CN219907142U - Portable electroless water purification system - Google Patents

Abstract

The utility model belongs to the technical field of water purifying equipment, and provides a portable electroless water purifying system, which comprises: the filter element group comprises a front filter element, a middle filter element and a rear filter element, wherein the middle filter element comprises a reverse osmosis filter element or a nanofiltration filter element; the water passing pipeline comprises a water inlet pipe head and a water outlet pipe head, and is sequentially connected with the front filter element, the middle filter element and the rear filter element in series; the manual supercharging device is arranged between the front filter element and the middle filter element; the box is used for accommodating the filter element group, the water passing pipeline and the manual supercharging device, and the water inlet pipe head and the water outlet pipe head are communicated to the outside of the box. The utility model can improve the water purification quality of the portable water purification equipment, meet the outdoor severe water purification requirement, ensure the water purification efficiency while effectively controlling the overall size of the equipment, and fully meet the complex design requirements of portable water purification equipment, convenient carrying and transportation, no need of power source energy, high quality and high efficiency of water purification.

Description

Portable electroless water purification system

Technical Field

The utility model relates to the technical field of water purifying equipment, in particular to a portable wireless water purifying system.

Background

Besides the fixed installation type, the water purifying device is also commonly used for outdoor portable water purifying devices, the device is usually required to purify bad water quality in the environment without power supply and energy supply, and because the outdoor purified water can be used for drinking, the portable water purifying device also has higher requirements on the aspects of water purifying quality and water purifying efficiency, and compared with the fixed installation large-scale water purifying device, the design requirements of the portable water purifying device are often compounded in multiple aspects.

In the prior art, in order to consider portability, the portable water purification equipment has smaller filter core size and limited filter core quantity, some portable water purification equipment built-in motors supply power to the electric pump for pressurization, some adopt manual supercharging devices for pressurization, and the existing portable water purification equipment has at least the following defects: the built-in motor is arranged, so that the whole weight and the size of the equipment are large, the equipment is inconvenient to carry and transport, once the motor breaks down, water cannot be purified, the influence on the filter element is not considered in the setting position of the manual supercharging device in the manual supercharging water purifying equipment, the manual supercharging device is even connected to the outside of the water purifying equipment, the supercharging effect is not ideal, the water purifying efficiency is low, the water outlet effect is poor, and the requirements for carrying and transporting convenience, no power source and high-quality and high-efficiency compound design are not required.

Disclosure of Invention

In view of the above drawbacks of the prior art, the present utility model is to provide a portable electric water purification system, which is used for solving the problems that in the prior art, a built-in motor of a portable water purification device causes that the whole weight and the size of the device are large, water cannot be purified once the motor fails, and in a manual pressurizing water purification device, the effect on a filter element is not ideal due to the fact that the setting position of the manual pressurizing device does not consider the influence on the filter element, the water purification efficiency is low, the water outlet effect is poor, and the complex design requirements of convenience in carrying and transportation, no need of power source energy, high quality and high efficiency of water purification are difficult to meet anyway.

To achieve the above and other related objects, the present utility model provides a portable, wireless water purification system comprising:

the filter element group comprises a front filter element, a middle filter element and a rear filter element, wherein the middle filter element comprises a reverse osmosis filter element or a nanofiltration filter element;

the water passing pipeline comprises a water inlet pipe head and a water outlet pipe head, and is sequentially connected with the front filter element, the middle filter element and the rear filter element in series from the water inlet pipe head to the water outlet pipe head;

the manual supercharging device is arranged on the water passing pipeline and is positioned between the front filter element and the middle filter element;

the box is used for containing all or part of the filter element group, the water passing pipeline and the manual pressurizing device, and the water inlet pipe head and the water outlet pipe head are communicated to the outside of the box.

Further, a water outlet end of the middle filter element is connected with a water draining pipeline, and a proportional valve is arranged on the water draining pipeline.

Further, a flushing pipeline is led out between the proportional valve and the middle filter element, and a switch valve is arranged on the flushing pipeline.

Further, a pressure gauge is arranged between the manual supercharging device and the middle filter element.

Further, the water inlet pipe head is connected with a filter head.

Further, a water outlet tap connected with the water outlet pipe head is arranged outside the box body.

Further, the manual supercharging device comprises a supercharging pump, a speed increasing gear box and a handle, wherein the supercharging pump is arranged inside the box body, the handle is detachably arranged outside the box body, and the speed increasing gear box is connected between the supercharging pump and the handle.

Further, the booster pump includes:

the internal part of the booster pump shell comprises a first cavity and a second cavity, a water inlet and a water outlet are arranged on the booster pump shell, and the water inlet and the water outlet are respectively communicated with the first cavity;

a soft baffle plate arranged in the booster pump shell and positioned between the first cavity and the second cavity;

the pressurizing cavity shell is positioned in the first cavity and is surrounded by the soft partition plate to form a pressurizing cavity, a first water channel connected with the water inlet and a second water channel connected with the water outlet are formed in the pressurizing cavity shell, a water inlet one-way valve is arranged on the first water channel, and a water outlet one-way valve is arranged on the second water channel;

the driving part comprises an inclined shaft wheel arranged in the second cavity, a follower which follows the inclined shaft wheel, and a driving shaft connected with the inclined shaft wheel, wherein the follower is also connected with the area of the soft partition board which is surrounded into the pressurizing cavity.

Further, a speed increasing gear assembly is arranged in the speed increasing gear box, the speed increasing gear assembly comprises a driving shaft connected with the handle, a first gear sleeved on the driving shaft, a second gear meshed with the first gear, a driven shaft coaxially connected with the second gear, a third gear sleeved on the driven shaft, and a fourth gear sleeved on the driving shaft, the fourth gear is meshed with the third gear, the number of teeth of the first gear is larger than that of teeth of the second gear, and the number of teeth of the third gear is larger than that of teeth of the fourth gear.

Further, a plurality of pressurizing cavity shells are arranged in the first cavity, the first water channels arranged on the pressurizing cavity shells are converged at the water inlet, and the second water channels arranged on the pressurizing cavity shells are converged at the water outlet.

In summary, the portable wireless water purification system provided by the utility model has at least the following beneficial effects:

through tertiary filter core and manual supercharging device combination, be applicable to various no power supply scenes, can improve portable water purification equipment's water purification quality, satisfy outdoor abominable quality of water purification demand, can ensure water purification efficiency when effective control equipment overall dimension again, fully satisfied portable water purification equipment portable transport, need not the high-quality efficient complex design demand of power energy, water purification.

Drawings

Fig. 1 is a schematic view showing the overall structure of a portable wireless water purification system according to an exemplary embodiment of the present utility model;

FIG. 2 is an internal cross-sectional view of a manual supercharging device shown in accordance with an exemplary embodiment of the present utility model as the tilt sheave is rotated to a position;

FIG. 3 is an internal cross-sectional view of a manual supercharging device shown in accordance with an exemplary embodiment of the present utility model as the tilt sheave is rotated to another position;

fig. 4 is an internal structural view of a manual supercharging device according to an exemplary embodiment of the present utility model;

FIG. 5 is an isometric view of the overall structure of a manual supercharging device shown in an exemplary embodiment of the present utility model with a handle mounted;

FIG. 6 is a schematic view showing the connection relationship of a manual pressurizing device when a handle is installed according to an exemplary embodiment of the present utility model;

FIG. 7 is a schematic diagram illustrating a mating relationship of a step-up gear assembly in a manual supercharging device according to an exemplary embodiment of the present utility model;

fig. 8 is a schematic partial cross-sectional view of a manual pressurizing device according to an exemplary embodiment of the present utility model.

Description of the part reference numerals

11-a pre-filter element; 12-arranging a filter element; 13-a rear filter element; 2-a water passing pipeline; 21-a water inlet pipe head; 211-a filter head; 22-a water outlet pipe head; 221-water tap; 23-drainage pipeline; 231-proportioning valve; 24-flushing the pipeline; 241-on-off valve; 25-a pressure gauge; 3-a manual pressurizing device; 31-a housing; 3101-water inlet; 3102-water outlet; 311-first chamber; 312-a second chamber; 32-a soft separator; 321-a concave structure; 33-a plenum housing; 3301-a first waterway; 3302-a second waterway; 331-a plenum; 332-pressing plate; 3321-raised structures; 333-water inlet check valve; 334-a water outlet one-way valve; 341-tilting the arbor wheel; 3411—drive bearings; 342-follower; 3421-a connector; 3422-splints; 343-a drive shaft; 35-handle; 36-a speed increasing gearbox; 361-a drive shaft; 362-a first gear; 363-a second gear; 364-driven shaft; 365-third gear; 366-fourth gear; 4-a box body.

Detailed Description

Further advantages and effects of the present utility model will become apparent to those skilled in the art from the disclosure of the present utility model, which is described by the following specific examples.

It should be understood that the structures, proportions, sizes, etc. shown in the drawings are for illustration purposes only and should not be construed as limiting the utility model to the extent that it can be practiced, since modifications, changes in the proportions, or otherwise, used in the practice of the utility model, are not intended to be critical to the essential characteristics of the utility model, but are intended to fall within the spirit and scope of the utility model. Also, the terms "front", "back", "left", "right", "middle" and "first", "second" are used herein for descriptive purposes only and are not intended to limit the scope of the utility model for which the utility model may be practiced, but rather the relative relationships thereof may be altered or modified without substantial modification to the technical context.

In one embodiment, the present utility model illustratively shows a portable, non-electric water purification system, please refer to fig. 1, which includes at least a filter cartridge assembly, a water line 2, a manual pressurization device 3, and a tank 4, wherein:

the filter element group comprises a front filter element 11, a middle filter element 12 and a rear filter element 13, wherein the middle filter element 12 comprises a reverse osmosis filter element or a nanofiltration filter element;

the water passing pipeline 2 comprises a water inlet pipe head 21 and a water outlet pipe head 22, and the water passing pipeline 2 is sequentially connected with a front filter element 11, a middle filter element 12 and a rear filter element 13 in series from the water inlet pipe head 21 to the water outlet pipe head 22

The manual supercharging device 3 is arranged on the water passing pipeline 2 and is positioned between the front filter element 11 and the middle filter element 12;

the box 4 is used for accommodating all or part of the filter element group, the water passing pipeline 2 and the manual pressurizing device 3, and the water inlet pipe head 21 and the water outlet pipe head 22 are communicated to the outside of the box 4.

In the above-mentioned embodiment, be provided with tertiary filter core, wherein put filter core 12 and include reverse osmosis filter core or nanofiltration filter core, can filter and obtain pure water, its filter membrane aperture is less, can keep higher water purification and go out water efficiency under higher intake pressure, leading filter core 11 and postposition filter core 13 include but are not limited to filter core such as ultrafiltration membrane filter core commonly used, be used for purifying intaking and go out water, tertiary filter core cooperation can effectively improve water purification quality, manual supercharging device 3 that sets up between leading filter core 11 and put filter core 12 can improve put filter core 12 water intake water pressure simultaneously, effectively improve filtration water purification efficiency, manual supercharging device 3 need not extra power and drive piece and provide the energy, manual can realize the pressure boost, be favorable to reducing the inside whole space occupation of box 4, it is visible, in the portable electroless water purification system that this embodiment provided, through tertiary filter core and manual supercharging device 3 combination, be applicable to various unpowered scenes, can improve the water purification quality of portable water purification equipment, satisfy outdoor abominable water purification demand, can guarantee water purification efficiency again in the whole size of effective control equipment, portable transportation water purification equipment has fully satisfied, portable water purification equipment portable quality, high-performance composite power source design high performance.

In this embodiment, the water outlet end of the central filter element 12 is connected to a water drain pipeline 23, and a proportional valve 231 is disposed on the water drain pipeline 23.

In this embodiment, a flushing pipeline 24 is led out between the proportional valve 231 and the central filter element 12, a switch valve 241 is arranged on the flushing pipeline 24, the switch valve 241 is arranged outside the box body 4 and can be manually opened and closed, water can be normally produced by closing the switch valve 241, the switch valve 241 is opened, the central filter element 12 can be flushed, waste water for flushing the central filter element 12 can be rapidly discharged through the flushing pipeline 24, and the cleaning and maintenance are convenient, thereby being beneficial to improving the service life of the filter element.

In this embodiment, a pressure gauge 25 is disposed between the manual pressurizing device 3 and the central filter element 12, and a dial of the pressure gauge 25 is located outside the tank 4 and is used for monitoring the fluid pressure in the water passing pipeline 2.

In this embodiment, the water inlet pipe head 21 is connected with a filter head 211, and the filter head 211 is used for coarse filtering raw water to reduce large impurities from entering the water passing pipeline 2.

In the present embodiment, a water outlet tap 221 connected to the water outlet pipe 22 is provided outside the casing 4, for controlling the opening and closing of the water outlet pipe 22.

In the present embodiment, the manual supercharging device 3 includes a booster pump, a speed increasing gearbox 36, and a handle 35, the booster pump is provided inside the casing 4, the handle 35 is detachably located outside the casing 4, and the speed increasing gearbox 36 is connected between the booster pump and the handle 35.

Referring specifically to fig. 2-3, the present utility model also illustratively shows a construction of a booster pump comprising a booster pump housing 31, a flexible diaphragm 32, a booster chamber housing 33, and a drive section, wherein:

the booster pump housing 31 refers to an external housing structure of the whole manual booster device 3, a water inlet 3101 and a water outlet 3102 are arranged on the booster pump housing 31, and in the embodiment, the booster pump housing 31 is a detachable whole formed by connecting two parts of partial booster pump housings 31;

the soft separator 32 is arranged in the booster pump shell 31 and is used for separating the internal space of the booster pump shell 31 into a first cavity 311 and a second cavity 312, the water inlet 3101 and the water outlet 3102 are respectively communicated with the first cavity 311, and the water inlet 3101 and the water outlet 3102;

the pressurizing cavity shell 33 is positioned in the first cavity 311, the pressurizing cavity shell 33 and the soft partition plate 32 are surrounded to form a pressurizing cavity 331, a first water channel 3301 connected with the water inlet 3101 and a second water channel 3302 connected with the water outlet 3102 are formed in the pressurizing cavity shell 33, a pressing plate 332 is arranged in the pressurizing cavity 331, the communication position of the first water channel 3301 and the inner space of the pressurizing cavity 331 and the communication position of the second water channel 3302 and the inner space of the pressurizing cavity 331 are positioned on the same side of the pressing plate 332, a water inlet one-way valve 333 is arranged on the first water channel 3301, a water outlet one-way valve 334 is arranged on the second water channel 3302, and it can be understood that external water enters the pressurizing cavity 331 through the water inlet 3101 and the first water channel 3301 and then enters the water outlet 3102 through the second water channel 3302 out of the pressurizing cavity 331;

the driving part includes an inclined shaft wheel 341 and a follower 342 disposed in the second cavity 312, and a driving shaft 343 connected to the inclined shaft wheel 341, wherein the follower 342 and the pressing plate 332 are connected by a connecting piece 3421 passing through the soft partition 32, and when the driving shaft 343 drives the inclined shaft wheel 341 to rotate, the inclined shaft wheel 341 periodically pushes the follower 342 to approach and separate from the soft partition 32, it should be noted that the inclined shaft wheel 341 refers to a wheel structure with an inclined shaft hole center line, that is, when the inclined shaft wheel 341 is sleeved on the driving shaft 343, two end surfaces of the inclined shaft wheel 341 are not perpendicular to the axis of the driving shaft 343.

In the above embodiment, the inclined shaft wheel 341 periodically pushes the follower 342 to approach and separate from the soft partition plate 32 during rotation, so as to drive the diaphragm to periodically swing in the pressurizing cavity 331, so that the pressure in the pressurizing cavity 331 changes, and external water is pressurized to push out the second water channel 3302 after being sucked into the pressurizing cavity 331 from the first water channel 3301.

In this embodiment, referring to fig. 5-6, the driving shaft 343 extends from the booster pump housing 31, the manual booster device 3 further includes a handle 35 detachably connected to the extending end of the driving shaft 343, and the rotation of the handle 35 drives the driving shaft 343 to rotate, so as to facilitate the boosting of the pumping water, and the detachable handle 35 is beneficial to further improving the portability.

In this embodiment, referring to fig. 5-7, the manual supercharging device 3 further includes a speed increasing gear box 36 connected between the supercharging pump and the handle 35, and a speed increasing gear assembly is disposed in the speed increasing gear box 36, specifically, the speed increasing gear assembly includes a driving shaft 361 connected with the handle 35, a first gear 362 sleeved on the driving shaft 361, a second gear 363 meshed with the first gear 362, a driven shaft 364 coaxially connected with the second gear 363, a third gear 365 sleeved on the driven shaft 364, and a fourth gear 366 sleeved on the driving shaft 343, where the fourth gear 366 is meshed with the third gear 365, the number of teeth of the first gear 362 is greater than the number of teeth of the second gear 363, and the number of teeth of the third gear 365 is greater than the number of teeth of the fourth gear 366.

For ease of understanding, referring to fig. 2 and 3, fig. 2 and 3 show the internal structure of the portable device when the inclined shaft wheel 341 rotates to different positions, respectively, in a cross-sectional direction of the inside of the booster pump housing 31, the follower 342 is located on the right side of the inside of the booster pump housing 31, when the inclined shaft wheel 341 rotates to the high right end of the left end, the follower 342 sinks, the pressing plate 332 is driven to move down in the pressurizing cavity 331, at this time, the pressure in the pressurizing cavity 331 is reduced, the first water channel 3301 is filled with water, and when the inclined shaft wheel 341 rotates to the low right end of the left end, the follower 342 lifts, the pressing plate 332 is driven to move up in the pressurizing cavity 331, and the water is pressed out of the second water channel 3302.

In this embodiment, the inclined shaft wheel 341 is sleeved with a driving shaft 343 bearing 3411, a first end surface of the driving shaft 343 bearing 3411 is abutted with the follow-up member 342, a clamping plate 3422 is detachably connected to the follow-up member 342, the clamping plate 3422 is abutted with a second end surface of the driving shaft 343 bearing 3411 opposite to the first end surface and is used for being matched with the follow-up member 342 to clamp the driving shaft 343 bearing 3411, in this embodiment, the follow-up member 342 is in an L-shaped block structure, one end of the follow-up member 342 is abutted with the first end surface of the driving shaft 343 bearing 3411, the clamping plate 3422 is mounted at the other end of the follow-up member, the clamping plate 3422 is abutted with the second end surface of the driving shaft 343 bearing 3411, it is understood that the clamping plate 3422 and the follow-up member 342 are respectively abutted with the two end surfaces of the driving shaft 343 bearing 3411, in the process that the driving shaft bearing 3411 rotates along with the inclined shaft wheel 341, the fluctuating state of the inclined shaft wheel 341 can be precisely transferred to the follow-up member 342, in this embodiment, the clamping plate 332 is connected with the follow-up member 342 through the connecting member 3421, for example, the screw 342, and the flexible partition plate 32 is provided with a screw for example, so as to realize the fluctuating movement of the pressure pump with the oscillating screw 332 along with the oscillating screw and the oscillating screw 332.

In this embodiment, the water outlet check valve 334 is located in the first cavity 311, the water outlet check valve 334 includes an umbrella-shaped valve core, an umbrella cover end cover of the umbrella-shaped valve core is disposed at one end of the second water channel 3302 connected to the first cavity 311, further, the umbrella-shaped valve core is coaxially disposed with the driving shaft 343, the pressurizing cavity shell 33 is disposed in a plurality of annular rings with the umbrella-shaped valve core as a center, each first water channel 3301 disposed on the pressurizing cavity shell 33 is collected at the water inlet 3101, each second water channel 3302 disposed on the pressurizing cavity shell is collected at the water outlet 3102, for example, in this embodiment, the pressurizing cavity shell 33 is disposed in three groups in an annular manner to form three pressurizing cavities 331, the driving shaft 343 bearing 3411 rotates one circle along with the inclined shaft 341, and the three pressurizing cavities 331 complete one-time water suction, which is beneficial to improving the energy conversion efficiency and the pumping quantity and pumping efficiency.

In this embodiment, referring to fig. 2, 3 and 8, a fitting structure is disposed between the pressing plate 332 and the soft partition 32 for positioning between the pressing plate 332 and the soft partition 32, where the fitting structure includes a protrusion structure 3321 disposed on the pressing plate 332 and a recess structure 321 disposed on the soft partition 32, the protrusion structure 3321 is in plug-fit with the recess structure 321, and the recess structure 321 is recessed from the first cavity 311 to the second cavity 312, it is understood that the fitting structure can be used as a sealing structure, for example, in this embodiment, the protrusion structure 3321 can be, for example, an annular wall surrounding the connecting member 3421, and the recess structure 321 can be, for example, an annular groove surrounding the connecting member 3421, so as to facilitate preventing water in the pressurizing cavity 331 from penetrating into the driving portion from the connecting member 3421, and can be used as a guiding structure, for example, in this embodiment, the pressing plate 332 and the soft partition 32 are kept fitted all the time, so as to facilitate ensuring that the moving direction of the pressing plate 332 is not deviated, so as to facilitate improving the stability of pumping water.

Further, in this embodiment, referring to fig. 8, the concave structure 321 on the soft partition 32 protrudes toward the second cavity 312, and the upper end surface of the follower 342 is further provided with a groove for accommodating the protrusion, so that there is also a plug-in fit between the follower 342 and the soft partition 32, so as to guide the up-and-down movement of the follower 342, and further ensure the accurate movement direction.

In this embodiment, the water inlet check valve 333 is disposed in the pressurizing cavity 331 and located at one end of the first water channel 3301 connected to the pressurizing cavity 331, specifically, the inner wall of the pressurizing cavity 331 is recessed outwards, so as to form a space for accommodating the water inlet check valve 333, which is beneficial to further reducing space occupation of parts while ensuring the volume of the pressurizing cavity 331 and improving compactness of the whole structure.

In the above embodiment, the manual supercharging device 3 has compact structure and high supercharging efficiency, and greatly meets the complex design requirements of portable water purifying equipment, convenient carrying and transportation, no need of power source energy and high quality and high efficiency of water purification.

The above embodiments are merely illustrative of the principles of the present utility model and its effectiveness, and are not intended to limit the utility model. Modifications and variations may be made to the above-described embodiments by those skilled in the art without departing from the spirit and scope of the utility model. It is therefore intended that all equivalent modifications and changes made by those skilled in the art without departing from the spirit and technical spirit of the present utility model shall be covered by the appended claims.

Claims (10)

1. A portable, electroless water purification system, comprising:

the filter element group comprises a front filter element, a middle filter element and a rear filter element, wherein the middle filter element comprises a reverse osmosis filter element or a nanofiltration filter element;

the water passing pipeline comprises a water inlet pipe head and a water outlet pipe head, and is sequentially connected with the front filter element, the middle filter element and the rear filter element in series from the water inlet pipe head to the water outlet pipe head;

the manual supercharging device is arranged on the water passing pipeline and is positioned between the front filter element and the middle filter element;

the box is used for containing all or part of the filter element group, the water passing pipeline and the manual pressurizing device, and the water inlet pipe head and the water outlet pipe head are communicated to the outside of the box.

2. The portable, wireless water purification system of claim 1, wherein: the water outlet end of the middle filter element is connected with a water draining pipeline, and a proportional valve is arranged on the water draining pipeline.

3. The portable, wireless water purification system of claim 2, wherein: a flushing pipeline is led out between the proportional valve and the middle filter element, and a switch valve is arranged on the flushing pipeline.

4. The portable, wireless water purification system of claim 1, wherein: and a pressure gauge is arranged between the manual supercharging device and the middle filter element.

5. The portable, wireless water purification system of claim 1, wherein: the water inlet pipe head is connected with a filter head.

6. The portable, wireless water purification system of claim 1, wherein: the outside of the box body is provided with a water outlet tap connected with the water outlet pipe head.

7. The portable, wireless water purification system of claim 1, wherein: the manual supercharging device comprises a supercharging pump, a speed increasing gear box and a handle, wherein the supercharging pump is arranged inside the box body, the handle is detachably arranged outside the box body, and the speed increasing gear box is connected between the supercharging pump and the handle.

8. The portable, wireless water purification system of claim 7, wherein the booster pump comprises:

the internal part of the booster pump shell comprises a first cavity and a second cavity, a water inlet and a water outlet are arranged on the booster pump shell, and the water inlet and the water outlet are respectively communicated with the first cavity;

a soft baffle plate arranged in the booster pump shell and positioned between the first cavity and the second cavity;

the pressurizing cavity shell is positioned in the first cavity and is surrounded by the soft partition plate to form a pressurizing cavity, a first water channel connected with the water inlet and a second water channel connected with the water outlet are formed in the pressurizing cavity shell, a water inlet one-way valve is arranged on the first water channel, and a water outlet one-way valve is arranged on the second water channel;

the driving part comprises an inclined shaft wheel arranged in the second cavity, a follower which follows the inclined shaft wheel, and a driving shaft connected with the inclined shaft wheel, wherein the follower is also connected with the area of the soft partition board which is surrounded into the pressurizing cavity.

9. The portable, wireless water purification system of claim 8, wherein: the speed increasing gear box is internally provided with a speed increasing gear assembly, the speed increasing gear assembly comprises a driving shaft connected with the handle, a first gear sleeved on the driving shaft, a second gear meshed with the first gear, a driven shaft coaxially connected with the second gear, a third gear sleeved on the driven shaft, and a fourth gear sleeved on the driving shaft, the fourth gear is meshed with the third gear, the number of teeth of the first gear is larger than that of the second gear, and the number of teeth of the third gear is larger than that of the fourth gear.

10. The portable, wireless water purification system of claim 8, wherein: the first cavity is internally provided with a plurality of pressurizing cavity shells, the first water channels arranged on the pressurizing cavity shells are converged at the water inlet, and the second water channels arranged on the pressurizing cavity shells are converged at the water outlet.