KR20110101335A - The method of working a boiler use sand & structure a type boiler case - Google Patents

Abstract

The present invention relates to a boiler construction method using sand and prefabricated boiler case, and more particularly to a sand and prefabricated boiler case which can reduce cost and shorten construction period while preventing noise and thermal insulation efficiency between floors in residential buildings. It relates to a boiler construction method used.
To this end, the present invention provides a method for constructing a boiler on a floor of a building, the method comprising: applying a waterproof layer on the floor layer, applying a thermal insulation layer on the waterproof layer, applying sand on the thermal insulation layer, and assembling a boiler case on the sand. step; The boiler case is characterized by providing a lower housing coupled to the sand, providing a heat dissipation tube coupled to the lower housing, and configured to combine the upper housing on the heat dissipation tube.

Description

Construction method of boiler using sand and prefabricated boiler case {The method of working a boiler use sand & structure a type boiler case}

The present invention relates to a boiler construction method using sand and prefabricated boiler case, and more particularly to a sand and prefabricated boiler case which can reduce cost and shorten construction period while preventing noise and thermal insulation efficiency between floors in residential buildings. It relates to a boiler construction method used.

In general, residential buildings use a boiler construction method in the order of waterproof layer, heat insulation layer, heat storage layer, heat dissipation layer, and plastering layer in order to heat the room in winter.

As an example, the process of the general boiler construction method as shown in Figure 1 is to apply the waterproof layer on the floor layer made of concrete with a ratio of 1: 3: 6 (cement, sand, gravel) on the ground and a thickness of 300mm or more, After the waterproofing layer is hardened, the heat dissipation layer is applied to the insulation layer in order to prevent the heat released from the hot water ondol downwards. The heat radiating pipe is installed at 150mm or more and 400mm or less and the heat storage layer is applied to the heat radiating pipe with aggregate or cement mortar at the thickness of 40mm or more and 70mm or less to accumulate the heat emitted from the heat radiating pipe. Finished by applying plaster finish layer using cement mortar with more than 15mm and less than 25mm above the surface It is.

In this general boiler construction method, it takes a lot of time for the cement mortar to harden from the heat storage layer to the plastering layer after finishing the floor layer construction, and from the bottom layer to the plastering layer, the thickness is at least 120mm and 160mm. It is difficult to completely block the noise transmitted to the lower floor of the building due to the artificial impact generated from the floor because it is formed of cement mortar of the heat sink. The heat storage layer for accumulating heat emitted from the heat sink is housed in the heat sink. It takes a lot of time to reach the same temperature as the heat of the hot water, and according to the technical skills of the construction workers, the floor space is uniform because the gap between the heat radiating pipes and the thickness of the plaster finish layer are not uniform to obtain heat by circulating the hot water. It may not warm up, and part of the heat pipe When the water leaks out, it is difficult to reconstruct the entire floor after dismantling. Due to the toxicity emitted from the cement mortar, health problems such as skin diseases occur in the human body.

The present invention in the general construction method formed from a single cement mortar from the insulation to the plastering layer is added to the sand coating work on the insulation and the noise caused by the impact generated on the floor is dispersed by the sand to the lower floor of the building The transmission of noise should be reduced, and the boiler case should be prefabricated from the heat storage layer to the plastering layer in advance so that the process from the heat storage layer construction to the finishing layer construction can be completed at once, so that the construction period can be shortened and the construction should be convenient. The height and spacing of the heat dissipation tube should be uniformly installed by the lower housing of the boiler case, and the height from the top of the heat dissipation tube to the plastering layer should be uniform by the upper housing of the boiler case. Clay, ceramic, solid wood It is composed of the same material to prevent the health problems such as skin disease in the human body due to the toxicity emitted from the cement mortar and to improve the heat preservation efficiency than the heat storage layer by storing the heat emitted from the heat dissipation tube in the air compression chamber. The purpose is to provide a boiler construction method using sand and prefabricated boiler case.

The present invention is a boiler construction method on the floor of the building,

Applying a waterproof layer on the bottom layer,

Applying a heat insulation layer on the waterproof layer,

Applying sand on the thermal insulation layer,

Assembling a boiler case on the sand; The boiler case provides a lower housing coupled to the sand, and provides a heat dissipation tube coupled to the lower housing, characterized in that the upper housing is configured to combine the upper housing.

In addition, the boiler case forms a lower housing in the form of a rectangular box, and forms one or more holes coupled to the lower housing, and coupled to the holes to form a plurality of air compression chamber that can receive air The air compression chamber and one or more heat dissipation tube grooves are configured to be coupled.

In addition, the boiler case forms an upper housing in the form of a rectangular box, forms one or more holes configured to be combined with the upper housing, forms an open portion that is combined with the holes, and opens the open portion and a plastering finish. The layer is composed of a combination.

In addition, the boiler case is characterized in that the hole of the lower housing and the hole of the upper housing is configured by coupling.

In addition, when the boiler construction is characterized in that the boiler case is composed of more than one.

In addition, the material of the upper housing and the lower housing of the boiler case is characterized in that consisting of cement, marble, synthetic resin material or metallic material.

In addition, the plaster finish layer is characterized in that consisting of cement mortar, loess, ceramic, solid wood.

The present invention is a boiler construction method using the sand and the prefabricated boiler case by applying the sand on the insulation layer by the noise generated by the impact on the floor is dispersed by the sand can reduce the transmission of noise to the lower floor of the building, is configured in the boiler case By replacing the heat storage layer with the air compression chamber of the lower housing, the heat discharged from the heat dissipation tube can be stored in the air compression chamber to improve the heat preservation efficiency. The height and spacing can be uniformly applied, and the plastering layer of the upper housing made in the boiler case is made in advance and dried to prevent the occurrence of health problems such as skin disease in the human body due to the toxicity emitted from the cement mortar. Using more than one boiler case Since the construction in a way it is possible to shorten the construction period, while convenient process has an effect on the economic costs.

1 is a cross-sectional view showing a process of a general boiler construction method.
Figure 2 is a process diagram of the boiler construction method using sand and prefabricated boiler case according to the present invention.
Figure 3 is a cross-sectional view showing a lower housing of the boiler case in the boiler construction method using the sand and prefabricated boiler case according to the present invention.
Figure 4 is a front view showing a lower housing of the boiler case in the boiler construction method using sand and prefabricated boiler case according to the present invention.
Figure 5 is a cross-sectional view showing the upper housing of the boiler case in the boiler construction method using the sand and prefabricated boiler case according to the present invention.
Figure 6 is a cross-sectional view showing another embodiment using at least one boiler case in the boiler construction method using sand and prefabricated boiler case according to the present invention.

The present invention will now be described in detail with reference to the accompanying drawings.

1 is a cross-sectional view showing a process of a general boiler construction method, Figure 2 is a process diagram of a boiler construction method using sand and prefabricated boiler case according to the present invention, Figure 3 is a boiler using the sand and prefabricated boiler case according to the present invention. 4 is a cross-sectional view showing the lower housing of the boiler case in the construction method, Figure 4 is a front view showing the lower housing of the boiler case in the boiler construction method using the sand and prefabricated boiler case according to the present invention, Figure 5 is the present invention Fig. 6 is a cross-sectional view showing an upper housing of a boiler case in a boiler construction method using sand and a prefabricated boiler case, and FIG. 6 shows one or more boiler cases in a boiler construction method using sand and a prefabricated boiler case. Is a cross-sectional view showing another embodiment.

1 to 6, the present invention is a boiler construction method using sand and prefabricated boiler case on the bottom layer (1) of the building,

Applying a waterproof layer (2) on the bottom layer (1),

Applying a heat insulating layer 3 on the waterproof layer 2,

Applying sand (7) on the heat insulation layer (3),

Assembling a boiler case (8) on the sand (7); The boiler case (8) provides a lower housing (10) coupled to the sand (7), provides a heat dissipation tube (5) coupled to the lower housing (10), and the heat dissipation tube (5). Characterized in that the upper housing 20 is configured to combine.

In addition, the boiler case 8 forms a lower housing 10 in the form of a rectangular box, and forms at least one hole 14 coupled with the lower housing 10, and coupled with the hole 14. And form a plurality of air compression chambers 13 capable of accommodating air, and the air compression chambers 13 and one or more heat dissipation tube grooves 12 are configured to be coupled to each other.

In addition, the boiler case 8 forms an upper housing 20 in the form of a rectangular box, forms at least one hole 22 configured to be coupled to the upper housing 20, and is configured to be coupled to the hole 22. It is characterized in that the upper surface is formed in the open portion 24, and the open portion 24 and the plaster finish layer 6 is composed of a combination.

In addition, the boiler case 8 is characterized in that the hole 14 of the lower housing 10 and the hole 22 of the upper housing 20 are coupled to the bolt 21.

In addition, the boiler case 8 is characterized in that the coupling is configured to at least one at the time of boiler construction.

In addition, the material of the upper housing 20 and the lower housing 10 of the boiler case 8 is characterized in that consisting of cement, marble, synthetic resin material or metallic material.

In addition, the plaster finish layer 6 is characterized in that consisting of cement mortar (23), ocher, ceramic, solid wood.

Looking at the process of the boiler construction method using the sand and prefabricated boiler case of the present invention configured as described above are as follows.

After the step of applying the waterproof layer (2) on the bottom layer (1) and the heat insulating material which is the material of the heat insulating layer (3) to be applied on the waterproof layer (2) and the sand (7) and one or more boiler cases to be applied on the heat insulating layer (3) (8) and the heat radiation pipe (5) are prepared.

When the waterproof layer 2 is hardened, a heat insulating material prepared in advance is applied on the waterproof layer 2 to form a heat insulating layer 3, and the sand 7 is coated on the heat insulating layer 3 by 30 mm or more and 70 mm or less, and the sand ( 7) The boiler construction process is completed by assembling at least one boiler case 8 and a heat dissipation tube 5 thereon.

Looking at the effect generated by coating the sand (7) on the heat insulating layer (3), because the sand (7) is not a single cement mass like the heat storage layer (4) of Figure 1 due to the impact generated on the floor The noise is dispersed by a grain of sand (7) to reduce the transmission of noise to the lower floor of the building, it may be even more effective when applied with gravel when applying the sand (7).

In addition, the boiler case 8 is composed of a lower housing 10 and the upper housing 20, looking at the operation and effect of the lower housing 10 as follows.

By constructing a plurality of air compression chamber 13 that can accommodate the air in the lower housing 10, the heat released while the hot water circulated in the heat dissipation pipe 5 is cooled in the air compression chamber 13 The air in the air compression chamber 13 is compressed because the air in the air compression chamber 13 is compressed. In the general boiler construction method, heat is accumulated faster than the time when the heat storage layer 4 made of cement mortar is heated. The floor consisting of 20 can be uniformly heated, and by forming one or more heat dissipation tube grooves 12 which are combined with the heat dissipation tube 5 to uniform the height and spacing at the time of construction of the heat dissipation tube 5. It can be done.

By constituting the upper portion open portion 24 in the upper housing 20, the cement mortar (23) can be put in the open portion 24 in advance before the boiler construction to cure the finishing layer 6 can be made, In the boiler construction according to the present invention, the finishing layer 6 does not need to wait for the cement mortar 23 to harden as in the general boiler construction, and makes the height of the finishing layer 6 uniform. As a load, the heat of the heat dissipation pipe 5 and the lower housing 10 formed under the plaster finishing layer 6 can be evenly transmitted to the entire floor.

In addition, the boiler case 8 is configured by coupling the holes 14 of the lower housing 10 and the holes 22 of the upper housing 20 with bolts 21, so that the bolts 21 The upper housing 20 and the lower housing 10 can be assembled uniformly, wherein the use of the bolt 21 is shown as an example of the coupling configuration of the upper housing 20 and the lower housing 10 and bolts. The boiler case 8 can be combined and configured in various ways other than 21, and anyone can construct the boiler conveniently without the installation technology of the plastering or the boiler.

In addition, by combining the boiler case 8 with one or more during the construction of the boiler, if a part of the heat dissipation tube 5 is leaked water, there is no need to reconstruct the entire floor after removing the entire floor as in the general boiler construction, Find the water leaking part of the heat dissipation tube 5, loosen the bolt 21 of the upper housing 20 to repair only the heat dissipation pipe part 5, and then cover the upper housing 20 of the part again. As a result, the cost can be reduced quickly and economically.

In addition, the material of the upper housing 20 and the lower housing 10 of the boiler case 8 is made of cement, marble, synthetic resin material or metallic material, the cement and marble in the boiler case 8 using a frame In addition, the synthetic resin material and the metallic material can be uniformly shortened the mass production and manufacturing time by injection or press machine using the mold, and the synthetic resin material and the metallic material can be recycled when the building is demolished, which is environmentally friendly.

In addition, the plaster finish layer (6) due to the toxicity emitted from the cement mortar (23) causes a health problem such as skin disease in the human body due to the clay mortar (23) other than the antibacterial action of the clay, ceramics that emit far infrared rays, It can also be made of wood to prevent health problems of the human body.

In addition, the boiler construction method using the sand and the prefabricated boiler case according to the present invention is not limited to the method of constructing the boiler only when the construction of the building, the boiler case ( 8) Only boiler construction can be done.

1: bottom layer, 2: waterproof layer, 3: insulation layer, 4: heat storage layer, 5: heat radiating tube, 6: plastering layer, 7: sand,
8: boiler case, 10: lower housing, 12: heat sink groove, 13: air compression chamber, 14: hole
20: upper housing, 21: bolt, 22: hole, 23: cement mortar, 24: open part

Claims (7)

Applying a waterproof layer (2) on the floor layer (1) of the building,
Applying a heat insulating layer 3 on the waterproof layer 2,
Applying sand (7) on the heat insulation layer (3),
Assembling a boiler case (8) on the sand (7); The boiler case (8) provides a lower housing (10) coupled to the sand (7), provides a heat dissipation tube (5) coupled to the lower housing (10), and the heat dissipation tube (5). Boiler construction method using the sand and prefabricated boiler case, characterized in that the upper housing 20 is configured to combine. The method of claim 1,
The boiler case 8 forms a lower housing 10 in the form of a rectangular box, and forms at least one hole 14 coupled with the lower housing 10, and is coupled with the hole 14 to air. Forming a plurality of air compression chamber 13 that can accommodate the, and the boiler construction method using the sand and prefabricated boiler case, characterized in that the air compression chamber 13 and the heat dissipation tube groove 12 is configured to be coupled . The method of claim 1,
The boiler case 8 forms an upper housing 20 in the form of a rectangular box, forms at least one hole 22 configured to be coupled with the upper housing 20, and an upper surface coupled to the hole 22. The open part (24) is formed, and the open part (24) and the plastering layer (6) is composed of a combination, characterized in that the boiler construction method using sand and prefabricated boiler case. The method of claim 1,
The boiler case 8 is a sand and prefabricated boiler case, characterized in that the hole 14 of the lower housing 10 and the hole 22 of the upper housing 20 is composed of a combination of bolts 21 Boiler construction method The method of claim 1,
Boiler construction method using sand and prefabricated boiler case, characterized in that the boiler case (8) is composed of one or more when the boiler construction. The method of claim 1,
The upper housing 20 and the lower housing 10 of the boiler case 8 is made of cement, marble, synthetic resin material or a metallic material, characterized in that the boiler construction method using a prefabricated boiler case. The method of claim 3, wherein
The plaster finishing layer (6) is a cement construction method using a sand and prefabricated boiler case, characterized in that consisting of cement mortar (23), ocher, ceramic, solid wood.

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