WO2021203459A1

WO2021203459A1 - Low-energy consumption micro-nano bubble water generation device

Info

Publication number: WO2021203459A1
Application number: PCT/CN2020/085590
Authority: WO
Inventors: 符春茂; 郭燕蕾; 郭朝阳
Original assignee: 苏州川森恒祺生态科技有限公司
Priority date: 2020-04-10
Filing date: 2020-04-20
Publication date: 2021-10-14
Also published as: CN212246444U

Abstract

The present utility model relates to a low-energy consumption micro-nano bubble water generation device, comprising a water pump; a water inlet pipe is connected to a left input end of the water pump, a water outlet pipe is connected to a right input end of the water pump, a flow-slowing pipe is fixedly connected to the right end of the water outlet pipe, a gas-liquid mixer is connected on the lower right side of the flow-slowing pipe by means of a pipeline, a mounting plate is provided above the gas-liquid mixer, and micro-nano bubble water releasers are symmetrically provided on the top side of the mounting plate, the top side of the micro-nano bubble water releasers above is connected to an input pipe, a container is fixedly connected to the right end of the input pipe, and a discharge pipe is provided on the lower right side of the container. In this way, the present utility model can enable the liquid to be processed more sufficiently by the gas-liquid mixer, and can effectively control the flow rate of the liquid to prevent damage to the apparatus caused by excessive impact force of the liquid, reduces the power required by the water pump for conveying liquid, reduces the energy consumption of the water pump, and makes the produced materials more sufficient, greatly improving the utilization rate of raw materials.

Description

Low-energy-consumption micro-nano bubble water generating device

Technical field

The utility model relates to a low-energy-consumption micro-nano bubble water generating device, which belongs to the technical field of oxygen increase in water.

Background technique

The ultra-fine microbubble technology is to incorporate air or pure oxygen into the water, and then separate the gas from the water by pressure release to form micro-nano bubble water, which achieves an effect that is difficult to achieve by conventional methods. The power consumption and energy consumption of the device are relatively high, and the required procedures and equipment are relatively cumbersome. For this reason, a device for generating micro-nano bubble water with low energy consumption is provided.

technical problem

The technical problem to be solved by the utility model overcomes the existing defects and provides a low energy consumption micro-nano bubble water generating device, which can effectively solve the problems in the background art.

Technical solutions

In order to solve the above technical problems, the present utility model provides the following technical solutions:

A device for generating micro-nano bubble water with low energy consumption comprises a water pump, the left input end of the water pump is connected with a water inlet pipe, the right input end of the water pump is connected with a water outlet pipe, and the right end of the water outlet pipe is fixedly connected with a slow flow pipe, The lower right side of the slow flow pipe is connected with a gas-liquid mixer through a pipe, a mounting plate is arranged above the gas-liquid mixer, and a micro-nano bubble water release device is symmetrically arranged on the top side of the mounting plate. The top side of the bubble water releaser is connected with an input pipe, the right end of the input pipe is fixedly connected with a container, and the lower right side of the container is provided with a discharge pipe. Shaped tube, a filter layer is arranged below the curved tube, a shaft is arranged in the inner cavity of the micro-nano bubble water release device, and the outer side of the shaft is respectively fixedly connected with spiral blades, and the micro-nano bubble water is released The left side of the device is fixedly connected with a motor, and the right output shaft of the motor extends into the inner cavity of the micro-nano bubble water release device and is fixedly connected to the left end of the shaft.

Furthermore, a connecting plate is fixedly connected to the top side of the curved tube, a through hole is formed through the connecting plate, and the input end of the curved tube top side is fixedly connected to the inner wall of the through hole on the connecting plate.

Furthermore, four corners on the bottom side of the mounting plate are fixedly connected with support rods, the gas-liquid mixer is located between the support rods, and the gas-liquid mixer is specifically a venturi gas-liquid mixer.

Furthermore, the top of the gas-liquid mixer penetrates the mounting plate through a pipe, and is in a through connection with the bottom side of the micro-nano bubble water release below, and the right side of the micro-nano bubble water release below is connected with a connecting tube through it, The top end of the connecting pipe is in a through connection with the right side of the micro-nano bubble water release device below.

Further, a nozzle is fixedly connected to the bottom end of the input pipe, and the input pipe extends into the inner cavity of the container through the nozzle.

Further, a mounting seat is fixedly connected to the outer side of the bottom of the container, a groove is dug on the top side of the mounting seat, and shock-absorbing springs are equidistantly arranged inside the groove, and the groove is connected to the container through the shock-absorbing spring. The outer wall is fixedly connected.

Beneficial effect

The beneficial effects of the utility model:

1. By setting the curved tube, the liquid flows through the curved tube, so that the liquid transportation process can be made more slowly, so that the gas-liquid mixer can process the liquid more fully, and at the same time, it can effectively control the flow of the liquid. To prevent excessive liquid impact from damaging the equipment;

2. By setting the motor, the motor can drive the spiral blade to rotate to cut and transport the bubble water, which reduces the power required by the water pump to transport the liquid and reduces the energy consumption of the water pump;

By setting the connecting pipe, the nano-bubble water produced in the lower micro-nano bubble water release device can be transported to the upper micro-nano bubble water release device through the connecting pipe to continue processing, which can make the produced materials more sufficient and greatly improve The utilization rate of raw materials is improved.

Description of the drawings

The accompanying drawings are used to provide a further understanding of the utility model and constitute a part of the specification. Together with the embodiments of the utility model, they are used to explain the utility model and do not constitute a limitation to the utility model.

Fig. 1 is a schematic diagram of the appearance structure of a low-energy-consumption micro-nano bubble water generating device of the present invention.

Fig. 2 is a schematic diagram of the cross-sectional structure of the slow flow tube of a low-energy-consumption micro-nano bubble water generating device of the present invention.

Fig. 3 is a schematic diagram of a cross-sectional structure of a micro-nano bubble water release device of a low-energy-consumption micro-nano bubble water generating device of the present invention.

Fig. 4 is a schematic diagram of the sectional structure of the mounting base of a low-energy-consumption micro-nano bubble water generating device of the present invention.

Labels in the figure: 1. Water pump; 2. Water inlet pipe; 3. Slow flow pipe; 4. Gas-liquid mixer; 5. Mounting plate; 6. Micro-nano bubble water release device; 7. Input pipe; 8. Container; 9. 10. Discharge pipe; 10, pipe body; 11, curved pipe; 12, filter layer; 13, shaft; 14, spiral blade; 15, motor; 16, connecting plate; 17, support rod; 18, connecting pipe; 19 , Mounting seat; 20, groove; 21, shock-absorbing spring; 22, water outlet pipe.

Embodiments of the present invention

The preferred embodiments of the present utility model are described below in conjunction with the accompanying drawings. It should be understood that the preferred embodiments described here are only used to illustrate and explain the present utility model, and are not used to limit the present utility model.

Example one

As shown in Figures 1 to 3, a low energy consumption micro-nano bubble water generating device includes a water pump 1. The left input end of the water pump 1 is connected with a water inlet pipe 2, and the right input end of the water pump 1 is connected with a water outlet pipe. 22. The right end of the water outlet pipe 22 is fixedly connected with a slow flow tube 3, the lower right side of the slow flow tube 3 is connected with a gas-liquid mixer 4 through a pipe, and a mounting plate 5 is provided above the gas-liquid mixer 4, so The top side of the mounting plate 5 is provided with a micro-nano bubble water release 6 symmetrically, and the top side of the micro-nano bubble water release 6 above is connected to an input tube 7, and the right end of the input tube 7 is fixedly connected with a container 8, the container 8 A discharge pipe 9 is provided on the lower right side. The slow flow pipe 3 includes a pipe body 10, and a curved pipe 11 is fixedly connected to the inner cavity of the pipe body 10. By setting the curved pipe 11, the liquid flows through the curved pipe 11 , Can make the liquid transportation process more slowly, so that the gas-liquid mixer 4 can process the liquid more fully, and at the same time can effectively control the flow of the liquid, and prevent the excessive impact of the liquid from causing damage to the equipment. A filter layer 12 is provided under the curved tube 11, a shaft 13 is provided in the inner cavity of the micro-nano bubble water release 6, and the outer side of the shaft 13 is respectively fixedly connected with a spiral blade 14. , The starter motor 15 can drive the spiral blade 14 to rotate. The spiral blade 14 cuts the bubble to reduce the diameter of the bubble. At the same time, the rotation of the spiral blade 14 can push the bubble water to the right, and enter the upper part through the connecting pipe 18. The micro-nano bubble water release device 6, the spiral blade 14 of the micro-nano bubble water release device 6 is rotated by the motor 15, so that the bubble water is transported to the left after collision and cutting again. The micro-nano bubble water release device 6 The motor 15 is fixedly connected to the left side. By setting the motor 15, the motor 15 can drive the spiral blade 14 to rotate to cut and transport the bubble water, which reduces the power required by the water pump 1 to transport liquid and reduces the use of the water pump 1. For energy consumption, the right output shaft of the motor 15 extends into the inner cavity of the micro-nano bubble water release 6 and is fixedly connected to the left end of the shaft 13.

In this embodiment, the top side of the curved tube 11 is fixedly connected with a connecting plate 16, the connecting plate 16 is provided with a through hole, the top side input end of the curved tube 11 and the inner wall of the through hole on the connecting plate 16 Fixed connection.

In this embodiment, the four corners on the bottom side of the mounting plate 5 are fixedly connected with support rods 17, the gas-liquid mixer 4 is located between the support rods 17, and the gas-liquid mixer 4 is specifically a venturi gas Liquid mixer.

In this embodiment, the top of the gas-liquid mixer 4 penetrates the mounting plate 5 through a pipe, and is connected to the bottom side of the micro-nano bubble water release 6 below, and the right side of the micro-nano bubble water release 6 below penetrates A connecting tube 18 is connected. The top of the connecting tube 18 is connected to the right side of the micro/nano bubble water release 6 below. By setting the connecting tube 18, the nano bubbles generated in the micro/nano bubble water release 6 below can be removed. The water is transported to the upper micro-nano bubble water release device 6 through the connecting pipe 18 to continue processing, which can make the produced materials more sufficient and greatly improve the utilization rate of the raw materials.

In this embodiment, the bottom end of the input pipe 7 is fixedly connected with a nozzle, and the input pipe 7 extends into the inner cavity of the container 8 through the nozzle.

Example two

As shown in Figure 4, a mounting seat 19 is fixedly connected to the outer side of the bottom of the container 8, a groove 20 is dug on the top side of the mounting seat 19, and shock-absorbing springs 21 are equally spaced inside the groove 20. The groove 20 is fixedly connected to the outer wall of the container 8 through a shock-absorbing spring 21. By providing a shock-absorbing spring 21, when the bubble water is injected into the container 8, the shock-absorbing spring 21 can effectively prevent the container 8 from shaking, which greatly improves Stability during storage.

When the utility model is in use, the liquid flows through the curved tube 11, and the starter motor 15 can drive the spiral blade 14 to rotate. The spiral blade 14 cuts the bubble to reduce the diameter of the bubble. At the same time, the rotation of the spiral blade 14 can reduce the bubble The water is pushed to the right through the connecting pipe 18 and enters the micro-nano bubble water release 6 above. The spiral blade 14 of the micro-nano bubble water release 6 is rotated by the motor 15 to make the delivered bubble water collide and cut again. It is conveyed to the left, and finally injected into the container 8 through the input pipe 7 for storage.

The above are the preferred embodiments of the present invention. Those skilled in the art to which the present invention belongs can also make changes and modifications to the above-mentioned embodiments. Therefore, the present invention is not limited to the above-mentioned specific embodiments. Anyone skilled in the art Any obvious improvement, replacement or modification made on the basis of the present utility model belongs to the protection scope of the present utility model.

Claims

A device for generating micro-nano bubble water with low energy consumption, comprising a water pump (1), characterized in that the left input end of the water pump (1) is connected with a water inlet pipe (2), and the right input end of the water pump (1) is connected There is a water outlet pipe (22), the right end of the water outlet pipe (22) is fixedly connected with a slow flow pipe (3), and the lower right side of the slow flow pipe (3) is connected with a gas-liquid mixer (4) through a pipe. A mounting plate (5) is arranged above the gas-liquid mixer (4), the top side of the mounting plate (5) is symmetrically provided with a micro-nano bubble water release device (6), and the micro-nano bubble water release device (6) above is symmetrical. The top side is connected with an input pipe (7), the right end of the input pipe (7) is fixedly connected with a container (8), the lower right side of the container (8) is provided with a discharge pipe (9), the slow flow pipe (3) It includes a tube body (10), a curved tube (11) is fixedly connected to the inner cavity of the tube body (10), a filter layer (12) is arranged below the curved tube (11), and the micro-nano bubble water The inner cavity of the release device (6) is provided with a shaft (13), the outer side of the shaft (13) is respectively fixedly connected with a spiral blade (14), and the left side of the micro-nano bubble water release device (6) is fixed A motor (15) is connected, and the right output shaft of the motor (15) extends into the inner cavity of the micro/nano bubble water release (6) and is fixedly connected to the left end of the shaft (13).
The device for generating micro-nano bubble water with low energy consumption according to claim 1, characterized in that: the top side of the curved tube (11) is fixedly connected with a connecting plate (16), and the connecting plate (16) is provided with a through There is a through hole, and the top input end of the curved tube (11) is fixedly connected with the inner wall of the through hole on the connecting plate (16).
The low-energy-consumption micro-nano bubble water generating device according to claim 1, wherein the four corners on the bottom side of the mounting plate (5) are fixedly connected with support rods (17), and the gas-liquid mixer ( 4) Located between the supporting rods (17), the gas-liquid mixer (4) is specifically a Venturi gas-liquid mixer.
The low-energy-consumption micro-nano bubble water generating device according to claim 1, characterized in that: the top of the gas-liquid mixer (4) penetrates the mounting plate (5) through a pipe, and is released from the micro-nano bubble water below. The bottom side of the micro-nano bubble water release device (6) is connected through the bottom side, and the right side of the micro-nano bubble water release device (6) below is connected with a connecting tube (18). (6) Through connection on the right side.
The device for generating micro-nano bubble water with low energy consumption according to claim 1, characterized in that: the bottom end of the input pipe (7) is fixedly connected with a nozzle, and the input pipe (7) extends into the container (8) through the nozzle. In the lumen.
The device for generating micro-nano bubble water with low energy consumption according to claim 1, characterized in that: the outer side of the bottom of the container (8) is fixedly connected with a mounting seat (19), and the top side of the mounting seat (19) is provided with The groove (20) is provided with damping springs (21) at equal intervals inside the groove (20), and the groove (20) is fixedly connected with the outer wall of the container (8) through the damping spring (21).