, and the fluid infusion pump, respectively. The bubble generating tank is initially filled with bubble liquid, at the moment, the floating ball type liquid level switch floating ball can touch the lower limit, the relay sends a closing signal, the liquid supplementing pump is started, bubble liquid is pumped into the bubble generating tank from the bubble liquid tank, when the liquid level in the bubble generating tank reaches the upper limit value of the floating ball type liquid level switch, the relay sends a breaking signal, the liquid supplementing pump stops working, so that the liquid level in the bubble generating tank is always maintained between the upper limit and the lower limit of the floating ball type liquid level switch, bubble liquid can be always taken out when the impeller rotates, continuous bubbles can be generated, and the automatic liquid supplementing function of the bubble machine is realized. The outer part of the bubble machine is also wrapped with a shell, and the bottom surface is provided with a base. The purpose of setting up the shell is to wrap up bubble machine, and then forms the wind channel, the direction in limited wind channel. The stability of bubble machine is guaranteed in the setting of base.

In this embodiment, when the bubble liquid tank 301 is filled with bubble liquid, the switch power supply 305 is energized, the impeller motor 312 drives the impeller 313 to rotate, the fan 302 is started to blow air to the rotating impeller 313 through the air duct 303, the bubble liquid is not in the bubble generating tank 307 at first, at this time, the floating ball of the floating ball type liquid level switch 314 touches the lower limit, the relay 304 sends a closing signal, the liquid supplementing pump 310 is started, bubble liquid is pumped into the bubble generating tank 307 from the bubble liquid tank 301, when the liquid level in the bubble generating tank 307 reaches the upper limit value of the floating ball type liquid level switch 314, the relay 304 sends an opening signal, the liquid supplementing pump 310 stops working, so that the liquid level in the bubble generating tank 307 is always maintained between the upper limit and the lower limit of the floating ball type liquid level switch 314, the bubble liquid can be always taken out when the impeller 313 rotates, and thus the automatic liquid supplementing function of the bubble machine can be realized.

In this embodiment, the front side of the bubble liquid tank 301 is provided with a second fan 308, which mainly functions to blow generated bubbles obliquely upward, so that the bubbles fly farther. The bubble liquid box 301 is also provided with a liquid injection port 311, which is mainly used for adding liquid to the bubble liquid box 301. Because the liquid soaking box is designed to be trapezoid in the technical scheme, the inclined plane of the trapezoid liquid soaking box can be utilized to prepare an additional fan. When the electric impeller at the top generates bubbles, the fan can blow the bubbles at a certain angle, so that the bubbling direction is controlled, and the bubbles are further floated. Further, the bottom angle of the inclined plane at the right side of the soaking liquid box is 30-45 degrees. Because the technical proposal designs the air duct and the second fan, the comprehensive aerodynamics finds that when the bottom angle of the inclined surface at the right side of the bubble liquid box is 30 degrees to 45 degrees, the bubble drifts furthest, preferably 40 degrees.

The foregoing description is only a partial embodiment of the present utility model, and is not intended to limit the scope of the present utility model, and all equivalent devices or equivalent processes using the descriptions and the drawings of the present utility model or directly or indirectly applied to other related technical fields are included in the scope of the present utility model.

Claims (7)

1. Bubble machine with liquid level monitoring and automatic fluid infusion function, characterized in that includes: the bubble generating tank is embedded in the bubble liquid box; a liquid supplementing pump, a liquid level sensor and a liquid supplementing port are arranged in the liquid soaking box; the bubble liquid box is communicated with the bubble generating groove through a liquid supplementing pump; the bubble generating groove is provided with a floating ball type liquid level switch which is electrically connected with the liquid supplementing pump.

2. A bubble machine with fluid level monitoring and automatic fluid replacement functions as claimed in claim 1, wherein:

the liquid soaking box is trapezoid; the bubble generating groove is arranged at the top of the bubble liquid box, and an electric impeller is arranged at the top position.

3. A bubble machine with fluid level monitoring and automatic fluid replacement functions as claimed in claim 2, wherein:

an air duct is arranged at the left inclined surface of the liquid soaking box, a first fan is arranged at the air inlet of the air duct, and an electric impeller arranged on the liquid soaking box is aligned at the air outlet.

4. A bubble machine with fluid level monitoring and automatic fluid replacement functions as claimed in claim 2, wherein:

and a second fan is arranged at the inclined surface of the right side of the liquid soaking box.

5. The bubble machine with liquid level monitoring and automatic liquid replenishing functions as claimed in claim 4, wherein:

the bottom angle of the right inclined plane of the liquid soaking box is 30-45 degrees.

6. A bubble machine with fluid level monitoring and automatic fluid replacement functions as claimed in claim 1, wherein:

the bubble machine also comprises a relay and a bubble machine switch, wherein the relay is electrically connected with the bubble machine switch, the floating ball type liquid level switch and the liquid supplementing pump respectively.

7. A bubble machine with fluid level monitoring and automatic fluid replacement functions as claimed in claim 3, wherein: the outer part of the bubble machine is further wrapped with a shell, and the bottom surface of the bubble machine is provided with a base.