KR101764160B1 - Prefabrication Type ondol panel - Google Patents

Abstract

The present invention relates to an assembly-type ondol (Korean floor heating system) panel. The assembly-type ondol panel is installed on the top surface of a floor slab surface (200) during an ondol construction, can dispose and fix a heating pipe (130) in a zigzag shape in an overall heating region, and has a concave shape. The assembly-type ondol panel comprises: a pipe fixing and protruding unit (110) formed in a rectangular plate-shaped assembly-type block structure molded and produced by mixing an inorganic material binder, a hardening material, and a heat storage material having a heat storage function, and protruding in circular, semi-circular, and fan shapes at regular arrangement intervals on the top surface thereof; a panel body (100) having a pipe seating groove (111) and a pipe fitting groove (113) formed in concave groove shapes in the pipe fixing protruding unit (110), and multiple key grooves (112) formed at a predetermined length to connect adjacent ondol panels to each other by fitting a key-shaped connection fixing bar (140) to the sides of a bottom surface side thereof; and a lid body (120) fitted and inserted to face the pipe seating groove (111) of the panel body (100) after a heating pipe (130) is piped along the pipe seating groove (111) and the pipe fitting groove (113) of the panel body (100), covered while being fitted and inserted into the heating pipe (130), having a top surface coinciding with the top surface of the pipe fixing and protruding unit (110), and maintaining the top end surface of the ondol panel flatly.

Description

Prefabrication Type ondol panel [0001]

The present invention relates to a prefabricated ondol panel. More particularly, the present invention provides an ondol panel to which an inorganic material and a heat storage material are applied. The prefabricated panel has advantages of a wet process due to excellent heat storability and easy construction according to a dry process, The present invention relates to a prefabricated ondol panel which can improve the efficiency of heating and installation by increasing the sound absorption property.

Generally, in a conventional heating installation method for heating indoor space, a heat insulating material is laid on a foundation floor of a house, a heat medium pipe is arranged in a zigzag form on the floor, and the mortar is filled in the upper part of the pipe with the height of gravel, sand and a heat medium pipe I have been doing indoor heating.

In particular, apartment houses intended for residential purposes such as apartment buildings and multi-purpose houses are constructed by laying foam concrete on the foundation floor which is constructed by interlayer frame construction for floor heating, while filling the heating material supplied with hot water, It is constructed by Ondol method by the heating pipe in most of houses in Korea.

As the flooring method for heating the floor by the heating pipe as described above, the flooring method can be roughly divided into a wet method and a dry method.

First, the wet method is a method in which concrete is placed on a floor, that is, a slab structure, and then, when the concrete is hardened, a heating pipe is uniformly installed on the entire floor so that hot water flows thereon. Place the concrete on top of it and then level the floor so that it is flat.

Of course, after curing the concrete until it solidifies, the floor is finished by the wet method when the finish material (for example, the longboard) is applied.

The dry method is a method in which a heat insulating board (i.e., an ondol panel) is placed on a concrete floor for heating and a heating pipe through which hot water flows is installed on the upper surface of the heat insulating board. When the finishing material is covered, the floor is formed by the dry method.

However, the wet method has a problem that it is very vulnerable to impacts between the interlayer noise and vibration, and since the weight of the concrete is heavy and the concrete must be installed over a certain thickness in order to fill the heating material, Therefore, there is a problem in that it takes time to wait for the concrete to be hardened after pouring the concrete, and it is difficult to work in winter.

In addition, it is very difficult to find the leakage point and it is difficult to maintain it because it is necessary to remove the concrete that has been poured in order to check if defects such as leakage of heating material occur.

Accordingly, there has been recently proposed a dry method in which an ondol panel is manufactured and installed so as to complement the drawbacks of the wet method.

For example, Korean Utility Model Registration No. 0324292 (published on Aug. 25, 2003), Korea Registered Utility Model No. 0339209 (issued on April 24, 2004), Korean Patent Publication No. 2005-21749 (issued on March 7, 2005) Korean Utility Model Publication No. 2008-4185 (published on September 26, 2008), Korean Registered Patent Publication No. 1190668 (published on October 15, 2012), and Korean Utility Model Publication No. 2014-132257 (issued on April 17, 2014). Discloses various technologies related to the prefabricated ondol panel.

An embodiment in which the floor heating is installed by the ondol panel of the related art according to the dry method using the ondol panel disclosed in the above prior arts will be briefly described with reference to the accompanying drawings.

FIG. 1 is a sectional view showing an installation state of an ondol panel according to the related art, and FIG. 2 is a perspective view showing the ondol panel shown in FIG. 1 according to the related art.

As shown in Figs. 1 and 2, the floor heating by the conventional dry method is constituted by a concrete slab 10, an ondol panel 20 provided thereon, and a finishing material 30.

The concrete slab 10 has a predetermined strength by mixing cement, sand, aggregate and water at a predetermined ratio and then curing for a predetermined period of time. The concrete slab 10 generally forms a bottom surface and a wall of a building.

The ondol panel 20 is installed on the upper surface of the concrete slab 10 to fix the heating pipe and to heat the heating pipe and is composed of an upper plate member 21 and a lower plate member 23.

The upper plate 21 is made of plastic material such as PVC and has an upper surface formed with a pipe groove 21a into which a heating pipe is inserted, A round protrusion 21c having a substantially circular and semicircular structure and a rhomboid protrusion 21d are formed on the upper surface between the round protrusions 21c.

Fixing protrusions 21b for protruding and fixing the upper plate member 21 and the lower plate member 23 to each other are fixed to the slope front end and the edge of the upper plate member 21, respectively.

The lower plate 23 is in close contact with the upper surface of the concrete slab 10, and is made of styrofoam.

However, the above-mentioned conventional ondol panel has the following problems.

First, since the ondol panel 20 has a structure in which the upper plate member 21 and the lower plate member 23 are assembled to each other, the structure of the ondol panel 20 is disadvantageously complicated.

A heating pipe is inserted into the pipe groove 21a formed on the upper surface of the upper plate member 21 and the upper pipe member 21 is covered with the heating pipe. The round protrusions 21c and the rhomboid protrusions 21d for covering the finishing material 30 with the finishing material 30 are formed on the outer circumferential surface of the outer circumferential surface of the inner circumferential surface An empty space may inevitably be formed between adjacent recesses formed in the periphery, and there is a fear that the recessed portion is recessed when a strong pressure is applied to the finish material 30.

In order to prevent this, it is necessary to use a material having a high strength of the finishing material 30 or to construct the material so that the thickness thereof is not excessively increased. However, in such a case, .

As another method, a method of inserting a heating pipe into the pipe groove 21a of the upper plate member 21 and then filling a supplementary material in the groove existing between the round projection 21c and the rhomboid projection 21d is considered If such a supplementary material is filled in this way, there is a disadvantage that the construction cost is increased and the construction cost is increased.

When the upper plate member 21 of the Ondol panel is made of a plastic material such as PVC, the plastic itself is not only low in heat conductivity, but also has a low heat retention rate Therefore, there is a disadvantage that the efficiency of the ondol heating is deteriorated.

In addition, since the temperature of the heating water continuously flows at a very high temperature, the plastic has a somewhat inadequate aspect for such flooring because of the large heat deformation. In addition, And it is very vulnerable to fire, so that it has been difficult to commercialize it practically in the floor.

Registered Utility Model No. 0324292 of Korea Registered (August 25, 2003, name: Heating Piping Block for Prefabricated Ondol) Korean Registered Utility Model No. 0339209 (2004.04.04, Announcement: Ondol Panel Structure) Korean Patent Laid-Open Publication No. 2005-21749 (published on July 7, 2005, entitled: Korea Public Utility Model Publication No. 2008-4185 (September 26, 2008, name: prefabricated ondol panel) Korean Registered Patent No. 1190668 (October 15, 2012 Announcement: Designed Ondol Floor Panels with Easy Piping Work) Korean Patent Laid-Open Publication No. 2014-132257 (published on Apr. 17, 2014, name: dry ondol construction and dry ondol construction panel)

Accordingly, the present invention has been developed to overcome the drawbacks of the conventional Ondol panel, which is complemented with the problem of the Ondol panel made of the conventional plastic material, and the thermal storage ratio is lowered.

That is, an object of the present invention is to provide an Ondol panel to which an inorganic material and a heat storage material are applied, thereby providing excellent heat storability and sound absorption, as well as realizing ease of construction by performing heating construction by a dry method, Which can accommodate the advantages of a wet process method having excellent storability.

Further, the present invention provides a structure in which the upper lid covers the groove formed on the upper surface of the prefabricated Ondol panel, so that the strength of the floor can be reinforced, and in carrying out the piping work of the heating pipe, And it is an object of the present invention to provide a prefabricated Ondol panel which can improve the efficiency of heating and installation as a result.

According to another aspect of the present invention, there is provided a floor heating system, comprising: a floor heating system for heating a floor slab, In the panel, the ondol panel is formed of a rectangular plate-like assembled block structure formed by mixing a binder material of an inorganic material and a heat storage material having a heat storage function with a hardening material, and has a circular, semicircular, And a pipe fitting groove formed in the shape of a flat groove between the pipe fixing protrusions and a pipe fitting groove and a connecting and fixing bar in the form of a key are sandwiched between the bottom side and the bottom side, A panel main body having a plurality of keyways formed in a length thereof, The heating pipe is inserted along the groove and the pipe fitting groove and is inserted into the pipe fitting groove of the panel body so as to be inserted into the heating pipe and inserted into the heating pipe. The upper surface of the heating pipe is aligned with the upper surface of the pipe fixing projection, And a lid that keeps the top surface of the panel flat.

According to the present invention, 15 to 50 parts by weight of a binder and a hardening material, 30 to 70 parts by weight of a heat storage material and 15 to 35 parts by weight of water are added to the panel body and the cover, Reinforcing mesh or non-woven fabric is laid on the inside of the mold, and then the resultant is demolded after curing for a certain period of time.

At this time, it is preferable to use at least one of lime, gypsum and clay as the binder and the hardening material.

It is preferable that the heat storage material uses at least one of a PS ball, a steel making slag, a shot ball, and a crushed stone.

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According to the present invention, by providing an ondol panel to which an inorganic material and a heat storage material are applied, not only heat preservation and sound absorption are excellent, but also the ease of construction is realized by performing heating construction by a dry method basically, It has the effect of being able to accommodate the advantages of excellent wet process.

According to the present invention, since the heating pipe is piped to the groove portion formed on the upper surface of the panel body constituting the Ondol panel, this portion is covered with the lid, thereby improving the strength of the bottom surface by the Ondol panel .

According to the present invention, there is no restriction on the application of the heating pipe type known in the prior art, and the flexibility of the construction can be ensured regardless of the pipe type in performing the piping work of the heating pipe, So that the efficiency of heating and installation can be improved.

According to the present invention, it is possible to minimize the occurrence of a local temperature difference in the floor of the ondol, as temperature rise and fall gradually progress through the heat storage function while minimizing heat loss transmitted from the heating pipe.

1 is a sectional view showing an installation state of an ondol panel according to a related art.
2 is a perspective view showing the Ondol panel shown in FIG. 1 according to the related art.
3 is a perspective view schematically showing a construction state of the prefabricated ondol panel according to the present invention.
4 is a bottom view showing the bottom surface condition of the Ondol panel to show the connection relationship between the Ondol panels according to the present invention.
5 is a sectional view showing a construction state of the prefabricated ondol panel according to the present invention.
FIG. 6 and FIG. 7 are plan views exemplarily showing the type of piping of a heating pipe installed in the prefabricated Ondol panel according to the present invention. FIG.
8 is a graph showing a result of self-comparison test of heat storage performance in the Ondol panel according to the present invention and the Ondol system using the conventional concrete construction method.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

In order to explain the preferred embodiments of the present invention, the thicknesses of the lines and the sizes of the components shown in the attached drawings may be exaggerated or omitted for clarity and convenience of description, Terms to be given are terms defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator.

In particular, in describing the present invention, terms (or names) that refer to orientations or positions, such as "top," "bottom," "side," and the like, The term " a " is not limited to a meaning of a term itself, and a direction or a position may be changed according to a change of a placement relationship and an arrangement relationship of components, It will be understandable enough.

3 to 5, the prefabricated ondol panel according to the present invention includes a panel body 100 and a lid 120.

Here, the panel body 100 is installed on the upper surface of the bottom slab surface 200 when the ondol heating system is installed, so that the heating pipe 130 can be arranged and fixed in a zigzag form in a whole heating area (I.e., an inorganic material) or a heat storage material.

3, a pipe fixing protrusion 110 protruding from the upper surface of the panel body 100 to fix the heating pipe 130 is formed on the upper surface of the panel body 100. As shown in FIG. 4, Key grooves 112 are formed at four sides of the bottom surface of the panel main body 100 so that the adjacent panel main bodies 100 can be closely contacted with each other and a key-shaped connecting and fixing bar 140 can be inserted and inserted into the key grooves 112 .

The panel main body 100 is formed in a substantially quadrangular plate shape, and the piping fixing protrusions 110 are formed of a circular protrusion and semicircular and fan-shaped protrusions, so that when the adjacent panel main bodies 100 are coupled to each other, And has a shape structure in which projections of a fan-shaped body are engaged with each other and are formed by circular protrusions and are formed by pipe fixing projections 110.

A pipe receiving groove 111 is formed between the circular protrusion forming the pipe fixing protrusion 110 and the semicircular and fan-shaped protrusions in the form of a flat concave groove on which the heating pipe 130 can be seated.

The pipe fitting groove 111 is formed with a pipe fitting groove 113 arranged in a cross shape between the pipe fixing projections 110.

The pipe fixing protrusion 110 protrudes upward from the upper surface of the panel body 100 to a predetermined height, and the degree of protrusion is preferably larger than the diameter of the heating pipe 130.

When the heating pipe 130 is installed in the pipe mounting groove 111 between the circular protrusion and the semi-circular protrusion and the fan-shaped protrusion, the pipe fixing protrusion 110 is larger than the diameter of the heating pipe 130, So that the upper end of the heating pipe 130 does not protrude from the upper surface of the pipe fixing protrusion 110.

3, the piping fixing protrusion 110 formed on the top surface of the panel body has four circular protrusions arranged at a predetermined interval on the central portion of the top surface of the panel body 100, Two semicircular protrusions are formed along the respective sides of the panel body 100 so as to face the protrusions of the circular body, and fan-shaped protrusions having 90 degrees at four corners of the panel body 100 And the like.

A heating pipe 130 is installed in the pipe receiving groove 111 and a cover 120 formed to face the shape of the pipe receiving groove 111 covers the upper portion of the heating pipe 130 after the pipe is completed .

That is, the lid body 120 is formed of the same material as the panel body 100 and is fitted on the pipe mounting groove 111 provided with the heating pipe 130 to cover the heating pipe 130, The upper surface of the lid 120 covering the heating pipe 130 and the upper surface of the pipe fixing protrusion 110 formed on the panel body 100 are aligned with each other to form a flat surface.

A pipe lid groove 122 is formed in the bottom surface of the lid 120 so as to cover the heating pipe 130. The pipe lid groove 122 is formed in the bottom surface of the lid 120 so as to face the pipe mounting groove 111 A downwardly protruding pipe lid protrusion 121 is formed.

As shown in Fig. 3, the edge surface of the lid body 120 has a curved surface structure that is opposed to the edge surfaces of the circular, semi-circular, and sector-shaped protrusions forming the pipe fixing projection 110 Of course.

The pipe lid protrusions 121 are formed in a cross shape so as to be positioned in a straight line with the pipe fitting grooves 113. The pipe lid protrusions 121 form a cross pipe lid groove 122 And is formed with four protrusions having curved surfaces opposed to the edge surfaces of the circular, semicircular, and arc-shaped protrusions that form the pipe fixing protrusions 110 while being flexible.

On the other hand, the panel body 100 is manufactured as a square block formed by mixing an inorganic material and a heat storage material, thereby being manufactured as an ondol panel excellent in heat storability and sound absorption.

To this end, the panel body 100 forming the Ondol panel according to the present invention is made of an inorganic material such as lime and gypsum as a binder and a hardening material and a heat storage material such as a PS ball, steel slag, shot ball, And the binder, the set material, and the heat storage material are mixed and molded at a constant ratio, and the heat storage ratio is improved.

Here, the inorganic material such as lime and gypsum is used as a binder and a hardening material for formability, and it is preferable to use lime and gypsum alone or in combination.

The gypsum (CaSO ₄₂ O) has a colorless calcareous mineral consisting of dihydrate of calcium sulfate, may be added for purposes of formability and the curing efficiency of the floor heating panel in the present invention, the lime (CaO), the present invention For the purpose of improving moldability and curing efficiency while preventing cracking of the ondol panel.

Clay and cement may be selectively added to the binder and the hardener in addition to lime and gypsum.

According to the present invention, it is preferable to use at least one of PS balls, steel slag, and shot balls as heat storage materials used for improving the heat storability of the temperature panel, and if necessary, Mixing is preferred. It is a matter of course that the crushed stone also has a little thermal storage function.

Since the short ball used as the heat storage material is a metallic iron material, it is preferable to perform a rust prevention work for applying the liquid silicate to the surface for preventing the rust of the shot ball, increasing the adhesive strength, and shortening the curing rate.

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15 to 50 parts by weight of a binder and a hardening material, 30 to 70 parts by weight of a heat storage material and 15 to 35 parts by weight of water are added to the Ondol panel according to the present invention, which is made of the above binder, hardener and heat storage material, After putting a certain amount into the Ondol panel mold, the strength reinforcing mesh or nonwoven fabric is laid in the mold and poured. After curing for 6 hours or more, it is demolded and can be manufactured by cutting if necessary.

The manufactured Ondol panel is subjected to a drying process to remove the humidity above a certain level, and it is necessary to make the humidity below 15% by blowing dry and shade wind to prevent warping and twisting phenomenon.

The result of the self-testing of the heat storage effect of the ondol panel according to the present invention produced as described above is shown in FIG.

The graph shown in FIG. 8 is a result of a comparison test when the floor of the box having the same condition is heated by the conventional concrete construction method and when the temperature panel according to the present invention is applied, As a result of the test, as shown in the graph of FIG. 8, it can be confirmed that the temperature rise and fall progress more slowly than the conventional concrete construction method, and the heat storage performance is effected.

That is, although the existing concrete construction method is known as a wet heating construction method, it is known that the thermal storability is relatively excellent. However, when the temperature panel according to the present invention is applied, the heat storage performance is relatively higher I was able to confirm that I was doing it.

Table 1 below is a comparative table comparing the advantages and disadvantages of the dry Ondol panel using wet Ondol and plastic materials with the Ondol panel according to the present invention and the conventionally known concrete construction method.

division Conventional wet Ondol Conventional Plastic Ondol Panel Ondol panel Weight (1 pyeong basis) 200 ~ 300㎏ 70 kg 200 kg
Fuel cost 100% 80%
(Temporary heating effect) 80%
(Heating effect using heat storage material) Construction time (25 square meters) 7 days 1 day 1 day Soundproofing Noise transmission Soundproofing slightly Excellent soundproofing performance Hazard Hazard of cement floor Hazard of plastic material Maintain comfort using environment-friendly heat storage material

Hereinafter, a heating process using the Ondol panel according to the present invention will be described.

First, as shown in FIG. 5, the Ondol panel according to the present invention is installed on a bottom slab surface 200.

That is, the lower surface of the panel main body 100 is in close contact with the bottom slab surface 200.

However, since the bottom slab surface 200 for ondol construction is not emphasized on the surface uniformity due to its construction characteristics, most of the bottom slab surfaces 200 are in a nonuniform state. Therefore, when the ondol panel is directly applied to the uneven surface , The surface of the Ondol panel also becomes uneven, so that the structure becomes unstable with the decrease of the horizontal degree.

Therefore, in order to adjust the level of the Ondol panel, it is preferable to perform the horizontal and flat work on the bottom slab surface 200 using the sand 210.

It is preferable that the resin-based styrofoam or isop pink, which is a heat insulating material 220, is laid on the entire surface before installing the ondol panel, but this is an option on the ondol construction.

Then, the panel body 100 of the ondol panel is laid on the floor where the heat insulating material 220 is applied.

3 and 4, the key grooves 112 formed at the four sides of the bottom surface of the panel body 100 are brought into contact with each other and the connecting and fixing bar 140 is inserted therebetween, The panel main body 100 is connected and fixed to each other.

At this time, the panel main body 100 begins to spread from the portion where the hot water piping comes out, and the silicone or epoxies are applied to the connection fixing bar 140 and fixed to the key groove 112 of the panel main body 100 It is preferable to use the mortar or filler to fit the opposite side corner space where the panel body can not be laid by the same thickness.

When a plurality of panel main bodies 100 are fixed in a plurality of slots through the key grooves 112 and the connecting fixing bars 140, an ondol panel is laid on the floor for heating.

The heating pipe 130 having a desired shape as shown in FIGS. 6 and 7 is inserted through the pipe fitting groove between the pipe fixing projections 110 protruded and formed on the upper surface of the panel main body 100 of the Ondol panel at a predetermined interval Fixed.

At this time, when the heating pipe 130 is to be piped in a zigzag shape in accordance with a snail piping system or a straight piping system, it is piped so as to bend along the outer edge of the circular or semicircular protrusion 110 of the pipe fixing projection 110, U-shaped curved state, so that the arrangement of the heating pipes 130 can be easily implemented in various forms, and the workability is very excellent.

For example, as shown in FIG. 6, the heating pipe 130 may be formed in a staggered shape along the upper surface of the panel body 100 with respect to the entire heating area, and as shown in FIG. 7, The pipe 130 may be formed into a cochlear structure independent of any two or more regions of the entire heating area.

After the heating pipe 130 is piped along the upper surface of the panel body 100 according to a desired arrangement method, the pipe body 120 is covered with the cover 120 in all of the pipe fitting grooves 111 of the panel body 100 .

The lid body 120 keeps the upper surface of the panel body 100 flat so as to prevent depressions of the groove seating groove 111 when the strong pressure is applied to the upper surface of the Ondol panel, As shown in FIG.

Finally, when a floor finishing material (for example, a long plate, a monolith, a tile, a carpet, a Korean paper, or the like) is applied to the upper surface of the panel body 100, the heating piping work in a state in which the ondol panel is laid is completed.

Then, when the hot water flows through the heating pipe 130, the heat of the hot water heats the temperature panel and the bottom finishing material, and the bottom surface for heating is warmed.

At this time, in the state where the heating pipe 130 through which the hot water flows as described above is supported by the upper surface of the panel main body 100 as described above, the heat does not escape downward due to the heat insulating material 220, Since it has a heat storage function, it can store heat for a long time, and it is very excellent in heat storage property.

It will be apparent to those of ordinary skill in the art that many variations are possible within the scope of the present invention.

100: panel main body 110: pipe fixing projection
111: pipe fitting groove 112: key groove
113: piping fitting groove 120: lid body
121: pipe cover protrusion 122: pipe cover groove
130: Heating piping 140: Connection fixing bar
200: bottom slab side 210: sand
220: Insulation material 300: Floor covering material

Claims (5)

The present invention provides a prefabricated Ondol panel installed on a top surface of a bottom slab surface (200) during a heating process for ondol heating, and having a block shape capable of being fixedly disposed in a heating zone in a zigzag manner,
The ondol panel is formed as a square plate-like block structure which is formed by mixing a binder and hardening material of an inorganic material and a heat storage material having a heat storage function, and is formed in a circular, semicircular and fan shape A pipe fitting groove 110 and a pipe fitting groove 113 formed in a flat concave shape between the pipe fixing protrusion 110 and the pipe fixing protrusion 110 and a connecting and fixing bar 140 The panel main body 100 has a plurality of key grooves 112 formed to have a predetermined length so as to connect adjacent Ondol panels with each other and a pipe fitting seat 111 and a pipe fitting groove 113 The heating pipe 130 is inserted into the pipe mounting groove 111 of the panel main body 100 so as to be inserted into the heating pipe 130 and inserted into the heating pipe 130. At the same time, Of the fixed protrusion 110 A pipe lid groove 122 which is coincident with the upper surface and can cover the heating pipe 130 on the bottom surface so as to keep the upper surface of the ODM panel flat and a pipe lid protrusion 122 protruding downward facing the pipe mounting groove 111, And a lid body (120) having a body (121)
The panel body 100 and the cover 120 are prepared by adding 15 to 50 parts by weight of binder and hardening material, 30 to 70 parts by weight of heat storage material and 15 to 35 parts by weight of water and mixing them in a mixing machine. After the injection, the reinforcing mesh or nonwoven fabric is laid on the inside of the mold,
Wherein at least one of lime, gypsum and clay is used as the binder and the hardening material, and at least one of PS ball, steel slag, shot ball and crushed stone is used as the heat storage material.
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