CN114230028A

CN114230028A - Sterilizing water supply device

Info

Publication number: CN114230028A
Application number: CN202010942475.8A
Authority: CN
Inventors: 杨境界
Original assignee: Season Farm Biological Electromechanical Co ltd
Current assignee: Season Farm Biological Electromechanical Co ltd
Priority date: 2020-09-09
Filing date: 2020-09-09
Publication date: 2022-03-25

Abstract

The invention discloses a sterilizing water supply device, which is provided with a filter body, wherein the filter body is communicated with a water inlet terminal and a sterilizing unit, the sterilizing unit is provided with a shell, and an active metal sterilizing body is arranged in the shell. The sterilization unit is communicated with a pressurizing pump, the pressurizing pump is communicated with a metal ion unit, the metal ion unit is provided with a Venturi seat, and a container is connected below the Venturi seat; the Venturi seat is transversely provided with a Venturi hole, a guide hole communicated with the Venturi hole is arranged below the Venturi seat, and the Venturi seat is connected with a guide pipe communicated with the guide hole and a downward extending guide pipe; the container is provided with a chamber, and the chamber contains the metal ion solution which is absorbed into the Venturi hole by the conduit.

Description

Sterilizing water supply device

Technical Field

The invention relates to a disinfection device, in particular to a sterilization water supply device for sterilization and virus killing.

Background

Recently bacteria and viruses have been abused worldwide, disconcerting to people, and beginning to rob people in a disconcerting field of sanitizing solutions, thereby creating a significant opportunity for both manufacturers and merchants to make their money. At present, the disinfection solution is sold in a single-tank mode in the market, so that a large amount of relevant disinfection solution needs to be stocked according to corresponding requirements after a user purchases the disinfection solution, and meanwhile, the stocked disinfection solution can cause large occupation of storage space and resource waste.

However, the application range of various disinfectant liquids to bacteria and viruses, used articles and human body positions are generally targeted, and the disinfectant liquids have certain risks to human bodies and environments in use, so that when a user is stocked, the risks coexist along with stocked articles, and the risks can be expanded.

Disclosure of Invention

In view of the above, it is known that the known disinfection solution is in danger of accumulation, and therefore, the present inventors have been prompted to develop a solution for eliminating accumulation, and have thought that it is most preferable to mix the metal ion solution into the water to become the sterilizing water.

The sterilizing water supply device at least comprises a filter body, wherein the filter body is communicated with a water inlet terminal, the filter body is communicated with at least one sterilizing unit, the sterilizing unit is provided with a shell, a unit containing chamber is arranged in the shell, and active metal sterilizing bodies are distributed in the unit containing chamber. The sterilization unit is at least communicated with a pressurizing pump which is at least communicated with a metal ion unit, the metal ion unit is provided with a Venturi seat, and a container is connected below the Venturi seat; the Venturi seat is at least transversely provided with a Venturi hole, the right side of the Venturi hole is communicated with the pressurizing pump, and the left side of the Venturi hole is communicated with a water outlet terminal. The Venturi seat is provided with a guide hole communicated with the Venturi hole, and the lower side of the Venturi seat is connected with a guide pipe communicated with the guide hole and extending downwards. The container is provided with a chamber, the chamber at least contains a metal ion solution, and the Venturi seat is provided with a vent hole penetrating to the chamber for balancing the pressure of the metal ion solution.

The unit containing chamber of the invention is internally provided with a sterilization body containing box which is spliced up and down, the center of the sterilization body containing box is provided with a through hole, and the lower end of the through hole is provided with an upper concave scarf joint ring groove; the sterilizing body containing box is provided with a sterilizing body containing chamber which is concave downwards and contains the active metal sterilizing body in a surrounding way of the through hole, fluid through holes which penetrate through the sterilizing body containing chamber from top to bottom are distributed on the bottom side of the sterilizing body containing chamber, an upper cover which seals the sterilizing body containing chamber in a surrounding way is arranged above the sterilizing body containing box, a ring hole which is connected with the through hole is arranged at the center of the upper cover, an embedding convex ring which is embedded into the embedding ring groove of the sterilizing body containing box which is overlapped above the ring hole extends upwards, and upper cover through holes which penetrate through the sterilizing body containing chamber are distributed on the periphery of the embedding convex ring of the upper cover; in addition, the overlapped sterilizing body containing boxes form a central water inlet flow channel by utilizing the through holes, a water permeable space is arranged between the overlapped sterilizing body containing boxes, and a lower side of the unit containing chamber is provided with a lower concave and a reflux groove which keeps a distance with the through holes of the lowermost sterilizing body containing box and the fluid through holes. In addition, the bottom side of the sterilizing body accommodating chamber is attached with a first filtering body between the active metal sterilizing body and the fluid through hole, and the bottom side of the upper cover is attached with a second filtering body between the active metal sterilizing body and the upper cover through hole; the active metal sterilizing body has a sheet sterilizing surface.

The lower side of the guide hole is provided with a first check valve for preventing the Venturi hole from reversely flowing into the accommodating chamber, and the guide hole is connected with the guide pipe below the first check valve; and a second check valve for preventing the chamber from overflowing is arranged above the venthole on the Venturi seat. The side surface of the Venturi seat is provided with a lower transverse part and a gas pressurizing air inlet hole penetrating to the guide hole, and the side surface of the Venturi seat is provided with a third check valve for preventing the gas pressurizing air inlet hole from flowing back; in addition, the Venturi seat is provided with a liquid level detection component which extends into the containing chamber to detect the volume of the metal ion solution.

The invention aims to: the sterilization is performed according to the active metal sterilization body, and then the metal ion solution is mixed into the sterilization body to become the essential benefit of the sterilization body of the invention.

Drawings

FIG. 1 is an enlarged view of a venturi seat included in the sterilizing water supplying apparatus according to the present invention;

FIG. 2 is a schematic view of a sterilization unit of the present invention;

FIG. 3 is a schematic flow chart of the assembly of the sterilizing body storage case of the present invention;

FIG. 4 is a schematic view of a metal ion cell according to the present invention;

FIG. 5 is a schematic view of the sterilization unit of the present invention;

FIG. 6 is a schematic diagram of the use of a metal ion cell according to the present invention;

FIG. 7 is a schematic view of a metal ion unit having a gas inlet hole for gas pressurization according to the present invention.

Symbolic illustration in the drawings:

n bubbles;

1 a sterilizing water supply device;

11 a filter body;

12 a water inlet terminal;

2a sterilization unit;

2A, a reflux tank;

21 a housing;

22 a unit chamber;

3 an active metal sterilizing body;

3A, a central water inlet channel;

3B a water permeable space;

30, sterilizing the flour;

32 a sterilizing body housing case;

321 through the hole;

322 is embedded in the ring groove;

323 a sterilizing body accommodating chamber;

324 fluid perforation;

33, covering the upper cover;

331 annular ring;

332 is embedded in the convex ring;

333 perforating the upper cover;

34 a first filter body;

35 a second filter body;

4, pressurizing and pumping;

5 a metal ion unit;

a 51 Venturi base;

52 a container;

53 Venturi holes;

54a guide hole;

54A first non-return valve;

55 a catheter;

a chamber 56;

57a vent hole;

57A second check valve

58 gas pressurization inlet holes;

58A third non-return valve;

6, a water outlet terminal;

7, a metal ion solution;

8 liquid level detecting component.

Detailed Description

To further understand the present invention, the following examples are given.

The invention relates to a sterilizing water supply device 1, wherein the sterilizing water supply device 1 at least comprises a filter body 11, the right side of the filter body 11 is at least communicated with a water inlet terminal 12, the left side of the filter body 11 is at least communicated with a sterilizing unit 2, the sterilizing unit 2 at least comprises a shell 21, the shell 21 is internally provided with at least one unit containing chamber 22, and the unit containing chamber 22 is distributed with an active metal sterilizing body 3; the left side of the sterilization unit 3 is at least communicated with a pressurizing pump 4, the pressurizing pump 4 is at least communicated with a metal ion unit 5, the metal ion unit 5 is at least provided with a Venturi seat 51, and the lower part of the Venturi seat 51 is at least connected with a container 52; the venturi seat 51 is at least transversely provided with a venturi hole 53, the right side of the venturi hole 53 is communicated with the pressurizing pump 4, and the left side of the venturi hole 53 is communicated with a water outlet terminal 6; at least one guide hole 54 communicated with the Venturi hole 53 is arranged below the Venturi seat 51, and a guide pipe 55 communicated with the guide hole 54 and extending downwards is connected to the lower side of the Venturi seat 51; then, the container 52 is provided with at least one chamber 56 for the conduit 54 to extend downward, the chamber 56 at least accommodates a metal ion solution 7 for the conduit 55 to suck into the venturi hole 53, and the venturi seat 51 is provided with at least one vent 57 (as shown in fig. 1, 2, 3, and 4) penetrating through the chamber 53 to balance the pressure of the metal ion solution 7.

The invention utilizes the pressurizing pump 4 to force water flow to enter the filter body 11 through the water inlet terminal 12 to remove larger particle suspended pollutants, the water flow passes through the sterilization unit 2 again and utilizes the active metal sterilization body 3 to kill bacteria and viruses which can not be removed by the filter body 11, the active metal sterilization body 3 is smelted by nano powder, the characteristic of capturing electrons in the rapid active oxidation process of the active metal sterilization body 3 is utilized to break the electronic balance of bacteria and virus individuals, and meanwhile, the killing and killing conditions of bacteria and viruses are achieved. In addition, the rapid active oxidation of the active metal sterilization body 3 can also force the water molecules in the water flow to split single-potential free radicals, and the single-potential free radicals can also execute the electron grabbing to break down bacteria and viruses, and in addition, the active metal sterilization body 3 can be singly selected or made of alloy, and the components at least comprise: silver, copper, zinc and magnesium. The incoming water flow is pressurized by the pressurizing pump 4 and passes through the venturi hole 53, the attraction force of the venturi hole 53 when the water flow passes through will generate a suction force on the conduit 55 to make the metal ion solution 7 enter the venturi hole 53 to mix with the water flow, and the water flow is discharged from the water outlet terminal 6 at the same time, which can be used for bathing or cleaning or washing and disinfecting general clothes and articles, wherein, the metal ion solution 7 is added with metal ions in a liquid carrier, and the metal ions in the metal ion solution 7 can be singly selected or mixed at least comprising the following components: silver ions, copper ions and zinc ions. The metal ion solution 7 is formed by a metal ion fast capturing electron reduction method to capture electrons of bacteria and viruses to disrupt the bacteria and viruses, thereby achieving the purpose of killing the bacteria and viruses (as shown in fig. 1, 2 and 4).

The unit chamber 22 of the present invention is additionally provided with a sterilization body containing box 32 which is overlapped up and down, the center of the sterilization body containing box 32 is also provided with a through hole 321, the lower end of the through hole 321 is additionally provided with an upper concave scarf joint annular groove 322; the sterilizing body containing box 32 is further provided with a sterilizing body containing chamber 323 which is concave and contains the active metal sterilizing body 3 around the through hole 321, the bottom side of the sterilizing body containing chamber 323 is distributed with upper and lower penetrating fluid through holes 324, then, an upper cover 33 which seals the sterilizing body containing chamber is additionally arranged above the sterilizing body containing box 32, the center of the upper cover 33 is provided with a ring hole 331 which is connected with the through hole 321, an embedding convex ring 332 which is embedded into the embedding ring groove 322 of the sterilizing body containing box 32 which is overlapped above is extended above the ring hole 331, and then, the upper cover 33 is further distributed with upper cover through holes 333 which penetrate the sterilizing body containing chamber 323 around the embedding convex ring 332; in addition, the stacked body housing 32 forms a central water inlet channel 3A by the through hole 321, a water permeable space 3B is formed between the stacked body housing 32, and a recessed backflow groove 2A (shown in FIGS. 2, 3, and 5) is additionally formed at the lower side of the unit accommodating chamber 22 and keeps a distance from the through hole 321 and the fluid through hole 324 of the lowermost body housing 32.

The bottom side of the sterilizing body containing chamber 32 of the invention is at least attached with a first filter 34 between the active metal sterilizing body 3 and the fluid through hole 324, and the bottom side of the upper cover 33 is also at least attached with a second filter 35 between the active metal sterilizing body 3 and the upper cover through hole 333; the active metal disinfectant 3 has a thin disinfectant surface 30. The active metal sterilizing body 3 is used for capturing electrons of bacteria and viruses to decompose the bacteria and viruses in a way of rapidly and actively oxidizing and capturing the electrons, so that the bacteria and the viruses are killed, meanwhile, the active metal sterilizing body 3 is powdered after being oxidized, and then the first filtering body 34 and the second filtering body 35 are used for blocking, filtering and preventing the blocking and accumulation of the active metal sterilizing body and preventing the active metal sterilizing body from flowing out of the sterilizing unit 2 (as shown in figures 2, 3 and 5).

The lower side of the guiding hole 54 of the present invention is additionally provided with a first check valve 54A for preventing water flow from reversely flowing into the containing chamber 56 from the venturi hole 53, and the guiding hole 54 is connected with the guiding pipe 55 below the first check valve 54A; the venturi seat 51 is provided with a second check valve 57A (as shown in fig. 4 and 6) above the vent 57 to prevent the chamber 56 from overflowing.

The side of the venturi seat 51 of the present invention is at least added with a gas pressurizing inlet 58 which traverses downward and penetrates through the guiding hole, and the side of the venturi seat 51 is added with a third check valve 58A which prevents the water flow from flowing back from the gas pressurizing inlet 58, and the gas pressurizing inlet 58 is mainly used for the guiding effect of the air pressurizing the metal ion solution 7, and the air guided by the gas pressurizing inlet 58 can be mixed with the water flow and the metal ion solution 7 in the venturi hole 53 to form a bubble N, and the bubble N is used for enhancing the entrainment and transportation of the metal ion solution 7 and the output pressure of the water flow and the metal ion solution 7. In addition, the venturi seat 51 is additionally provided with a liquid level detection component 8 extending into the chamber 56 for detecting the volume of the metal ion solution 7, the volume of the metal ion solution 7 is monitored intensively according to the liquid level detection component 8, and an alarm source is sent out when the volume of the metal ion solution 7 is exhausted, and the alarm source is used as a basis for reminding a user to replace the container 52 (as shown in fig. 6 and 7).

As can be seen from the above description: the invention utilizes the active metal sterilization body 3 to kill bacteria and viruses according to the sterilization unit 2, and utilizes the electrons of the individual bacteria and viruses captured by the active metal sterilization body 3 when being oxidized to break down the bacteria and viruses. The water flow is pressurized by the pressurizing pump 4 and passes through the venturi hole 53, the suction force of the venturi hole 53 when the water flow is forced to pass through generates a suction force on the conduit 55 to make the metal ion solution 7 enter the venturi hole 53 to be mixed with the water flow, and the water flow is discharged from the water outlet terminal 6 at the same time, so that the water flow can be used for bathing or cleaning or washing and disinfecting clothes and articles, therefore, the preparation of the washing and disinfecting water discharged from the water outlet terminal 6 eliminates the risk of accumulation of the known disinfecting liquid, and the invention mainly utilizes the metal ions in the metal ion solution 7 to grab the electrons of bacteria and viruses in an electron grabbing reduction mode to break down the bacteria and viruses, thereby achieving the purpose of killing the bacteria and the viruses and becoming the excellent characteristics of the invention.

Furthermore, the active metal sterilization body 3 is used for capturing electrons of bacteria and viruses to decompose the bacteria and the viruses in a way of fast active oxidation to achieve the elimination of the bacteria and the viruses, meanwhile, the active metal sterilization body 3 is powdered after oxidation, and then the powdered active metal sterilization body 3 is blocked and filtered by the first filter 34 and the second filter 35, so that the powdered active metal sterilization body 3 cannot block and accumulate and cause the fast failure of the sterilization unit 2, and the powdered active metal sterilization body 3 is prevented from flowing out of the sterilization unit 2, thereby achieving another excellent characteristic of the invention.

While the technical content and the technical features of the invention have been disclosed, those skilled in the art may make various substitutions and modifications based on the disclosure of the invention without departing from the spirit of the invention. Therefore, the protection scope of the present invention should not be limited by the disclosure of the embodiments, and various alternatives and modifications thereof without departing from the invention are also covered by the claims of the present invention.

Claims

1. A sterilizing water supply device is characterized in that the sterilizing water supply device is at least provided with a filter body, the right side of the filter body is at least communicated with a water inlet terminal, the left side of the filter body is at least communicated with a sterilizing unit, the sterilizing unit is at least provided with a shell, the interior of the shell is at least provided with a unit containing chamber, and the unit containing chamber is distributed with an active metal sterilizing body; the left side of the sterilization unit is at least communicated with a pressurizing pump, the pressurizing pump is at least communicated with a metal ion unit, the metal ion unit is at least provided with a Venturi seat, and the lower part of the Venturi seat is at least connected with a container; the Venturi seat is at least transversely provided with a Venturi hole, the right side of the Venturi hole is communicated with the pressurizing pump, and the left side of the Venturi hole is communicated with a water outlet terminal; the lower part of the Venturi seat is at least provided with a guide hole communicated with the Venturi hole, and the lower side of the Venturi seat is connected with a guide pipe communicated with the guide hole and extending downwards; the container is provided with at least one chamber for the conduit to extend downwards, the chamber is at least provided with a metal ion solution for the conduit to absorb into the Venturi hole, and the Venturi seat is at least provided with a vent hole penetrating through the chamber for balancing the pressure of the metal ion solution.

2. The apparatus as claimed in claim 1, wherein the unit chamber is additionally provided with a containing box for containing the sterilizing body therein, the containing box for containing the sterilizing body being stacked up and down, the containing box for containing the sterilizing body being further provided with a through hole at a center thereof, the through hole being additionally provided with an upper concave scarf joint ring groove at a lower end thereof; the sterilizing body containing box is additionally provided with a sterilizing body containing chamber which is concave downwards and contains the active metal sterilizing body in a surrounding way around the through hole, the bottom side of the sterilizing body containing chamber is also distributed with fluid through holes which penetrate up and down, an upper cover which seals the sterilizing body containing chamber in a surrounding way is additionally arranged above the sterilizing body containing box, the center of the upper cover is also provided with a ring hole which is connected with the through hole, an embedding convex ring which is embedded into the embedding ring groove of the sterilizing body containing box and is overlapped above the ring hole is also extended upwards, and the upper cover is additionally distributed with upper cover through holes which penetrate through the sterilizing body containing chamber in a surrounding way of the embedding convex ring; in addition, the overlapped sterilizing body containing boxes form a central water inlet flow channel by utilizing the through holes, a water permeable space is arranged between the overlapped sterilizing body containing boxes, and a concave and a backflow groove which keeps a distance with the through holes of the lowermost sterilizing body containing box and the fluid through holes are additionally arranged on the lower side of the unit containing chamber.

3. The apparatus as claimed in claim 2, wherein the sterilizing body receiving chamber is further attached at a bottom side thereof with at least a first filter interposed between the active metal sterilizing body and the fluid through hole, and the top cover is further attached at a bottom side thereof with at least a second filter interposed between the active metal sterilizing body and the top cover through hole; the active metal sterilizing body has a sheet sterilizing surface.

4. The apparatus as claimed in claim 1, wherein a first check valve is additionally provided at a lower side of the guide hole to prevent the venturi hole from flowing backward into the chamber, and the guide hole is coupled to the guide pipe below the first check valve; and a second check valve for preventing the chamber from overflowing is additionally arranged above the venthole on the Venturi seat.

5. The sterilizing water supply apparatus according to claim 1, wherein a gas pressurizing inlet hole is formed at a lower portion of the venturi base and extends through the guide hole, and a third check valve is formed at a side of the venturi base to prevent the gas pressurizing inlet hole from flowing backward; in addition, the Venturi seat is additionally provided with a liquid level detection component which extends into the containing chamber to detect the volume of the metal ion solution.