JP2003065547A - Dry heat piping system and method for constructing the same - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a method of construction in which heat is uniformly transferred from indoor heating piping for passing hot water to a floor so as not to give influence on vibration or the like of the floor. SOLUTION: A hot water conduit for heating is fixed to the upper surface of the floor which is provided with a reflective insulation material, and a thermal diffusion plate is provided so as to uniformly diffuse heat to the entire floor.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to construction of dry heating piping, and more particularly to a construction system of dry heating piping and a construction method thereof.

[0002]

2. Description of the Related Art Generally, floor heating is performed by heating the room by slamming it into a heating port and transferring the heat to the room while the hot air flows along a flow path formed in the floor.
Alternatively, a pipe through which hot water flows is installed on the floor, and the heat of the hot water that is heated by the boiler and flows through the pipe is transferred from the floor to the room to heat the room.

There are a wet method and a dry method as floor heating methods for heating the floor using the heating pipes.

In the wet method, aerated concrete is placed so as to be evenly distributed on the floor, that is, the slab structure, and the aerated concrete is cured for a certain period of time so that the aerated concrete becomes hard. By installing a heating pipe that forms a hot water flow path that rises in temperature over the entire floor with a boiler or other heating means, the entire floor is evenly distributed by the heat of the hot water flowing through the heating pipe. Be heated.

Next, when the installation work of the heating pipe is completed, the mortar is further placed on the heating pipe, and then the upper surface of the mortar is leveled. After curing for a certain period of time, when the mortar becomes hard, By placing the finishing upper plate, which is a finishing member, on the upper surface of the mortar, the heating pipe construction is completed.

As described above, in the heating pipe construction by the wet method, the aerated concrete is placed on the slab, the heating pipe is installed, and the mortar is placed. Since it is necessary to make the upper surface of the mortar even, the heating pipe construction work is complicated, the construction period is long, and the work efficiency is reduced.

[0007] In addition, because the curing work and period are required so that the aerated concrete and mortar become hard,
Not only is the construction time for the heating pipes lengthened, but there is also the problem that construction cannot be performed in the winter.

In addition, since the compressive strength of the aerated concrete is generally 10 kg / cm ³ , the durability is insufficient, and partial subsidence or total subsidence occurs due to the load of the aerated concrete itself or an impact from above. There were also problems.

There is also a problem that the cellular concrete and the mortar are cracked by the impact or vibration from the upper part of the ondol layer, whereby the cellular concrete and the mortar are cracked or cracks are generated.

Furthermore, in order to replace or repair the heating pipe, it is necessary to break the mortar attached to the upper part of the heating pipe to replace the pipe, and then to pour the mortar again. There is a problem that the work is complicated and not easy, and the floor cannot be used during the construction work, which is inconvenient.

Further, waste materials are generated during the heating pipe construction work and replacement work, and it is expensive to dispose of the waste materials, and there is a problem of environmental pollution due to the waste materials.

[0012]

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object of the present invention is to fix a heating pipe on the upper surface of the floor and Configure each structure in the above process so that the heat of the hot water flowing through it is evenly transmitted to the entire floor and reduce the vibration and noise generated from the upper part of the floor, and assemble the structure by a dry method Therefore, the work of constructing the heating pipe can be performed easily, the work period is shortened to improve work efficiency, and the heat of the hot water in the heating pipe can be kept for a long period of time. , Excellent in sound insulation and heat insulation, repair and replacement work of the heating pipe can be easily performed, and at the time of heating pipe construction, it is possible to reduce the generation of waste materials and prevent the problem of environmental pollution. And that It is to provide a factory method.

[0013]

In order to achieve the above-mentioned object, the invention of the wood is a reflective heat insulation in a heating pipe construction for heating the inside of a room by the heat of hot water flowing in the heating pipe attached to the floor. On the upper surface of the floor where the material is thrown, while adjusting the mounting position of the heating pipe, fixing the heating pipe,
A plurality of support frames that are connected to each other to form the height of the ondol layer are provided, and heating pipes are inserted into the upper surfaces of the support frames and heat of hot water flowing in the heating pipes. Is provided with a plurality of heat diffusion plates for evenly diffusing the entire floor, and on the upper surface of each support frame provided with the heat diffusion plates, an ondol surface is formed at the upper stage of the ondol layer and There is provided a dry heating pipe construction system, which is provided with an upper plate for transmitting heat of hot water in the heating pipe diffused by each of the heat diffusion plates into a room.

[0014]

BEST MODE FOR CARRYING OUT THE INVENTION An embodiment of the present invention will be described below with reference to the accompanying FIGS. As shown in FIG. 1 to FIG. 3, the present invention, in the construction of a heating pipe that heats the room by the heat of hot water flowing through the heating pipe 20 provided in the floor (S), the upper surface of the floor (S). In order to prevent heat from leaking to the outside through the floor (S) together with the heat of the warm water flowing in the pipe 20, a reflective heat insulating material 20 for blocking heat is provided. A plurality of support frames 30 that are connected to each other to adjust the mounting position of the heating pipe 20 and fix the heating pipe 20 to form the height of the ondol layer are mounted on the upper surface of the floor. ing.

A heating pipe 20 is inserted into the upper surface of each of the support frames 30, and a plurality of heat diffusion plates 40 are provided for evenly diffusing the heat of the hot water flowing through the heating pipe 20 throughout the floor. The upper surface of each support frame 30 provided with the heat diffusion plate 40 forms an ondol surface at the upper end of the ondol layer, and the heating pipe 20 is diffused by each heat diffusion plate 40. An upper plate 50 is provided so as to transfer the heat of the warm water therein to the room, and a finishing upper plate 60, which is a finishing member that forms the floor surface of the room, is provided on the upper surface of the upper plate 50.

As shown in FIG. 2, the reflection heat insulating material 10 has a reflection plate 11 on its upper surface for reflecting light and heat, and the bottom surface of this reflection plate 11, that is, the lower surface of the reflection heat insulating material 10. An anti-vibration rubber 12 having a certain elasticity is attached so as to absorb the shock and reduce the vibration generated by the shock.

As the material of the reflection plate 11, aluminum which is inexpensive and easy to purchase, has excellent light and heat blocking performance while being easy to produce, and has a good light and heat reflectance is used. be able to.

The material of the heating pipe 20 is the pipe 2.
It can be made of polyethylene or a metal material (stainless steel, copper pipe, etc.) so as to smoothly transfer the heat of the hot water flowing in the interior of the chamber 0, that is, in the present invention. You may use the thing.

As shown in FIGS. 4A and 4B, the support frame 30 has a plurality of separating partition plates formed therein and a body 31 having the height of an ondol layer. In order to adjust and fix the mounting position of the pipe 20 on the upper surface of the body 31, a groove 33 formed of a plurality of supporting parts 32 is provided so that the pipe 22 is inserted and firmly fixed. The body 31 is formed with a space 34 that forms an air layer for keeping the heat so that the heat of the hot water flowing in the pipe 20 and the heat reflected by the reflective heat insulating material 10 are prevented from being lost. The outer surface of the body 31 is provided with a plurality of fastening means for connecting and engaging the support frames 30 with each other.

The thickness (t) of the supporting frame 30 forming the height of the ondol layer is 30 mm or less, which is because the convection phenomenon of nitrogen gas does not occur in the space 34 of the supporting frame 30. This is because the heat insulating effect that cuts off heat, the sound insulating effect that cuts off sound, and the heat retaining effect that can keep heat for a long time are excellent.

The groove 33 has a "one" shape or a "U" shape, and is formed on all four sides of the body of the support frame so that the pipe 20 can pass therethrough.

The fastening means has one end integrally engaged with the body 31 on the outer side surface of the body 31 of the support frame 30 in plan view and the other end with the thickness of the engaged one end. A plurality of gourd-shaped engagement projections 35 are provided so as to protrude, and the engagement projections 35 formed on the outer surface of any one of the support frames 30 are connected to the one support frame 30. In order to connect the other supporting frame 30, the outer surface of the body 31 of each supporting frame 30 is recessed inward of the body 31 so that the engaging protrusions 35 are inserted. A plurality of engaging grooves 36
Are formed.

The engagement protrusions 35 and the engagement protrusions 36 are formed so that the engagement between the support frames 30 can be performed more easily and smoothly, and the support frame 30 can be easily manufactured. The support frame 30 is formed on the outer surface of the body 31 in an alternating manner.

In order to prevent the heating pipe 20 inserted in the groove 33 from being removed from the support frame 30 and to firmly fix the inserted pipe 20 on the upper surface of each support portion 32, A plurality of circular support protrusions 37 are formed on the side where the groove 33 is formed.

The support frame 30 is formed in a quadrangular shape for ease of work, and the support frame 30 is made of a synthetic resin which is an organic material such as plastic or KOPELEN.

On the upper surface of the floor, pipes may be attached on the bottom surface near the hot water distributor (not shown) or in a narrow space, or the pipes 20 may be concentrated at one place to partially heat the hot water. Since the pipes 20 are attached in a concentrated manner or at a place where the diameter of the pipe 20 is large, or in a mounting form of various pipes 20, that is, in a free form such as a diagonal direction or a rotating direction with many bends, A deformable support frame 70 having a variable attachment position is attached in place of any one of the plurality of support frames 30.

As shown in FIGS. 6 to 8, the deformable support frame 70 contacts the floor to fix the deformable support frame 70 to the floor, and the pipe 20 is provided above the deformable support frame 70. And a receiving member 71 made of a heat-resistant reinforced plastic material for positioning the upper plate 50 on the upper surface of the receiving member 71 while the receiving member 71 and the upper plate 50 are spaced from each other at a constant distance. A plurality of support rods 7 for changing the mounting position of the pipe 20
It is composed of 5.

The receiving member 71 is formed with a plurality of fixing holes 74 through which fasteners such as nails and bolts are inserted so as to be coupled to the floor. The upper surface of the receiving member 71 has a circular shape inside. A plurality of circular protrusions 72 having protrusion holes 73 formed therein
Are integrally formed.

The upper plate 50 is formed on the upper surface of each support rod 75.
In order to support the head easily, a head 76 having a head groove 77 into which a connecting screw 80 is inserted is provided in the center while having a wider shape toward the upper side, and the lower surface of each of the support rods 75 is provided. Is formed with a tail groove 78 into which the circular protrusion 72 of the receiving member 71 is inserted and fixed, and a connecting hole 79 for connecting the head groove 77 and the tail groove 78 is formed inside the center of each support rod 75. Are formed so as to penetrate therethrough.

The appearance of each of the support rods 75 is cylindrical so as to prevent breakage or damage of the pipe 20 to be attached, prevent leakage of hot water in the pipe 20, and sufficiently withstand the force from above. ing.

As shown in FIGS. 5 (a) and 5 (b), the heat diffusion plate 40 has an insertion groove 41 having an inverted "Ω" shape so that the pipe 20 can be inserted. Flat plate-shaped heat diffusion blades 42 are integrally formed on both side surfaces of the insertion groove 41 so as to diffuse the heat generated from the hot water flowing in the pipe 20 to the entire floor.

In order to prevent hot water from leaking, the connecting portion between the insertion groove 41 and each heat diffusion blade 42 is damaged due to the outer surface of the pipe 20 inserted into the insertion groove 41 being cracked or scratched. , Has a rounded shape.

Each of the heat diffusion blades 42 has a different length from the insertion groove 41. The reason is that the heat can be dispersed and concentrated by using the length and the width of the heat diffusion blade 42.

On the bottom surface of each of the heat diffusion blades 42, a vibration damping member 43 that reduces vibration generated by an external impact and absorbs noise is attached, and the vibration damping member 43 has an elastic force. It is made of a polymer such as rubber or felt that has excellent thermal conductivity but low thermal conductivity.

The thickness of the vibration isolator 43 is 1 to 2 mm, and when the thickness of the vibration isolator 43 is less than 1 mm,
There is a problem that the vibration generated by the impact from the outside cannot be sufficiently reduced, and the noise cannot be smoothly absorbed. When the thickness of the vibration isolator 43 is 2 mm or more, the thickness of the ondol layer is reduced. Not only is the overall size increased, but a floating phenomenon occurs between the support frame 30 and the upper plate 50.

The material of the heat diffusion plate 40 is a zinc-treated steel plate having excellent thermal conductivity.
Is not limited to this, and any material may be used as long as it has excellent thermal conductivity.

The upper plate 50 contains barley stone, silica sand, calcium carbonate, etc. which emit far infrared rays.

In the method for constructing the heating pipe for heating the room by the heat of the hot water flowing through the heating pipe 20 attached to the floor (S), the mounting position of the heating pipe 20 is adjusted on the upper surface of the floor. At the same time, a step of connecting and engaging a plurality of support frames 30 for fixing the heating pipe 20 to the adjusted position to form the height of the ondol layer, and a support frame on the upper surface of each support frame 30. A heat diffusion plate 40, into which the heating pipe 20 is inserted and fixed so as to cover a certain portion of the heating pipe 30, is provided, and a step of diffusing heat of hot water flowing through the heating pipe 20 over the entire floor, and the heat diffusion plate 40 are provided. And a step of uniformly transmitting the heat of the hot water flowing in the heating pipe 20 to the entire floor by the upper plate which is provided on the upper surface of each support frame 30 and serves as the ondol surface of the ondol layer.

A reflective heat insulating material 10 is provided between the floor and a lower portion of the support frame 30 to prevent heat of the hot water flowing in the pipe 20 from leaking to the outside through the floor. The method further includes the step of blocking

By providing a deformable support frame 70 in place of any one of the plurality of support frames 30, the heating pipes 20 can be centrally and freely attached by the deformable support frame 70. 20
The method further includes the step of varying the mounting position of the.

The operation of the present invention having such a configuration will be described. First, a reflective heat insulating material 10 composed of a reflector 11 and a vibration-proof rubber 12 is laid on the floor so as to reflect light and heat, and then,
By arranging a plurality of support frames 30 having a constant height in series on the entire upper surface of the floor on which the reflective heat insulating material 10 is laid, the height of the ondol layer is adjusted by each of the support frames 30. .

The state in which the support frames 30 are connected to each other will be described. One end of the support frame 30 is attached to the outer surface of the support frame 30 as shown in FIGS. 4 (a) and 4 (b). A plurality of gourd-shaped engagement projections 35 that are integrally engaged with 31 and have the other end that is larger than the thickness of one end, and a plurality of engagement grooves 36 that are recessed inward of the body 31. Because they are formed alternately,
Engagement protrusion 35 of any one of the support frames 30
Is inserted into the engagement groove 36 of the other one of the support frames 30, and the engagement projection 3 of the other one of the support frames 30 is inserted into the engagement groove 36 of the one of the support frames 30.
By inserting 5, any one support frame 30 and another support frame 30 are connected and engaged with each other.

In this way, by connecting and engaging the plurality of support frames 30 respectively, the plurality of support frames are attached to the entire upper surface of the floor.

At this time, on the upper surface of the floor, instead of any one of the plurality of supporting frames 30, a deformable supporting frame 70 for varying the mounting position of the heating pipe 20 is mounted, and the hot water distributor is installed. Floor near (not shown),
The heat of the hot water flowing in the narrow space and the heating pipe 20 is intensively transferred to one side, or the place where the diameter of the pipe 20 becomes large, or the place where the installation of the pipe 20 is complicated, that is, the diagonal direction Also, the heating pipe 20 can be easily attached in a rotating direction with many bends.

The mounting state of the variable shape support frame 70 will be described. After the receiving member 71 of the variable shape support frame 70 is placed on the upper surface of the floor on which the reflective heat insulating material 10 is laid, it is formed on the receiving member 71. Fixed holes 74
Then, a fastening member, that is, a nail or a bolt is inserted to fix the receiving member 71 to the floor.

Next, a plurality of cylindrical support rods 75 are engaged with the upper surface of the receiving member 71, that is, the receiving member 7
A receiving member 7 excluding a portion through which the heating pipe 20 and other pipe facilities pass so that the heating pipe 20 and other pipe facilities can be freely attached to the upper surface of 1 according to the construction environment.
The support rods 75 are respectively engaged with the plurality of circular protrusions 72 formed on the upper surface of 1.

By the way, by inserting the circular protrusion 72 formed on the upper surface of the receiving member 71 of the deformable supporting frame 70 fixed to the floor into the tail groove 78 of the supporting rod 75, each receiving member 71 is formed. The support rods 75 are engaged with each other, and the connecting screw 80 is attached from above the support rods 75.
By inserting into the head groove 77 formed in the head portion 76 of the circular screw 72, the connecting screw 80 passes through the head groove 77 and passes through the connecting hole 79, and then the circular protrusion 72 of the circular groove 72 inserted into the tail groove 78. The support frame 75 is engaged with the upper surface of the receiving member 71 by being fastened to the circular protruding hole 73.

As described above, the plurality of support frames 30
After the attachment of the deformable support frame 70 is completed, the heat diffusion plate 40 that covers a certain portion of the support frame 30 is attached to the upper surface of the support frame 30. That is, in the inverted “Ω” -shaped insertion groove 41 of the heat diffusion plate 40, the convex portion is formed by the support portion 32 of each support frame 30.
2 and the heat diffusing blades 42 of the heat diffusing plate 40 contact the upper surfaces of the supporting portions 32 of the supporting frames 30 to form a plurality of heat diffusing plates on the upper surfaces of the supporting frames 30. 40 is attached and fixed.

Then, in the desired direction, the heat diffusion plate 40 is
The heating pipe 20 through which hot water flows is installed and fixed between the insertion groove 41 of FIG. 1 and the groove 33 of each support frame 30 and each support rod 75 of the deformable support frame 70.

When the mounting work of the heating pipe 20 is completed, the support frame 30 and the variable shape support frames 70 are formed.
Is formed on the upper surface of the pipe 20, an upper plate 50 for transmitting heat of the hot water flowing in the pipe 20 to the room is provided, and a finishing upper plate 60 for forming an indoor floor surface on the upper surface of the upper plate 50. When is attached, the construction work of the heating pipe 20 is completed.

Thus, when the heating pipe construction is completed,
Hot water that is heated and circulated by a boiler (not shown) flows into the heating pipe 20, and the hot water that flows into the pipe 20 transfers heat to the room while flowing along the pipe 20. .

That is, the heat of the hot water flowing through the heating pipe 20 is blocked by the reflective heat insulating material 10 from leaking to the outside through the floor, and the heat diffusion plate 40 diffuses the heat throughout the floor. It

At this time, the heat of the hot water flowing in the pipe 20, the heat of the hot water reflected by the reflective heat insulating material 10, and the heat of the hot water diffused by the heat diffusion plate 40 are the heat of the support frames 30. By being kept in the space portion 34 that forms an air layer in the body 31, that is, since heat is kept for a long time in the air layer of each of the support frames 30, the temperature change in the room does not suddenly change, Also, heat loss is prevented,
Thermal efficiency is improved.

Further, each heat diffusion blade 42 of the heat diffusion plate 40
Since the lengths of the heat diffusion blades are formed to be different from each other, the heat of the hot water is dispersed and concentrated by the length and the width of each heat diffusion blade 42, so that the heat is concentrated on the floor in the room. It will be widely spread with.

Each heat diffusion blade 42 of the heat diffusion plate 40 is
The bottom surface of the vibration-proof member 4 has a constant thickness and is made of a polymer having a low thermal conductivity such as rubber or felt.
Since 3 is provided, not only the vibration generated by the impact from the outside and the sound absorption of the noise are prevented, but also the heat of the hot water is blocked from leaking to the outside to prevent the heat loss.

That is, when a shock is applied to the finishing upper plate 6 due to children flying or dropping objects in the room, the vibration generated by this shock is transmitted to the upper plate 50 and the heat diffusion plate 40. The transmitted vibration is applied to the vibration isolator 4 attached to the bottom surface of the heat diffusion blade 42 of the heat diffusion plate 40.
3, the noise generated by the vibration is also absorbed, so that the vibration and the noise are reduced.

As described above, the heat of the hot water flowing through the heating pipe 20 is diffused by the heat diffusion plate 40, and the diffused heat is transferred to the upper plate 50, and the transferred heat causes barley stone, silica sand. Top plate 5 containing calcium carbonate, etc.
While 0 is heated, far infrared rays are not only emitted, but also transmitted to the entire floor by the upper plate 50, thereby heating the room.

As described above, the construction system and the construction method of the dry heating pipe according to the present invention have been described with reference to the illustrated drawings, but the present invention is limited by the embodiments and the drawings. However, various modifications can be made without departing from the technical scope of the invention.

[0059]

INDUSTRIAL APPLICABILITY As described above, the present invention is a support frame that is a structure for fixing heating pipes, and a structure that evenly diffuses and transfers the heat of hot water flowing in the pipes to the entire floor. By constructing the piping by the dry method using the heat diffusion plate and the top plate, each structure is assembled on the floor and the piping installation work is done, so the construction work of the heating piping can be performed easily and easily. Moreover, the construction period is shortened, and the work efficiency is improved.

Further, by making the thickness of each support frame constant, the construction is carried out so that the difference in height from the existing floor is not felt, and the height of the ondol layer is adjusted smoothly. Therefore, it is possible to obtain the effect of improving the reliability of the consumer with respect to the construction method.

Further, since each of the support frames is formed to have a constant height and the space portion for forming the air layer is provided, the heat of the hot water flowing in the heating pipe is transferred to the air layer of the space portion. The transferred heat is transferred to the space and the heat is blocked without convection in the space to prevent heat loss, vibration reduction and sound insulation, and heat retention that keeps heat for a long time. The effect of is obtained.

Further, between the floor and the support frame, an aluminum plate-shaped reflector is provided so as to reflect light and heat, and a reflective heat insulating material having a vibration-proof rubber attached to the bottom of the reflector is laid. Therefore, the reflection plate of the reflective heat insulating material can prevent heat generated from the hot water of the heating pipe from leaking to the outside through the floor, and the anti-vibration rubber of the reflective heat insulating material prevents the heat from being generated outside the floor and the ondol. The vibration transmitted from the upper part of the layer is reduced and the noise caused by the vibration is cut off, so that the consumer can enjoy a quiet and comfortable environment.

In addition, in the floor near the hot water distributor, in the narrow space and in the heating pipe where the heat of the hot water is concentrated, and in the portion where the diameter of the pipe is large, that is, in the diagonal direction and the rotating direction with many bends, the floor By replacing any one of the plurality of support frames installed in the above with a variable-type support frame that varies the installation position of the pipe, the variable-type support frame allows the diagonal direction or the rotation direction with many bends. In the piping work is easy and convenient, it is possible to construct the piping in a free state, and since the upper plate is stably supported by the deformable support frame to fix the heating pipe, While sufficiently exhibiting the original function of the support frame, it is possible to prevent the upper plate from being partially overheated by heat, and provide a comfortable warm feeling.

Furthermore, when replacing or repairing the piping and each structure, the work is easily performed, and since the removed structure can be reused, the generation of waste materials is reduced, and therefore, It also has the effect of preventing environmental pollution.

Further, by attaching a vibration isolating member to the bottom surface of the heat diffusing blade of the heat diffusing plate, the vibration generated from the upper part of the ondol layer, that is, the floor surface in the room due to the impact from the outside is reduced, and Since the noise due to the vibration is absorbed, it is possible to prevent damage or damage to the structures, and to maintain a comfortable indoor environment.
The effect of improving the credibility of consumers can be obtained.

[Brief description of drawings]

FIG. 1 is a perspective view showing a part of a state where a dry heating pipe of the present invention is installed.

FIG. 2 is an exploded perspective view showing a structure used during construction of the dry heating pipe of the present invention.

FIG. 3 is a cross-sectional view showing a state where the dry heating pipe of the present invention is installed.

FIG. 4 (a) is a perspective view showing the structure of a support frame according to the dry heating piping construction system of the present invention,
(B) is a side view which shows the support frame of a dry heating piping construction system.

5 (a) is a perspective view showing a structure of a heat diffusion plate according to the dry heating piping construction system of the present invention, and FIG. 5 (b) is a sectional view taken along line I-I of FIG. 5 (a).

FIG. 6 is an exploded perspective view showing the structure of a deformable support frame according to the dry heating piping construction system of the present invention.

FIG. 7 is a perspective view showing a state in which the deformable support frame of the present invention is attached.

FIG. 8 is a cross-sectional view showing a state in which the deformable support frame of the present invention has been installed.

[Explanation of symbols]

10 Insulation 11 reflector 12 Anti-vibration rubber 20 heating piping 30 support frame 31 body 32 Support 33 Groove 34 Space Department 35 Engagement protrusion 36 Engagement groove 40 heat diffusion plate 41 insertion groove 42 Thermal diffusion feather 43 Anti-vibration member 50 Upper plate 60 Finishing top plate 70 variable support frame 71 Receiving member 72 Circular protrusion 73 holes 75 Support rod 76 head 77 Head groove 78 Omizo 79 Connection hole 80 connecting screw S floor

Claims (19)

[Claims] 1. In a heating pipe construction for heating a room by heat of hot water flowing in a heating pipe mounted on a floor, the mounting position of the heating pipe is adjusted on the upper surface of the floor provided with a reflective heat insulating material. In addition, the heating pipe is fixed, and a plurality of support frames are provided that are connected to each other so as to form the height of the ondol layer, and the heating pipe is inserted on the upper surface of each of the support frames, A plurality of heat diffusion plates for evenly diffusing the heat of the hot water flowing in the heating pipe over the entire floor is provided, and on the upper surface of each support frame provided with the heat diffusion plate,
A dry type which is formed on the ondol layer to form an ondol surface and which is provided with an upper plate for transmitting heat of hot water in the heating pipe diffused by each of the heat diffusion plates to the room. Heating piping construction system. 2. The reflective heat insulating material is formed on an upper surface and reflects light or heat, and a protective plate provided on the bottom surface of the reflective plate and having a certain elastic force for shock absorption and vibration reduction. The dry heating pipe construction system according to claim 1, wherein the dry heating pipe construction system is constituted by a vibrating rubber. 3. The construction system for dry heating piping according to claim 2, wherein the reflector is formed of aluminum having a high heat reflectance while being excellent in blocking light or heat. 4. The support frame has a plurality of separating partition plates formed therein, and a body forming a height of the ondol layer, and a mounting position of a heating pipe is adjusted on an upper surface of the body. In order to fix the heating pipe, the groove formed by a plurality of supporting portions so that the heating pipe is inserted and fixed, and the heat formed in the body and reflected by the reflective heat insulating material together with the heat of the hot water flowing in the heating pipe. A space portion forming an air layer for keeping heat so as to prevent heat loss, and a plurality of fastening means provided on the outer surface of the body for connecting and engaging the support frames with each other. It is comprised, The construction system of the dry heating piping of Claim 1 characterized by the above-mentioned. 5. The fastening means is projectingly provided on an outer surface of a body of each support frame, and has one end integrally engaged with the body and the other end engaged with the body in plan view in the drawing. A plurality of gourd-shaped engagement protrusions having a thickness larger than the thickness and each engagement protrusion formed on the outer surface of the one of the support frames, and the one of the support frames and the other of the support frames. In order to engage with each other, the outer surface of the body of each supporting frame is formed with a plurality of engaging grooves that are recessed inward so that the engaging protrusions are inserted. The dry heating pipe construction system according to claim 4. 6. The dry heating pipe construction system according to claim 5, wherein the engagement protrusions and the engagement grooves are formed alternately on the outer surface of the body of the support frame. . 7. A plurality of circular support projections are formed on the upper surface of each of the support portions on the side where the groove portion for fixing the pipe inserted in the groove portion is formed. The dry heating pipe construction system according to claim 4. 8. A heating pipe can be mounted on the upper surface of the floor intensively and freely, so that the mounting position of the heating pipe can be changed in place of any one of a plurality of support frames. The construction system for dry heating piping according to claim 1, wherein a deformation support frame is provided. 9. The deformable support frame has a plurality of fixing holes into which the fastening members are inserted so that the fastening members are engaged with the floor so as to contact the floor and position the heating pipes above. And a receiving member formed of a plurality of circular protrusions each having a circular protrusion hole formed therein,
On the upper surface of the receiving member, in order to support the upper plate and to change the mounting position of the heating pipe, a head groove into which a connecting screw is inserted is formed in the central portion while having a shape wider toward the upper side. Formed on the formed head and lower surface,
A tail groove into which the circular protrusion is inserted, and a plurality of support rods formed through the inside of the center and formed of connecting holes for connecting the head groove and the tail groove. Item 8
The dry heating piping construction system described in. 10. The heat diffusing plate is integrally formed on both sides of the insertion groove having an inverted “Ω” shape into which the heating pipe is inserted, and heat generated from hot water flowing in the heating pipe. The construction system of the dry heating pipe according to claim 1, characterized in that it is constituted by a flat plate-like heat diffusion blade so as to diffuse over the entire floor. 11. The dry heating pipe construction system according to claim 10, wherein a portion where the insertion groove and each of the heat diffusion blades are connected to each other has a rounded shape. 12. The heat diffusion blades have different lengths with respect to the insertion structure.
The dry heating piping construction system described in 0. 13. The anti-vibration member for reducing the vibration generated by an external impact and absorbing the noise is attached to the bottom surface of each of the heat diffusion blades.
The dry heating piping construction system described in 0. 14. The anti-vibration member is a polymer compound such as rubber or felt.
The dry heating piping construction system described in 3 above. 15. The construction system for dry heating pipes according to claim 13, wherein the vibration isolator has a thickness of 1 to 2 mm. 16. The dry heating pipe construction system according to claim 1, wherein the upper plate contains barley stone that emits far infrared rays, silica sand, and calcium carbonate. 17. A method of constructing a heating pipe for heating an interior of a room by heat of hot water flowing through a heating pipe attached to a floor, wherein a mounting position of the heating pipe is adjusted on an upper surface of the floor. Along with this, a step of connecting and engaging a plurality of supporting frames for fixing the heating pipe at the adjusted position to form the height of the ondol layer, and a certain portion of the supporting frame on the upper surface of each supporting frame. Provide a heat diffusion plate into which the heating pipe is inserted and fixed so as to cover the
A step of diffusing the heat of the hot water flowing through the heating pipe over the entire floor, and an upper plate which is provided on the upper surface of each support frame provided with the heat diffusion plate and serves as an ondol surface of the ondol layer, A method for constructing a dry heating pipe, characterized by comprising the step of uniformly transmitting the heat of the hot water flowing inside to the entire floor. 18. A reflective heat insulating material is provided between the floor and the lower part of the support frame to prevent heat of hot water flowing in the heating pipe from leaking to the outside through the floor. The method for constructing a dry heating pipe according to claim 17, further comprising a step of shutting off. 19. A heating device is provided in place of any one of the plurality of supporting frames so that heating pipes can be centrally and freely attached by the variable supporting frame. The method for constructing a dry heating pipe according to claim 17, further comprising a step of varying a mounting position of the pipe.