CN211770728U - Sterile modular water storage tank and water production system applying same - Google Patents

Abstract

The utility model discloses a water preparation system of aseptic modularization storage water tank and applied aseptic modularization storage water tank, including two sub-water tanks that set up side by side, sub-water tank is the cuboid appearance, and the length on the longer limit of bottom surface is greater than the height of side, is equipped with submergence formula ultraviolet sterilizer in the sub-water tank. The utility model has the technical effects that the water storage tank is arranged at the top of the integrated water production system, thereby saving the floor space of the machine room, and can also be vertically arranged to utilize the space in the vertical direction; can increase the water tank module as required, freely switch between the module, when main water tank water storage capacity can not satisfy the requirement, reserve tank inserts automatically. The storage water tank adopts the design of curved resistance to compression inner wall, effectively improves box intensity. The water tank is internally provided with a spray ball and an immersed ultraviolet sterilizer, so that the water tank is ensured to have no secondary pollution. The water preparation system using the sterile modular water storage tank can realize that one machine has two water sources, and pure water and ultrapure water are respectively stored, thereby being beneficial to meeting the requirements of different occasions.

Description

Sterile modular water storage tank and water production system applying same

Technical Field

The utility model relates to a water preparation system of aseptic modularization storage water tank and applied aseptic modularization storage water tank.

Background

Most of the storage water tanks in the market are single at present, and the molding is simple, can't realize reserve storage water or the water storage demand of two water of a machine, and unable module extension increases the water storage capacity. Meanwhile, the water storage tank is mostly in a barrel type in shape, large in occupied area and single in function, and is not easy to combine and assemble into large-capacity water storage equipment, so that the water storage capacity of the water tank is difficult to expand, and the application range of the water storage tank is greatly limited. And after the water tank is used for a long time, microorganisms are easy to breed, and the water outlet quality is influenced.

Disclosure of Invention

The appearance that exists in order to solve present storage water tank is not conform to and puts needs and lead to shared space too big, function singleness, and the water storage capacity can't be adjusted as required, easily breeds the technical problem of microorganism in the box, the utility model provides an appearance is rational in infrastructure, can adjust the water storage capacity as required, and can effectually prevent the aseptic modularization storage water tank that the microorganism from breeding to a water preparation system who uses this kind of aseptic modularization storage water tank is provided.

In order to achieve the technical purpose, the technical proposal of the utility model is that,

the utility model provides an aseptic modularization storage water tank, is including two sub-tanks that set up side by side, sub-tank be the cuboid appearance, and the length of the longer limit of bottom surface is greater than the height of side, sub-tank's delivery port sets up on the bottom surface, the water inlet sets up in side upper portion. An immersed ultraviolet sterilizer is arranged in the sub-water tank.

An aseptic modularization storage water tank, the sub-tank in be equipped with the resistance to compression inner wall, the resistance to compression inner wall be the cambered surface of U type, in the opening is fixed in the sub-tank up, and the bottom contact sub-tank of resistance to compression inner wall diapire, resistance to compression inner wall both ends are fixed in on the sub-tank inside wall.

The aseptic modular water storage tank is characterized in that a spraying ball is arranged in the sub-water tank, the spraying ball is arranged on the inner top wall of the sub-water tank, and the spraying ball is connected with a water inlet of the sub-water tank through a pipeline.

The aseptic modularized water storage tank is characterized in that a liquid level sensor is arranged in the sub-water tank, and the liquid level sensor is arranged at the lower part of the sub-water tank.

The aseptic modularization storage water tank, the one end of sub-water tank be equipped with the sealed cowling, the size of sealed cowling and the tip of sub-water tank match in order to cover the tip of sub-water tank, the sub-water tank is equipped with the maintenance opening on the top surface with the sealed cowling overlap portion.

The utility model provides an aseptic modularization storage water tank, the outer wall bottom surface of sub-tank on be fixed with a plurality of columnar nuts, be equipped with a plurality of screws in the position of placing sub-tank simultaneously, screw position and quantity and nut phase-match to it is fixed with sub-tank.

The aseptic modularization storage water tank still includes the support, the one end of support be with sub-water tank tip shape assorted holding surface, the other end is equipped with the stabilizer blade that contacts sub-water tank and place the position, the tip contact holding surface of sub-water tank is in order to place the sub-water tank of cuboid form vertically.

The water making system comprises a water making device for filtering a water source and a water supply pump for supplying water, wherein a water inlet of the water making device is connected to the water source, water inlets of the two sub-water tanks are respectively connected to a water outlet end of the water making device in parallel through a pipeline, water outlets of the two sub-water tanks are respectively connected to the water supply pump in parallel through a pipeline, the water supply pump is connected with a water using point through a pipeline, the water using point is connected to a water return port of one or two sub-water tanks through a pipeline again to form circulation, and electric control valves are respectively arranged on the water inlets and the water outlets of the two sub-water tanks.

The utility model provides an use water preparation system of aseptic modularization storage water tank, uses aseptic modularization storage water tank, still including the system water installation that is used for filtering the water source and the working shaft that is used for supplying water, two sub-water tanks, one of them sub-water tank is for supplying water sub-water tank, the water inlet of water sub-water tank pass through pipe connection to the water source, the delivery port passes through the water inlet that the plumbing installation is connected to system water installation, another sub-water tank is for using water sub-water tank, the water inlet of using water sub-water tank pass through the plumbing installation and be connected to the supply water mouth of water purification installation, the delivery port of using water sub-water tank passes through pipe connection to the working shaft, the working shaft passes through the pipe connection and uses water point, uses water point to pass through the return water mouth.

A water producing system using an aseptic modular water storage tank, further comprising a water producing device for filtering a water source and a water supply pump for supplying water, the water producing device including a primary filtering device and a secondary filtering device, a water inlet of the primary filtering device being connected to the water source, one of the two sub-tanks being a primary filter sub-tank, a water inlet of the primary filter sub-tank being connected to a water supply port of the primary filtering device through a pipe, the water supply pump including a primary water supply pump and a secondary water supply pump, a first water outlet of the primary filter sub-tank being connected to the primary water using point through a pipe, the primary water using point being re-connected to a water return port of the primary filter sub-tank through a pipe to form a circulation, a second water outlet of the primary filter sub-tank being connected to a water inlet of the secondary filtering device through a pipe, the other sub water tank is a secondary filtering sub water tank, a water inlet of the secondary filtering sub water tank is connected to a water supply port of a secondary filtering device through a pipeline, a water outlet of the secondary filtering sub water tank is connected to a secondary water supply pump through a pipeline, the secondary water supply pump is connected to a secondary water consumption point through a pipeline, and the secondary water consumption point is connected to a water return port of the secondary filtering sub water tank through a pipeline again to form circulation.

The utility model has the technical effects that the water storage tank and the integrated water making system are matched to form a whole, and the water storage tank is arranged at the top of the integrated water making system, thereby saving the occupied area of the machine room; can increase the water tank module as required, freely switch between the module, when main water tank water storage capacity can not satisfy the requirement, reserve tank inserts automatically. The storage water tank adopts the design of curved resistance to compression inner wall, effectively improves box intensity. The water tank is internally provided with a 360-degree spray ball and an immersed ultraviolet sterilizer, so that the water tank is ensured to have no secondary pollution. The water preparation system using the sterile modular water storage tank can realize that one machine has two water sources, and pure water and ultrapure water are respectively stored, thereby being beneficial to meeting different requirements of various occasions.

Drawings

FIG. 1 is a schematic external view of an aseptic modular water storage tank;

FIG. 2 is a rear schematic view of an aseptic modular water storage tank;

FIG. 3 is a cross-sectional view of a sterile modular water storage tank;

FIG. 4 is a schematic structural diagram of embodiment 1 of a water production system using a sterile modular water storage tank;

FIG. 5 is a schematic structural diagram of embodiment 2 of a water production system using a sterile modular water storage tank;

FIG. 6 is a schematic structural diagram of embodiment 3 of a water production system using a sterile modular water storage tank;

FIG. 7 is a schematic view of the vertical placement of the subtank;

wherein, 1 is an overhaul opening, 2 is a sealing cover, 3 is a pressure-resistant inner wall, 4 is a spraying ball, 5 is a liquid level sensor, 6 is an immersed ultraviolet sterilizer, 7 is a water production device, 8 is a water supply pump, 9 is a water consumption point, 10 is a primary filtering device, 11 is a primary water supply pump, 12 is a primary water consumption point, 13 is a secondary water supply pump, 14 is a secondary filtering device, 15 is a secondary water consumption point, 16 is a primary filtering sub water tank, 17 is a secondary filtering sub water tank, 18 is a water supply sub water tank, 19 is a water consumption sub water tank, and 20 is a bracket.

Detailed Description

The technical solutions in the embodiments will be described clearly and completely with reference to the drawings in the embodiments, and it is obvious that the described embodiments are only a part of the embodiments, and not all of the embodiments. All other embodiments obtained by a person skilled in the art without any inventive work based on the embodiments of the present invention belong to the protection scope.

Referring to fig. 1, the sterile modular water storage tank depicted in the figure comprises two sub-tanks which are arranged in parallel, wherein the sub-tanks are in a cuboid shape, and the length of the longer side of the bottom surface is greater than the height of the side surface. In actual use, the number of the sub water tanks can be increased or decreased according to needs. Meanwhile, the water outlet of the sub-water tank is arranged on the bottom surface, the water inlet is arranged on the upper portion of the side surface, and the arrangement of the water outlet and the water inlet can be adjusted according to needs. Meanwhile, a sealing cover is arranged at one end of the sub-water tank, the size of the sealing cover is matched with the end part of the sub-water tank so as to cover the end part of the sub-water tank, and an overhaul opening is formed in the top surface of the part, overlapped with the sealing cover, of the sub-water tank. When needing to overhaul, take out the sealed cowling, can expose and overhaul the opening, overhaul after finishing covering the sealed cowling again can.

Referring to fig. 2, a liquid level sensor is disposed in the sub-tank and is disposed at a lower portion of the sub-tank. The liquid level sensor is used for sensing the water level in the water tank, and the sensor is a water pressure sensor, namely, the water level is converted by the sensed water pressure so as to confirm the water level in the water tank. The level sensor in the figure is actually inside the subtank.

Referring to fig. 3, a spraying ball is arranged in the sub-water tank, the spraying ball is arranged on the inner top wall of the sub-water tank, and the spraying ball is connected with the water inlet of the sub-water tank through a pipeline. Adopt this ball that sprays to come into water, the purpose is to ensure that all positions of water tank inner wall can both contact flowing water as far as possible, prevent that the microorganism from adhering to the wall and breeding. Still be equipped with the submergence formula ultraviolet sterilizer simultaneously, this submergence formula ultraviolet sterilizer is according to the time start-up that predetermines to the disinfection of disinfecting of sub-water tank inner wall. In order to increase water tank intensity, be equipped with the resistance to compression inner wall in the sub-tank, the resistance to compression inner wall is the cambered surface of U type, and in the ascending sub-tank that is fixed in of opening, and the bottom contact sub-tank inner wall of resistance to compression inner wall diapire, resistance to compression inner wall both ends are fixed in on the sub-tank inside wall. Therefore, the main stressed part at the bottom of the water tank is in a relatively round arc shape instead of a sharp corner shape of the box body, and the water pressure is favorably dispersed. Meanwhile, the arc-shaped bottom surface also enables the water to have better fluidity.

For the fixed sub-water tank, be fixed with the nut of a plurality of columns on the outer wall bottom surface of sub-water tank, be equipped with a plurality of screws in the position of placing sub-water tank simultaneously, screw position and quantity and nut phase-match to it is fixed with sub-water tank. The sub-tanks are fixed or moved by screwing or unscrewing the screw, so that stability can be ensured, and the tanks can be conveniently moved when needed without excessively complicated operation.

Referring to fig. 4, the embodiment 1 of the water production system uses an aseptic modularized water storage tank, and further includes a water production device for filtering water source and a water supply pump for supplying water, the water inlet of the water production device is connected to the water source, the water inlets of the two sub-water tanks are respectively connected to the water outlet end of the water production device in parallel through pipelines, the water outlets of the two sub-water tanks are respectively connected to the water supply pump in parallel through pipelines, the water supply pump is connected to a water using point through a pipeline, the water using point is connected to the water return port of one or two sub-water tanks through a pipeline to form circulation, and the water inlets and the water outlets of the two sub-water tanks are respectively provided. When in actual use, water after the water making device filters is conveyed to the two sub water tanks, and the two sub water tanks supply water according to the actual requirements of water consumption points. The water return pipe of the water using point in the figure returns to one of the two sub-water tanks, and can also return to the two sub-water tanks instead. The two sub water tanks are relatively independent, and water can be stored according to needs.

Referring to fig. 5, the embodiment 2 of the water production system uses a sterile modular water storage tank, and further comprises a water production device for filtering water source and a water supply pump for supplying water, wherein one of the two sub-water tanks is a water supply sub-water tank, a water inlet of the water supply sub-water tank is connected to a water source through a pipeline, a water outlet of the water supply sub-water tank is connected to a water inlet of the water production device through a pipeline device, the other sub-water tank is a water using sub-water tank, a water inlet of the water using sub-water tank is connected to a water supply port of the water purification device through a pipeline device, a water outlet of the water using sub-water tank is connected to the water supply pump through a pipeline, the water supply pump is connected with a water using point. In actual use, the water supply sub-tank is used for storing unfiltered water from a water source and providing the unfiltered water to the water making device for making water, and the water making device conveys the filtered water to the water supply sub-tank and supplies water to a water using point through the water supply pump.

Referring to fig. 6, embodiment 3 of the water producing system uses a sterile modular water storage tank, and further includes a water producing device for filtering a water source and a water supply pump for supplying water, the water producing device includes a primary filtering device and a secondary filtering device, the water inlet of the primary filtering device is connected to a water source, two sub-tanks, one of the sub-tanks is a primary filtering sub-tank, the water inlet of the primary filtering sub-tank is connected to the water supply port of the primary filtering device through a pipe, the water supply pump includes a primary water supply pump and a secondary water supply pump, the first water outlet of the primary filtering sub-tank is connected to the primary water supply pump through a pipe, the primary water supply pump is connected to a primary water supply point through a pipe, the primary water supply point is connected to the water return port of the primary filtering sub-tank through a pipe to form a circulation, the second water outlet of the primary filtering sub-tank is connected, the other sub water tank is a secondary filtering sub water tank, a water inlet of the secondary filtering sub water tank is connected to a water supply port of a secondary filtering device through a pipeline, a water outlet of the secondary filtering sub water tank is connected to a secondary water supply pump through a pipeline, the secondary water supply pump is connected to a secondary water consumption point through a pipeline, and the secondary water consumption point is connected to a water return port of the secondary filtering sub water tank through a pipeline again to form circulation. In actual use, the two-stage filtration can be respectively and independently used, so that corresponding filtered water is provided for different water requirements, and the use cost is saved while the requirements are met.

Referring to fig. 7, in actual use, if the space in the horizontal direction is tight, the rectangular sub-tanks may be vertically placed by a bracket to utilize the space in the vertical direction. One end of the support is a supporting surface matched with the shape of the end part of the sub-water tank, the other end of the support is provided with a supporting leg contacting the placing position of the sub-water tank, and the end part of the sub-water tank contacts the supporting surface so as to vertically place the cuboid sub-water tank. The positions of the corresponding water outlet and the water inlet are correspondingly adjusted according to the placing mode.

Claims (10)

1. The utility model provides an aseptic modularization storage water tank, its characterized in that, is including two sub-water tanks that set up side by side, sub-water tank be the cuboid appearance, and the length of the longer limit of bottom surface is greater than the height of side, is equipped with submergence formula ultraviolet sterilizer in the sub-water tank.

2. An aseptic modular water storage tank as claimed in claim 1, wherein a compression-resistant inner wall is provided in said sub-tank, said compression-resistant inner wall is a U-shaped arc surface with an upward opening and is fixed in said sub-tank, and the bottom of said compression-resistant inner wall contacts the inner bottom wall of said sub-tank, and both ends of said compression-resistant inner wall are fixed on the inner side wall of said sub-tank.

3. An aseptic modular water storage tank as claimed in claim 1, wherein a spray ball is provided in said sub-tank, said spray ball being provided on an inner top wall of said sub-tank, said spray ball being connected to a water inlet of said sub-tank through a pipe.

4. An aseptic modular water storage tank as claimed in claim 1, wherein a liquid level sensor is provided in said sub-tank, said liquid level sensor being provided at a lower portion of said sub-tank.

5. An aseptic modular tank as claimed in claim 1, wherein a sealing cap is provided at one end of said sub-tanks, said sealing cap being sized to fit over the end of the sub-tank to cover the end of the sub-tank, the sub-tank having an access opening in a top surface of a portion overlapping the sealing cap.

6. An aseptic modular water storage tank as claimed in claim 1, wherein a plurality of cylindrical nuts are fixed on the bottom surface of the outer wall of said sub-tank, and a plurality of screws are provided at the position where the sub-tank is placed, said screws being matched in position and number with the nuts to fix the sub-tank.

7. An aseptic modular water storage tank as claimed in claim 1, further comprising a support having a support surface at one end matching the shape of the end of the sub-tank and a support leg at the other end contacting the position of the sub-tank, wherein the end of the sub-tank contacts the support surface to vertically position the rectangular sub-tank.

8. A water making system using the sterile modular water storage tank is characterized in that the sterile modular water storage tank according to any one of claims 1 to 7 is used, the system further comprises a water making device for filtering water source and a water supply pump for supplying water, the water inlet of the water making device is connected to the water source, the water inlets of the two sub water tanks are respectively connected to the water outlet end of the water making device in parallel through a pipeline, the water outlets of the two sub water tanks are respectively connected to the water supply pump in parallel through a pipeline, the water supply pump is connected with a water using point through a pipeline, the water using point is connected to the water return port of one or two sub water tanks through a pipeline to form a circulation, and the water inlets and the water outlets of the two sub water tanks are respectively provided with an electric control.

9. A water producing system using the sterile modular water storage tank, characterized in that the sterile modular water storage tank of any one of claims 1 to 7 is used, and further comprises a water producing device for filtering water source and a water supply pump for supplying water, wherein one of the two sub-tanks is a water supply sub-tank, the water inlet of the water supply sub-tank is connected to the water source through a pipeline, the water outlet of the water supply sub-tank is connected to the water inlet of the water producing device through a pipeline device, the other sub-tank is a water use sub-tank, the water inlet of the water use sub-tank is connected to the water supply port of the water purifying device through a pipeline device, the water outlet of the water use sub-tank is connected to the water supply pump through a pipeline, the water supply pump is connected to a water using point through a pipeline, and the water using point is reconnected to the water.

10. A water production system using an aseptic modular water storage tank, characterized in that the aseptic modular water storage tank of any one of claims 1 to 7 is used, and further comprises a water production device for filtering a water source and a water supply pump for supplying water, the water production device comprises a primary filtering device and a secondary filtering device, a water inlet of the primary filtering device is connected to the water source, two sub-tanks are arranged, one sub-tank is a primary filtering sub-tank, a water inlet of the primary filtering sub-tank is connected with a water supply port of the primary filtering device through a pipeline, the water supply pump comprises a primary water supply pump and a secondary water supply pump, a first water outlet of the primary filtering sub-tank is connected with the primary water supply pump through a pipeline, the primary water supply pump is connected with a primary water using point through a pipeline, and the primary water using point is connected with a water return port of the primary filtering sub-tank through a pipeline to form a circulation, the second delivery port of elementary filtration water sub-tank passes through pipe connection to the water inlet of second grade filter equipment, and another sub-tank is the sub-tank of second grade filtration, the water inlet of the sub-tank of second grade filtration pass through pipe connection to the water supply port of second grade filter equipment, the delivery port of the sub-tank of second grade filtration passes through pipe connection to the second grade water supply pump, the second grade water supply pump passes through pipe connection to second grade water point, the second grade water point passes through pipe reconnection to the return water mouth of the sub-tank of second grade filtration in order to form the circulation.

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