RU183319U1 - DEVICE FOR PRODUCING MELT DRINKING WATER - Google Patents

Abstract

The utility model relates to devices for dosed dispensing of melt water and is intended for use at home, in offices, institutions and other public places. The device comprises a hollow body, a thermally insulated container made in the form of a rectangular parallelepiped with a tapering bottom and a hinged lid. In a thermally insulated tank equipped with a cooling system, a stand with a heating element for an ice block is installed. A thermally insulated container is connected through a drain pipe to a storage tank. In an inclined, tapering bottom of a thermally insulated tank above the central drain pipe there is a drain hole associated with a reserve tank. The utility model is compact, simple and quite convenient to operate, creating comfortable conditions for the user in various offices, and can be used to obtain clean portioned melt water. 5 cp f-ly, 3 ill.

Description

The utility model relates to devices for dosed dispensing of melt water and is intended for use at home, in offices, institutions and other public places.

A known cooler comprising a lid with a seat for installing the neck of a container of water with a stopper in a lid cavity made of a cup-shaped shape with a side wall and a bottom, on which a needle is placed to pierce the membrane of the stopper of a container of water and supply water through an opening in the side wall of the needle to the valve water delivery systems (patent US 4629096, B67D 5/62, publ. 16.12.1986).

The disadvantage of this solution is that when the container is installed with a stopper on the neck in a lid that has a needle for piercing the stopper membrane, a sealed closed loop is formed in the cooler system, connecting the valve that opens the drain of water into the user's glass with the internal cavity of the container with water. As the pump is pumped out or self-flowing out under its own weight of water from the tank, the latter produces a lower pressure relative to atmospheric pressure, which, as the water decreases in the tank, deforms the walls of the tank and reduces the internal pressure in the system as a whole. In addition, the use of a removable container as the sole water source significantly limits the operational capabilities of the device. Moreover, in case of depressurization of the drinking water bottle during transportation or operation (the formation of cracks or micro-holes through which atmospheric air can penetrate into the internal cavity of the water bottle), the pressure in the water bottle during operation decreases and, as a result, the water level in the nest for a water bottle is not supported. The water level rises and water through the air filter enters the internal cavity of the housing for electrical equipment, which can lead to a short circuit and fire. If this does not happen, for example, if the device is disconnected from the mains, then water flows to the table on which it is installed, or to the floor. A table with all the documents on it and the floor deteriorate. It is possible flooding below the floors of the house. As a result, the user suffers significant material damage. The disadvantage is the need to use water sources with initially high consumer characteristics (bottled water). A bottle is a source of bacteria and germs. Typically, such bottles are transported by truck when the bottles are open to ambient air. When unloading, the operator usually grabs the bottle by its neck, that is, by the part of the bottle that communicates with the open tank during use. Unfortunately, it is not possible to convince all bottle-unloading operators of the need to wash their hands as often as possible. In order to properly disinfect such a water dispenser or water cooler, the user must thoroughly clean the neck of the bottle before putting it into the cabinet. In addition, the user must from time to time flush water from the tank and disinfect it. Cleaning the tank in such a water distribution machine takes a lot of time and therefore it is not regularly carried out.

A known installation made in the form of a chamber containing at least one pipeline for loading pieces of ice into the chamber, a system of gratings made of hollow pipes with holes through which hot air is supplied to the chamber, and grids for calibrating and placing pieces of ice, at least one conduit for introducing hot air into the chamber, at least one conduit for discharging ice-formed water from the chamber, and at least one conduit for discharging cooled air from the chamber. The pipeline for loading pieces of ice into the chamber is equipped with a sealing device configured to pass pieces of ice into the chamber and to prevent the ingress of cooled air from the chamber into the pipeline. Lattices are made with cells of different sizes. The unit is equipped with a water filter. The technical result is the creation of an installation for producing drinking water from large ice masses with minimal labor and energy costs (RF patent 2177526, EV 3/30, publ. 12/27/2001). This decision was made as a prototype for the claimed facility.

The disadvantages of the prototype include the high cost of labor and energy costs for processing large masses of ice. On the known design, it is not possible to dispense portioned drinking melt water.

The basis of this utility model is the task of expanding the arsenal of technical means for the dosed dispensing of drinking melt water at low operating costs.

The technical result of the achieved solution is the implementation of the claimed utility model of the indicated purpose, the creation of a device that provides portioned melt drinking water from the ice block and has a simple and reliable design.

The claimed technical result is achieved by the fact that a device for producing melt drinking water is constructed, comprising a housing in which there is a container of melt water with a lid and a bottom tapering to the bottom and a reserve tank, while a stand equipped with heating elements and designed for installing an ice block to obtain melt water, and the melt water capacity is made communicating through the central drain pipe of the bottom with a storage tank, and in the bottom of the tank is higher than the central to spout a drain hole connected with a reserve capacity.

The device is complemented by private distinctive features that contribute to the achievement of the claimed technical result.

The capacity of melt water is thermally insulated.

A cooling system in the form of a fan is fixed on the melt water tank to prevent spontaneous melting of the ice block.

The elements for heating the stand are made in the form of a PETN spiral.

The heating elements of the stand are made in the form of an inductor.

The cover of the melt water tank is mounted on a hinge with the possibility of rotation through an angle of up to 270 °.

It is believed that tap water must be boiled to disinfect it. And it is right. But boiled water has its drawbacks. You can drink it only immediately after boiling - in the form of tea or coffee. During storage, it like a sponge absorbs various microorganisms, bacteria and viruses from the air. The constant use of boiled water can lead to urolithiasis.

Water obtained by freezing, for example, in a freezer, and then thawing ordinary (tap), or any other, is called melt water. Under natural conditions, melt water is formed as a result of melting snow and ice. It is known that during the preparation of melt water, the content of various impurities in it decreases, as well as the number of nuclei of the deuteron hydrogen isotope (D) present in water in the form of a chemical compound HDO - light heavy water molecules. Melt water with a low content of HDO molecules in it is often called protium (from the Latin Protium), i.e. containing mainly the nuclei of the light isotope of the hydrogen atom - H ⁺ (the proton or protium atom nucleus is from the Greek. protos - the first; in aqueous solutions, the proton hydrates and forms the compound H ₃ O ⁺ ). The indicated changes in the properties of melt water characterize it as better than the source water.

There is a way to get melt water at home - this is freezing, which is much more effective in terms of cleaning quality than boiling. Normal tap water is poured into a plastic bottle and placed in the freezer of the refrigerator (in winter it can be taken out to the balcony). First, ice is formed at the edges of the dishes, it is the purest water. Water with impurities freezes longer and collects in the center. When defrosting, clean ice can be separated from dirty ice. Water from pure ice - this is the necessary melt, healthy water. Meltwater has a life-giving effect on the body of both humans and plants. In a person who drinks 300-500 g of melt water daily, the activity of the heart, blood vessels of the brain and spinal cord is normalized, blood composition and muscle function improve. In people suffering from cardiovascular diseases, when taking melt water, a decrease in blood cholesterol is noted and the metabolism improves. It is also useful for people who have suffered injuries: bone fractures, ruptures of the ligaments of the joints, it is also useful for people who are obese.

The disadvantages of devices for producing melt water are inconvenient designs (pots or a plastic bottle from under drinking water), you have to use a complex and long-term method of preparing melt water, i.e. separating it from pure ice. Putting a pot or plastic bottle in the freezer of the refrigerator is possible, but inconvenient, because there are also products. In such primitive vessel designs, there are no details that make it possible to quickly and efficiently obtain melt water.

A device for cleaning water by freezing (RF patent 61704, C02F 1/22, publ. 10.03.2006), containing a vessel with upper and lower bottoms, an axial tubular heater and a power supply, while the working surface of the heater is made in the form of a perforated cylindrical shell with a blank bottom and a heat insulator kinematically connected with the upper bottom, moreover, thermal protection is installed on the lower bottom of the vessel and a thin-walled elastic polyethylene fluoride bottle is used as the vessel. Work with such a device is as follows. Through a cylindrical shell, water is poured into the inside of the vessel, which is poured through its perforated holes inside the vessel. The water in the bottle and inside the shell is frozen, then it is defrosted using a heater. Through the perforated openings of the shell, thawed water enters the inside of the shell and is poured through the outlet of the shell.

The disadvantages of this solution of the device are: the structure is complex and ineffective, the shell is made in the form of a layer, tightening something, and after numerous perforated holes it is a very weakened structure, and a metal sleeve with a flange is fixed on it, i.e. unreliable part, it is inconvenient to insert the device together with the heater and the power supply unit into the refrigerator and it can be taken out of service during freezing, according to the image in the drawing, nothing is kinematically connected with the top of the bottle, defrosted water can pour out through the bottle neck earlier than through the outlet the shell hole, the design of the device during its manufacture is not technologically advanced and uneconomical, there is no possibility of draining dirty water, defrosted water is poorly cleaned with this technology and device structure.

The proposed utility model is schematically shown in the figures, which depict: in FIG. 1 is a front view of the device, in FIG. 2 is a side view of the device, in FIG. 3 is a top view of the device.

The cooler comprises a hollow body 1, in the upper part of which there is a thermally insulated container 2, made in the form of a rectangular parallelepiped. The bottom of the tank 2 is made tapering downward, with the formation of a funnel in the center. In the upper part of the thermally insulated container 2, a thermally insulated, hinged lid 3 is mounted on a hinge with the possibility of rotation through an angle of up to 270 °. The front part of the lid 3 is made in the form of a glass panel 4. The sides, bottom and lid of the thermally insulated container 2, in particular, can be insulated with a layer of polystyrene or other eco-insulation.

The thermally insulated container 2 is equipped with a cooling system in the form of a fan 5 to prevent arbitrary melting of the ice block 6. The ice block 6 is mounted on a stand 7 mounted in a thermally insulated container 2 and having a heating element 8. The heating element 8 of the stand can be made in the form of a PETN coil or inductor .

In the central part of the bottom of the thermally insulated tank 2, a drain pipe 9 is installed, connected to the storage tank 10. The storage tank 10 is equipped with a melt water supply valve 11 located on the front side of the housing 1. In an inclined, tapering bottom of the thermally insulated tank 2, above the central drain pipe 9, there is a drain hole 12 associated with the reserve tank 13.

The operation of the device is as follows: The water source - ice block 6, pre-prepared at the factory, or cut directly from a natural glacier, is placed in a refrigerated, thermally insulated container 2. The ice block 6 is transported in a package that prevents pollution. The size of the ice block is recommended to be brought closer to the usual size of a bottle of water. A diameter of 0.27 m and a height of 0.37 m for a large block and, accordingly, a diameter of 0.27 m and a height of 0.185 m for a smaller block. Accordingly, the weight of 21 kg and 10.5 kg. It is also possible to use blocks with a sawn core, the diameter of which is 0.1 m. The masses of the blocks will respectively be 14 kg and 7 kg.

The cooling of the thermally insulated container 2 is carried out by the cooling system 5, to prevent arbitrary melting of the ice block 6. The ice block 6 is installed on the stand 7 and includes a heating element 8. The material of the stand is metal alloys or ceramics. The stand 7 is heated, which heats the ice block 6, which allows you to convert water from solid to liquid. Water obtained from heating flows through the sides of the stand 7. Then, water, through the drain pipe 9, enters the storage tank 10. Through the valve 11, melt water is supplied directly to the consumer. In the event of a power outage, spontaneous melting of the ice block 6 is possible. In this case, water is poured into the reserve tank 13 through the drain hole 12. Ice blocks can be replaced by simply installing the block on the block or in place of the used block. Since the cover 3 is fixed on a hinge with the possibility of deviation by 270 °, the block 6 can be placed both on top and in front.

For the consumer receiving melt water is as follows. The consumer presses the "Start" key. A current flows through the electric circuit to the heating element 8 of the stand 7. The lower part of the ice block begins to melt, and water overflows through the sides of the stand 7. The person pours the resulting water into the glass, opening the tap 11. The process is visible through the glass panel 4.

This utility model is industrially applicable and can be manufactured using well-known technologies for the manufacture of machines such as coolers.

The proposed utility model is compact, simple and quite convenient to use, creating comfortable conditions for the user in various offices, and can be used to obtain clean portioned melt water.

Claims (6)

1. A device for producing melt drinking water, comprising a housing in which there is a melt water tank with a lid and a bottom tapering downward, and a reserve tank, while a stand equipped with heating elements is fixed in the melt water tank and is designed to install an ice block for receiving melt water, and the capacity of melt water is made communicating through the central drain pipe of the bottom with a storage tank, and in the bottom of the tank of melt water above the central drain pipe there is a drain hole, connected th with backup capacity. 2. The device according to p. 1, characterized in that the capacity of the melt water is thermally insulated. 3. The device according to claim 1, characterized in that a cooling system in the form of a fan is fixed to the melt water tank to prevent spontaneous melting of the ice block. 4. The device according to p. 1, characterized in that the heating elements of the stand are made in the form of a PETN spiral. 5. The device according to claim 1, characterized in that the heating elements of the stand are made in the form of an inductor. 6. The device according to claim 1, characterized in that the lid of the melt water tank is mounted on a hinge with the possibility of rotation through an angle of up to 270 °.

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