RU2421404C2 - Vessel for preparation of melt water - Google Patents

Abstract

FIELD: transport, distribution of fluids.

SUBSTANCE: invention relates to medicine and may be used for preparation of melt water. Proposed vessel comprises container 1 with a wall 2, bottom 3 and outlet 4 with neck 5 whereon cap 6 with central hole is screwed. Said container 1 accommodates barrel 9 with wall 11, bottom 10 and hole 12 made in said wall all over its length, as well as tube 14 with holes 15 aligned with said holes 12 in turn inside said barrel. Said tube seats also in central through hole 8 of cover 7 to extend therefrom. Outlet of tube 14 is stopped by plug 17.

EFFECT: ease of use and fabrication.

1 dwg

Description

A vessel for the preparation of melt water is an object - the device belongs to the field of medicine and healthcare and can be used both in balneology and at home for the preparation of melt water from ice.

It is generally accepted 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. There is another way to purify water at home - it is freezing, which is much more effective in terms of cleaning quality than boiling. Normal tap water (but even better well and spring 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. A device for producing melt water is reduced mainly to freezing water in an enameled or plastic bowl. Melt water can not be stored for future use, after receiving it, you must immediately drink it. How and in what to receive it and in what doses to use melt water is described in the journal "Planet of Health" No. 62 of December 28, 2005, the newspaper "Red North" No. 20 of February 16, 2006

The disadvantages of the devices for producing melt water described in the sources are inconvenient constructions (pots or a plastic bottle from under drinking water), it is necessary 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.

When processing water, the solution “Device for water purification by freezing” is known according to the utility model of the Russian Federation No. 61704 of 08/11/2006, C02F 1/22, containing a vessel with an upper and lower bottom, an axial tube heater and a power supply, while the working surface of the heater made in the form of a perforated cylindrical shell with a blank bottom and a heat insulator kinematically connected with the upper bottom, and heat 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 detail, 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 neck of the bottle 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 closest technical solution is the design of the vessel indicated in the textbook B.D. Stepina "Technique of a laboratory experiment." - M .: Chemistry, 1999, p.64 Fig. 19 (d), containing a glass container having a wall, a bottom, an outlet, and soldered fitting pipes for filling and draining the liquid, located at the bottom and top of the tank wall. Inside the container at the bottom there is a bulb with an opening at its bottom and a filter installed at that bottom. The capacity allows after the reaction to separate the liquid phase from the solid. A shut-off valve is installed on the bottom tube of the tank.

The disadvantages of this device are: glass flasks and containers cannot be used to freeze water, they can crack, such a design is inconvenient to put in a household freezer in a domestic refrigerator, it is complicated and expensive to manufacture and operate. The design of the vessel in operation is inefficient, because water, having got inside the flask, will freeze and will not let melt water through; it takes a lot of time to melt the ice inside the flask.

The technical result of the proposed solution is: improving the usability of the vessel during the preparation of melt water, increasing the manufacturability and economy of manufacturing the vessel and the possibility of obtaining protium, which determines the value of melt water.

This result is achieved by the fact that in a vessel for the preparation of melt water containing a container surrounded by a wall, a bottom and having an outlet, and a flask installed at the bottom inside the vessel with a gap between their walls, the outlet of the vessel is made with a neck, on the outer surface of which a thread with a cap screwed on it, inserted into the vessel structure, with a central through hole made in its wall, and the bulb is made in the form of a cylindrical hollow glass containing a bottom, an outlet, and walls with holes made along the length of the wall and a tube installed in the central hole of the lid and tightly adjacent to the inner surface of the glass, with holes made on its side surface, correspondingly coinciding with the holes of the wall of the glass when moving and turning in it, and the output the end of the tube protrudes outside the vessel above the lid and a tube is placed in the outlet of the tube, while the inner end surface of the lid is in contact with the end of the outlet of the glass, the central Its growth and the lateral surface of the tube are coaxial with each other, and it is possible to place ice after freezing of water previously poured into this gap between the walls of the vessel and glass container in the gap.

The invention is expressed in the aggregate of essential features sufficient to achieve the technical result provided by the invention.

The essential features that match the features of the prototype are: A - the presence of a container surrounded by a wall, bottom and having an outlet; B - a flask installed at the bottom inside the tank with a gap between their walls.

The salient features of the solution are: B - the outlet of the vessel is made with a neck, on the outer surface of which there is a thread with a screw screwed on it, inserted into the vessel structure, with a central through hole made in its wall; G - the flask is made in the form of a cylindrical hollow glass containing a bottom, an outlet, and a wall with holes made along the length of the wall, and a tube installed in the central hole of the lid and tightly adjacent to the inner surface of the glass, with holes made on its side surface, correspondingly coinciding with the openings of the glass wall during its movement and rotation in it, the outlet end of the tube protruding outside the vessel above the lid and a tube is placed in the outlet of the tube; D - the inner end surface of the lid is in contact with the end of the outlet of the glass, its central hole and the side surface of the tube are coaxial with each other; E - between the walls of the vessel’s capacity and the glass in the gap, it is possible to place ice after freezing of water previously poured into this gap.

The vessel contains a container 1, surrounded by a wall 2, bottom 3, having an outlet 4 made in the form of a neck 5, on the outer surface of which a thread 6 is made with a cap 7 screwed onto it with a central through hole 8. Inside the container 1, on its bottom 3 is installed a flask made in the form of a cylindrical hollow glass 9 containing a bottom 10, a wall 11 and holes 12 in the wall along its length. The glass 9 of the flask is installed inside the vessel 1 of the vessel with a gap 13. Inside the hollow cylindrical glass 9, a cylindrical tube 14 is placed coaxially with it, tightly adjacent to its inner wall (inner side surface of the glass). On the side surface of the tube 14, holes 15 are made along its length at equal distances between the holes of the tube and the cup, so that when the tube 14 is rotated in the cup 9, the holes could coincide. The tube 14 at one end abuts the bottom 10 of the glass 9, and the other end 16 is placed in the Central hole 8 of the cover 7 and protrudes from the outside of the vessel above the cover 7. The inner outlet of the tube is closed by a plug 17. The length of the glass 9 is equal to the depth of the container so that the inner end surface of the cover 7 could be in contact with the end face of the outlet of the glass 9. The central hole 8 of the lid 7, its threaded surface screwed onto the neck of the outlet of the container, and the side surface of the tube are coaxial with each other.

Preparation of melt water using a vessel is as follows. Unscrewing the lid 7 from the neck 5 of the vessel, take out the glass 9 with the tube 14, rotate the latter in the glass 9 so that the holes 12 in the glass 9 are closed by the side surface of the tube 14. Into the container 1 of the vessel into the gap 13 between its inner wall surface and the outer surface 9 glasses pour water. Insert a glass with a tube into a container of water. Put on the tube 14 the cover 7 with its central hole 8 and screw it on the thread 6 of the neck 5 of the outlet 4 of the container 1, clamping the glass 9 in the container 1. Place the vessel in the freezer of the refrigerator. After some time, ice forms in the gap 13 of the vessel 18. At the bottom of the vessel 1, a little water remains at the bottom. They take the vessel out of the refrigerator, remove the tube 17 from the tube 14, take the tube 14 by its outer surface, lift it and turn the tube 14 in the glass 9 until their holes 12 and 15 on their side surfaces coincide. Lower the tube 14 in the glass 9 until it stops to its bottom. It is necessary to lift (move) the tube in the glass so that one tube rotates without the glass. Dirty water is drained from a glass through a tube. The ice in the tank drops. Partially melt the ice at room temperature. Melt water forms at the bottom of the vessel 19. Melt water enters the inner hole of the tube through the combined holes 12 and 15 of the side surfaces of the glass and tube. Bending the vessel, melt water is drained from the tube into a glass for drinking. After receiving melt water from the poured and frozen water, the remaining ice is completely melted in the tank. Unscrew the lid 7, remove the glass with the tube from the vessel and drain the water from the remaining ice through the outlet 4 of the vessel.

Water, as you know, consists of an oxygen molecule and two hydrogen molecules. These molecules have a number of isotopes: two isotopes of hydrogen (protium and deuterium) and an oxygen isotope (tritium). Thanks to deuterium, water becomes heavy, and protium becomes light. Melt water has a greater amount of protium, which means it is lighter. Deuterium is destroyed by freezing water. Meltwater, in which there is less deuterium, is biologically active. It contains trace elements: copper, potassium, manganese, zinc, molybdenum. Meltwater is a strong biostimulant that affects plant watering. Harvest plants will be better than when irrigated with plain water. Meltwater contributes to the rapid elimination of toxins, positively affects the activity of the heart, blood vessels of the brain and spinal cord, improves blood composition and muscle function.

The use of the invention "vessel for the preparation of melt water" in comparison with the prototype allows you to get the design of the vessel, convenient to use, technological and economical to manufacture. Plastic vessels can be used ready-made, mass-produced for placement of drinking, mineral, lemonade, etc. water. A device for the preparation of melt water can be used as household appliances, using an ordinary household refrigerator at any time of the year. Drink melt water immediately, without procuring for the future. You can use raw water from the tap, you can filtered, spring, mineral water. All dirt from water accumulates in the center of the ice above in the gap of the glass. And after receiving melt water, which initially melts, from the half of the volume of water poured at the beginning, the remaining water from the melted ice is drained. Consequently, the process of making melt water is as follows: pour water into the vessel’s tank, freeze it in the refrigerator and after receiving ice in the tank’s gap, partially melt the ice to produce melt water. The proposed vessel can be placed in the refrigerator in various positions: vertical, horizontal, inclined. The materials of the details of the vessel can be made of plastic, the glass with the tube can be made of metal (stainless steel used in the food industry). Ready-made standard tubes can be used. The manufacture of such a vessel is available both in workshops and at home without large economic costs, because the container, tube, lid, cork can be used ready-made. In our industrial age, people have come to the point that almost no food product can do without artificial dyes, sweeteners, flavors, or even genodified. Therefore, the number of people suffering from diseases of the gastrointestinal tract is constantly increasing. Water essentially remained the only natural element on the basis of which it is possible to build a system of healing people through food. Drinking water, which deteriorates after passing through water pipes, bleach, is undesirable. Meltwater has an even, clear structure similar to that of human cells, and is therefore perceived by the body as a related product. Once in the body, meltwater displaces and replaces old cells that have exhausted their potential, and thus dramatically speeds up the metabolism, contributing to a fairly quick purification and rejuvenation of the body. The design of the proposed device refillable vessels, does not require large expenditures and therefore can be widely used in everyday life, in medicine and healthcare.

Claims (1)

A vessel for the preparation of melt water, containing a container surrounded by a wall, a bottom and having an outlet, and a flask installed at the bottom inside the vessel with a gap between their walls, characterized in that the outlet of the vessel is made with a neck, on the outer surface of which there is a thread with screwed on it is a lid inserted into the vessel structure with a central through hole made in its wall, and the flask is made in the form of a cylindrical hollow glass containing a bottom, an outlet, and a wall with holes, made along the length of the wall, and the tube installed in the Central hole of the lid and tightly adjacent to the inner surface of the glass, with holes made on its side surface, respectively coinciding with the holes of the wall of the glass during its movement and rotation in it, and the output end of the tube protrudes from the outside a vessel is placed above the lid and in the outlet of the tube, while the inner end surface of the lid is in contact with the end of the outlet of the glass, its central opening and side I the surface of the tube is coaxial with each other, and between the walls of the vessel’s capacity and the glass in the gap, it is possible to place ice after freezing the water previously poured into this gap.