KR101646765B1 - Circulation rotary heating equipment - Google Patents

Abstract

The present invention provides a circulation type rotary heating apparatus (1) capable of improving thermal efficiency by rotating a heat medium recovered after circulation by a rotational force transmitting means inside while rotating the heating medium. Is provided with an inlet pipe 3 horizontally positioned so that a return pipe 21 is connected to one side of the inner lower portion of a water storage tank 2 provided with a heater 23 so that a heating medium is introduced into the inlet pipe 3, A pair of injection openings 4 are formed so as to be opposed to each other and formed in the shape of a letter "A" so that the injection holes 41 are formed at the ends thereof and are directed in the opposite direction, (5) composed of a hub (52) and a turbine (53) installed to be rotatably installed on the heat medium recovered after circulation after being circulated in the storage tank (41) and rotatably installed on the center shaft (51) ) Is included, According to the invention, the heating medium is rotated by the injection port (4) of the inflow pipe (3) and the rotation force transmitting means (5) to generate vortex to improve the mechanical energy of the heating medium itself. The heating medium is heated evenly while the heating medium is heated more rapidly, so that the thermal efficiency and the heating efficiency of the heating device 1 can be maximized.

Description

[0001] Circulation rotary heating equipment [0002]

The present invention relates to a circulating rotary heating apparatus. More particularly, the present invention relates to a circulating rotary heating apparatus which includes a rotating body rotated by an oil input while rotating a heating medium recovered through a pipe, So that the heat efficiency can be improved by mixing the heating medium.

Generally, a heating device has been developed in which various heating mediums such as water are circulated through a pipe to a heat exchange place such as a room or a living room and then recovered, heated by a heater, and then discharged to a heat exchange place. It is widely applied to various boilers and water heaters.

In the case of such a conventional heating apparatus, when the heating medium is recovered into the tank of the heating apparatus by the circulation pump, the heated medium is immediately recovered through the recovery pipe and then immediately transferred to the discharge pipe. Thus, the heating time by the heater is short, The heating efficiency of the heat exchanger is extremely lowered because the heat is discharged at a low temperature and the heat is exchanged at the heat exchange place. The heating medium stored in the tank of the heating device is reduced by the convection phenomenon depending on the temperature, The temperature of the heating medium located at the upper part having a relatively high temperature is lowered by the low temperature heating medium located at the lower part of the inside of the tank, , And the heater If the heating medium does not stay in the tank for a long period of time and is discharged immediately after the recovery, the temperature of the heating medium passing through the heat exchange pipe in the heat exchange place is not uniform because the heating medium is not sufficiently heated by the heater installed in the tank, And that the heating could not be performed smoothly.

In order to solve the above problems, as disclosed in Korean Patent Publication No. 6610 (published on Jan. 21, 2010), the hot water flowing into the inlet pipe is rotated to vortex in the combustion chamber of the vortex means, And then heated by a heater and then discharged to a discharge pipe. In such a conventional hot water heating apparatus, a vortex means for vapourizing hot water flowing into the inlet pipe is simply a curved tube The hot water flowing into the heat exchanger can not be vortexed more than the inflow pressure, so that the vortex is almost extinguished after the hot water is supplied to the heater side, There was a limit to increase the temperature, Since a structure such that it had generated a limit in increasing the thermal efficiency of the entire heating device.

KR 10-2010-0006610 A Jan. 21, 2010.

The present invention contemplates a new technology for solving all the problems of the prior art as described above. The present invention is based on the idea that the vortex phenomenon of the heating medium stored in the entire tank of the heating device from the inlet of the return pipe is continuously And an inlet pipe connected to a return pipe is provided at the lower part of the tank. The inlet pipe is horizontally placed on the lower part of the tank and the opposite ends of the inlet pipe are opposite to each other A pair of injection nozzles in the form of "a" shape is formed and a spray hole having a diameter smaller than the diameter of the injection hole is formed at the end of the injection hole, the heat medium is swirled into the tank by the pump pressure provided in the return pipe, Rotating force that is rotated by the pressure that the heat medium is injected in the injection hole installed freely rotating The swirling heat medium is rotated so as to be brought into contact with the heater fixed to the inside of the tank more frequently and stagnated until it is discharged to the discharge pipe so that the heat medium can be heated more quickly, It is possible to uniformly distribute the heat medium inside the tank to a predetermined temperature without changing the temperature according to the positions of the lower and upper parts and to increase the thermal energy by rotating the heating medium continuously inside the tank, So that the heating efficiency can be increased by allowing the heat exchange to be performed after the heat is exchanged at a predetermined temperature in the heat exchange place.

According to another aspect of the present invention, there is provided a circulating rotary heating apparatus, wherein the heating apparatus of the present invention includes a recovery pipe connected to the lower side and a discharge pipe connected to the upper side of the heating pipe, Wherein a water tank extending from the upper portion of the water storage tank to the inside of the water storage tank is provided and a return pipe is connected to the inner lower portion of the water storage tank to horizontally surround the water storage tank so that the heating medium is inserted therein, The tube has a pair of injection openings formed in the shape of "a " on both sides of the inflow pipe so as to communicate with the inflow pipe so that the heat medium injected through the return pipe is injected into the reservoir tank. Wherein a jet hole having a diameter smaller than the diameter of the jetting port is formed at the end of each jetting port, And the injection hole of the ball end is directed in the opposite direction so that the thermal medium is injected into the water storage tank at a pressure and a flow rate higher than the pump pressure and the flow velocity provided in the return pipe so that a vortex is generated. The rotary shaft is rotated by the pressure of the injection of the heat medium in the injection hole of the injection hole formed in such a manner that the injection holes protrude in opposite directions from both sides of the injection hole, so that the whole heating medium in the water tank is vortexed.

At this time, a pair of the "a" -shaped injection holes projecting upward so that the injection holes of the end portions face the opposite sides of the inflow pipe are provided so as to protrude upwards from both sides of the inflow pipe upwardly, And may be vertically protruded vertically to an end portion of the coupling pipe protruding horizontally from the side.

The rotating force transmitting means includes a center shaft fixed upwardly protruding from an upper center of the inflow pipe, a hub provided on the center shaft so as to be freely rotated by being coupled with a bearing or a bushing, And a turbine configured to be rotatable by a heating medium which is fixedly installed radially and which is injected at a high pressure in the injection hole of the injection port end of the inflow pipe.

According to a specific means for solving the above-mentioned problems, in the circulating rotary heating apparatus of the present invention, the heating medium, which is circulated by the pump through the recovery pipe and recovered, is recovered from the end of the inflow pipe, So that the vortex is generated at the injection hole in the injection hole of the injection hole provided so as to protrude so as to face the opposite direction so that the injection hole of the injection hole is opposed to the injection hole of the injection hole. And a circulation pump for circulating the heat medium through the return pipe when the heat medium is injected from the injection hole of the injection port end protruding upwardly to the inflow pipe, By the pumping pressure of the reservoir tank The vortex is started and the rotational force by the spraying force is transmitted to the whole of the heating medium stored in the water storage tank by the rotational force transmitting means located between the pair of jetting openings directed in the opposite direction from the upper portion of the inlet pipe inside the water storage tank, The following effects can be obtained.

First, the mechanical energy of the heating medium itself can be improved by the rotation of the heating medium by the injection port of the inflow pipe in the reservoir tank and the rotation force transmitting means. Second, the heating medium stored in the storage tank rapidly rotates, The heating medium can be heated more quickly by contacting the heating medium more frequently and for a long time, and the heating medium can be heated more rapidly. Thirdly, the whole heating medium is mixed in the storage tank by the injection port and the torque transmitting means, The present invention can maximize the thermal efficiency of the heating device while allowing the heating medium evenly heated in the heating device to flow through the discharge pipe Circulation to a room or a living room or other heat exchange place The heating effect can be greatly improved if it is heightened.

1 is a cross-sectional view showing a preferred example of the present invention
FIG. 2 is a perspective view showing an example in which an injection hole protrudes from an inflow pipe and an exploded perspective view
Fig. 3 is a plan view showing a state in which the rotational force transmitting means is engaged in Fig.
FIG. 4 is an exemplary view showing another example in which an injection port protrudes from an inflow pipe in the present invention
FIG. 5 is a view showing an example of a use state in which the heating device of the present invention is used as a boiler

Hereinafter, the present invention will be described in detail with reference to the drawings.

The present invention is characterized in that various heat mediums such as water and various refrigerants are circulated through a pipe at a heat exchange place (A) such as a room or a living room, then recovered and heated and then discharged to a heat exchange place (A) (1) which is rotated while jetting so as to generate a vortex while being applied to various boilers, water heaters, and the like.

1, the circulation rotary heating apparatus 1 according to the present invention includes a water storage tank 21 connected to the lower side and a discharge pipe 22 connected to the upper side of the circulation rotary heating apparatus 1, A plurality of heaters 23 are installed in the reservoir tank 2 to generate heat when the electricity is supplied thereto and the heat medium is heated so that the heat medium is not heated above a predetermined temperature, The sensor 24 and the overheat prevention sensor 25 are installed, and the water level sensor 26 is also installed so that a predetermined amount of the heating medium is not stored in the water tank 2.

In the present invention, a vortex is generated when the heating medium is circulated in the lower part of the water tank 2 of the heating device 1 and then the heating medium is recovered through the recovery pipe 21, And means for rotating the entire heat medium stored in the water storage tank 2 by the injection pressure of the heat medium recovered to the water storage tank 2.

More specifically, an inflow pipe (3) installed horizontally so that a return pipe (21) is connected to one side of the bottom of the water storage tank (2) of the circulation rotary heating device (1) The tube 3 is provided with several injection openings 4 protruded so as to communicate with the inflow tube 3 so that the heat medium injected through the recovery tube 21 is injected into the reservoir tank 2, (41) having a diameter smaller than the diameter of the jetting port (4) is formed at one end or the other end of the jetting port (41) so that the heat medium is supplied at a higher pressure and at a higher speed than the pressure and flow rate of the pump The injection port 4 is formed in a shape of a letter "A" as shown in FIG. 2, and is arranged so as to face the inlet pipe 3, one on each side And a pair of the injection ports (4) are formed so as to protrude upward, Minutes to ensure that a threaded hole (41) is configured toward the direction opposite to the heating medium is injected into minute vortices are generated when the water tank (2) through the screw hole 41.

As shown in FIGS. 2 and 3, at the upper center of the inflow pipe 3 in the reservoir tank 2, an end portion formed with the injection holes 41 at both sides of the inflow pipe 3 is protruded The rotation force transmitting means 5 rotated by the pressure (injection pressure) at which the heating medium is injected in the injection hole 41 of the injection port 4 is freely rotated so that the entire heating medium in the water storage tank 2 swirls A vortex is generated.

2 to 3, the rotational force transmitting means 5 includes a pair of ejection openings 4 opposed to each other at both sides of the inflow pipe 3 and protruding upward so that the end portions where the injection holes 41 are formed are directed in opposite directions, A center shaft 51 fixed to the center of the upper portion of the inlet pipe 3 so as to protrude upward is provided and a bearing or a bush or the like is provided between the center shaft 51 and the center shaft 51 A number of radial holes are fixed to the edge of the hub 52 so as to form a spray hole at the end of the injection port 4 of the inflow pipe 3 And a turbine 53 configured to be rotated by a heating medium injected at a high pressure when the circulation is recovered from the hub 52. The turbine 53 includes a plurality of spaced radially spaced supports 54 And a support plate 55 vertically fixed to an end of each support 54 The heating medium injected from the luer spray hole 41 pushes the support plate 55 to rotate the turbine 53 on the central axis 51 and the turbine 53 rotated by the injection pressure of the heating medium, 3, the hub 52 may be radially provided with about six radial teeth, as shown in FIG. 3. [0031] As shown in FIG.

2, a pair of injection ports 4, which are provided so as to protrude so as to face opposite sides of the inflow pipe 3 so that the injection holes 41 of the end portions are opposite to each other, The upper end of the connecting pipe 31 projecting horizontally from both sides of the inflow pipe 3 as shown in a perspective view of another example of FIG. 4, Shaped injection port 4 protruding to both sides of the inflow pipe 3 is provided with a rotation force transmitting means 5 (hereinafter, referred to as " So as to rotate the hub 52 and the turbine 53 of the turbine 53 in the longitudinal direction of the inflow pipe 3.

In the circulation rotary heating apparatus 1 of the present invention having the above-described structure, the inflow pipe 3 connected to the recovery tube 21 of the heating medium is horizontally laid on the inner lower part of the water storage tank 2 provided with the heater 23 A pair of jetting openings 4 of the letter "A " shape are opposed to both sides of the inflow pipe 3, and the direction of the jetting holes 41 formed in the end portion is reversed to inject the heat medium to generate a vortex. 3 is rotatably supported at the center of the upper part of the nozzle body 4 and is rotated by the injection hole 41 at the end of the pair of injection openings 4 to discharge the recovered heat medium, The vortex is generated by swirling the whole of the heating medium stored in the tank 2, and its operation will be described in more detail below.

5, when the circulation rotary heating apparatus 1 of the present invention is applied to a boiler, a heating medium heated by the heater 23 in the water storage tank 2 needs a heat source through the discharge pipe 22 (A) such as a room in a living room or a living room in which the heat exchange pipe (A1) is formed, and the heat medium is cooled after passing through the heat exchange pipe (A1) made of zigzag shape or the like. P to circulate through the recovery pipe 21 to the water storage tank 2.

At this time, in the present invention, the end portion of the recovery pipe (21) is connected to the inflow pipe (3) provided horizontally on the inner lower side of the water storage tank (2) The heat medium recovered by the pair of injection ports 4 configured to direct the spray holes 41 in the opposite direction is sprayed while generating vortex into the water storage tank 2 and circulated to the inside of the water storage tank 2 The heating medium injected from the injection holes 41 at the ends of the pair of injection openings 4 pushes the support plate 55 to support the support plate 55 and the support plate 55, The rotation of the turbine 53 constituted by the lid 54 rotates the hub 52 provided with the support interspace 54 radially around the center shaft 51 so that the rotational force of the rotational force transmitting means 5, The entirety of the heating medium stored in the water storage tank (2) So that the whole heating medium is vortexed. Therefore, the heating medium heated by the heater 23 is collected in the water storage tank 2, and the cooled heating medium is uniformly mixed to uniform the temperature of the entire heating medium. The heating medium introduced by the amount of water level sensor 26 installed is contacted to the heater 23 a number of times by the vortex for a long time to be heated for more time so that the heating medium is heated more rapidly and the temperature sensing sensor 24, And is heated to a predetermined temperature by the sensor 25 to be supplied again to the heat exchange place A through the discharge pipe 22 as described above.

As described above, the heating medium in the water storage tank 2 is rotated by the injection port 4 of the inlet pipe 3 and the rotation force transmitting means 5 to improve the mechanical energy of the heating medium itself, And the temperature of the entire heat medium is uniformly raised. Therefore, the heat efficiency can be maximized, and the heating efficiency after the supply to the heat exchange place (A) can be greatly improved.

Although the present invention has been described in detail with reference to specific embodiments thereof, it should be understood that various changes and modifications may be made without departing from the scope of the present invention. Therefore, the scope of protection of the present invention should not be limited to the described embodiments, but should be determined by the equivalents as well as the claims of utility model registration described later.

1: Heating device 2: Reservoir tank
21: recovery pipe 22: discharge pipe
23: heater 24: temperature sensor
25: Temperature cut-out prevention sensor 26: Water level detection sensor
3: inlet pipe 31: connecting pipe
4: jet opening 41:
5: Torque transmitting means 51:
52: hub 53: turbine
54: between supports 55:
A: Heat exchange place A1: Heat exchange pipe
P: Pump

Claims (3)

A water storage tank (2) which is connected to the recovery pipe (21) and the discharge pipe (22) so that the heating medium is stored therein and the heater (23) is installed to heat the heating medium inside;
An inflow pipe 3 connected to the inner lower part of the inner side of the water storage tank 2 and connected to the return pipe 21 so as to horizontally receive the heat medium;
A pair of spray holes 41 formed in the shape of "a" and formed so as to communicate with the inlet pipe 3 so as to protrude upwards on both sides of the inlet pipe 3, An injection port 4;
A center shaft 51 fixed to the upper center of the inlet pipe 3 so as to protrude upwards and a hub 52 provided on the center shaft 51 so as to rotate freely by bearings or bushes, (54) radially equally spaced apart from the hub (52) so as to be rotated by a heating medium ejected from the support member (41) and a support plate (55) vertically fixed to an end of each support A rotational force transmitting means (5) composed of a turbine (53);
Wherein the circulating rotary heating device comprises:
The method of claim 1,
Wherein the pair of injection openings (4) are installed so as to protrude upwards from both sides of the inflow pipe (3) upwardly.
The method of claim 1,
Wherein the pair of injection openings (4) are vertically protruded upward from the end of the connecting pipe (31) projecting horizontally from both sides of the inflow pipe (3).

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