JPS6363352A - Steaming treatment of food - Google Patents

Abstract

PURPOSE:To save troublesome work, by passing the steam through gaps among plural numbers of multi-elemental ore containing silicic acid as nucleus and ionizing the steam with an ionizing part material of magnetic body set up within the gaps at same time and then using the steam for steaming processing. CONSTITUTION:A number of ores 5 (plural numbers of multi-elemental ores containing silicic acid as nucleus) are built-up into a build-up chamber and plural numbers of magnetic discs 8 are mounted at equal intervals upward and downward plural numbers of screw rods 7. The magnetic discs are arranged so that same pole thereof opposes each other. Steam is allowed to rise via an inflow chamber 3 from a hole of a partition plate 2 into the build-up chamber, passed through gaps of ores and magnetic field of disks 8 and sent from a pipe 13 for sending out to a food processing apparatus.

Description

DETAILED DESCRIPTION OF THE INVENTION Object of the Invention (Industrial Field of Application) The present invention relates to a method for steam-treating foods using multi-element minerals containing silicic acid or the like.

(Prior Art) The effects of multi-element minerals containing silicic acid as a core, such as maifan stone, are widely known. In other words, when Maifan stone is placed in water, it quickly adsorbs bacteria such as E. coli and harmful substances such as cadmium and mercury contained in the water, and also absorbs minerals such as calcium, manganese, and iron into the water. It has the ability to elute and further adjust acidic water to weakly alkaline water.

In addition, the internal structure of Maifan stone has irregular changes in electrification density, and when water is poured into a container containing a small lump of Maihan stone, an interfacial electric charge due to the interfacial potential difference between the surface of the small lump and the water occurs. This phenomenon is induced, and the entire space inside the cylindrical container is filled with ions through the movement and diffusion of the ion points due to the rapid generation of potential difference, which causes the charge density that had previously been scattered on the solid surface to become ionized. On the other hand, the dipole efficiency of water is added, and the synergistic effect with this further increases the charge density, causing an electrostatic induction phenomenon in water.

As a device that takes advantage of these characteristics,
No. 700 discloses a mineral water generator. This generator has a large number of small blocks of maifan stone placed inside a container, and a magnetic plate is attached to the inner surface of a camp attached to the top of the container. After pouring water into the container, an electron avalanche is generated inside the container, and S atoms released from various elements in the ore are negatively ionized and dissolved in water.

Although there are methods to generate mineral water using ores such as maifan stone and magnets, it is also possible to impart similar properties to steam and use it to process foods such as tofu, Type 9, and Japanese sweets. The method generally used was to evaporate the mineral water produced, which was a very complicated process.

(Problems to be Solved by the Invention) As described above, the present invention attempts to solve the problem that the work is extremely complicated.

Structure of the Invention (Means for Solving the Problems) In order to solve the above-mentioned problems, the present invention supplies steam into a container, and generates a plurality of multi-element minerals having silicic acid cores disposed in the container. Steam is activated by passing through the gap between the containers, and the steam is ionized by an ionizing member made of a magnetic material placed in the gap. After the activation and ionization process, the steam is sent out of the container. This steam is used to steam food.

(Operation) By employing the above-described means, the present invention ionizes electrons emitted from various elements in the mineral and injects them into the vapor passing through the gap.

(Example) Hereinafter, one embodiment of the present invention will be described in detail with reference to the drawings.

A cylindrical container 1 is supported on the floor via an appropriate number of legs, and a partition plate 2 made of disk-shaped punched metal is provided at the lower end of the inner circumferential wall of the container 1 to divide the inside of the container 1 into upper and lower parts. An inflow chamber 3 at the lower end and an ore deposition chamber 4 that occupies most of the container 1 are formed above the inflow chamber 3. On the partition plate 2, a large number of ores 5 are placed in the deposition chamber. 4
The ore 5 is deposited over almost the entire area except for the upper part of the ore 5, and the steam rising from the inflow chamber 3 through the partition plate 2 passes through the gap 6 between the ores 5. It should be noted that medicinal stones containing silicic acid as the core, such as maifanite, are used as the ore 5. The partition plate 2 also includes a plurality of threaded rods 7 extending upward.
are erected and fixed at equal angles in the circumferential direction, and the screws 7
A plurality of magnetic disks 8 as ionizing members are mounted above and below at equal intervals. These magnetic disks 8 are arranged so that the same poles face each other, and the lines of magnetic force repel each other to form a wide magnetic field. Incidentally, the screw m7 and the magnet disk 8 are disposed in the gap 6 between the ore 50, so that the steam passing through the gap 6 is negatively ionized by the action of the magnetic field of the magnet disk 8.

An introduction hole 9 is transparently provided in the lower part of the deposition chamber 4 of the container 1, and a supply pipe 10 extending from a steam supply device (not shown) disposed outside the container 1 projects into the introduction hole 9. This supply pipe 10 is bent into an elbow shape in the deposition chamber 4 and is directed downward, and extends into the inflow chamber 3 through a passage hole 11 formed through the partition plate 2 . Further, an outlet hole 12 is transparently provided in the upper part of the deposition chamber 4 of the container 1, and a delivery pipe 13 extending in an elbow shape from above extends outside the container 1 through the outlet hole 12 and reaches a food processing device (not shown). There is. The upper end opening 14 of the delivery pipe 13 is positioned slightly above the deposited ore 5 within the container 1, and a wire mesh 15 is placed within the opening 14 to prevent foreign matter from entering.

Note that, as shown by the imaginary line, the container 1 is covered with a heat insulating member 16 and kept at a constant temperature, so that the temperature of the steam passing through the container 1 does not drop as the container 1 cools down.

Now, the operation of the steam processing apparatus configured as described above will be explained in detail below.

The steam supplied from the steam supply device into the container 1 flows into the inflow chamber 3.
After this is filled, it rises into the deposition chamber 4 through the hole in the partition plate 2. In the deposition chamber 4, the steam passes through the gap 6 of the ore 5 and rises, and an interfacial electric phenomenon caused by the interfacial potential difference between the steam and the ore 5 is induced, and the electric charge that had been scattered on the surface of the ore 5 until then is removed. While the vapor is filled with ions through the movement and diffusion of ion points due to the rapid generation of potential difference, the dipole efficiency of the vapor is added, and the synergistic effect of this increases the charge density further, causing electrostatic induction phenomena in the vapor. occurs. At the same time, since the steam passes through the magnetic field of the magnet disk 8, an electromagnetic induction phenomenon occurs in the steam, and the above-mentioned phenomena are combined to produce an electron avalanche phenomenon. At this time, electrons emitted by various elements of the ore 5 are ionized and dissolved into steam. Therefore, the halogenated substances contained in the steam are actively adsorbed on the porous ore surface.

After this, when the steam reaches a height higher than the opening 14 of the delivery pipe 13, it flows into the delivery pipe 13 through the wire mesh 15 of the opening 14 and is discharged! The food is sent to the food processing equipment outside 31, where the food is steamed.

Note that since the opening 14 of the delivery pipe 13 is covered with a wire mesh 15, small lumps of ore 5 will not enter the delivery pipe 13.

Furthermore, since the magnetic disks 8 are mounted on the threaded rod 7 so that the same poles face each other, the magnetic field of the magnetic disks 8 becomes wide, and the area where the steam is magnetized is extremely wide. There is.

Furthermore, since food processing is performed using activated and ionized steam, the molecular bonds of food raw materials are stabilized, and the yield of finished foods is improved.

Therefore, the freshness of the food is maintained for a long period of time.

Note that this invention is not limited to the embodiments described above (for example, the partition plate 2 is formed of strong wire mesh instead of punched metal), and any changes may be made without charge as long as they do not depart from the spirit of the invention. It is possible.

Effects of the Invention As detailed above, the present invention supplies steam into a container and activates it by passing the steam through the gaps between a plurality of multi-element minerals having silicic acid as a core arranged in the container. At the same time, the same steam is ionized by an ionizing member made of a magnetic material disposed within the gap, and after the activation and ionization process, the steam is sent outside the container, and the food is steamed with this steam. , which has the excellent effect of omitting complicated work.

BRIEF DESCRIPTION OF THE DRAWINGS The figure is a sectional view embodying the present invention. Container 1, mineral 5, gap 6, magnetic disk 8 constituting the ionizing member Patent applicant: Princess Shoji Co., Ltd. Yajima Price

Claims (1)

[Claims] 1. Steam is supplied into the container (1) to fill the gaps (6) between a plurality of multi-element minerals (5) with silicic acid cores arranged in the container (1). The steam is passed through and activated, and the same steam is ionized by an ionization member (8) made of a magnetic material disposed within the gap (6). After the activation process and the ionization process, the steam is transferred to a container ( 1) A food steam processing method characterized by sending the food outside and steaming the food using the steam. 2. The food steam processing method according to claim 1, wherein the ionizing member is a plurality of magnetic disks (8) with the same polarity facing each other on a threaded rod (7). 3. The method for steam processing food according to claim 1, wherein the mineral (5) is a medicinal stone such as maifan stone.