JP5185462B1 - A device for promoting natural circulation of fluid using swirling flow. - Google Patents

Abstract

An apparatus for promoting natural circulation of a fluid using a swirling flow capable of mixing and stirring the entire amount efficiently and completely.
As an apparatus for promoting natural circulation of fluid, a primary suction port 3 having a plurality of cuts in an enlarged gap portion of a substantially J-shaped mixing tube 2 having a diameter larger than that of a discharge port of an introduction tube 1. In addition, the introduction pipe 1 is joined. Further, the mixed discharge pipe 5 is joined to the secondary suction port 6 having a plurality of notches provided in the enlarged gap portion of the substantially J-shaped mixed discharge pipe 5 having a diameter larger than the diameter of the discharge port of the mixing pipe 2. To do.
[Selection] Figure 1

Description

  The present invention is a fluid natural circulation promoting device using a swirl flow that greatly increases the circulation amount and increases the flow velocity energy without changing the design and specifications of the pump and fan used when mixing and stirring the fluid. It is about.

  The concept of conventional hot water supply equipment and air conditioning equipment is based on a temperature difference in which a high-temperature fluid rises and a low-temperature fluid falls. In order to eliminate the temperature difference, the fluid is forcibly injected and circulated by using a pump or a fan, and the mixing is promoted by utilizing the convection action so that different components and temperature differences of the fluid are made uniform. However, in the hot water supply equipment, only the amount of the injected circulation is convected, so that the mixing and stirring efficiency is poor, which leads to an increase in the size of the hot water storage tank. As a hot water storage tank and a natural circulation promotion device incorporating a stirring device, which have been made in order to improve the current situation, the inventions of Patent Documents 1 and 2 by the applicant of the present application are known.

In the embodiment of Patent Document 1, in the case of a hot spring facility in a certain district city, the conventional hot water supply equipment design is 600 persons / day, and two 5-ton hot water storage tanks are necessary. Since it was finished, a stirring device was incorporated in it.
On the first New Year, 3000 people, five times the design, entered, but there was no shortage of hot water supply, and in a normal setting, the calculation was sufficient in one 5-ton hot water storage tank.

 In this hot water storage tank of 3 meters in height, it was confirmed that the difference in temperature between the upper and lower sides always remained at about 1.5 degrees even when a large amount of hot water was used simultaneously. Since the temperature difference between the upper and lower sides of the conventional design type hot water storage tank is around 50 degrees, it can be seen that the tank is almost completely stirred.

As described above, the hot water supply equipment of the conventional construction method had many drawbacks and problems, but since the complete mixing and stirring could not be performed, the temperature difference of the three-layer separation phenomenon was intentionally used.
Also from the above example, if the complete mixing and stirring is performed, the amount of stored hot water is less than half, and conversely, the conventional hot water storage tank capacity can use more than twice as much hot water.

 Patent Document 2 is a natural circulation promoting device that can be retrofitted to cope with the shapes of various existing tanks and open tanks. Although these have achieved satisfactory results at present, they are also related to energy consumption and environmental problems, so it is necessary to further improve the mixing and stirring efficiency.

Japanese Patent No. 3470221 Japanese Patent No. 4217830

In order to promote the homogenization of the different components and temperature of the fluid, in addition to the mixing action by convection, the circulation rate of the fluid is increased, the surrounding fluid is sucked and mixed, and the whole is further fluidized and stirred. There is a need to. Patent Document 1 and Patent Document 2 do not require a new pump or power for stirring, and use the ejector action by simply press-fitting into a pipe in the tank with the existing two circulation pumps of the conventional construction method. The mixture is stirred.
However, Patent Document 2 has a problem that the ejector action by the fluid press-fitted from the introduction pipe 1 has low suction efficiency because the gaps between the high temperature water suction port 3 and the low temperature water suction port 5 are horizontal and narrow. Furthermore, the flow rate increases each time the diameter of the mixing pipe 2 and the mixing discharge pipe 4 is increased, but there is a contradictory contradiction that the flow velocity is slowed.
Further, the work for inserting the discharge ports of the introduction pipe 1 and the mixing pipe 2 into the mixing pipe 2 and the mixing discharge pipe 4 and fixing them vertically with a plurality of mounting plates is complicated, and the plurality of mounting plates It was a factor that hindered fluid suction.
In addition, since foreign substances, impurities, harmful substances and the like are also mixed in the fluid, an effective method for removing them is also required.
The present invention is intended to eliminate these causes and further improve the mixing and stirring efficiency.

In order to achieve the above object, the fluid natural circulation promoting device using the swirling flow in the present invention has the following configuration.
The first aspect includes a primary suction port 3 having a larger diameter than the discharge port of the introduction pipe 1 and a plurality of cuts in the enlarged gap portion of the substantially J-shaped mixing pipe 2, and the introduction pipe 1. the helical plate is interposed bonded together. Further, the secondary suction port 6 having a larger diameter than the discharge port of the mixing tube 2 and having a plurality of cuts in the enlarged void portion of the substantially J-shaped mixing discharge tube 5 and the mixing discharge tube 5 are spirally formed. It is joined with a plate interposed .
According to a second aspect of the present invention, the introduction pipe 1 described in claim 1 has a double branch pipe structure, the mixing pipe 2 is joined to the introduction pipe 1 via a spiral plate, and the mixing discharge pipe 5 is joined to the mixing pipe 2. the ones joined by Zaisa through the helical plate is obtained by joining to each branch of the.
The third aspect of the present invention is the essence of the present invention described in the first and second aspects, and takes advantage of the feature that a quantity several times the original fluid that is press-fitted flows. A dust collection filter and a filtration membrane are provided.

Since this invention is comprised as mentioned above, there exists an effect described below.
1. Without changing the design and specifications of the pump and fan, the circulation rate of the injected fluid is increased by the ejector action, creating a swirling flow and increasing the fluid velocity energy.
2. The high-temperature fluid from the primary suction port and the low-temperature fluid from the secondary suction port are sucked and mixed with the supply fluid from the inlet pipe, and the entire fluid flows greatly with the discharge energy enhanced by the swirling flow. Since the agitation is performed, the uniformization of the fluid is promoted.
3. Utilizing the laws of nature and simply connecting pipes, there are few failures, and the fluid has almost 100% mixing and stirring effect, and the cost is low.
4). Concerning hot water supply, shrinking tanks and expansion tanks and expensive equipment such as three-way valve devices
There is no need for other types of materials, and it is possible to expect energy-saving effects such as reducing heat dissipation loss by making the temperature uniform.
5. Ideal for occupations that require large amounts of hot water, such as temperature adjustment of fluids, stirring of food-related boil tanks and fermented foods, and cleaning of IT equipment and industrial products.
6). The present invention has strong component elements and can be used for various purposes in industry, agriculture and fisheries, such as supply of additives, mixing and agitation, air conditioning, oxygen supply to deficient lakes and aquaculture ponds.
7). Since the circulation rate of the fluid is doubled, it can be used as a device for removing harmful substances and contaminants in the fluid by combining a dust suction device and a filtration device.
8). It is also possible to efficiently mix and agitate the pollutants in the water after washing the soil containing radioactive substances and adsorbing substances such as zeolite and black silica.
9. Since the present invention places emphasis on the theory and structure, it is possible to change the material and shape used according to the application and to add additional functions.

It is an assembly perspective view of a single tube type. FIG. 2 is an assembled perspective view of the single pipe type of claim 1 . It is sectional drawing of the single pipe | tube type | formula of Claim 1 . It is the perspective view made into the double branch pipe structure.

  The best mode for carrying out the invention of the present invention will be described with reference to the drawings.

FIG. 1 is an assembly perspective view of a short tube type of a basic structure made to eliminate the drawbacks of Patent Document 2. FIG.
In FIG. 1, the diameter of the front end of the substantially J-shaped mixing pipe 2 having a diameter larger than the diameter of the discharge port of the introduction pipe 1 is expanded in a substantially funnel shape so that it can be sucked efficiently, and a plurality of notches are further formed vertically. A primary suction port 3 is formed by providing the inserted void and joined to the introduction tube 1. Further, the front end of the substantially J-shaped mixing discharge pipe 4 having a diameter larger than the diameter of the discharge opening of the mixing pipe 2 is also enlarged, and a gap similar to the mixing pipe 2 is provided to provide the secondary suction port 3. And the mixing discharge pipe 5 is joined and assembled as a fluid mixing and stirring device.

  Patent Document 2 is a natural circulation promoting device that performs almost complete mixing and stirring by simply connecting pipes having different diameters. However, there is a problem as described above. In order to further increase the stirring efficiency, it is essential to increase the circulation rate of the fluid. To achieve this, it is necessary to increase the flow rate.

The present invention incorporates the water flow energy obtained by replacing the energy of the helical rotational motion found in space generation and tornado with a focused spiral spiral of water. The shape of the two gaps is enlarged in a substantially funnel shape, and a plurality of cuts are vertically formed to make a drop in the fluid suction position, thereby facilitating the formation of a spiral rotational motion during suction. Incidentally, when taking out the contents of a plastic bottle, it is a well-known fact that if a plastic bottle is rotated, the swirl flows out more vigorously than simply turning the outlet downward.

 In addition, in the spiral theory phenomenon of spiral rotating motion, it is well known by equipment specialists that the heating efficiency increases due to the influence of the earth's magnetic field when the main pipe of the indoor hot water heating pipe is laid clockwise.

 In the embodiment of the present invention, it was installed for heating a large circular open-air bath. At first, when gentle convection occurs and a swirl flow is formed gradually horizontally, It was confirmed that the mixture was stirred with great convection around.

  In this way, vertical convection and horizontal vortices mix completely to promote overall temperature rise, but hot water with a uniform temperature has less vertical convection and less heat radiation from the bathtub surface. The hot water becomes difficult to cool. This results in a fuel reduction effect.

Next, the operation state of the fluid of Example 1 is demonstrated with reference to drawings.
The fluid press-fitted from the introduction pipe 1 by a pump or a fan is discharged from the introduction pipe discharge port into the mixing pipe 2, and a negative pressure due to flow velocity energy is generated in the mixing pipe 2. Due to the ejector action at that time, the fluid in the surrounding high temperature region is gradually swirled along the spiral plate and sucked from the substantially funnel-shaped gap of the primary suction port 3 and a plurality of cut shapes. .

A swirling flow is formed in the mixing pipe 2 to increase the flow velocity, and the mixing pipe 2 is discharged vigorously into the mixing discharge pipe 5. Subsequent movement of the fluid has the same effect as described in the previous stage. At this time, the fluid in the low temperature region is sucked in a spiral shape from the secondary suction port 6 through the spiral plate , and mixed discharge is performed. A swirling flow is formed in the outlet pipe 5.

 The fluid that has been press-fitted from the introduction pipe 1, the fluid in the high temperature region from the primary suction port 3, and the fluid in the low temperature region from the secondary suction port 6 are mixed and stirred as a swirling flow, and the original fluid that has been press-fitted A circulation amount several times the fluid becomes a swirling flow and is discharged downward from the mixed discharge pipe 5.

The fluid discharged downward promotes the straightness of the discharge pressure and the spread of the swirling flow in the horizontal direction due to the centrifugal force, and causes the entire fluid to flow and stir more greatly by the swirl effect together with the vertical convection due to the specific gravity of the temperature difference. As a result, the fluid can be made more uniform.

In the present invention, the problem of Patent Document 2 is to increase the suction area by expanding the gap into a substantially funnel shape, to reduce the resistance at the time of suction, and to change the height of the suction position by a plurality of vertical cuts in the gap. In addition, the suction effect is enhanced by making it easier to form a swirl flow by interposing a spiral plate .

The theory of the present invention is also applicable to horizontal structures and can be applied to all fluids such as liquids and gases. Accordingly, pipes, square ducts, wind tunnels, formwork bodies, and the like are appropriately applied to the shape and structure of the natural circulation promoting device according to the purpose of use.

 The present invention circulates with the amount of fluid supplied by press-fitting several times. Therefore, the present invention can be used as a device for removing harmful substances and contaminants in a fluid by combining a dust suction device and a filtration device.

 In addition, when mixing and adsorbing adsorbents such as zeolite and black silica in the contaminated water after washing soil and objects contaminated with radioactive materials, mixing and stirring is efficiently performed by the swirling flow formed in the piping. Is done.

 As described above, the present invention has a single component rather than a completed product, and may be used in various fields. Depending on the application, it is possible to add improvements such as appropriately providing branch pipes or the like to the mixing tube body as necessary.

 In the embodiment of FIG. 2, in order to further enhance the swirling flow effect, the spiral plate 4 is joined to the gap between the discharge port of the introduction tube 1 and the mixing tube 2, and the discharge port of the mixing tube 2 is further joined. In the same manner, the spiral discharge plate 4 is interposed in the gap of the mixed discharge pipe 5.

 It is the perspective view which made the discharge port of the inlet tube 1 the double branch pipe structure, and respond | corresponds to a large sized installation. Each discharge port of the introduction pipe 1 having a plurality of branch pipe structures and the mixing pipes 2 and 2 each having the primary suction port 3 are joined to each other. Further, the discharge ports of the mixing tubes 2 and 2 and the mixed discharge tubes 5 and 5 having the secondary suction port 6 are joined.

In this embodiment, in addition to exhibiting the same effects and functions as the embodiment of FIGS. 1 and 2,
The direction of the discharge port of the mixed discharge pipes 5 and 5 can be arbitrarily selected and set in a direction where the efficiency of mixing and stirring is increased over a wider range.

 In the present invention, taking advantage of the feature of fluid flowing several times the original circulation amount that has been press-fitted, a mesh-shaped dust collection filter or a filtration membrane is provided at the discharge port of the mixed discharge pipe 5, It should be detachable.

The present invention is extremely simple by simply installing a mixing tube 2 in the introduction tube 1 and a mixing discharge tube 5 in the mixing tube 2 in a tank or a structure.
An energy-saving type that promotes fluid circulation and mixes and agitates the pump and fan without changing the design and specifications. All fluids and air conditioning, oxygen supply to oxygen-deficient lakes and aquaculture ponds, and fluids It can be used for various purposes such as removal equipment for harmful and pollutants.
Since fuel and power can be reduced, I think that it can play its role in stopping the global warming phenomenon. Encouraging and spreading such inventions meets the needs of the times and is an invention that contributes to industries around the world.

DESCRIPTION OF SYMBOLS 1 Introduction pipe 2 Mixing pipe 3 Primary suction port 4 Spiral plate 5 Mixing discharge pipe 6 Secondary suction port

Claims (3)

          An introduction pipe to be inserted, and a mixing pipe having a larger diameter than the discharge port of the introduction pipe, the side into which the introduction pipe is inserted and having a plurality of cuts are interposed in the gap portion with a spiral plate A primary suction portion to be connected, and a mixed discharge pipe having a diameter larger than the diameter of the discharge port into which the discharge port of the mixing tube is inserted and having a plurality of cuts by expanding the side on which the discharge port is inserted A natural circulation promoting device that forms a secondary suction part by providing a spiral plate in the gap between the mixing pipe and the mixing pipe to form a secondary suction part, thereby generating a swirling flow in the intake air flow.     The swirl flow according to claim 1, wherein the introduction pipe is formed into a double branch pipe structure, the mixing pipe is joined to the introduction pipe, and the mixing discharge pipe is joined to the mixing pipe. A device for promoting natural circulation of fluids used.     The device for promoting natural circulation of fluid using swirl flow according to claim 1 or 2, wherein a mesh-shaped dust collection filter or a filtration membrane is provided at a discharge port of the mixed discharge pipe.

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