CN116212499B

CN116212499B - Impurity filtering equipment for bottled water production

Info

Publication number: CN116212499B
Application number: CN202310504437.8A
Authority: CN
Inventors: 贺军; 李博玉; 姜世纺; 纪丽贤
Original assignee: Cangzhou Jinliyuan Food & Beverage Co ltd; Hebei Jinhe Technology Co ltd
Current assignee: Cangzhou Jinliyuan Food & Beverage Co ltd; Hebei Jinhe Technology Co ltd
Priority date: 2023-05-08
Filing date: 2023-05-08
Publication date: 2023-06-30
Anticipated expiration: 2043-05-08
Also published as: CN116212499A

Abstract

The invention discloses impurity filtering equipment for bottled water production, and relates to the technical field of bottled water filtration, wherein the impurity filtering equipment comprises a water inlet part, a water filtering cylinder assembly, a water guide part and a base; the water inlet part is connected with the outer frame body, the outer frame body is provided with a rotary driving piece, the water filtering cylinder assembly comprises two end plate parts and a plurality of baffle plate parts arranged between the two end plate parts, a drainage cavity is formed between two adjacent baffle plate parts, two ends of the drainage cavity are respectively provided with an upper through hole and a lower through hole, and a filter core part is arranged at the upper through hole; the water guide part comprises a drainage pipeline and an inner flushing cavity, a water inlet end communicated with the inner flushing cavity is formed at one end of the drainage pipeline, and a drainage through hole is formed at the arc top of the drainage pipeline. The invention has simple structure, can replace the filter core part in a rotating way under the state that bottled water does not stop filtering, is convenient for the filter core part to clean impurities, avoids causing blockage and improves the impurity filtering efficiency.

Description

Impurity filtering equipment for bottled water production

Technical Field

The invention relates to the technical field of bottled water filtration, in particular to impurity filtering equipment for bottled water production.

Background

At present, filtration treatment is required after drinking water source water intake, along with the increasingly serious environmental pollution, the water source site may be polluted, in order to ensure drinking water safety, the requirements on the treatment performance of drinking water treatment equipment are also increasingly improved, and the conventional bottled water is required to filter impurities from the water source before production and filling.

The existing filtering mode of impurities in water is to guide the water to the filter element and filter the water through the filter holes in the filter element; because the impurities can be attached to the inside of the filter element, when the impurities are excessive, the filter holes are easily blocked by the impurities, so that the filtering efficiency is reduced, and the impurities are easily odorous when being in the filter element for a long time; the filter element is cleaned by stopping filtering and cleaning after being disassembled; but this mode of clearance impurity leads to bottled water filtration to stop, influences bottled water filterable efficiency.

Disclosure of Invention

The invention aims to provide impurity filtering equipment for bottled water production, which aims to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions:

the impurity filtering equipment for bottled water production comprises a water inlet part, a water filtering cylinder assembly, a water guide part and a base, wherein an outer frame body is arranged on the upper end face of the base, the water guide part penetrates through the water filtering cylinder assembly and is in rotating fit with the water filtering cylinder assembly, and two end parts of the water guide part are fixed on the outer frame body; the water inlet part is connected with the outer frame body, the outer frame body is provided with a rotary driving piece for driving the water filtering barrel assembly to rotate, the water filtering barrel assembly comprises two end plate parts and a plurality of baffle plate parts arranged between the two end plate parts, a drainage cavity is formed between the end plate parts and the two adjacent baffle plate parts in a rotating fit manner, two ends of the drainage cavity are respectively provided with an upper through hole and a lower through hole, a filter core part is arranged at the upper through hole, and the drainage cavity positioned at the arc top of the water filtering barrel assembly is corresponding to and communicated with the water inlet part through the upper through hole; the water guide component comprises a drainage pipeline and an inner flushing cavity, the inner flushing cavity is arranged in the drainage pipeline, a water inlet end communicated with the inner flushing cavity is formed at one end of the drainage pipeline, a drainage through hole is formed in the arc top of the drainage pipeline, and a flushing through hole communicated with the inner flushing cavity is formed in the arc bottom of the drainage pipeline; the drainage cavity at the arc bottom of the water filtering cylinder assembly is communicated with the inner part of the inner flushing cavity through the flushing through hole.

Based on the technical scheme, the invention also provides the following optional technical schemes:

in one alternative: the rotary driving piece comprises a servo motor and an outer gear ring arranged at the edge of the end part of the water filtering barrel assembly, wherein the servo motor is fixed on the outer frame body, a driving gear piece is arranged at the output end of the servo motor, and the driving gear piece is meshed with the outer gear ring.

In one alternative: the end part of the partition plate part far away from the water guide part is provided with an arc plate, the outer arc surface of the arc plate is provided with a stepped groove, the port of the filter core part is provided with a flange part clamped in the stepped groove, and the outer side wall of the flange part and the outer arc surface of the arc plate are arranged on an arc surface.

In one alternative: the water inlet part comprises a water inlet pipe and an outer cylinder body, the lower port of the water inlet pipe corresponds to the drainage cavity, the outer cylinder body is arranged on the outer side of the water filtering cylinder assembly, the top of the outer cylinder body is fixedly connected with the outer wall of the water inlet pipe, the center line of the outer cylinder body coincides with the center line of the water filtering cylinder assembly, and a guide channel is arranged at the arc bottom of the outer cylinder body.

In one alternative: the lower port of the water inlet pipe is provided with a pressing strip part, and the lower surface of the pressing strip part is provided with a sealing strip.

In one alternative: the base is provided with a slag collecting groove, a draining screen plate is arranged in the slag collecting groove, and the slag collecting groove is positioned right below the water filtering barrel component; the slag collecting device comprises a slag collecting tank, and is characterized by further comprising a flushing component, wherein the flushing component comprises a flushing pump and a flushing water pipe, the flushing pump is arranged on the side part of the slag collecting tank, the water inlet end of the flushing pump extends to the inside of the slag collecting tank, one end of the flushing water pipe is connected with the water outlet end of the flushing pump, and the other end of the flushing water pipe is connected with the water inlet end.

In one alternative: the draining screen plate is further provided with a brushing component which comprises a brushing plate and a bottom column, the bottom end part of the bottom column is arranged on the draining screen plate, the brushing plate is arranged at the end part of the bottom column, which is far away from the slag collecting groove, the brushing plate corresponds to a drainage cavity at the arc bottom of the draining cylinder assembly, and a plurality of brushing strips extending to the inside of the drainage cavity are arranged on the end face of the brushing plate.

Compared with the prior art, the invention has the following beneficial effects:

1. according to the invention, the rotary driving piece drives the water filtering barrel assembly to rotate around the water guide component, the plurality of drainage cavities can rotate to the arc top and the arc bottom of the water filtering barrel assembly in turn, and the filter core part in the drainage cavity of the arc top of the water filtering barrel assembly can filter bottled water; the filtered bottled water is led out through a water guide component; the port of the filter element part inside the drainage cavity at the arc bottom of the water filtering barrel component faces downwards, so that impurities can be conveniently cleaned, and the residual impurities are prevented from blocking the filter core part during subsequent filtering.

2. According to the invention, the drainage cavity at the arc bottom of the water filtering cylinder assembly is communicated with the inner flushing cavity, and the cleaning water is injected into the inner flushing cavity, so that the cleaning water can reversely flush the filter core part, and the cleaning effect of impurities in the filter core part is improved.

3. The invention has simple structure, can replace the filter core part in a rotating way under the state that bottled water does not stop filtering, is convenient for the filter core part to clean impurities, avoids causing blockage and improves the impurity filtering efficiency.

Drawings

Fig. 1 is a schematic view of the overall structure of the device according to an embodiment of the present invention.

Fig. 2 is a schematic view of a water filter cartridge assembly according to an embodiment of the present invention.

Fig. 3 is a schematic structural view of a water guiding member according to an embodiment of the present invention.

Fig. 4 is an enlarged schematic view of the structure at a in fig. 2.

Fig. 5 is a schematic view of a water inlet structure according to an embodiment of the present invention.

Reference numerals annotate: the water inlet part 100, the water inlet pipe 110, the outer cylinder 120, the bead part 130, the sealing strip 140, the guide channel 150, the water filtering cylinder assembly 200, the end plate part 210, the partition plate part 220, the arc plate 221, the stepped groove 222, the drainage cavity 230, the filter element part 240, the flange part 241, the upper through hole 250, the lower through hole 260, the water guide part 300, the drainage pipeline 310, the drainage through hole 320, the inner flushing cavity 330, the flushing through hole 340, the water inlet end head 350, the slag collecting groove 400, the draining screen 410, the flushing part 500, the flushing pump 510, the flushing pipe 520, the brushing part 600, the brush plate 610, the brush strip 620, the bottom post 630, the outer frame 700, the servo motor 710, the driving gear part 720, the outer gear ring 730 and the base 800.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings and examples; in the drawings or description, similar or identical parts are provided with the same reference numerals, and in practical applications, the shape, thickness or height of each part may be enlarged or reduced. The examples set forth herein are intended to be illustrative of the invention and are not intended to limit the scope of the invention. Any obvious modifications or alterations to the invention, as would be apparent, are made without departing from the spirit and scope of the present invention.

In one embodiment, as shown in fig. 1 to 3, an impurity filtering apparatus for producing bottled water includes a water inlet portion 100, a water filtering cartridge assembly 200, a water guiding member 300 and a base 800, wherein an outer frame 700 is provided on an upper end surface of the base 800, the water guiding member 300 passes through the water filtering cartridge assembly 200 and is in running fit with the water filtering cartridge assembly 200, and two end portions of the water guiding member 300 are fixed on the outer frame 700; the water inlet part 100 is connected with the outer frame 700, the outer frame 700 is provided with a rotary driving member for driving the water filter cartridge assembly 200 to rotate, the water filter cartridge assembly 200 comprises two end plate parts 210 and a plurality of baffle parts 220 arranged between the two end plate parts 210, a drainage cavity 230 is formed between the end plate parts 210 and the two adjacent baffle parts 220 in a rotary fit manner with the water guide part 300, two ends of the drainage cavity 230 are respectively provided with an upper through hole 250 and a lower through hole 260, the upper through hole 250 is provided with a filter core 240, and the drainage cavity 230 positioned at the arc top of the water filter cartridge assembly 200 corresponds to and is communicated with the water inlet part 100 through the upper through hole 250; the water guide member 300 includes a water drain pipe 310 and an inner flushing cavity 330, the inner flushing cavity 330 is disposed in the water drain pipe 310, a water inlet end 350 communicated with the inner flushing cavity 330 is provided at one end of the water drain pipe 310, a water drain through hole 320 is provided at the arc top of the water drain pipe 310, and a flushing through hole 340 communicated with the inner flushing cavity 330 is provided at the arc bottom of the water drain pipe 310; the drainage cavity 230 at the arc bottom of the water filter cartridge assembly 200 is communicated with the inside of the inner flushing cavity 330 through the flushing port 340;

in the embodiment of the invention, bottled water is guided to the inside of the water inlet part 100 by external equipment, the water inlet part 100 guides the bottled water to the inside of the filter element part 240 positioned at the arc top of the water filtering cylinder assembly 200, when the bottled water enters the inside of the drainage cavity 230, the bottled water is filtered by the filter element part 240, so that filter residues are remained in the inside of the filter element part 240, after the filtered bottled water enters the drainage cavity 230, the filtered bottled water enters the inside of the drainage pipeline 310 through the lower through hole 260 and the drainage through hole 320, and finally the filtered bottled water is guided out through the drainage pipeline 310; because the impurities are retained in the filter core 240, the filter cartridge assembly 200 rotates under the action of the rotary driving member, so that the drainage cavity 230 positioned at the arc top of the filter cartridge assembly 200 rotates to the arc bottom along with the filter cartridge assembly 200, and other drainage cavities 230 can rotate to the arc top of the filter cartridge assembly 200 and correspond to the water inlet 100, thereby filtering bottled water continuously; the drainage cavity 230 at the arc bottom of the water filtering cylinder assembly 200 is communicated with the inner flushing cavity 330 through the flushing port 340, external cleaning water flows through the water inlet end 350 and is led into the inner flushing cavity 330, cleaning water flows through the flushing port 340 and is led into the drainage cavity 230, so that the cleaning water in the drainage cavity 230 can flush the filter element part 240, the port of the filter element part 240 faces downwards, and impurities in the filter element part 240 can drop downwards and separate from the inner wall of the filter element part 240 under the flushing of the cleaning water flow so as to be filtered next time.

In one embodiment, as shown in fig. 1, the rotary driving member includes a servo motor 710 and an outer gear member 730 provided at an end edge of the water filter cartridge assembly 200, the servo motor 710 is fixed to the outer frame 700 and has a driving gear member 720 at an output end of the servo motor 710, and the driving gear member 720 is engaged with the outer gear member 730; in the embodiment of the present invention, the servo motor 710 drives the driving gear member 720 to rotate and the driving gear member 720 rotates the cartridge assembly 200 about the axial center of the water guide 300 through the engagement with the outer gear member 730.

In one embodiment, as shown in fig. 1, 2 and 4, the end of the partition plate 220 far from the water guiding component 300 is provided with an arc plate 221, the outer arc surface of the arc plate 221 is provided with a stepped groove 222, the port of the filter element 240 is provided with a flange portion 241 clamped inside the stepped groove 222, and the outer side wall of the flange portion 241 is on an arc surface with the outer arc surface of the arc plate 221; in the embodiment of the invention, the flange portion 241 is opened inside the stepped groove 222 to facilitate the disassembly of the filter core 240, and at the same time, the outer wall of the flange portion 241 is in transition fit with the outer arc shape of the arc plate 221, thereby facilitating the overall rotation of the filter cartridge assembly 200.

In one embodiment, as shown in fig. 1 to 5, the water inlet part 100 includes a water inlet pipe 110 and an outer cylinder 120, the lower port of the water inlet pipe 110 corresponds to the drainage cavity 230, the outer cylinder 120 is disposed outside the water filtering cartridge assembly 200, the top of the outer cylinder 120 is fixedly connected to the outer wall of the water inlet pipe 110, the center line of the outer cylinder 120 coincides with the center line of the water filtering cartridge assembly 200, and a guiding channel 150 is provided at the arc bottom of the outer cylinder 120; in the embodiment of the present invention, the outer cylinder 120 can form a ring on the outer side of the water filter cartridge assembly 200, so as to avoid that the impurities are separated from the upper through hole 250 and cannot be collected in a concentrated manner when the drainage cavity 230 does not rotate to the arc bottom of the water filter cartridge assembly 200; after the drainage chamber 230 rotates to the arc bottom of the drainage cartridge assembly 200, the impurities of the filter element portion 240 drop downward under the flow guide of the guide channel 150.

In one embodiment, as shown in fig. 5, a bead portion 130 is provided at a lower port of the water inlet pipe 110, and a sealing strip 140 is provided on a lower surface of the bead portion 130; in the embodiment of the present invention, when the drainage cavity 230 corresponds to the water inlet pipe 110, the bead portion 130 can be pressed against the edge portion of the upper opening 250, and the sealing strip 140 can perform a sealing function, so that bottled water guided inside the water inlet pipe 110 can be prevented from flowing between the outer cylinder 120 and the water filter cartridge assembly 200.

In one embodiment, as shown in fig. 1, the base 800 is provided with a slag collecting tank 400, and the slag collecting tank 400 is provided with a draining screen 410 inside, and the slag collecting tank 400 is located right below the water filtering cylinder assembly 200; the device further comprises a flushing component 500, wherein the flushing component 500 comprises a flushing pump 510 and a flushing water pipe 520, the flushing pump 510 is arranged at the side part of the slag collecting tank 400, the water inlet end of the flushing pump 510 extends into the slag collecting tank 400, one end of the flushing water pipe 520 is connected with the water outlet end of the flushing pump 510, and the other end of the flushing water pipe 520 is connected with the water inlet end 350; in the embodiment of the present invention, the impurities falling from the inside of the filter element part 240 are placed on the draining screen 410 in the slag collecting tank 400, the impurities have water stains, and the water stains fall into the inside of the slag collecting tank 400 and accumulate into clean water flow; the flushing pump 510 pumps the cleaning water inside the slag collecting tank 400 into the inner flushing cavity 330 through the flushing water pipe 520 so as to flush the filter element part 240, thereby effectively cleaning impurities attached to the inner wall of the filter element part 240.

In one embodiment, as shown in fig. 1, the draining screen 410 is further provided with a brushing component 600, the brushing component 600 includes a brushing plate 610 and a bottom post 630, the bottom end of the bottom post 630 is installed on the draining screen 410, the brushing plate 610 is disposed at the end of the bottom post 630 away from the slag collecting tank 400, the brushing plate 610 corresponds to the drainage cavity 230 at the arc bottom of the water filtering cylinder assembly 200, and a plurality of brushing strips 620 extending into the drainage cavity 230 are disposed on the end surface of the brushing plate 610; in the embodiment of the present invention, when the rotation driving member drives the water filtering cartridge assembly 200 to rotate, the brush bar 620 extends into the drainage cavity 230 and has flexibility, so that the filter core 240 can rotate relative to the top of the brush bar 620, and the brush bar 620 can clean impurities on the inner wall of the filter core 240, thereby improving the sufficiency of cleaning impurities on the inner wall of the filter core 240.

The above embodiment provides an impurity filtering device for bottled water production, wherein bottled water is guided to the inside of a water inlet part 100 by external equipment, the water inlet part 100 guides bottled water to the inside of a filter element part 240 positioned at the arc top of a water filtering cylinder assembly 200, when bottled water enters the inside of a drainage cavity 230, the bottled water is filtered by the filter element part 240, so that filter residues are retained in the inside of the filter element part 240, after the filtered bottled water enters the drainage cavity 230, the filtered bottled water enters the inside of a drainage pipeline 310 through a lower through hole 260 and a drainage through hole 320, and finally the filtered bottled water is guided out through the drainage pipeline 310; because the impurities are retained in the filter core 240, the filter cartridge assembly 200 rotates under the action of the rotary driving member, so that the drainage cavity 230 positioned at the arc top of the filter cartridge assembly 200 rotates to the arc bottom along with the filter cartridge assembly 200, and other drainage cavities 230 can rotate to the arc top of the filter cartridge assembly 200 and correspond to the water inlet 100, thereby filtering bottled water continuously; the drainage cavity 230 at the arc bottom of the water filtering cylinder assembly 200 is communicated with the inner flushing cavity 330 through the flushing port 340, external cleaning water flows through the water inlet end 350 and is led into the inner flushing cavity 330, cleaning water flows through the flushing port 340 and is led into the drainage cavity 230, so that the cleaning water in the drainage cavity 230 can flush the filter element part 240, the port of the filter element part 240 faces downwards, and impurities in the filter element part 240 can drop downwards and separate from the inner wall of the filter element part 240 under the flushing of the cleaning water flow so as to be filtered next time.

The foregoing is merely specific embodiments of the disclosure, but the protection scope of the disclosure is not limited thereto, and any person skilled in the art can easily think about changes or substitutions within the technical scope of the disclosure, and it is intended to cover the scope of the disclosure. Therefore, the protection scope of the present disclosure shall be subject to the protection scope of the claims.

Claims

1. The impurity filtering equipment for bottled water production comprises a water inlet part, a water filtering cylinder assembly, a water guide part and a base, wherein an outer frame body is arranged on the upper end face of the base, the water guide part penetrates through the water filtering cylinder assembly and is in rotating fit with the water filtering cylinder assembly, and two end parts of the water guide part are fixed on the outer frame body; the water inlet part is connected with the outer frame body, and the outer frame body is provided with a rotary driving piece for driving the water filtering cylinder assembly to rotate;

the water filtering cylinder assembly comprises two end plate parts and a plurality of baffle plate parts arranged between the two end plate parts;

the end plate part is in running fit with the water guide part, a drainage cavity is formed between two adjacent baffle plate parts, and two ends of the drainage cavity are respectively provided with an upper through hole and a lower through hole;

a filter core part is arranged at the upper through hole, and a drainage cavity positioned at the arc top of the water filtering cylinder assembly corresponds to and is communicated with the water inlet part through the upper through hole;

the water guide component comprises a drainage pipeline and an inner flushing cavity;

the inner flushing cavity is arranged in the drainage pipeline, and one end part of the drainage pipeline is provided with a water inlet end communicated with the inner flushing cavity;

a drainage through hole is formed in the arc top of the drainage pipeline, and a flushing through hole communicated with the inside of the inner flushing cavity is formed in the arc bottom of the drainage pipeline;

the drainage cavity at the arc bottom of the water filtering cylinder assembly is communicated with the inner part of the inner flushing cavity through the flushing through hole.

2. The apparatus according to claim 1, wherein the rotary driving member comprises a servo motor and an outer gear ring provided at an end edge of the water filter cartridge assembly, the servo motor is fixed to the outer frame body, and a driving gear member is provided at an output end of the servo motor, and the driving gear member is engaged with the outer gear ring.

3. The apparatus according to claim 1, wherein the end of the partition plate portion away from the water guide member has an arc plate and the outer arc surface of the arc plate has a stepped groove, the port of the filter core portion has a flange portion which is caught inside the stepped groove, and the outer side wall of the flange portion and the outer arc surface of the arc plate are on an arc surface.

4. The apparatus for filtering impurities for producing bottled water according to claim 1, wherein the water inlet section comprises a water inlet pipe and an outer cylinder;

the lower port of the water inlet pipe corresponds to the drainage cavity, the outer cylinder body is arranged at the outer side of the water filtering cylinder assembly, and the top of the outer cylinder body is fixedly connected with the outer wall of the water inlet pipe;

the central line of the outer cylinder body coincides with the central line of the water filtering cylinder assembly, and the arc bottom of the outer cylinder body is provided with a guide channel.

5. The apparatus for filtering impurities out for producing bottled water according to claim 4, wherein a bead portion is provided at a lower port of the water inlet pipe, and a sealing strip is provided at a lower surface of the bead portion.

6. The impurity filtering device for producing bottled water according to claim 1, wherein the base is provided with a slag collecting groove, a draining screen plate is arranged in the slag collecting groove, and the slag collecting groove is positioned right below the water filtering cylinder assembly;

the device also comprises a flushing component, wherein the flushing component comprises a flushing pump and a flushing water pipe;

the flushing pump is arranged on the side part of the slag collecting tank, the water inlet end of the flushing pump extends to the inside of the slag collecting tank, one end of the flushing water pipe is connected with the water outlet end of the flushing pump, and the other end of the flushing water pipe is connected with the water inlet end.

7. The impurity filtering device for producing bottled water according to claim 6, wherein a brushing member is further provided on the draining screen plate and comprises a brushing plate and a bottom column;

the bottom end of the bottom column is arranged on the draining screen plate, the brush plate is arranged at the end part of the bottom column, far away from the slag collecting groove, the brush plate corresponds to the drainage cavity at the arc bottom of the water filtering cylinder assembly, and a plurality of brush strips extending to the inside of the drainage cavity are arranged on the end face of the brush plate.