CN110104855B - Industrial water purifying device for purifying running water - Google Patents

Abstract

The invention discloses an industrial water purifying device for purifying running water, which comprises a filtering device, a water inlet arranged at the bottom of the filtering device and a water outlet arranged at the top end of the filtering device, wherein the filtering device is sequentially divided into a filtering area and an activating area from the water inlet to the water outlet, a ceramic filtering layer is arranged in the activating area, and the ceramic filtering layer is driven by power to activate the water. The industrial water purifying device for purifying running water is simple in structure, the filtering layers are convenient to replace and disassemble, the number of the filtering layers can be increased or decreased along with actual use, the use is more flexible, and water quality is actively activated through the rotary filtering of the combination of the motor, the connecting rod and the polymer suspension filler, so that the water quality is activated more thoroughly.

Description

Industrial water purifying device for purifying running water

Technical Field

The invention relates to the technical field of water purifying equipment, in particular to an industrial water purifying device for purifying running water.

Background

Activation is a term commonly used in microbiology, genetics and molecular biology to refer to a process by which cells have the ability to take up DNA from an environment other than the cell, and activated cells are generally referred to as activated cells; the activated water technology is to study the structural change of water molecules, and the molecular structure of common water is efficiently reduced through the technologies of far infrared rays, high-intensity magnetic fields, ultrasonic waves and the like, so that the common water becomes a water molecular group structure which is most beneficial to human health; the activated water is crystal clear in appearance, and has strong permeability, diffusibility, dissolving power, metabolic power, toxicity removing and oxygen supplementing functions due to unique molecular structure and activation indexes.

Common industrial waters are complex macromolecular waters with an angle between the O-H bonds of the water of about 105 °. When the external force acts, the key angle between the two is easy to change; because the oxygen atom has larger negative polarity, electrons of the hydrogen atom are attracted by the oxygen atom, the center of the negative electrode is not coincident with the center of the positive charge, the whole water molecule is a polar molecule, and single H is not used between the water molecules due to the action of hydrogen bonds ₂ O exists but can be combined into large water molecular groups, and water generally exists in the form of molecular groups consisting of 36-37 water molecules; meanwhile, the water with the annular condensation structure can easily contain toxic and harmful organic matters, so that the health of human bodies is damaged, and in industrial application, the water quality is changedPoor quality will also result in poor quality of production, etc.

Disclosure of Invention

The object of the present invention is to provide an industrial water purification apparatus for purifying running water, which solves one or more of the above-mentioned problems of the prior art.

The industrial water purifying device for purifying the running water comprises a filtering device, a water inlet and a water outlet, wherein the water inlet is formed in the bottom of the filtering device, the water outlet is formed in the top end of the filtering device, the filtering device is sequentially divided into a filtering area and an activating area from the water inlet to the water outlet, a ceramic filtering layer is arranged in the activating area, and the ceramic filtering layer is driven by power to activate the water.

The industrial water purifying device for purifying running water is simple in structure, the filtering layers are convenient to replace and disassemble, the number of the filtering layers can be increased or decreased along with actual use, the use is more flexible, and water quality is actively activated through the rotary filtering of the combination of the motor, the connecting rod and the polymer suspension filler, so that the water quality is activated more thoroughly.

In some embodiments, the filtering zone comprises a flow distribution plate, a common filtering layer and an activated carbon filtering layer, and the flow distribution plate, the common filtering layer and the activated carbon filtering layer are arranged in sequence from bottom to top; the activation area also comprises an ultrafiltration membrane filtering layer which is arranged above the ceramic filtering layer. The filtering effect of each area is definite, the filtering and activating functions are good, and the water quality is actively activated by combining and rotating the motor, the connecting rod and the polymer suspension filler so that the water quality is activated more thoroughly.

In some embodiments, the flow distribution plate, the common filter layer, the activated carbon filter layer, the ceramic filter layer and the ultrafiltration membrane filter layer are arranged at intervals, and an annular circular gasket is arranged between each layer. The annular circular gasket functions to space and hold the filter layers apart.

In some embodiments, the flow distribution plate has a circular mesh structure, and the aperture at the center is small and gradually increases from the center to the edge. The flow distribution plate is used for enabling water flow at the water inlet to uniformly flow into the filtering device.

In some embodiments, the common filter layer, the activated carbon filter layer, the ceramic filter layer and the ultrafiltration membrane filter layer have sequentially increasing numbers of filter element meshes and sequentially decreasing pore sizes. The filtering effect is gradually increased and strengthened, so that the filtering effect is better.

In some embodiments, the top of the filtering device is provided with an electric motor, the electric motor is connected with a main connecting rod, the main connecting rod is fixedly connected with an upper baffle and a lower baffle, and the ceramic filtering layer is arranged between the upper baffle and the lower baffle.

In some embodiments, the ceramic filter layer includes polymer suspension filler balls, a plurality of auxiliary connecting rods, and small ceramic balls, two ends of each auxiliary connecting rod are fixedly connected to the upper baffle and the lower baffle respectively, and the plurality of auxiliary connecting rods are connected to the plurality of polymer suspension filler balls. The main connecting rod drives the upper baffle and the lower baffle to rotate simultaneously, and the ceramic filter layer arranged between the upper baffle and the lower baffle also rotates together, so that the ceramic filter layer is fully contacted with water quality and activates the water quality.

In some embodiments, the secondary connecting rods are connected with the polymer suspension filler balls through flexible connecting pieces, and the distance between the two secondary connecting rods is larger than the distance between the two polymer suspension filler balls and the two flexible connecting pieces. After the motor is started to operate, two adjacent polymer suspension filler balls cannot collide, and the activation is more sufficient.

In some embodiments, the polymer suspension filler balls contain a plurality of small ceramic balls, and the upper baffle comprises a plurality of cross bars, and the cross bars are arranged in a central symmetry mode by taking the circle center of the upper baffle as a reference. The activation effect is better, make full use of space.

In some embodiments, the filter device further comprises a filter layer supporting frame, the filter layer supporting frame is arranged at the inner wall of the cylinder body of the filter device in a surrounding mode, and annular circular gaskets are arranged at the upper end and the lower end of the filter layer supporting frame. The annular circular gasket functions to space and hold the individual filter layers.

Drawings

Fig. 1 is a schematic structural view of an industrial water purification apparatus for purifying running water according to an embodiment of the present invention;

FIG. 2 is an enlarged schematic view of A in FIG. 1;

FIG. 3 is a schematic structural diagram of B-B in FIG. 1.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1, an industrial water purifying device for purifying running water comprises a filtering device, a water inlet 1 arranged at the bottom of the filtering device and a water outlet 8 arranged at the top end of the filtering device, wherein the filtering device is sequentially divided into a filtering area and an activating area by the area between the water inlet 1 and the water outlet 8; the filtering area comprises a flow distribution plate 2, a common filtering layer 3 and an active carbon filtering layer 4, wherein the flow distribution plate 2, the common filtering layer 3 and the active carbon filtering layer 4 are sequentially arranged from bottom to top; the activation zone also comprises an ultrafiltration membrane filtering layer 6, the ultrafiltration membrane filtering layer 6 is arranged above the ceramic filtering layer 5, and the common filtering layer 3 is used for filtering out larger granular impurities in water.

The filtering effect of each area is clearly divided into work, the filtering and activating functions are good, and water quality is actively activated through the rotary filtering of the combination of the motor, the main connecting rod, the auxiliary connecting rod and the polymer suspension filler, so that the water quality is activated more thoroughly.

The flow distribution plate 2, the common filter layer 3, the activated carbon filter layer 4, the ceramic filter layer 5 and the ultrafiltration membrane filter layer 6 are arranged at intervals, annular circular gaskets 11 are arranged between the layers, and the annular circular gaskets 11 are used for separating and fixing the filter layers. The flow distribution plate 2 is of a circular mesh structure, the aperture at the center is small, the aperture from the center to the edge is gradually increased, and the flow distribution plate 2 is used for enabling water flow of the water inlet 1 to uniformly flow into the filtering device.

The filter element meshes of the common filter layer 3, the active carbon filter layer 4, the ceramic filter layer 5 and the ultrafiltration membrane filter layer 6 are increased in number in sequence, and the pore diameters are reduced in sequence; the mesh number of the common filter layer 3 is minimum, and the pore diameter is maximum; the active carbon filter layer 4 has a small mesh number and a large pore diameter; the ceramic filter layer 5 has a large number of meshes and a small pore diameter. The number of meshes of each layer of filter element is gradually increased, the pore diameter is gradually reduced, and the effect is that the filtering effect is gradually increased and enhanced, so that the filtering effect is better.

The top of the filtering device is provided with a motor 7, the power output end of the motor 7 is connected with a main connecting rod 9, the main connecting rod 9 is fixedly connected with an upper baffle 91 and a lower baffle 92 through welding or bolts, and a ceramic filtering layer 5 is arranged between the upper baffle 91 and the lower baffle 92.

As shown in fig. 2 to 3, the ceramic filter layer 5 includes polymer suspension filler balls 51, auxiliary connecting rods 52, and small ceramic balls 53, two ends of the auxiliary connecting rods 52 are respectively welded or bolted to an upper baffle 91 and a lower baffle 92, the number of the auxiliary connecting rods 52 is several, and the auxiliary connecting rods 52 are connected with the polymer suspension filler balls 51; the main link 9 drives the upper baffle 91 and the lower baffle 92 to rotate simultaneously, and the ceramic filter layer 5 installed between the upper baffle 91 and the lower baffle 92 also rotates together, so that the ceramic filter layer 5 is in full contact with water quality and activates the water quality.

The auxiliary connecting rods 52 are connected with the polymer suspension packing balls 51 through flexible connecting pieces, and the distance between the two auxiliary connecting rods 52 is larger than the distance between the two polymer suspension packing balls 51 and the two flexible connecting pieces. After the motor 7 is started to operate, two adjacent polymer suspension filler balls 51 cannot collide, and the activation is more sufficient.

The polymer suspension filler balls 51 contain a plurality of small ceramic balls 53, the upper baffle 91 comprises a plurality of cross bars, and the cross bars are arranged in a centrosymmetric manner by taking the circle center of the upper baffle 91 as a reference. The activation effect is better, make full use of space.

The ceramic filter layer 5 further comprises a filter layer support frame 54, the filter layer support frame 54 is annularly arranged on the inner wall of the cylinder body of the filter device, annular circular gaskets 11 are respectively arranged at the upper end and the lower end of the filter layer support frame 54, and the annular circular gaskets 11 are used for separating and fixing each filter layer.

The industrial water purifying device for purifying running water is simple in structure, the filtering layers are convenient to replace and disassemble, the number of the filtering layers can be increased or decreased along with actual use, the use is more flexible, and water quality is actively activated through the rotary filtering of the combination of the motor, the connecting rod and the polymer suspension filler, so that the water quality is activated more thoroughly.

In the above, the material of the activated water is mainly ceramic material, including ceramic balls.

The activated water ceramic product has strong far infrared radiation capability, when common water molecules contact the activated water ceramic product, the strong infrared rays radiated by the product change the structure of the water molecule groups, hydrogen bonds are destroyed, chemical bonds are broken, large molecular groups become small, and the small molecular groups only contain 5-6 water molecules; meanwhile, toxic gas dissolved in the water-soluble organic polymer is released, and the smaller the water molecular group is, the higher the activity is, so that the water-soluble organic polymer is convenient to use industrially.

While the invention has been described with respect to what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not to be limited to the disclosed embodiment, but on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

Claims (6)

1. The utility model provides a purify industrial water purifier of running water which characterized in that: the device comprises a filtering device, a water inlet (1) arranged at the bottom of the filtering device and a water outlet (8) arranged at the top end of the filtering device, wherein the filtering device is sequentially divided into a filtering area and an activating area by the area from the water inlet (1) to the water outlet (8), a ceramic filtering layer (5) is arranged in the activating area, and the ceramic filtering layer (5) is driven by power to activate water;

the top of the filtering device is provided with an electric motor (7), the electric motor (7) is connected with a main connecting rod (9), an upper baffle (91) and a lower baffle (92) are fixedly connected to the main connecting rod (9), and the ceramic filtering layer (5) is arranged between the upper baffle (91) and the lower baffle (92);

the ceramic filter layer (5) comprises polymer suspension filler balls (51), auxiliary connecting rods (52) and small ceramic balls (53), two ends of each auxiliary connecting rod (52) are fixedly connected with the upper baffle (91) and the lower baffle (92) respectively, the number of the auxiliary connecting rods (52) is a plurality, and the auxiliary connecting rods (52) are connected with the polymer suspension filler balls (51);

the auxiliary connecting rods (52) are connected with the polymer suspension packing balls (51) through flexible connecting pieces, and the distance between the two auxiliary connecting rods (52) is larger than the distance between the two polymer suspension packing balls (51) and the two flexible connecting pieces;

the polymer suspension filler balls (51) comprise a plurality of small ceramic balls (53), the upper baffle (91) comprises a plurality of cross rods, and the cross rods are arranged in a centrosymmetric manner by taking the circle center of the upper baffle (91) as a reference.

2. The industrial water purification device for purifying running water according to claim 1, wherein: the filtering area comprises a flow distribution plate (2), a common filtering layer (3) and an active carbon filtering layer (4), and the flow distribution plate (2), the common filtering layer (3) and the active carbon filtering layer (4) are sequentially arranged from bottom to top; the activation area further comprises an ultrafiltration membrane filtering layer (6), and the ultrafiltration membrane filtering layer (6) is arranged above the ceramic filtering layer (5).

3. The industrial water purification device for purifying running water according to claim 2, wherein: the flow distribution plate (2), the common filter layer (3), the activated carbon filter layer (4), the ceramic filter layer (5) and the ultrafiltration membrane filter layer (6) are arranged at intervals, and an annular circular gasket (11) is arranged between each two layers.

4. The industrial water purification device for purifying running water according to claim 3, wherein: the flow distribution plate (2) is of a circular mesh structure, the aperture at the center is small, and the aperture gradually increases from the center to the edge.

5. The industrial water purification device for purifying running water according to claim 3, wherein: the filter element meshes of the common filter layer (3), the activated carbon filter layer (4), the ceramic filter layer (5) and the ultrafiltration membrane filter layer (6) are sequentially increased, and the pore diameters are sequentially reduced.

6. The industrial water purification device for purifying running water according to claim 1, wherein: the filter device is characterized by further comprising a filter layer supporting frame (54), wherein the filter layer supporting frame (54) is arranged on the inner wall of the barrel of the filter device in a surrounding mode, and annular circular gaskets (11) are arranged at the upper end and the lower end of the filter layer supporting frame (54).

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