CN214763813U - Demineralized water filter equipment - Google Patents

Abstract

The utility model discloses a demineralized water filtering device, which comprises a water tank, a main water inlet pipe, a filter belt filtering mechanism, a sundries collecting mechanism and a roller filtering mechanism; the filter belt filtering mechanism is fixedly arranged on the top of the water tank; the roller filtering mechanism is fixedly arranged on the filter belt filtering mechanism; the sundries collecting mechanism comprises a washing unit and a sundries collecting unit; the sundries collecting unit comprises a sundries collecting hopper, a strip-shaped collecting groove, a strip-shaped supporting plate and two sundries collecting frames. The demineralized water filtering device is fixedly arranged on the filter belt filtering mechanism by utilizing the roller filtering mechanism, so that the roller filtering mechanism and the filter belt filtering mechanism carry out filtering twice to ensure the filtering effect; utilize cylinder filtering mechanism to carry out the drum-type filtration when opening the second water valve alone to can reduce the functioning speed of filter belt filtering mechanism, effectively reduce the use amount of non-woven fabrics, reduce the filtration cost, also can avoid a large amount of non-woven fabrics waste materials to cause environmental pollution.

Description

Demineralized water filter equipment

Technical Field

The utility model relates to a filter equipment, especially demineralized water filter equipment.

Background

At present, current demineralized water filtration system comprises filter belt filter and water tank, and filtering material is the non-woven fabrics, and its filter fineness is 15 ~ 20 microns, and the non-woven fabrics is a consumptive material, and its price is generally at 8 ~ 10 yuan/meter.

Original filtration technology is cooling in the production process, water after use such as circulation gathers a pipeline, carry to the filter, get into the distributor through import pipe, make the more even non-woven fabrics of arranging above the filter of ability of intaking, the non-woven fabrics is laid on the filter belt of filter, through drive mechanism, the non-woven fabrics can be at the uniform velocity and move forward, need filterable water to filter the back through the non-woven fabrics, directly fall into the water tank below the filter and collect, will filter up-to-standard clean water after by the delivery port again and send to the recycle in the production system. The filtered impurities, residues, silk thread heads and other tiny particles are intercepted on the non-woven fabric and enter the waste cloth collecting trolley together with the non-woven fabric for centralized treatment.

The filtering process has been used for many years, and has the advantages of low density of non-woven fabrics, high filtering precision, good water quality after filtering, simple whole equipment, convenient use and operation and low fault. But also has fatal weakness, because the filtering system is continuously operated for 24 hours, the non-woven fabrics are particularly consumed by filtering, can not be recycled for secondary use, and the subsequent recycling treatment of the non-woven fabrics is difficult, thereby not only having high cost, but also influencing the environmental protection.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a: the utility model provides a demineralized water filter equipment can realize that demineralized water filters, and can effectively reduce the use amount of non-woven fabrics, reduces water treatment cost.

The technical scheme is as follows: the utility model relates to a demineralized water filtering device, which comprises a water tank, a main water inlet pipe, a filter belt filtering mechanism, a sundries collecting mechanism and a roller filtering mechanism;

the filter belt filtering mechanism is fixedly arranged on the top of the water tank and is communicated with the top of the water tank; a purified water outlet is communicated with the side edge of the bottom of the water tank; a water inlet distributor is communicated with the filter belt filtering mechanism;

the roller filtering mechanism is fixedly arranged on the filter belt filtering mechanism, and a water outlet pipe of the roller filtering mechanism is communicated with the filter belt filtering mechanism; the water inlet main pipe is communicated to the water inlet distributor through a first branch pipe, and a first water valve is connected to the first branch pipe in series; the main water inlet pipe is communicated to the inside of the roller filtering mechanism through a second branch pipe, and a second water valve is connected to the second branch pipe in series;

the sundries collecting mechanism comprises a washing unit and a sundries collecting unit; the sundries collecting unit comprises a sundries collecting hopper, a strip-shaped collecting tank, a strip-shaped supporting plate and two sundries collecting frames; the strip-shaped collecting tank is arranged above the water tank through the vertical strut, and the bottom of the strip-shaped collecting tank is provided with a water return channel communicated to the inside of the roller filtering mechanism; the strip-shaped supporting plate is horizontally and slidably arranged at the upper part in the strip-shaped collecting tank, and the two sundry collecting frames are detachably arranged on the strip-shaped supporting plate; one end of the sundries collecting hopper obliquely extends into the roller filtering mechanism, and the other end of the sundries collecting hopper extends to the upper part of the middle part of the strip-shaped collecting tank; the washing unit is used for washing the sundries in the roller filtering mechanism into the sundries collecting hopper.

Further, the roller filtering mechanism comprises a roller shell and a rotary roller; the drum shell is fixedly arranged on the filter belt filtering mechanism, and the water outlet pipe is communicated with the shell below the drum shell; the rotary drum is horizontally and rotatably arranged in the drum shell through a rotary driving mechanism, and the second branch pipe extends into the rotary drum; the circumferential cylinder wall of the rotary drum is provided with a filter screen, and the filter screen is a 400-450-mesh steel wire filter screen.

Furthermore, the flushing unit comprises a flushing water pipe and flushing nozzles which are arranged on the pipe wall of the lower side of the flushing water pipe at intervals; the washing water pipe is arranged on the inner wall of the top of the roller shell; the end part of the sundries collecting bucket extending into the rotary drum is positioned below the washing nozzle.

Furthermore, the rotary driving mechanism comprises a transmission shaft, a rotating shaft bracket and a driving motor; the transmission shaft is rotatably arranged on the rotating shaft bracket, and one end of the transmission shaft extends into the roller shell and is fixedly arranged at the center of the circular end surface of the rotary roller; the driving motor drives the transmission shaft to rotate through the belt wheel transmission mechanism.

Furthermore, install the protection housing on the side of drum shell, and transmission shaft, pivot support and driving motor all are located the protection housing.

Further, strip-shaped supporting chutes are formed in the inner side surfaces of the two length sides of the strip-shaped collecting groove; two length side edges of the strip-shaped supporting plate are respectively arranged in the two strip-shaped supporting chutes in a sliding manner, and two width side edges of the strip-shaped supporting plate are respectively provided with a push-pull handle; a rectangular mounting window is arranged on the strip-shaped support plate; the vertical side surfaces and the bottoms of the two sundries collecting frames are provided with collecting filter screens, and the collecting filter screens are 400-450-mesh steel wire filter screens; the side edges of two lengths of the sundries collecting frame are respectively provided with a supporting flange which is turned outwards, and the upper part of the inner side of the sundries collecting frame is provided with an extraction handle rod; the two sundry collecting frames are horizontally arranged on the rectangular mounting window side by side, and the supporting flanges are supported on the edge of the rectangular mounting window.

Further, the filter belt filtering mechanism comprises a strip-shaped water tank, a filter belt driving motor, a rotary filter belt and a non-woven fabric roller; the strip-shaped water tank is fixedly arranged on the top of the water tank; the rotary filter belt is arranged in the strip-shaped water tank in a rotary manner through a filter belt roll shaft; the filter belt roll shaft is driven to rotate by a filter belt driving motor; the non-woven fabric roller is rotatably arranged at the end part of the strip-shaped water tank, and the non-woven fabric is laid on the rotary filter belt and is conveyed by the rotary filter belt for filtering; the water outlet pipe and the water inlet distributor are both arranged on the strip-shaped water tank and are positioned above the rotary filter belt.

Furthermore, a waste cloth collecting trolley is arranged below the end part of the strip-shaped water tank and is used for carrying the non-woven fabrics conveyed by the rotary filter belt.

Further, a filter belt press roller is rotatably arranged in the strip-shaped water tank; the filter belt press roller presses the non-woven fabric on the rotary filter belt, and the filter belt press roller is parallel to the filter belt roller shaft.

Furthermore, the bottom of the water inlet distributor is provided with strip-shaped water outlet gaps at intervals, and the strip-shaped water outlet gaps are parallel to the roller shaft of the filter belt.

Compared with the prior art, the utility model, its beneficial effect is: the roller filtering mechanism is fixedly arranged on the filter belt filtering mechanism, so that the roller filtering mechanism and the filter belt filtering mechanism perform filtering twice to ensure the filtering effect; the roller filtering mechanism can be used for performing roller filtering when the second water valve is independently opened, so that the running speed of the filter belt filtering mechanism can be reduced, the using amount of non-woven fabrics is effectively reduced, the filtering cost is reduced, and environmental pollution caused by a large amount of non-woven fabric waste materials can be avoided; the sundries conveyed by the sundry collecting hopper can be collected by the two sundry collecting frames, and the two sundry collecting frames can be conveniently switched by the sliding of the strip-shaped supporting plate, so that the sundries in the sundry collecting frames can be cleaned without stopping; by switching the first water valve and the second water valve, the demineralized water filtering device can normally operate without stopping by independently opening the first water valve when the roller filtering mechanism is maintained.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic cross-sectional view of the inlet water distributor of the present invention;

fig. 3 is a schematic view of the top view structure of the sundries collecting unit of the present invention.

Detailed Description

The technical solution of the present invention will be described in detail with reference to the accompanying drawings, but the scope of the present invention is not limited to the embodiments.

Example 1:

as shown in fig. 1-3, the filtering apparatus for demineralized water according to the present invention comprises: the water tank 1, a water inlet main pipe 7, a filter belt filtering mechanism, a sundries collecting mechanism and a roller filtering mechanism;

the filter belt filtering mechanism is fixedly arranged on the top of the water tank 1 and is communicated with the top of the water tank 1; a purified water outlet 26 is communicated with the side edge of the bottom of the water tank 1; a water inlet distributor 10 is communicated with the filter belt filtering mechanism;

the roller filtering mechanism is fixedly arranged on the filter belt filtering mechanism, and a water outlet pipe 23 of the roller filtering mechanism is communicated with the filter belt filtering mechanism; the water inlet main pipe 7 is communicated to the water inlet distributor 10 through a first branch pipe 30, and a first water valve 9 is connected to the first branch pipe 30 in series; the main water inlet pipe 7 is communicated to the inside of the roller filtering mechanism through a second branch pipe 11, and a second water valve 8 is connected to the second branch pipe 11 in series;

the sundries collecting mechanism comprises a washing unit and a sundries collecting unit; the sundries collecting unit comprises a sundries collecting hopper 16, a strip-shaped collecting tank 12, a strip-shaped supporting plate 33 and two sundries collecting frames 38; the strip-shaped collecting tank 12 is arranged above the water tank 1 through a vertical strut 32, and the bottom of the strip-shaped collecting tank 12 is provided with a water return channel 14 communicated to the inside of the roller filtering mechanism; the strip-shaped support plate 33 is horizontally and slidably arranged at the upper part in the strip-shaped collecting tank 12, and the two sundries collecting frames 38 are detachably arranged on the strip-shaped support plate 33; one end of the sundries collecting hopper 16 extends into the roller filtering mechanism in an inclined way, and the other end extends to the upper part of the middle part of the strip-shaped collecting tank 12; the flushing unit is used for flushing sundries in the roller filtering mechanism into the sundries collecting hopper 16.

The roller filtering mechanism is fixedly arranged on the filter belt filtering mechanism, so that the roller filtering mechanism and the filter belt filtering mechanism perform filtering twice to ensure the filtering effect; the roller filtering mechanism can be used for performing roller filtering when the second water valve 8 is independently opened, so that the running speed of the filter belt filtering mechanism can be reduced, the using amount of non-woven fabrics is effectively reduced, the filtering cost is reduced, and environmental pollution caused by a large amount of non-woven fabric waste materials can be avoided; the sundries conveyed by the sundry collecting hopper 16 can be collected by the two sundry collecting frames 38, and the two sundry collecting frames 38 can be conveniently switched by the sliding of the strip-shaped supporting plate 33, so that the sundries in the sundry collecting frames 38 can be cleaned without stopping; by switching the first water valve 9 and the second water valve 8, the desalted water filtering device can be normally operated without stopping by opening the first water valve 9 alone when the drum filtering mechanism is maintained.

Further, the roller filtering mechanism comprises a roller shell 6 and a rotary roller 15; the roller shell 6 is fixedly arranged on the filter belt filtering mechanism, and the water outlet pipe 23 is communicated with the shell below the roller shell 6; the rotary drum 15 is horizontally and rotatably arranged in the drum shell 6 through a rotary driving mechanism, and the second branch pipe 11 extends into the rotary drum 15; the circumferential cylinder wall of the rotary drum 15 is provided with a filter screen 17, and the filter screen 17 is a steel wire filter screen of 400-450 meshes.

The 400-450 mesh filter screen 17 is arranged on the circumferential wall of the rotary drum 15, so that the sewage conveyed by the second branch pipe 11 can be subjected to drum-type filtration, and the filter screen has a good filtering effect and filtering efficiency.

Further, the flushing unit comprises a flushing water pipe 13 and flushing nozzles arranged on the pipe wall of the lower side of the flushing water pipe 13 at intervals; the washing water pipe 13 is arranged on the inner wall of the top part of the roller shell 6; the end of the sundries collecting bucket 16 extending into the rotary drum 15 is positioned below the washing nozzle.

Each flushing nozzle arranged on the flushing water pipe 13 can be used for back flushing the filter screen 17, so that the filtering effect of the filter screen 17 can be effectively kept; the impurity collecting hopper 16 is obliquely extended into the rotary drum 15, so that impurities washed from the inner side of the filter screen 17 can be received.

Further, the rotary driving mechanism comprises a transmission shaft 19, a rotating shaft bracket 20 and a driving motor 22; the transmission shaft 19 is rotatably mounted on the rotating shaft bracket 20, and one end of the transmission shaft 19 extends into the roller shell 6 and is fixedly mounted at the center of the circular end face of the rotary roller 15; the drive motor 22 drives the drive shaft 19 to rotate via the pulley gear 18.

Further, a protective casing 21 is installed on the side of the drum shell 6, and the transmission shaft 19, the rotating shaft bracket 20 and the driving motor 22 are all located in the protective casing 21. The protective cover 21 can be used for safety protection.

Further, strip-shaped supporting chutes 35 are respectively arranged on the inner side surfaces of the two length sides of the strip-shaped collecting groove 12; two length side edges of the strip-shaped support plate 33 are respectively arranged in the two strip-shaped support sliding grooves 35 in a sliding manner, and two width side edges of the strip-shaped support plate 33 are respectively provided with a push-pull handle 36; a rectangular mounting window 37 is provided on the bar-shaped support plate 33; the vertical side surfaces and the bottoms of the two sundries collecting frames 38 are provided with collecting filter screens 39, and the collecting filter screens 39 are steel wire filter screens of 400-450 meshes; the two length side edges of the sundries collecting frame 38 are respectively provided with a supporting flange 40 which is turned outwards, and the upper part of the inner side of the sundries collecting frame 38 is provided with an extraction handle rod 34; two debris collecting frames 38 are horizontally mounted side by side on the rectangular mounting window 37, and support flanges 40 are supported on the edges of the rectangular mounting window 37. The sliding bar-shaped supporting plate 33 can be conveniently pushed and pulled by using the push-pull handle 36, so that the two sundries collecting frames 38 are switched to alternately enter the lower part of the sundries collecting hopper 16; the supporting installation of the two sundries collecting frames 38 can be realized by the matching of the rectangular installing window 37 and the supporting flanging 40; the use of the pick-up handle bar 34 facilitates picking up the debris collection frame 38 for debris cleaning.

Further, the filter belt filtering mechanism comprises a strip-shaped water tank 24, a filter belt driving motor 2, a rotary filter belt 5 and a non-woven fabric roller 3; the strip-shaped water tank 24 is fixedly arranged on the top of the water tank 1; the rotary filter belt 5 is arranged in the strip-shaped water tank 24 in a rotary manner through a filter belt roll shaft 29; the filter belt roll shaft 29 is driven to rotate by the filter belt driving motor 2; the non-woven fabric roller 3 is rotatably arranged at the end part of the strip-shaped water tank 24, and the non-woven fabric is laid on the rotary filter belt 5 and is conveyed by the rotary filter belt 5 for filtering; the water outlet pipe 23 and the water inlet distributor 10 are both arranged on the strip-shaped water tank 24 and are positioned above the rotary filter belt 5. The non-woven fabric is conveyed by the rotary filter belt 5 for filtering, so that the stability of the non-woven fabric can be ensured; the conveying speed of the non-woven fabric can be conveniently controlled by using the filter belt driving motor 2.

Further, a waste cloth collecting trolley 25 is arranged below the end part of the strip-shaped water tank 24 and is used for receiving the non-woven fabrics conveyed by the rotary filter belt 5. The waste cloth collecting trolley 25 can be used for conveniently collecting the filtered waste cloth.

Further, a filter belt press roller 4 is rotatably installed in the strip-shaped water tank 24; the belt press roller 4 presses the nonwoven fabric on the rotary belt 5, and the belt press roller 4 is parallel to the belt roller shaft 29. The non-woven fabric on the rotary filter belt 5 can be pressed by the belt press roller 4, thereby ensuring the smoothness of the non-woven fabric.

Furthermore, the bottom of the water inlet distributor 10 is provided with strip-shaped water outlet slits 28 at intervals, and the strip-shaped water outlet slits 28 are parallel to the filter belt roller shaft 29. The uniformity of the water discharge on the nonwoven fabric can be ensured by the strip-shaped water discharge slits 28.

When the demineralized water filtering device works, the first water valve 9 leading to the water inlet distributor 10 is firstly closed, the driving motor 22 of the roller filter is started, the second water valve 8 is opened, the process water enters the rotary roller 15, after being filtered by the filter screen 17 with 400 meshes, the clean water is discharged from the water outlet pipe 23 to the non-woven fabric of the filter belt filter for secondary filtration, and then enters the water tank 1 for recycling; when the filter screen 17 in the rotary drum 15 brings the filtered impurities to the top of the rotary drum 15, the impurities are washed by the washing nozzle and fall into the impurity collecting hopper 16 and then slide into the impurity collecting frame 38.

After a period of use, the bar-shaped supporting plate 33 is pushed and pulled by the push-pull handle 36, the two sundries collecting frames 38 are switched, the sundries collecting frames 38 are pulled out by the extraction handle rod 34, and then sundries in the sundries collecting frames 38 are dumped.

The demineralized water is at first filtered the back through 400 mesh's filter screen 17, and is cleaner, and the reuse non-woven fabrics carries out secondary filter, both can filter the few debris of aquatic, alleviates the filter pressure of non-woven fabrics again greatly, and practice has proved that can save the non-woven fabrics and consume and reach 80%, and the expense that only the non-woven fabrics was saved just can be in the investment of withdrawing cylinder filter mechanism within a year.

In addition, if the roller filtering mechanism is in failure or needs to be stopped to replace the filter screen 17, the first water valve 9 can be opened, the second water valve 8 can be closed, and the filter belt filtering mechanism can be used for separately carrying out production, namely the normal and continuous work of the whole demineralized water filtering device is not influenced.

As mentioned above, although the present invention has been shown and described with reference to certain preferred embodiments, it should not be construed as limiting the invention itself. Various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. Demineralized water filter equipment, its characterized in that: comprises a water tank (1), a main water inlet pipe (7), a filter belt filtering mechanism, a sundries collecting mechanism and a roller filtering mechanism;

the filter belt filtering mechanism is fixedly arranged on the top of the water tank (1) and is communicated with the top of the water tank (1); a purified water outlet (26) is communicated with the side edge of the bottom of the water tank (1); a water inlet distributor (10) is communicated with the filter belt filtering mechanism;

the roller filtering mechanism is fixedly arranged on the filter belt filtering mechanism, and a water outlet pipe (23) of the roller filtering mechanism is communicated with the filter belt filtering mechanism; the water inlet main pipe (7) is communicated to the water inlet distributor (10) through a first branch pipe (30), and a first water valve (9) is connected in series on the first branch pipe (30); the main water inlet pipe (7) is communicated to the inside of the roller filtering mechanism through a second branch pipe (11), and a second water valve (8) is connected to the second branch pipe (11) in series;

the sundries collecting mechanism comprises a washing unit and a sundries collecting unit; the sundries collecting unit comprises a sundries collecting hopper (16), a strip-shaped collecting groove (12), a strip-shaped supporting plate (33) and two sundries collecting frames (38); the strip-shaped collecting tank (12) is arranged above the water tank (1) through a vertical strut (32), and a water return channel (14) communicated to the inside of the roller filtering mechanism is arranged at the bottom of the strip-shaped collecting tank (12); the strip-shaped support plate (33) is horizontally and slidably arranged at the upper part in the strip-shaped collecting tank (12), and the two sundries collecting frames (38) are detachably arranged on the strip-shaped support plate (33); one end of the sundries collecting hopper (16) obliquely extends into the roller filtering mechanism, and the other end extends to the upper part of the middle part of the strip-shaped collecting tank (12); the flushing unit is used for flushing sundries in the roller filtering mechanism into a sundries collecting hopper (16).

2. The demineralized water filtration device of claim 1 wherein: the roller filtering mechanism comprises a roller shell (6) and a rotary roller (15); the roller shell (6) is fixedly arranged on the filter belt filtering mechanism, and the water outlet pipe (23) is communicated with the shell below the roller shell (6); the rotary drum (15) is horizontally and rotatably arranged in the drum shell (6) through a rotary driving mechanism, and the second branch pipe (11) extends into the rotary drum (15); the circumferential cylinder wall of the rotary drum (15) is provided with a filter screen (17), and the filter screen (17) is a 400-450-mesh steel wire filter screen.

3. The demineralized water filtration device of claim 2 wherein: the flushing unit comprises a flushing water pipe (13) and flushing nozzles which are arranged on the lower side pipe wall of the flushing water pipe (13) at intervals; the washing water pipe (13) is arranged on the inner wall of the top of the roller shell (6); the end part of the sundries collecting bucket (16) extending into the rotary drum (15) is positioned below the washing nozzle.

4. The demineralized water filtration device of claim 2 wherein: the rotary driving mechanism comprises a transmission shaft (19), a rotating shaft bracket (20) and a driving motor (22); the transmission shaft (19) is rotatably arranged on the rotating shaft bracket (20), and one end of the transmission shaft (19) extends into the roller shell (6) and is fixedly arranged at the center of the circular end surface of the rotary roller (15); the driving motor (22) drives the transmission shaft (19) to rotate through the belt wheel transmission mechanism (18).

5. The demineralized water filtration device of claim 4 wherein: install protection housing (21) on the side of drum shell (6), and transmission shaft (19), pivot support (20) and driving motor (22) all are located protection housing (21).

6. The demineralized water filtration device of claim 1 wherein: strip-shaped supporting chutes (35) are respectively arranged on the inner side surfaces of two length sides of the strip-shaped collecting groove (12); two length side edges of the strip-shaped support plate (33) are respectively arranged in the two strip-shaped support sliding grooves (35) in a sliding manner, and two width side edges of the strip-shaped support plate (33) are respectively provided with a push-pull handle (36); a rectangular mounting window (37) is arranged on the strip-shaped support plate (33); the vertical side surfaces and the bottoms of the two sundries collecting frames (38) are respectively provided with a collecting filter screen (39), and the collecting filter screens (39) are 400-450-mesh steel wire filter screens; supporting flanges (40) which are turned outwards are arranged on the two length side edges of the sundries collecting frame (38), and an extracting handle rod (34) is arranged on the upper part of the inner side of the sundries collecting frame (38); the two sundries collecting frames (38) are horizontally arranged on the rectangular mounting window (37) side by side, and the supporting flanges (40) are supported on the edge of the rectangular mounting window (37).

7. The demineralized water filtration device of claim 1 wherein: the filter belt filtering mechanism comprises a strip-shaped water tank (24), a filter belt driving motor (2), a rotary filter belt (5) and a non-woven fabric roller (3); the strip-shaped water tank (24) is fixedly arranged on the top of the water tank (1); the rotary filter belt (5) is arranged in the strip-shaped water tank (24) in a rotary manner through a filter belt roll shaft (29); the filter belt roll shaft (29) is driven to rotate by the filter belt driving motor (2); the non-woven fabric roller (3) is rotatably arranged at the end part of the strip-shaped water tank (24), and the non-woven fabric is laid on the rotary filter belt (5) and is conveyed by the rotary filter belt (5) for filtering; the water outlet pipe (23) and the water inlet distributor (10) are both arranged on the strip-shaped water tank (24) and are positioned above the rotary filter belt (5).

8. The demineralized water filtration device of claim 7 wherein: a waste cloth collecting trolley (25) is arranged below the end part of the strip-shaped water tank (24) and is used for receiving the non-woven fabrics conveyed by the rotary filter belt (5).

9. The demineralized water filtration device of claim 7 wherein: a filter belt press roll (4) is rotatably arranged in the strip-shaped water tank (24); the filter belt press roller (4) presses the non-woven fabric on the rotary filter belt (5), and the filter belt press roller (4) is parallel to the filter belt roll shaft (29).

10. The demineralized water filtration device of claim 1 wherein: the bottom of the water inlet distributor (10) is provided with strip-shaped water outlet gaps (28) at intervals, and the strip-shaped water outlet gaps (28) are parallel to the filter belt roll shaft (29).

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