RU207649U1 - MOUNTED AQUAVENDING EQUIPMENT - Google Patents

Abstract

The utility model relates to vending machines for drinking water. The technical result consists in increasing the efficiency of maintenance of the apparatus by providing random access of the service personnel to the units and elements of the module for obtaining drinking water from tap water and to the buffer tank. The aquavending apparatus contains: a wall cabinet 1, made with the possibility of fixing it on the wall 2 at a distance from the ground 3; located in the wall cabinet, module 4 for obtaining drinking water from tap water; a hydraulically connected module 6 for bottling drinking water, including a filling chamber, and a control module; a buffer tank 5, hydraulically connected between the outlet of the said module for producing drinking water and the inlet of the module for bottling drinking water, and a means for ultraviolet disinfection of drinking water is located in the buffer tank. 2 ill.

Description

Technical field to which the utility model belongs

The utility model relates to outdoor mounted aqua vending machines, i.e. to vending machines for drinking water obtained from ordinary tap water by purifying and processing it, and to such machines that are not installed on the ground, but are hung on the wall solely so that the owner of such a machine does not have an administratively determined need to obtain special permission from the authorities for the use of land.

State of the art

Known hinged (wall-mounted) aqua vending apparatus, including a cabinet attached to the wall, in which the drinking water filling module and the control module are located (see the description of the utility model to the patent RU No. 201320 U1, IPC: C06F 13/02, published: 09.12. . No. 34).

The features of the known apparatus, which are common with the features of the technical solution claimed for patenting, consist in the presence of a wall cabinet and the indicated modules located in it.

The reason preventing the technical result obtained in the known apparatus, which is provided by the technical solution declared for patenting, is the absence of a buffer tank and a module for obtaining drinking water from tap water.

Known hinged aquavending apparatus (prototype), containing a hinged cabinet, which is made with the possibility of fixing it on the wall of the building at a distance from the ground and in which are located: a module for obtaining drinking water from tap water; a potable water filling module hydraulically connected to it, including a filling chamber; control module; means for ultraviolet disinfection of drinking water (patent CN 208776495 U, IPC C02F 9/08, publ. 23.04.2019).

The features of the known apparatus (prototype), common with the features of the technical solution declared for patenting, are the presence of a wall cabinet, made with the possibility of fixing it on the wall of a building at a distance from the ground, and also located in this wall cabinet of the module for obtaining drinking water from tap water, a potable water filling module hydraulically connected to it, including a filling chamber, a control module and means for ultraviolet disinfection of potable water.

The reason preventing the technical result obtained in the known apparatus, which is provided by the technical solution declared for patenting, is the absence of a buffer tank and in the flowing ultraviolet disinfection of drinking water.

The technical problem to be solved by the technical solution claimed for patent is the need to ensure uninterrupted operation of the mounted aqua vending machine for a long time by using a buffer tank and by efficient maintenance of the equipment of the apparatus. Disclosure of the essence of the utility model

The technical result, mediating the solution of this technical problem, is to increase the efficiency of maintenance of the mounted aqua vending apparatus by providing random access of the service personnel to the units and elements of the module for obtaining drinking water from tap water, as well as access to the buffer tank (i.e. such access , which does not depend on the possibility of access to the utility rooms of the building), and a significant reduction in the distance between the buffer tank, on the one hand, and the modules for receiving drinking water and bottling drinking water, on the other hand.

The technical result also lies in the fact that the buffer tank, on the one hand, allows during the aqua vending process to create an operational reserve of drinking water (in the periods between water sales) and to use this reserve for dispensing drinking water into the container of the water buyer, thereby reducing the requirements for the membrane (and even excluding the pump); and on the other hand, in the buffer tank at the outlet (in front of the outlet pipe), in the process of dispensing water into the container of the water buyer, the effect of a sudden narrowing of the flow of this water takes place, which creates significant turbulence in the flow of this water in the area of the germicidal action zone of the ultraviolet lamp located in the tank , thereby increasing the efficiency of its (lamp) disinfecting action in the process of dispensing water into the container of the water buyer.

The technical result is achieved in the declared mounted aqua-vending apparatus in that the apparatus contains a wall cabinet made with the possibility of fixing it on the wall of a building at a distance from the ground, and also contains a module for obtaining drinking water from tap water located in this wall cabinet, hydraulically connected with it is a drinking water filling module, including a filling chamber, a control module, an ultraviolet drinking water disinfection device, a buffer tank hydraulically connected between the outlet of the said drinking water production module and the inlet of the drinking water filling module, while said ultraviolet drinking water disinfection means is located in the buffer tank ...

Brief Description of Drawings

FIG. 1 shows the location of the wall cabinet of the aqua vending machine on the outer side of the building wall; in fig. 2 shows a functional diagram of the hydraulic part of the claimed aqua vending apparatus.

Implementation of the utility model

The hinged aqua vending apparatus contains a hinged cabinet 1 (Fig. 1), made with the possibility of fixing (hanging) it on the wall 2 of the building from the outer side of this wall at a distance from the ground 3, a module 4 for obtaining drinking water from tap water (Fig. 2), a buffer tank 5 (Fig. 2) with the function of ultraviolet disinfection of drinking water, a module 6 for bottling drinking water, including a filling chamber, and a control module (not shown).

Module 4 is located inside the cabinet 1 and contains hydraulically connected in series with each other unit 7 for filtration of tap water, membrane unit 8 for separating filtered water into permeate and concentrate, and unit 9 for modifying permeate (Fig. 2).

Block 7 contains a coarse mechanical filter 10 hydraulically connected in series, made of expanded polypropylene with a pore size, for example, 5 microns, a sorption filter 11 made of coal, as well as a fine mechanical filter 12 made of expanded polypropylene with a pore size, for example , 1 micron.

Block 8 contains a means 13 for increasing the pressure at the inlet of this block (a pump that can not be used if the pressure in the water supply is sufficient), an electrically controlled shut-off valve 14, a reverse osmosis membrane 15 with a permeate outlet 16 and a concentrate outlet 17, a controlled hydraulic resistance 18, an electrically controlled shut-off valve 19, as well as a branch pipe 20 for draining the concentrate into the sewer. The pump 13 is designed to create, if necessary, additional pressure at the inlet of the membrane 15. The valve 14 is intended for the controller-controlled control module to turn on and off the process of supplying water to the buffer tank 5. The hydraulic resistance 18 is designed for a given distribution of permeate and concentrate flows. Valve 19 is designed for periodic flushing of membrane 15 in order to increase its effective operation time (flushing occurs when the controller, in accordance with the maintenance program of membrane 15, opens valve 19 for a specified time).

Block 9 contains, for example, hydraulically sequentially interconnected unit 21 for adjusting the mineral composition of the permeate, unit 22 for adjusting the organoleptic properties of the permeate, unit 23 for adjusting the pH of the permeate.

Module 6 is located inside cabinet 1 and contains a controlled ozone generator (not shown) designed to supply ozone to the customer's container before supplying drinking water there, a filling chamber (not shown) with a supply pipe in the upper part for supplying water and ozone to the customer's container, controllable means for heating the bottom of the loading chamber and the supply pipe in winter (not shown).

The control module (not shown) is located inside the cabinet 1, so that some of its (module) elements are installed on the front panel of this cabinet for access by the water buyer. At the same time, this module contains a controller, control buttons, display, means of receiving payment and other necessary elements of the user interface.

The buffer tank 5 has an inlet pipe (not shown), which is located in the upper part of this container and is hydraulically connected to the outlet of block 9 (i.e., the output of module 4), an outlet pipe (not shown), which is installed in the lower part of this container, and through a suitable pump (not shown) is hydraulically connected to the inlet of the module 6. At the same time, inside the container 5 there is an ultraviolet lamp in a protective cover made of a material that transmits ultraviolet radiation, which is installed horizontally or vertically, and so that the inlet of the outlet of this container is located in the area of the disinfecting effect of this lamp (not shown). Thus, capacity 5, on the one hand, allows during the aqua vending process to create an operational reserve of drinking water (in the periods between water sales) and use this reserve to dispense drinking water into the container of the water buyer, thereby reducing the requirements for membrane 15 (and even excluding pump 13). On the other hand, in the tank 5 at the outlet (in front of the outlet pipe) in the process of dispensing water into the container of the water buyer, the effect of a sudden narrowing of the flow of this water takes place, which creates significant turbulence in the flow of this water in the area of the germicidal action zone of the ultraviolet lamp, thereby increasing the effectiveness of its (lamp) disinfecting effect in the process of dispensing water into the container of the water buyer.

In this case, the container 5 is located inside the cabinet 1 (Fig. 1, in which the container 5 is not shown). The specificity of such an arrangement of the container 5 (ie, inside the cabinet 1, Fig. 1) is, on the one hand, in the simpler maintenance of the apparatus, since the service personnel, gaining access to the module 4, simultaneously gains access to the container 5; but on the other hand, such an arrangement imposes certain restrictions on the volume of the container 5, due to the limited volume of the cabinet 1 and the location of modules 4 and 6 in it, as well as the strength of the wall 2 and the fasteners of the cabinet 1 to the wall 2.

In addition, to ensure the operation of the apparatus, holes (not shown) are made in the wall 2, in which the pipelines are located, hydraulically connecting the module 4 with the water supply and sewerage system, which are the life support elements of the building to which the wall 2 belongs.

The functioning of the apparatus is as follows.

During periods of time when drinking water is not dispensed to the buyer of water in his (buyer) container, the control module automatically fills the container 5 with drinking water if this container is empty or not completely filled. In this case, tap water, which is always in the water supply system under pressure, under the action of this pressure enters the input of block 7 (i.e., the input of module 4), where three stages of cleaning pass: coarse cleaning from mechanical impurities with filter 10, sorption cleaning with a charcoal filter 11 and repeated, but already fine cleaning from mechanical impurities by filter 12. From the outlet of the filter 12 (i.e. from the outlet of block 7), the water obtained by this filtration through the open valve 14 enters the inlet of the membrane 15 either directly (i.e. without using means 13 for increasing the pressure, i.e. the pump), or with an additional increase in pressure by this means (pump). In the membrane 15, the water is separated into permeate, which from the permeate outlet 16 enters the inlet of the unit 9, and the concentrate, which from the concentrate outlet 17 through the controlled hydraulic resistance 18 and through the concentrate drain 20 enters the sewage system. Further, when the permeate passes through nodes 21, 22 and 23 of block 9, the adjustment of its (permeate) mineral composition, organoleptic properties, pH, specified by the parameters of these nodes, occurs.

Further, the permeate modified in block 9 from the outlet of this block (i.e., from the outlet of module 4) enters the tank 5, in which the permeate (drinking water), on the one hand, temporarily accumulates, and on the other hand, is continuously exposed to ultraviolet irradiation. In this case, the disinfecting effect of ultraviolet radiation is further enhanced due to the effect of a sudden narrowing of the flow of water when it leaves the container 5 through the outlet. The fact is that a sudden narrowing, as is known, generates significant turbulence when water flows out through the outlet pipe, thereby increasing the efficiency of ultraviolet disinfection of water flowing further into the module 6 for delivery to the buyer.

A consumer of drinking water, expressing an intention to buy drinking water, makes a corresponding payment, installs his container in the loading chamber of the module 6 and starts the process of dispensing water using the user interface located on the front panel of the wall cabinet 1 (interface not shown). After that, in automatic mode, the controller turns on the ozone generator for a specified time (for example, 10 seconds), as a result of which, during this time, ozone enters the customer's container and thereby disinfects the inner space of this container. After a predetermined time (10 seconds) has elapsed, the controller turns off the ozone generator and turns on a pump (not shown), which supplies drinking water from the container 5 to the filling chamber of the module 6 and, accordingly, to the customer's container. In this case, the ultraviolet lamp located in the lower part of the container 5 irradiates the drinking water located in the lower part of the container 5 and at the same time turbulently leaving the lower part of the container 5, due to which the buyer of drinking water quickly receives guaranteed clean drinking water in a guaranteed clean container ...

Claims (1)

A hinged aqua vending machine containing a wall cabinet made with the possibility of fixing it on the wall of a building at a distance from the ground, as well as a module for obtaining drinking water from tap water located in this wall cabinet, a drinking water filling module hydraulically connected to it, including a filling chamber, a module control and means for ultraviolet disinfection of drinking water, characterized in that it contains a buffer tank located in a wall cabinet, hydraulically connected between the outlet of the said module for producing drinking water and the inlet of the module for bottling drinking water, while said means for ultraviolet disinfection of drinking water is located in the buffer container.

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