KR20240000867U - Heating system that does not require a boiler room - Google Patents

Abstract

In the present invention, a plurality of first and second diaphragms are installed to allow air to circulate inside the floor plate body, and the heat generated by the heat generating unit provided as a heater is used as a heat generating means installed inside the floor plate body to blow the heat generated by the blower. Existing boilers use heat generated using heating gas, heating oil, and electricity to heat the floor plate and use it as a heating device by forcibly circulating the inside of the floor plate and between the first and second diaphragms. In order to overcome the high heat generation costs incurred by existing boilers that generate heat using heating gas, heating oil, and electricity, the heat generation unit provided as a heater inside the floor plate provides minimal electricity cost. The heat generated is stored in heat storage metal rods inside the main body pipe where the heat generating part is installed, and is forced to circulate between the first and second diaphragms inside the bottom plate, minimizing heat generation costs and reducing the heat generated in the heat generating part. It is about a heating device that does not require a boiler room and prevents heat loss as much as possible.

Description

Heating system that does not require a boiler room}

The present invention relates to a heating device that does not require a boiler room, and in more detail,

A plurality of first and second diaphragms are installed to allow air to circulate inside the floor plate body, and the heat generated by the heat generating unit provided as a heater is used as a heat generating means installed inside the floor plate body to blow the heat generated by the floor plate body. Existing boilers heat using heat generated using heating gas, heating oil, and electricity by forcibly circulating the supply inside and between the first and second diaphragms to heat the floor plate and use it as a heating device. In order to overcome the high cost of heat generation in existing boilers that generate heat using heating gas, heating oil, and electricity, a heat generation unit provided as a heater inside the floor plate generates heat with minimal electricity cost. Heat is stored in the heat storage metal rods inside the main body pipe where the heat generating part is installed and is forced to circulate between the first and second diaphragms inside the bottom plate, thereby minimizing heat generation costs and maximizing the heat generated from the heat generating part. It is about a heating device that does not require a boiler room to prevent heat loss.

Technologies related to “heating devices that do not require a boiler room” include;

Korea Utility Model Registration No. 20-0275991 (registered on May 7, 2002) “Indirect method heat blower for agriculture and livestock”,

Fins 313, which are densely arranged at regular intervals, are placed on one side of the pipe 314 so that hot water heated in the combustion furnace of the boiler 20 can be discharged to the outside for heat exchange and then circulated back to the combustion furnace. The pipe is zigzag to the side, and an inflow distributor 311 is provided on the inlet side of the pipe 314 to allow water to flow in from the outside, and the water passing through the pipe 314 is installed on the outlet side of the pipe 314. In the indirect heat blower for agriculture and livestock, which is equipped with a heat exchanger (30) equipped with a discharge distributor (312) that discharges the discharge to be returned to the boiler,

It is disclosed that an electric heater 40 is installed inside the inlet distributor 311 and the outlet distributor 312 to reduce the temperature difference between the temperature of the incoming hot water and the hot water discharged through heat exchange.

However, when the indirect type heater for agriculture and livestock is used for a long period of time, the heat generation cost for generating heat in the heat exchange unit 30 is high, and when the heater is applied to ondol heating, the size of the heater is large, so a separate installation storage room is required. There were many problems that had to be resolved.

In order to solve the above problems, the present invention has a plurality of first and second diaphragms installed to allow air to circulate inside the bottom plate, and a heat generating means installed inside the bottom plate as a heater. The heat generated by the blower is forcibly supplied to circulate between the inside of the floor plate and the first and second diaphragms to heat the floor plate and use it as a heating device. Existing boilers use heating gas, heating oil, Existing boilers that generate heat using heating gas, heating oil, and electricity are equipped with a heater inside the floor plate to overcome the high cost of heat generation. The heat generated from the heat generating unit with minimal electricity cost is stored in heat storage metal rods inside the main body pipe where the heat generating unit is installed, and is forced to circulate between the first and second diaphragms inside the bottom plate, thereby reducing heat generation costs. The purpose is to provide a heating device that does not require a new boiler room and minimizes heat generated from the heat generation unit from being lost as much as possible.

In addition, the present invention provides a heating device that does not require a new boiler room by installing the heat generating means inside the floor plate, eliminating the need for a separate boiler room, thereby overcoming the problem of existing boilers having a separate boiler room. It has a purpose.

In order to achieve this purpose, the present invention includes a bottom plate body (10) whose outer circumference is closed, the top and bottom are closed, and an installation space portion (11) is formed therein; A first separation plate is fixedly installed on the upper and lower surfaces of the installation space 11, is installed inside the installation space 11, and forms a front air passage portion 21a at the front. (20a) and; A second diaphragm ( 20b) and; The first and second partitions 20a and 20b are installed in plural numbers inside the installation space 11;

An air intake pipe 32 is located at the rear of the installation space 11 and is installed in the installation groove (a) formed at the rear of the first and second separation walls 20a and 20b, and has a blower 31 therein. ), an air intake hole (b1) formed on the other side of the air intake pipe (32), a one-side connection plate (33) formed in connection with the air intake hole (b1), and a connection plate (33) from the one side to the other side. A main body pipe portion 34 extending horizontally in length, a space portion a1 formed inside the main body pipe portion 34, a heat generating portion 35 installed at the rear of the space portion a1, and The other side connection plate 37 is installed on the other side of the main body pipe portion 34 and has an air discharge hole b2, the air discharge pipe 37a is installed on the other side of the other side connection plate 37, and the space portion a1 ), a plurality of spaced apart heat storage metal rods 38 are installed inside, one side of the metal rod 38 is fixed to the other inner side of the one side connection plate 33, and the other side of the heat storage metal rod 38 is It is characterized by being provided with heat generating means (30) fixed and installed on one inner side of the other side connecting plate (39).

In addition, the heat generating unit is characterized in that it is provided as a heater (35a).

In addition, the main body pipe part 34 is provided with an inner main body pipe part 34a and an outer main body pipe part 34b, and a curved connector c1 is formed by extending from one side of the inner main body pipe part 34a and curved to the other side. is connected in communication with one side of the outer main body pipe part 34b, and a heat generating part 35 as a heater 35a is installed at the inner rear of the inner main body tube part 34a, and the inner main body tube part 34a Inside, a plurality of air moving inner diaphragms (c2) are installed spaced apart from each other from front to back, and an air moving passage (c4) is formed between the air moving inner diaphragms (c2) and the air moving inner diaphragms (c2). An air intake hole (c5) is formed on the other side of the inner main body pipe (34a), and an air discharge hole (c6) is formed on the other side of the outer main body pipe (34b).

In the present invention, a plurality of first and second diaphragms are installed to allow air to circulate inside the floor plate body, and the heat generated by the heat generating unit provided as a heater is used as a heat generating means installed inside the floor plate body to blow the heat generated by the blower. Existing boilers use heat generated using heating gas, heating oil, and electricity to heat the floor plate and use it as a heating device by forcibly circulating the inside of the floor plate and between the first and second diaphragms. In order to overcome the high heat generation costs incurred by existing boilers that generate heat using heating gas, heating oil, and electricity, the heat generation unit provided as a heater inside the floor plate provides minimal electricity cost. The heat generated is stored in heat storage metal rods inside the main body pipe where the heat generating part is installed, and is forced to circulate between the first and second diaphragms inside the bottom plate, minimizing heat generation costs and reducing the heat generated in the heat generating part. There is a new effect that prevents heat loss as much as possible.

In addition, the present design has a new effect of overcoming the problem of existing boilers having a separate boiler room because the heat generating means is installed inside the floor plate, eliminating the need for a separate boiler room.

1 is a schematic diagram according to the present invention.
Figure 2 is a schematic diagram of the heat generating means according to the present invention;
Figure 3 shows another embodiment according to the present invention.
Figure 4 is another embodiment according to the present invention.

In order to fully understand the present invention, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

The embodiments of the present invention may be modified in various forms, and the scope of the present invention should not be construed as being limited to the embodiments described in detail below. This embodiment is provided to more safely explain the present invention to those with average knowledge in the art.

Therefore, the shapes of elements in the drawings may be exaggerated to emphasize a clearer description. It should be noted that identical members in each drawing may be indicated by the same reference numerals.

Figure 1 is a schematic diagram according to the present invention, Figure 2 is a schematic diagram of a heat generating means according to the present invention, Figure 3 is a diagram of another embodiment according to the present invention, and Figure 4 is a diagram of another embodiment according to the present invention.

The heating device that does not require a boiler room according to the present invention will be described in detail with reference to FIGS. 1 to 4 as follows.

The heating device that does not require a boiler room according to the present invention consists of a floor plate body (10), first and second diaphragms (20a, 20b), and heat generating means (30).

The bottom plate body 10 is configured with a closed outer circumference, closed top and bottom, and an installation space 11 formed therein.

The floor plate body 10 is formed in a shape corresponding to the shape of the indoor floor, which is usually rectangular or square.

However, the shape of the bottom plate body 10 is not limited to a rectangular or square shape, but may be formed in a polygonal shape.

The first spacing plate 20a is installed with its upper and lower parts fixed to the upper and lower surfaces of the installation space 11, and is installed inside the installation space 11, and has a front air passage part at the front ( It is formed by forming 21a).

The second spacing plate 20b is installed with its upper and lower parts fixed to the upper and lower surfaces of the installation space 11, and is installed inside the installation space 11, and has a rear air passage part at the rear ( 21b) is formed and configured.

Accordingly, the first and second partitions 20a and 20b are installed in plural numbers inside the installation space 11.

That is, the front air passing part 21a of the first diaphragm 20a and the rear air passing part 21a of the second diaphragm 20b allow hot air generated from the heat generating part 35 to be described later to be blown by the blower ( 31), it is configured to force passage.

The heat generating means 30 is located at the rear of the installation space 11 and is installed in the installation groove (a) formed at the rear of the first and second separation walls 20a and 20b.

That is, the lower portion of the main body pipe portion 34, which is the heat generating means 30, is installed on the upper surfaces of the installation grooves (a).

Additionally, it consists of an air intake pipe (32) with a blower (31) inside.

It consists of an air intake hole (b1) formed on the other side of the air intake pipe (32).

It consists of a one-side connection plate (33) connected to the air intake hole (b1).

And it is composed of a main body pipe portion 34 extending horizontally from one side of the connecting plate 33 to the other side.

It consists of a space portion (a1) formed inside the main body pipe portion (34).

It also consists of a heat generating unit 35 installed at the rear of the space a1.

The heat generating unit 35 is composed of a heater 35a.

When the heat generating unit 35 is used as an ondol in a room of a building, the blower 31 and the heater 25a may be connected to generally supplied electricity, but may be connected to the battery e. there is.

In addition, after removing the heater 35a, which is the generator 35, from the inside of the main body 34, it is connected to the communication hole d formed in the main body pipe 34 and the bottom plate 10. After the formed communication holes (d) are aligned with each other, the communication hole (d) formed in the main body 34 and the communication hole (d) formed in the bottom plate body (10) are connected to general electricity or a battery (e). It can be configured by installing a heat supply unit (f).

The heat supply unit (f) consists of a heater (35a) and a blower (31).

The heater 35a and the blower 31 are connected to the battery e.

Meanwhile, it is installed on the other side of the main body pipe portion 34 and consists of the other side connection plate 37 having an air discharge hole b2.

In addition, it is composed of an air discharge pipe (37a) installed on the other side of the other side connection plate (37).

It is composed of a plurality of heat storage metal rods (38) installed at a distance from each other inside the space (a1).

These heat storage metal rods 38 store heat generated by the heater 35a of the heat generating portion 35, and the installation space portion of the floor plate 10 through the air discharge pipe 37a ( 11), the heat generated by the heater (35a) is not lost to the outside and is stored in the heat storage metal rods (38) at a minimal cost of electricity, so that hot air at a constant high temperature is always supplied to the floor plate. It is configured to supply heat to the inside of (10) and generate heat with the heater (35a) at minimal electricity cost, thereby efficiently heating the floor plate (10).

Meanwhile, one side of the metal rod 38 is fixed to the other inner side of the one side connecting plate 33, and the other side of the heat storage metal rod 38 is fixed to one inner side of the other connecting plate 39. It is comprised of a heat generating means (30).

As another embodiment according to the present invention, a portable heating device configured to be used outdoors as a portable device instead of being used as an ondol in a building is as follows.

The portable heating device is configured such that the main body part 34 is provided with an inner main body part 34a and an outer main body part 34b.

It consists of a curved connector (c1) extending from one side of the inner main body pipe portion (34a) and curved to the other side.

It consists of a blower (31) installed inside the curved connector (c1).

The curved connector (c1) is configured to be connected to one side of the external main pipe portion (34b) in communication with each other.

A heat generating part 35 as a heater 35a is installed at the inner rear of the inner main body part 34a.

In addition, the inner body pipe portion 34a is composed of a plurality of air moving inner diaphragms (c2) installed spaced apart from each other from the front to the rear.

An air movement passage (c4) is formed between the air movement diaphragm (c2) and the air movement diaphragm (c2).

And, an air intake hole (c5) is formed on the other side of the inner main body pipe portion (34a).

An air discharge hole (c6) is formed on the other side of the external main pipe (34b).

In the portable heating device as described above, after connecting the air discharge hole (c6) to a heat injection hole (not shown) formed in a portable mat (not shown), the heater (35a) of the heat generating unit (35) is It is configured to provide efficient heating to the portable mat (not shown) by supplying heat generated by the power source of the battery (e) to the blower (31) generated inside the curved connector (c1). .

In the present invention described above, a plurality of first and second diaphragms (20a, 20b) are installed to allow air to circulate inside the bottom plate body (10), and the heat generation device installed inside the bottom plate body (10) Heat generated by the heat generating unit 35 provided as the heater 35a is transferred to the inside of the bottom plate 10 and the first and second plates 20a, 20b), the floor plate 10 is heated and used as a heating device by forcibly circulating the supply, so that existing boilers heat using heat generated using heating gas, heating oil, and electricity. In order to overcome the fact that existing boilers that generate heat using heating gas, heating oil, and electricity incur high heat generation costs, the heat generating unit is provided with the heater 35a inside the floor plate 10. The heat generated at (35) with minimal electricity cost is stored in the heat storage metal rods (38) inside the main body portion (10) where the heat generating portion (35) is installed, This is to minimize heat generation costs by forcing circulation between the first and second partitions 20a and 20b, and to prevent heat generated from the heat generating unit 35 from being lost as much as possible.

In addition, the present invention is intended to overcome the problem of existing boilers having a separate boiler room by installing the heat generating means 30 inside the floor plate 10 so that there is no need for a separate boiler room.

The embodiments according to the present invention described above are merely illustrative, and those with ordinary knowledge in the technical field to which the present invention pertains will be able to appreciate that various modifications and other equivalent embodiments are possible. . Therefore, it will be well understood that the present invention is not limited to the form mentioned in the detailed description above.

Therefore, the true scope of technical protection of the present invention should be determined by the technical spirit of the attached claims. In addition, the present invention should be understood to include all modifications, equivalents and substitutes within the spirit and scope of the present invention as defined by the appended claims.

10: Bottom plate 111: Installation space part
20a: First diaphragm 21a: Front air passage part
20b: Second diaphragm 21b: Rear air passage part
30: heat generating means 31: blower
32: Air intake pipe 33: One side connection plate
34: main body part 34a: inner main body part
34b: external main body part 35: heat generating part
37: Other side connection plate 37a: Air discharge pipe
38: heat storage metal beam 39: air discharge pipe
a: Installation groove a1: Space section
b1: air intake hole b2: air discharge hole
c1: curved connector c2: air moving diaphragm
c4: air movement passage c5: air intake hole
c6: air outlet hole

Claims (3)

A bottom plate body (10) whose outer circumference is closed, the top and bottom are closed, and an installation space portion (11) is formed therein;
A first separation plate is fixedly installed on the upper and lower surfaces of the installation space 11, is installed inside the installation space 11, and forms a front air passage portion 21a at the front. (20a) and;
A second diaphragm ( 20b) and;
The first and second partitions 20a and 20b are installed in plural numbers inside the installation space 11;
An air intake pipe 32 is located at the rear of the installation space 11 and is installed in the installation groove (a) formed at the rear of the first and second separation walls 20a and 20b, and has a blower 31 therein. ), an air intake hole (b1) formed on the other side of the air intake pipe (32), a one-side connection plate (33) formed in connection with the air intake hole (b1), and a connection plate (33) from the one side to the other side. A main body pipe portion 34 extending horizontally in length, a space portion a1 formed inside the main body pipe portion 34, a heat generating portion 35 installed at the rear of the space portion a1, and An other side connection plate 37 installed on the other side of the main body pipe portion 34 and having an air discharge hole b2, an air discharge pipe 37a installed on the other side of the other side connection plate 37, and the space portion a1 ), a plurality of spaced apart heat storage metal rods 38 are installed inside, one side of the metal rod 38 is fixed to the other inner side of the one side connection plate 33, and the other side of the heat storage metal rod 38 is A heating device that does not require a boiler room, characterized in that it is provided with heat generating means (30) fixed and installed on one inner side of the other side connection plate (39). According to clause 1,
A heating device that does not require a boiler room, wherein the heat generating unit is provided as a heater (35a). According to clause 1,
The main body pipe part 34 is provided with an inner main body pipe part 34a and an outer main body pipe part 34b, and the curved connector c1 is formed by extending from one side of the inner main body pipe part 34a and curved to the other side. It is connected in communication with one side of the outer main body pipe part 34b, and a heat generating part 35 is installed as a heater 35a at the inner rear of the inner main body tube part 34a, and the inside of the inner main body tube part 34a A plurality of air moving internal diaphragms (c2) are installed spaced apart from each other from the front to the rear, and an air moving passage (c4) is formed between the air moving internal diaphragms (c2) and the air moving internal diaphragms (c2), A heating device that does not require a boiler room, characterized in that an air intake hole (c5) is formed on the other side of the inner main pipe portion (34a), and an air discharge hole (c6) is formed on the other side of the outer main pipe portion (34b). .