CN212198616U - Nanofiltration equipment with high purification efficiency - Google Patents

Abstract

The utility model discloses an equipment of receiving straining that purification efficiency is high relates to the filtration equipment field, receive to current cylinder type and strain the great problem that leads to simultaneously along with filtration equipment's scale increase and filtration efficiency degressive of clearance between the device, now propose following scheme, it includes the staple bolt, it has received the device of receiving straining in the staple bolt, just receive and strain the device and include cartridge filter, nanofiltration membrane, baffle and filter membrane support, the outer wall connection of staple bolt has the installation frame, just the installation frame includes support, flat board, bottom plate, the cartridge filter cup joints in the staple bolt, just the cartridge filter is symmetric distribution about the staple bolt, the cavity has all been seted up in the cartridge filter, just the crack has all been seted up at the both ends of staple bolt, the crack all runs through in the lateral wall of staple bolt. The utility model discloses novel structure, and the device simple structure is stable, the installation is maintained conveniently and the effectual filtration efficiency and space utilization that have improved.

Description

Nanofiltration equipment with high purification efficiency

Technical Field

The utility model relates to a filtration equipment field especially relates to an equipment of receiving straining that purification efficiency is high.

Background

The nano-membrane is a membrane with a nano-grade pore diameter, allows mineral substances and water molecules to pass through, intercepts harmful substances, germs, impurities and some harmful ions, can soften hard water while filtering water, thereby improving the quality of drinking water, and can also be used for purifying pure water for beverage production.

SUMMERY OF THE UTILITY MODEL

The utility model provides a nanofiltration equipment that purification efficiency is high has solved the cylinder type and has received the great space utilization in clearance between the filter equipment of making and has reduced and lead to simultaneously along with filtration equipment's scale increase and filtration efficiency degressive problem.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a nanofiltration equipment that purification efficiency is high, includes the staple bolt, it strains the device to have cup jointed in the staple bolt, just it strains the device to strain including cartridge filter, nanofiltration membrane, baffle and filter membrane support, the outer wall connection of staple bolt has the installation frame, just the installation frame includes support, flat board, bottom plate.

Preferably, the cartridge filter cup joints in the staple bolt, just the cartridge filter is symmetric distribution about the staple bolt, the cavity has all been seted up in the cartridge filter, just the crack has all been seted up at the both ends of staple bolt, the crack all runs through in the lateral wall of staple bolt, just the staple bolt is located the top and the bottom of crack and all has seted up the screw hole, the screw hole all runs through in the lateral wall of staple bolt.

Preferably, the bottom and dull and stereotyped fixed connection of staple bolt, just the flat board is the level form, dull and stereotyped both sides all with support fixed connection, just the support all is vertical upwards form, the support is evenly distributed about dull and stereotyped length direction, just staple bolt, cartridge filter and flat board all are evenly distributed about the direction of height of support, threaded hole equal threaded connection has fixing bolt, just fixing bolt keeps away from the one end of screw hole and all runs through in the support.

Preferably, the bottom of the support is fixedly connected with the bottom plate, the bottom plate is perpendicular to the support, the expansion screws are mounted on two sides of the bottom plate, which are located on the support, and the expansion screws penetrate through the bottom plate.

Preferably, filter membrane support, nanofiltration membrane and baffle all cup joint in the cavity, just nanofiltration membrane and baffle all are horizontal installation, the nanofiltration membrane is sealing connection with the internal perisporium of cartridge filter, just the both ends of filter membrane support all are fixed connection with the cartridge filter, the nanofiltration membrane is around connecing in the filter membrane support, just the baffle is located the bottom of nanofiltration membrane filter membrane support, nanofiltration membrane and baffle all are evenly distributed along the direction of height of cartridge filter.

Preferably, one end of the filter cartridge is located at the bottom end of the nanofiltration membrane and is hermetically connected with a water outlet, the other end of the filter cartridge, which is far away from the water outlet, is located at the top end of the nanofiltration membrane and is hermetically connected with a water inlet, and the water outlet and the water inlet are communicated with the cavity.

The utility model has the advantages that:

1. the device has set up multichannel nanofiltration membrane and separated the formation several with the baffle in the filter vat and filtered for total filter area has increased filtration efficiency, and the device's filter membrane support arranges and is crisscross from top to bottom, makes the nanofiltration membrane alternate wherein to form the rugosity, makes total filter area increase through the filter area who improves single nanofiltration membrane, further improves filtration efficiency.

2. The device cup joints the structural strength of filter vat in order to improve the filter vat through the staple bolt to improve the compressive property of filter vat, avoid receiving water pressure and assault and take place to warp, the device is divided into upper and lower two parts with the staple bolt through the crack, in order to make things convenient for the dismouting of filter vat.

3. The filter vat of the device adopts the design of rectangular cross section, and the interval between the single filter vat is less when arranging the combination and making up into the filtration array, has effectually improved space utilization.

In conclusion, the device has the advantages of simple and stable structure, convenience in installation and maintenance and capability of effectively improving the filtering efficiency and the space utilization rate.

Drawings

Fig. 1 is a front view of the present invention.

Fig. 2 is a cross-sectional view of a-a in fig. 1 according to the present invention.

Fig. 3 is an enlarged schematic view of the structure B in fig. 2 according to the present invention.

Fig. 4 is a left side view of the present invention.

Fig. 5 is a right side view of the present invention.

Reference numbers in the figures: the filter comprises a hoop 1, a filter cartridge 2, a cavity 3, a crack 4, a threaded hole 5, a flat plate 6, a support 7, a fixing bolt 8, a bottom plate 9, an expansion screw 10, a filter membrane support 11, a nano filter membrane 12, a partition plate 13, a water outlet 14 and a water inlet 15.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Referring to fig. 1-5, a nanofiltration device with high purification efficiency comprises a hoop 1, wherein a nanofiltration device is sleeved in the hoop 1, the nanofiltration device comprises filter cartridges 2, nanofiltration membranes 12, partition plates 13 and filter membrane supports 11, the outer wall of the hoop 1 is connected with an installation frame, the installation frame comprises supports 7, flat plates 6 and a bottom plate 9, the filter cartridges 2 are sleeved in the hoop 1, the filter cartridges 2 are symmetrically distributed around the hoop 1, cavities 3 are respectively arranged in the filter cartridges 2, two ends of the hoop 1 are respectively provided with a crack 4, the cracks 4 respectively penetrate through the side walls of the hoop 1, the hoop 1 is provided with threaded holes 5 at the top and bottom ends of the cracks 4, the threaded holes 5 respectively penetrate through the side walls of the hoop 1, the bottom end of the hoop 1 is fixedly connected with the flat plates 6, and the flat plates 6 are horizontal, the two sides of the flat plate 6 are fixedly connected with a support 7, the support 7 is vertically upward, the support 7 is uniformly distributed in the length direction of the flat plate 6, the hoop 1, the filter cartridge 2 and the flat plate 6 are uniformly distributed in the height direction of the support 7, the threaded holes 5 are internally and uniformly connected with fixing bolts 8 in a threaded manner, one ends of the fixing bolts 8 far away from the threaded holes 5 penetrate through the support 7, the bottom end of the support 7 is fixedly connected with a bottom plate 9, the bottom plate 9 and the support 7 are perpendicular to each other, the bottom plate 9 is positioned at two sides of the support 7 and is provided with expansion screws 10, the expansion screws 10 penetrate through the bottom plate 9, the filter membrane support 11, the nanofiltration membrane 12 and the partition plate 13 are sleeved in the cavity 3, the nanofiltration membrane 12 and the partition plate 13 are horizontally installed, and the nanofiltration membrane 12 is in sealed connection with the inner peripheral wall of the filter cartridge 2, and the both ends of filter membrane support 11 all are fixed connection with cartridge filter 2, nanofiltration membrane 12 is around connecing in filter membrane support 11, just baffle 13 is located the bottom of nanofiltration membrane 12 filter membrane support 11, nanofiltration membrane 12 and baffle 13 all are evenly distributed along the direction of height of cartridge filter 2, the one end of cartridge filter 2 is located the equal sealing connection in bottom of nanofiltration membrane 12 and is had delivery port 14, just the one end that cartridge filter 2 kept away from delivery port 14 is located the equal sealing connection in top of nanofiltration membrane 12 and is had water inlet 15, just delivery port 14 and water inlet 15 all communicate with cavity 3.

The working principle is as follows: when the device is used, a water inlet 15 and a water outlet 14 are respectively connected in a combined manner through a three-way pipeline and then connected into a filtering system, a water pump is started to feed raw water into a filtering barrel 2 through the water inlet 15, the raw water respectively enters between the top end of a nanofiltration membrane 12 and a partition plate 6 through each water inlet 15, or between the top end of the nanofiltration membrane 12 and the inner wall of the filtering barrel 2, water pressure is applied through the water pump, the raw water enters between the bottom end of the nanofiltration membrane 12 and the partition plate 6 after penetrating through the nanofiltration membrane 12, or between the bottom end of the nanofiltration membrane 12 and the inner wall of the filtering barrel 2 and then is sent out through the water outlet 14, as above, the device is provided with multi-channel sub-filtering in the filtering barrel 2 to increase the total filtering area and improve the filtering efficiency, the filtering membrane supports 11 of the device are arranged in an up-down staggered manner, so that the nanofiltration membrane 12 is, the device's filter vat 2, baffle 6, filter membrane support 11 all should adopt food level 304 stainless steel to make, and the device's staple bolt 1 cup joints filter vat 2 to improve filter vat 2's structural strength, thereby improve filter vat 2's compressive property, avoid receiving water pressure and assault and take place to warp, the device's filter vat 2 length is longer, consequently with staple bolt 1 by crack 4 divide into two parts from top to bottom, in order to make things convenient for filter vat 2's dismouting.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (6)

1. The utility model provides a nanofiltration equipment that purification efficiency is high, includes staple bolt (1), its characterized in that, it strains the device to have cup jointed in staple bolt (1), just it strains the device to strain including cartridge filter (2), nanofiltration membrane (12), baffle (13) and filter membrane support (11), the outer wall connection of staple bolt (1) has the installation frame, just the installation frame includes support (7), flat board (6), bottom plate (9).

2. The nanofiltration equipment with high purification efficiency according to claim 1, wherein the filter cartridges (2) are sleeved in the hoop (1), the filter cartridges (2) are symmetrically distributed around the hoop (1), the filter cartridges (2) are provided with cavities (3), the two ends of the hoop (1) are provided with the cracks (4), the cracks (4) penetrate through the side wall of the hoop (1), the top end and the bottom end of the hoop (1) at the cracks (4) are provided with threaded holes (5), and the threaded holes (5) penetrate through the side wall of the hoop (1).

3. The nanofiltration equipment with high purification efficiency according to claim 2, wherein the bottom end of the hoop (1) is fixedly connected with the flat plate (6), the flat plate (6) is horizontal, both sides of the flat plate (6) are fixedly connected with the support (7), the support (7) is vertically upward, the support (7) is uniformly distributed in relation to the length direction of the flat plate (6), the hoop (1), the filter cartridge (2) and the flat plate (6) are uniformly distributed in relation to the height direction of the support (7), the threaded holes (5) are internally and uniformly connected with fixing bolts (8), and one ends of the fixing bolts (8) far away from the threaded holes (5) penetrate through the support (7).

4. Nanofiltration equipment with high purification efficiency according to claim 1, wherein the bottom ends of the supports (7) are fixedly connected to a bottom plate (9), the bottom plate (9) and the supports (7) are perpendicular to each other, the bottom plate (9) is provided with expansion screws (10) on both sides of the supports (7), and the expansion screws (10) penetrate through the bottom plate (9).

5. The nanofiltration equipment with high purification efficiency according to claim 2, wherein the filter membrane support (11), the nanofiltration membrane (12) and the partition plate (13) are all sleeved in the cavity (3), the nanofiltration membrane (12) and the partition plate (13) are all horizontally installed, the nanofiltration membrane (12) is hermetically connected with the inner peripheral wall of the filtration cartridge (2), both ends of the filter membrane support (11) are fixedly connected with the filtration cartridge (2), the nanofiltration membrane (12) is wound on the filter membrane support (11), the partition plate (13) is positioned at the bottom end of the nanofiltration membrane (12), and the filter membrane support (11), the nanofiltration membrane (12) and the partition plate (13) are all uniformly distributed along the height direction of the filtration cartridge (2).

6. Nanofiltration equipment with high purification efficiency according to claim 2, wherein one end of the filtration cartridge (2) located at the bottom end of the nanofiltration membrane (12) is hermetically connected with a water outlet (14), one end of the filtration cartridge (2) located at the top end of the nanofiltration membrane (12) and far away from the water outlet (14) is hermetically connected with a water inlet (15), and the water outlet (14) and the water inlet (15) are both communicated with the chamber (3).

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