HOLLOW FIBER LIQUID FILTER DEVICE PROVIDED WITH EXHAUST FIBER MEMBRANES AND USE METHOD OF HOLLOW FIBER LIQUID FILTER DEVICE

Abstract

The disclosure provides a hollow fiber liquid filter device provided with exhaust fiber membranes. The hollow fiber liquid filter device comprises a shell, a liquid inlet end, a liquid outlet end, a melt-blown fiber filter element, a hollow fiber liquid filtering part and a hollow fiber gas filtering part, wherein the liquid inlet end and the liquid outlet end are respectively connected to the upper end and the lower end of the shell, the melt-blown fiber filter element is arranged on the inner side of the shell, the hollow fiber liquid filtering part and the hollow fiber gas filtering part are respectively arranged on the inner side of the melt-blown fiber filter element, a liquid inlet is formed in the liquid inlet end, and ,a liquid outlet is formed in the liquid outlet end.

Claims

1. A hollow fiber liquid filter device provided with exhaust fiber membranes, characterized in that the hollow fiber liquid filter device comprises a shell, a liquid inlet end, a liquid outlet end, a melt-blown fiber filter element, a hollow, fiber liquid filtering part comprising hollow fiber gas filter membranes for only liquid to go through micropores in a wet state, and a hollow fiber gas filtering part comprising hollow fiber gas filter membranes for only gas to go through micropores in the wet state; the liquid inlet end and the liquid outlet end are respectively connected to the upper end and the lower end of the shell, the melt-blown fiber filter element is arranged on the inner side of the shell, the hollow fiber liquid filtering part and the hollow fiber gas filtering part are respectively arranged on the inner side of the melt-blown fiber filter element, a liquid inlet is formed in the liquid inlet end, and a liquid outlet is formed in the liquid outlet end.

2. The filter device according to the claim 1, characterized in that the upper end of the melt-blown fiber filter element is fixedly connected with the inner wall of the upper end of the shell through a supporting part in a supporting mode, the outer side of the supporting part is fixedly connected with the inner wall of the shell in a sealed mode, the upper end of the melt-blown fiber filter element is fixedly connected with the supporting part in an embedded mode, a sealing part is arranged at the lower end of the melt-blown fiber filter element and fixedly seals an opening in the lower end of the melt-blown fiber filter element, a U-shaped isolation cavity is formed by the shell and the melt-blown fiber filter element through the sealing part and the supporting part, liquid flows in from the liquid inlet and enters the U-shaped isolation cavity between the melt-blown fiber filter element and the shell, after the liquid is filtered by the pipe wall of the melt-blown fiber filter element, the liquid enters the inner side of the cylinder wall of the melt-blown fiber filter element, and then the liquid is filtered by the hollow fiber liquid filter membranes and the hollow fiber gas filter membranes in the next step.

3. The filter device according to claim 2, characterized in that the hollow fiber gas filtering part comprises a gas filtering hollow fiber bundle composed of a plurality of hollow fibers for filtering gas, and the two ends of the gas filtering hollow fiber bundle respectively penetrate through the supporting part from bottom to top from the inner side of the melt-blown fiber filter element in the sealed mode; each hollow fiber for filtering gas is bent, the two ends of each hollow fiber are embedded in the supporting part in the sealed mode, hollow openings in the two ends face the upper end of the supporting part to faun capillary gas outlet holes, a separation cavity is formed by an interval space between each hollow fiber for filtering gas and the melt-blown fiber filter element, and micropores are formed in the membrane wall of each fiber membrane; bent annular parts of the hollow fibers for filtering gas face the liquid inlet, the gas on the inner side of the cylinder wall of the melt-blown fiber filter element enters the hollow inner cavities of the fibers through the micropores in the fiber membrane walls and flows to the capillary gas outlet holes of the fibers, and the gas in the capillary gas outlet holes is converged to the liquid outlet in the liquid outlet end.

4. The fiber device according to claim 3, characterized in that the hollow fiber liquid filtering part comprises a liquid filtering hollow fiber bundle composed of a plurality of hollow fibers for filtering liquid, and the two ends of the liquid filtering hollow fiber bundle respectively penetrate through the supporting part from bottom to top from the inner side of the melt-blown fiber filter element in the sealed mode; each hollow fiber for filtering liquid is bent, the two ends of each hollow fiber are embedded in the supporting part in the sealed mode, hollow openings in the two ends face the upper end of the supporting part to form capillary liquid outlet holes, a separation cavity is formed by an interval space between each hollow fiber for filtering liquid and the melt-blown fiber filter element, and micropores are formed in the membrane wall of each fiber membrane; bent annular parts of the hollow fibers for filtering liquid, face the liquid inlet, the liquid entering the inner side of the cylinder wall of the melt-blown fiber filter element enters the hollow inner cavities of the fibers through the micropores in the fiber membrane walls and flows to the capillary liquid outlet holes of the fibers, and then the liquid in the capillary liquid outlet holes is converged to the liquid outlet in the liquid outlet end.

5. The filter device according to claim 1, characterized in that the supporting part is manufactured by resin curing, and is integrally connected with the liquid filtering hollow fiber bundle and the gas filtering hollow fiber bundle in a solidified mode; and a manufacturing method of the supporting part comprises the steps of embedding liquefied resin in the two ends of the liquid filtering hollow fiber bundle and the two ends of the gas filtering hollow fiber bundle after bending the liquid filtering hollow fiber bundle and the gas filtering hollow fiber bundle respectively, cutting off tail ends after resin curing to expose capillary holes of the hollow fiber, and then manufacturing the liquid filtering, hollow fiber bundle and the gas filtering hollow fiber bundle into sizes and shapes matched with the shell and the melt-blown fiber filter element.

6. The filter device according to claim 2, characterized in that the supporting part is manufactured by resin curing, and is integrally connected with the liquid filtering hollow fiber bundle and the gas filtering hollow fiber bundle in a solidified mode; and a manufacturing method of the supporting part comprises the steps of embedding liquefied resin in the two ends of the liquid filtering hollow fiber bundle and the two ends of the gas filtering hollow fiber bundle after bending the liquid filtering hollow fiber bundle and the gas filtering hollow fiber bundle respectively, cutting off tail ends after resin curing to expose capillary holes of the hollow fiber, and then manufacturing the liquid filtering hollow fiber bundle and the gas filtering hollow fiber bundle into sizes and shapes matched with the shell and the melt-blown fiber filter element.

7. The filter device according to claim 3, characterized in that the supporting part is manufactured by resin curing, and is integrally connected with the liquid filtering hollow fiber bundle and the gas filtering hollow fiber bundle in a solidified mode; and a manufacturing method of the supporting part comprises the steps of embedding liquefied resin in the two ends of the liquid filtering hollow fiber bundle and the two ends of the gas filtering hollow fiber bundle after bending the liquid filtering hollow fiber bundle and the gas filtering hollow fiber bundle respectively, cutting off tail ends after resin curing to expose capillary holes of the hollow fiber, and then manufacturing the liquid filtering hollow fiber bundle and the gas filtering hollow fiber bundle into sizes and shapes, matched with the shell and the melt-blown fiber filter element.

8. The filter device according to claim 4, characterized in that the supporting part is manufactured by resin curing, and is integrally connected with the liquid filtering hollow fiber bundle and the gas filtering hollow fiber bundle in a solidified mode; and a manufacturing method of the supporting part comprises the steps of embedding liquefied resin in the two ends of the liquid filtering hollow fiber bundle and the two ends of the gas filtering hollow fiber bundle after bending the liquid filtering hollow fiber bundle and the gas filtering hollow fiber bundle respectively, cutting off tail ends after resin curing to expose capillary holes of the hollow fiber, and then manufacturing the liquid filtering hollow fiber bundle and the gas filtering hollow fiber bundle into sizes and shapes matched with the shell and the melt-blown fiber filter element.

9. The filter device according to claim 5, characterized in that the liquid outlet end of the filter device is set to be a liquid outlet nozzle, and the liquid outlet nozzle can be used by a user to suck through the mouth or be connected with an external suction device, so that suction force is provided for the filter device, and sucked liquid passes through the filter device.

10. The filter device according to claim 5, characterized in that the internal fibers of the melt-blown fiber filter element comprise a plurality of antibacterial fibers, the propagation of microorganisms can be prevented effectively, and the microorganisms comprise bacteria.

11. A use method of the filter device according to claim 1, characterized by comprising the following steps: S1, insertion: inserting the liquid inlet end of the hollow fiber liquid filter device provided with the exhaust fiber membranes into liquid needing to be filtered; S2, primary filtration: communicating the mouth of the user or the external suction device with the liquid outlet in the liquid outlet end and providing negative pressure, and enabling liquid to enter the U-shaped isolation cavity between the melt-blown fiber filter element and the shell from the liquid inlet and to pass through the side wall of the melt-blown fiber filter element; S3, gas filtration: enabling liquid through primary filtration to enter the separation cavity between the melt-blown fiber filter element and the hollow fiber gas filtering part, enabling gas in the separation cavities to pass through the micropores in the membrane walls of the hollow fiber gas filter membranes under the action of suction force and enter the inner cavities of the hollow, fiber gas filter membranes, and discharging the liquid from the liquid outlet nozzle, so that the gas does not generate resistance to flow of the liquid; S4, liquid filtration: after the gas is discharged, enabling the liquid to pass through the micropores in the membrane walls of the hollow fiber liquid filter membranes from the separation cavity between the melt-blown fiber filter element and the hollow fiber liquid filtering part under the action of suction force and enter the inner cavities of the hollow fiber liquid filter membranes, and blocking the microorganisms and the bacteria in the liquid outside the membrane walls without entering the inner cavities of the hollow fiber liquid filter membranes by utilizing the micropores in the membrane walls of the hollow fiber liquid filter membranes, so that filtration is completed; and S5, discharging: discharging the liquid from the capillary liquid outlet holes in the liquid filtering hollow fiber bundle composed of a plurality of hollow fibers for filtering liquid in the hollow fiber liquid filtering part, and converging the liquid to be discharged from the liquid outlet in the liquid outlet end so as to be drunk or collected and stored by the user.

12. The use method according to claim 11, characterized in that the use method also comprises a back-flushing step, before filtration is ended, positive pressure is provided for the liquid outlet nozzle in a manner of blowing by the user or reversing by the external suction device and the like, and the liquid impacts the liquid filtering hollow fibers from the liquid outlet through the capillary liquid outlet holes, so that back flushing of the liquid filtering hollow fibers and the melt-blown fiber filter element is realized by clean liquid; or when the device is not used, the user can blow water left in the device out of the liquid inlet through an air blowing method, and the water can also be thrown out of the device through a swinging action.

13. The use method according to claim 11, characterized in that the liquid is water comprising particles and micrograms.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0024] FIG. 1 is a diagrammatic cross-section of the embodiment of the disclosure;

[0025] Wherein, 1, shell, 2, liquid inlet end, 3, liquid outlet end, 4, melt-blown fiber filter element, 5, liquid inlet, 6, liquid outlet nozzle, 7, supporting part, 8, sealing part, 9, U-shaped isolation cavity, 10, gas filtering hollow fiber bundle, and 11, liquid filtering hollow fiber bundle.

DESCRIPTION OF THE EMBODIMENTS

[0026] The following clearly and completely describes the technical scheme in the embodiments of the disclosure with reference to the accompanying drawings in the embodiments of the disclosure. Apparently, the described embodiments are merely a part rather than all of the embodiments of the disclosure. Based on the embodiment in the disclosure, all other embodiments obtained by the ordinary technical staff in the art under the premise of without contributing, creative labor belong to the scope protected by the disclosure.

[0027] Referring to FIG. 1, the hollow fiber liquid filter device provided with the exhaust fiber membranes comprises a shell 1, a liquid inlet end 2, a liquid outlet end 3, a melt-blown fiber filter element 4, a hollow fiber liquid filtering part comprising hollow fiber gas filter membranes for only liquid to go through micropores in a wet state, and a hollow fiber gas filtering part comprising hollow fiber gas filter membranes for only gas to go through micropores in the wet state; the liquid inlet 2 end and the liquid outlet end 3 are respectively connected to the upper end and the lower end of the shell 1, the melt-blown fiber filter element 4 is arranged on the inner side of the shell 1, the hollow fiber liquid filtering, part and the hollow fiber gas filtering part are respectively arranged on the inner side of the melt-blown fiber filter element 4, a liquid inlet 5 is formed in the, liquid inlet end 2, and a liquid outlet is formed in the liquid outlet end 3. Here, the hollow fiber gas filter membranes are used, the characteristic of the membranes lies in that, in the wet state, only gas can pass through the micropores but liquid cannot pass through the micropores in the membranes; the hollow fiber gas filter membranes are added, so that gas retained in the device can be discharged on the premise of not using the hollow fiber liquid filter membranes in the reverse direction, and liquid can be effectively filtered through the membrane walls; and intercepted particles are intercepted on the outer walls of the membranes, so that the membranes are easy to clean. The melt-blown fiber filter element 4 is further added in the device, the filter element is provided with granular particles which can be seen by naked eyes in water, large-particle impurities are preliminarily filtered through the filter element, the impurities with large particles in liquid are blocked on the outer wall of the melt-blown fiber filter element 4, and the risk that the large-particle impurities scratch the hollow fiber membranes in the flowing process of the liquid is also greatly reduced.

[0028] The upper end of the melt-blown fiber filter element 4 is fixedly connected with the inner wall of the upper end of the shell 1 through a supporting part 7 in a supporting mode, the outer side of the supporting part 7 is fixedly connected with the inner wall of the shell 1 in a sealed mode, the upper end of the melt-blown fiber filter element 4 is fixedly connected with the supporting part 7 in an embedded mode, a sealing part 8 is arranged at the lower end of the melt-blown fiber filter element 4 and fixedly seals an opening in the lower end of the melt-blown fiber filter element 4, a U-shaped isolation cavity 9 is formed by the shell 1 and the melt-blown fiber filter element 4 through the sealing part 8 and the supporting part 7, liquid flows in from the liquid inlet 5 and enters the U-shaped isolation cavity 9 between the melt-blown fiber filter element 4 and the shell 1, after the liquid is filtered by the pipe wall of the melt-blown, fiber filter element 4, the liquid enters the inner side of the cylinder wall of the melt-blown fiber filter element 4, and then the liquid is filtered by the hollow fiber liquid filter membranes and the hollow fiber gas filter membranes in the next step.

[0029] The hollow fiber gas filtering part comprises a gas filtering hollow fiber bundle 10 composed of, a plurality of hollow fibers for filtering gas, and the two ends of the gas filtering hollow fiber bundle 10 respectively penetrate through the supporting part 7 from bottom to top from the inner side of the melt-blown fiber filter element 4 in the sealed mode; each hollow, fiber for filtering gas is bent, the two ends of each hollow fiber are embedded in the supporting part 7 in the sealed mode, hollow openings in the two ends face the upper end of the supporting part 7 to form capillary gas outlet holes, a separation cavity is formed by an interval space between each hollow fiber for filtering gas and the melt-blown fiber filter element 4, and micropores are formed in the membrane wall of each fiber membrane; bent annular parts of the hollow fibers, for filtering gas face the liquid inlet 5, the gas on the inner side of the cylinder wall of the melt-blown fiber filter element 4 enters the hollow inner cavities of the fibers through the micropores in the fiber membrane walls and flows to the capillary gas outlet holes of the fibers, and the gas in the capillary gas outlet holes is converged to the liquid outlet in the liquid outlet end 3.

[0030] The hollow fiber liquid filtering part comprises a liquid filtering hollow fiber bundle 11 composed of a plurality of hollow fibers for filtering liquid, and the two ends of the gas filtering hollow fiber bundle 11 respectively penetrate through the supporting part 7 from bottom to top from the inner side of the melt-blown fiber filter element 4 in the sealed mode; each hollow, fiber for filtering liquid is bent the two ends of each hollow fiber are embedded in the supporting part 7 in the sealed mode, hollow openings in the two ends face the upper end of the supporting part 7 to form capillary liquid outlet holes, a separation cavity is formed by an interval space between each hollow fiber for filtering liquid and the melt-blown fiber filter element 4, and micropores are formed in the membrane wall of each fiber membrane; bent annular parts of the hollow fibers for filtering liquid face the liquid inlet 5, the liquid entering the inner side of the cylinder wall of the melt-blown fiber filter element 4 enters the hollow inner cavities of the fibers through the micropores in the fiber membrane walls and flows to the capillary liquid outlet holes of the fibers, and then the liquid in the capillary liquid outlet holes is converged to the liquid outlet in the liquid outlet end 3.

[0031] The supporting part 7 is manufactured by resin curing, and is integrally connected with the liquid filtering, hollow fiber bundle 11 and the gas filtering hollow fiber bundle 10 in a solidified mode; and a manufacturing method of the supporting part comprises the steps of embedding liquefied resin in the two ends of the liquid filtering hollow fiber bundle and the two ends of the gas filtering hollow fiber bundle after bending the liquid filtering hollow fiber bundle 11 and the gas filtering hollow fiber bundle 10 respectively, cutting off tail ends after resin curing to expose capillary holes of the hollow fibers, and then manufacturing the liquid filtering hollow fiber bundle and the gas filtering hollow fiber bundle into sizes and shapes matched with the shell 1 and the melt-blown fiber filter element 4.

[0032] The liquid outlet end 3 of the filter device is set to be a liquid outlet nozzle 6, and the liquid outlet nozzle 6 can be used by a user to suck through the mouth or be connected with an external suction device, so that suction force is provided for the filter device, and sucked liquid passes through the filter device.

[0033] The internal fibers of the melt-blown fiber filter element 4 comprise a plurality of antibacterial fibers, so that the propagation of microorganisms can be effectively prevented, and the microorganisms comprise bacteria.

[0034] In order to better achieve the effect of the disclosure, there is also provided a use method of a hollow fiber liquid filter device with the exhaust fiber membranes, comprising the following steps:

[0035] S1, insertion: inserting the liquid, inlet end 2 of the hollow fiber liquid filter device provided with the exhaust fiber membranes into liquid needing to be filtered;

[0036] S2, primary filtration: communicating the mouth of the user or the external suction device with the liquid outlet in the liquid outlet end 3 and providing negative pressure, and enabling liquid to enter the U-shaped isolation cavity 9 between the melt-blown fiber filter element 4 and the shell 1 from the liquid inlet 5 and to pass through the side wall of the melt-blown fiber filter element 4;

[0037] S3, gas filtration: enabling liquid through primary filtration to enter the separation cavity between the melt-blown fiber filter element 4 and the hollow fiber gas filtering part, enabling gas in the separation cavity to pass through the micropores in the membrane walls of the hollow fiber gas filter membranes under the action of suction force and enter the inner cavities of the hollow fiber gas filter membranes, and discharging the liquid from the liquid outlet nozzle 6, so that the gas does not generate resistance to flow of the liquid;

[0038] S4, liquid filtration: after the gas is discharged, enabling the liquid to pass through the micropores in the membrane walls of the hollow fiber liquid filter membranes from the separation cavity between the melt-blown fiber filter element 4 and the hollow fiber liquid filtering part under the action of suction force and enter the inner cavities of the hollow fiber liquid filter membranes, and blocking the microorganisms and the bacteria in the liquid outside the membrane walls without entering the inner cavities of the hollow fiber liquid filter membranes by utilizing the micropores in the membrane walls of the hollow fiber liquid filter membranes, so that filtration is completed; and

[0039] S5, discharging: discharging the liquid from the capillary liquid outlet holes in the liquid filtering hollow fiber bundle 11 composed of a plurality of hollow fibers for filtering liquid in the hallow fiber liquid filtering part, and converging the liquid to be discharged from the liquid outlet in the liquid outlet end 3 so as to be drunk or collected and stored by the user.

[0040] The use method further comprises a back-flushing step, before filtration is ended, positive pressure is provided for the liquid outlet nozzle 6 in a manner of blowing by the user or reversing by the external suction device and the like, and the liquid impacts the liquid filtering hollow fibers from the liquid outlet through the capillary liquid outlet holes, so that back flushing of the liquid filtering hollow fibers and the melt-blown fiber filter element 4 is realized by clean liquid.

[0041] When the device is not used, the user can, blow water left in the device out of the liquid inlet through an air blowing, method, and the water can also be thrown out of the device through a swinging action.

[0042] The liquid is water comprising particles and micrograms.

[0043] Although the embodiments of the disclosure have already been illustrated and described, various changes, modifications, replacements and transformations can be made by any person skilled in the art under the condition of without departing from the principle and the spirit of the disclosure, and thus the scope of the disclosure should be restricted by claims and equivalents thereof.