Single-hand-operable Micro Water Purifier

Abstract

The single-hand-operable micro water purifier of the present application relates to a micro water filter, especially a micro water purifier which can filter water by means of pressuring. It consists of a micro filter device and a raw water pressurizing device. The micro filter device consists of a filter cylinder body, a filter water inlet, and a filter water outlet and a filter material assembly located in the filter cylinder body. The raw water pressurizing device consists of a pressurizing device water inlet, a pressurizing device main body, and a pressurizing device water outlet. The present application can promote the raw water to enter the filter device for performing the filtration to obtain the clean water, by using a single hand to operate, which not only brings convenience to the user, but also saves labor and improves the use efficiency.

Claims

1. The single-hand-operable micro water purifier, which is composed of a micro filter device and a raw water pressurizing device, wherein the micro filter device is composed of a filter cylinder body, a filter water inlet, a filter water outlet and a filter material assembly located in the filter cylinder body; and the raw water pressurizing device is composed of a pressurizing device water inlet, a pressurizing device main body and a pressurizing device water outlet, wherein the pressurizing device water outlet is communicated with the filter water inlet, wherein the pressurizing device main body comprises a piston device, a water inlet one-way valve device located at a front end of the piston device, and a water outlet one-way valve device located at a rear end of the piston device, the piston device comprises a piston cylinder body, a piston, a sealing ring located between the piston cylinder body and the piston, and a piston cylinder body end cover, the piston cylinder body is provided with a piston water inlet and a piston water outlet, a return spring is arranged between the piston and the piston cylinder body, the piston has a piston push rod protruding out of the piston cylinder body end cover, the water inlet one-way valve device is communicated with the piston water inlet, and the piston water outlet is communicated with the water outlet one-way valve device.

2. The single-hand-operable micro water purifier according to claim 1, wherein the pressurizing device main body further comprises a handle, which is connected with the piston push rod.

3. The single-hand-operable micro water purifier according to claim 2, wherein the handle is a cylindrical rod-type handle.

4. The single-hand-operable micro water purifier according to claim 2, wherein the handle is a lever-type handle, which has one end hinged to the pressurizing device main body, and a middle portion of the lever-type handle is in contact with the piston push rod.

5. The single-hand-operable micro water purifier according to claim 1, wherein the micro filter device and the raw water pressurizing device are two detachable parts, which are detachably fixedly hermetically connected with each other through the filter cylinder body and the pressurizing device main body.

6. The single-hand-operable micro water purifier according to claim 4, wherein the micro filter device and the raw water pressurizing device are two detachable parts, which are detachably fixedly hermetically connected with each other through the filter cylinder body and the pressurizing device main body.

7. The single-hand-operable micro water purifier according to claim wherein the filter cylinder body and the pressurizing device main body are fixedly hermetically connected with each other by screw threads.

8. The single-hand-operable micro water purifier according to claim 7, wherein a connection sleeve is arranged between the filter cylinder body and the pressurizing device main body, the filter cylinder body and the connection sleeve are detachably fixedly connected by screw threads; and the pressurizing device main body and the connection sleeve are hermetically fixedly connected.

9. The single-hand-operable micro water purifier according to claim 8, wherein a handle fixing hole is provided at an upper end of the filter cylinder body.

10. The single-hand-operable micro water purifier according to claim 7, wherein the water inlet one-way valve device and the water outlet one-way valve device are diaphragm-type one-way valve.

11. The single-hand-operable micro water purifier according to claim 9, wherein the lever-type handle is provided thereon with a torsion-spring-type connection buckle.

12. The single-hand-operable micro water purifier according to claim 2, wherein the micro filter device and the raw water pressurizing device are two detachable parts, which are detachably fixedly hermetically connected with each other through the filter cylinder body and the pressurizing device main body.

Description

BRIEF DESCRIPTION OF DRAWINGS

[0017] FIG. 1 is a schematic view of a longitudinal sectional structure of Embodiment 1 of single-hand-operable micro water purifier according to the present application.

[0018] FIG. 2 is a schematic view of the longitudinal sectional structure of Embodiment 2 of single-hand-operable micro water purifier according to the present application.

[0019] FIG. 3 is a schematic sectional structural view of the handle shown in FIG. 2 when the handle is fixed in the fixing hole.

DETAILED DESCRIPTION OF EMBODIMENTS

[0020] The present application will be further described below with reference to the embodiments and drawings.

[0021] FIG. 1 shows Embodiment 1 of the single-hand-operable micro water purifier according to the present application. This embodiment is composed of a micro filter device 1 and a raw water pressurizing device 2; the micro filter device 1 is composed of a filter cylinder body 11, a filter water inlet 12, a filter water outlet 14, and a filter material assembly 13 located in the filter cylinder body 1. The filter material assembly 13 is composed of a composite carbon fiber filter core 131, a filter disc 132, and an ultrafiltration membrane 133. The raw water pressurizing device 2 is composed of a pressurizing device water inlet 21, a pressurizing device main body 22, and a pressurizing device water outlet 23. The micro filter device 1 and the raw water pressurizing device 2 are two detachable parts, which are detachably fixedly hermetically connected with each other through the filter cylinder body 11 and the pressurizing device main body 22. In this embodiment, a connection sleeve 3 is provided between the filter cylinder body 11 and the pressurizing device main body 22. The filter cylinder body 11 and the connection sleeve 3 are detachably fixedly hermetically connected by screw threads. The connection sleeve 3 has a convex block 31, which is fixedly connected with the housing of the pressurizing device main body 22 in snapping manner. In this way, the micro filter device 1 can be easily disassembled, and the filter material assembly 13 can be replaced.

[0022] Of course, the filter cylinder body 11 and the pressurizing device main body 22 can also be fixedly and hermetically connected, directly through screw threads, which is also easily accomplished by those skilled in the art. The pressurizing device water outlet 23 communicates with the filter water inlet 12, and the raw water from the raw water pressurizing device 2 enters the micro filter device 1 through the filter water inlet 12. The pressurizing device main body 22 includes a piston device 221, a water inlet one-way valve device 222 located at the front end of the piston device 221, and a water outlet one-way valve device 223 located at the rear end of the piston device 221. In this embodiment, the water inlet one-way valve device 222 and the water outlet one-way valve device 223 are diaphragm-type one-way valves, which can fully reduce the volume of the entire micro filter device. Of course, according to the common sense of those skilled in the art, the duckbill one-way valve or ball one-way valve, etc. can also be used. The piston device 221 includes a piston cylinder body 2211, a piston 2212, a sealing ring 2213 located between the piston cylinder body 2211 and the piston 2212, and a piston cylinder body end cover 2214. The piston cylinder body 2211 is provided with a piston water inlet 22111 and a piston water outlet 22112. A return spring 2215 is provided between the piston 2212 and the piston cylinder body 2211. The piston 2212 has a piston push rod 22121 protruding out of the piston cylinder body end cover 2214. A cylindrical rod-type handle 224 is fixedly provided on the end of the piston push rod 22121. The cylindrical rod-type handle 224 is detachably movably connected with the piston push rod 22121, so as to facilitate carrying. Of course, the cylindrical rod-type handle 224 can also be a handle of other shapes, for the purpose of being convenient to carry and use. The water inlet one-way valve device 222 communicates with the piston water inlet 22111, and the piston water outlet 22112 communicates with the water outlet one-way valve device 223. In this way, by the pressing on the cylindrical rod-type handle 224 and the action of the return spring 2215, the pressurizing device main body 22 can make the raw water sucked from the pressurizing device water inlet 21 and pumped out from the pressurizing device water outlet 23 and then enter the micro filter device 1.

[0023] As shown in FIG. 2 and FIG. 3, Embodiment 2 of the single-hand-operable micro water purifier according to the present application is shown. Different from Embodiment 1, a lever-type handle 225 is provided at the end of the piston push rod 22121. One end of the lever-type handle 225 is hinged on the pressuring device main body 22, and the middle portion of the lever-type handle 225 is in contact with the piston push rod 22121. Compared with Embodiment 1, the advantage of using the lever-type handle 225 is that it is less labor-intensive. The micro filter device 1 is also provided with an anti-dust cover 4, and a lever-type handle fixing hole 226 is provided on the upper end of the filter cylinder body 11 for locking the lever-type handle 225. The lever-type handle 225 is provided with a torsion-spring-type connection buckle 2241 to facilitate carrying.

[0024] The above are only preferred embodiments of the present application, and are not intended to limit the present invention. For those skilled in the art, the present application may have various modifications and changes. Any modifications, equivalent replacements, improvements, etc., made within the spirit and principle of the present application, shall be included within the scope of the claims of the present invention.