KR200317462Y1 - Assembly panel for heating and air-conditioning by hot and cold water - Google Patents

Abstract

The present invention relates to an assembly panel for heating and cooling using cold and hot water, and is particularly intended to provide a good quality assembly panel with easy construction and excellent heating and cooling efficiency.

In other words, in constructing a heating and cooling device using cold and hot water, the concave part by protruding the protruding frame 210 and the support protrusion 213 formed with the engaging jaw 211 on the edge of the upper body 200 constituting the assembly panel 100 To be configured 220, the cold and hot water induction pipe 224 is disposed on the concave portion 220 in a curved shape, both sides of the cold and hot water induction pipe 224, both ends of the pipe groove formed on the protruding frame 210 It is to be configured to protrude to the outside through (212).

Description

Assembly panel for heating and air-conditioning by hot and cold water

The present invention relates to an assembly panel for heating and cooling using cold and hot water, and in particular, to provide a high quality prefabricated panel with excellent cooling and heating efficiency while being constructed so that the construction can be easily constructed by the general public. In general, a heating device using a prefabricated panel is mainly a heating device using an electric heater.

Therefore, in the heating device using the electric heater, the electric heating wire is installed in a zigzag in the prefabricated panel, and the prefabricated panel is installed on the floor to be heated, but the electric heating wire installed in each prefabricated panel is electrically connected to supply power. If the heating wire is heated to be made.

Therefore, in the case of the prefabricated panel, the heating is generated by the heating of the electric heating wire, and thus the consumption cost is high because of the large amount of electricity consumption. In addition, there was a problem such as not being used in a place where there is a lot of water, such as floor heating or heated flooring of the grass court and heating of garden facilities on the roof of the building when growing vegetables through facilities such as plastic houses.

The present invention constitutes a heating and cooling device using cold and hot water in order to rectify these conventional problems, but by assembling the panel, the cooling and heating device can be easily assembled so that the general public can be easily assembled. In addition, it is constructed to be heated without problems on the floor of facilities such as vinyl house, lawn field, and roof garden of the building.

In order to achieve the above object of the present invention, the heating and cooling device using cold and hot water is configured as a prefabricated panel, but the induction pipe is installed in the prefabricated panel, so that both ends of the induction pipe protrude to the side of the prefabricated panel. By placing the adjacent to the side protruding induction pipes are close to each other so that they are prefabricated to each other, and in the above state, a number of necessary panels are prefabricated.

The prefabricated panel is manufactured by separating the upper body and the lower body, and then the upper and lower bodies are heat-bonded, and a hollow portion is formed between the upper and lower bodies, and at the same time, an arc-shaped groove is formed at the bottom of the lower body to generate vibrations from the bottom. Or reduce noise.

The upper rim and the center of the upper body form a protruding frame and a support protrusion to form a recess, and the recess has a hemispherical groove to form a guide tube, and the recess is filled with a heat storage material and a heat storage material is filled. The upper surface of the main body is a thermal diffusion plate is placed.

1 is a cross-sectional view of the assembly panel of the present invention

2: a state diagram in which the upper body and the lower body are separated in the state of FIG. 1

3: Cross-sectional configuration diagram of the main part of the present invention

4 is an exploded configuration diagram of FIG. 3

5: Connection diagram of the induction pipe constructed in the present invention

Figure 6 is a block diagram of the height adjustment unit configured in the subject innovation assembly panel

7: Perspective view of the upper panel of the present invention

8 is a plan view of the upper panel of the present invention

9 is a plan configuration diagram of another embodiment of the upper panel of the present invention

10: planar configuration diagram of the thermal diffusion plate used in the present invention

11 is a perspective view of the connector cover used in the present invention

12: Construction state diagram using the subject innovation assembly panel

Figure 13 is a plan view of another embodiment of the assembled panel of the present invention

14 is a plan view of another embodiment of the assembled panel of the present invention

15 is a plan view of another embodiment of the assembled panel of the present invention

<Description of the symbols for the main parts of the drawings>

(100)-Assembly panel (200)-Upper body

(210)-Rule (211)-Jump

(212)-Plumbing groove (213)-Supporting protrusion

(214)-Thread (215)-Reinforcement

(220)-Indentation (222)-Hemi-spherical groove

(224)-Induction Pipe (230)-Regenerator

(240)-Thermal Diffusion Plate (241)-Through Hole

(242)-cutting groove (243)-fastener

(250)-Spherical Groove (260)-Hollow

(300)-bottom body (320)-bottom

(330)-Support Body (331)-Jang

(332)-Tightening Nut (333)-Elevating Screw

(334)-Support (335)-Open

(336)-Nuts (337)-Base Plate

(338)-Ball Bearings (339)-Public

(350) (351)-Spherical Groove

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

Cooling and heating assembly panel 100 using the cold and hot water to be provided in the present invention is composed of the upper body 200 and the lower body 300 and the upper body 200 and the lower body 300 is formed by foaming polypropylene resin However, the expansion ratio may be used differently depending on the intended use and use.

In this case, when the load applied to the assembly panel 100 is heavy, the polypropylene resin is low-foam foamed to increase the strength, and when the load does not act greatly, it is ideal to use the high-expanded foam. The material of the upper and lower main bodies 200 and 300 constituting the assembly panel 100 may be molded using various materials such as various kinds of compressed foaming resins, wooden fiber boards and wooden fiber molded bodies.

The shape of the assembly panel 100 is preferably a square, but may be used as a polygon or more square.

The configuration of the upper body 200 is as follows.

7 to 9 is a perspective view and a plan view of the upper main body 200 constitutes a protruding frame 210 on the upper edge of the rectangular upper main body 200, and the protruding frame 210 inside the protruding frame 210 than the protruding frame 210. A slightly lower locking jaw 211 is configured, and the pipe grooves 212 recessed inwardly are formed at the centers of both protruding frames 210, and the support protrusions 213 formed in the shape of a water bump are formed at the center of the protrusions. The concave convex part 220 is configured to be relatively formed, and the reinforcing protrusion 215 through which the screw hole 214 is drilled is formed at each corner of the concave part 220.

In the center of the concave inlet 220 is a hemispherical groove 222 is composed of a Taegeuk pattern, both ends of the hemispherical groove 222 is connected to the through hole 226 of the pipe groove 212 configured in the center of the protruding frame 210. The heat transfer plate 223 is placed on the upper surface of the upper panel 200 of the above configuration, but the heat transfer plate 223 has the same shape as the upper surface of the upper panel 200. The locking jaw 211 and the indentation portion 220 to be in close contact with the hemispherical groove 222 and the support protrusion 213. In this case, the heat transfer plate 223 may be formed by forming a separate metal plate, but may be configured by spraying a metal component having excellent heat transfer by a spray method.

In the above state is installed in the induction pipe 224 configured to allow the cold and hot water flows in the hemispherical groove 222 configured in the inlet 220, both ends of the induction pipe 224 is formed through the two protruding frame 210 Protruding into the pipe groove 212 through the (226).

Filling the heat storage material 230 in the indentation portion 220, the heat storage material 230 may be charged with heat storage materials such as ocher or germanium, stone powder, charcoal powder, jade powder, etc. that can heat storage. The heat storage material 230 is preferably a functional material having a far infrared radiation function and a heat storage function.

As described above, the heat diffusion plate 240 is placed thereon in the state in which the heat storage material 230 is filled in the recess 220, and the through hole 241 is drilled through the heat diffusion plate 240.

Cutting edges 242 are formed at each corner and both center portions of the heat diffusion plate 240 so that the heat diffusion plate 240 is placed on the upper surface of the upper body 200. In the above state, the latching jaw 211 configured to be caught and settled at the same time the central portion is supported by the support protrusion 213 and the reinforcement protrusion 215 protruding on the upper surface of the upper body 200, and the thermal diffusion plate 240 in the above state The heat diffusion plate 240 is fastened to the upper body 200 by fastening to the screw hole 214 of the reinforcing protrusion 215 by using a screw (not shown) in the fastening hole 243.

At this time, the heat storage material 230 having functionalities such as ocher, jade, germanium and charcoal filled in the concave portion 220 of the upper main body 200 is kneaded in water and filled in a state having proper viscosity to be cured while being handled. The heat storage material 230 is powdered and does not leak to the outside through the through hole 241 of the thermal diffusion plate 240.

The bottom surface 202 of the upper body 200 constitutes a plurality of spherical grooves 250 at equal intervals, and fastening holes 204 are formed at each corner of the upper body 200 to form the upper body 200. Configure.

The configuration of the lower body 300 bonded to the lower portion of the upper body 200 is as follows.

The lower main body 300 is configured in a quadrangular shape similar to the outer shape of the upper main body 200, but a plurality of spherical grooves 350 and 351 are formed in the upper surface part 310 and the bottom part 320, and the spherical shape The position of the groove 350 is configured in the same manner as the position of the spherical groove 250 formed on the bottom surface of the upper body 200, and each of the corners of the lower body 300 constitutes a fastening hole 304, but And coincide with the fastening hole 204.

The upper body 200 and the lower body 300 of the above-described configuration is integrally bonded and the joining means may be configured in a number of ways, but in the present invention, the bottom portion 202 and the lower body of the upper body 200. The hollow 260 is formed by the spherical grooves 250 and 350 between the upper and lower main bodies 200 and 300 by heating the surface of the upper surface 310 of the 300 and then bonding them to each other. .

In constructing the assembly panel 100 of the present invention, as shown in Figure 9, the pipe groove 212 configured on the protruding frame 210 of the upper main body 200 may be used to be configured to cross at right angles as described above. In the case of assembly panel of the configuration can be used when you want to change the assembly position of the assembly panel 100 in the perpendicular direction, the rest of the configuration is the same.

The fastening hole 204 configured at each corner of the assembly panel 100 to be provided in the present invention is provided with an adjusting means for adjusting the height of the assembly panel 100.

That is, as shown in FIG. 6, the upper end of the support tube 330 is inserted into the support tube 330 having the locking piece 331 formed in the fastening hole 304 of the lower body 300 constituting the assembly panel 100. The fastening hole 204 of the 200 is configured to protrude upward, and the fastening nut 332 is screwed to the upper end of the support pipe 300 passing through the fastening hole 204, so that the support pipe 300 is assembled with the panel ( Fasten to each corner of 100).

In the state in which the support pipe 330 is fastened to each corner of the assembly panel 100, the lifting adjustment screw rod 333 is screwed to the screw hole formed on the inner surface of the support pipe 300 to be fastened and fastened. An inner surface of the elevating adjustment screw rod 333 inserts the support piece 334 through which the through hole 334 is drilled so that the upper end of the supporting piece 334 protrudes into the upper opening 335 of the elevating adjustment screw rod 333. Then fasten with the nut 336.

At this time, the ball bearing 338 is positioned between the support plate 337 and the lifting adjustment screw rod 333 formed at the lower end of the support piece 334.

Therefore, when the lifting adjustment screw rod 333 screw-assembled to the support pipe 330 is raised and lowered as the lifting adjustment screw rod 333 is raised and lowered, and the support piece fitted to the inner surface of the lifting adjustment screw rod 333 ( 334 does not rotate, but only lifts along the elevating adjustment screw rod 333, which has a ball bearing 338 between the elevating adjustment rod 333 and the support plate 337 formed on the support piece 334. Even if 333 rotates, the support piece 334 does not cause a problem in operation even if the support piece 334 is raised and lowered only.

In constructing the assembly panel 100 of the present invention, it may be used to be configured as shown in Figure 13 to 15.

That is, as shown in FIG. 13, the hemispherical groove 222 formed in the concave inlet portion 220 of the upper main body 200 constituting the assembly panel 100 is configured as a taeguk pattern, and guide pipes are formed in the hemispherical groove 222. It is also possible to smooth the flow of cold and hot water by placing the (224) is inserted.

In addition, as shown in FIGS. 14 and 15, the hemispherical groove 222 configured in the concave portion 220 of the upper main body 200 constituting the assembly panel 100 is configured as a taeguk pattern, but the hemispherical groove 222 is once It may be configured to be wound more and to widen the heating and cooling area by allowing the induction pipe 224 to be inserted into the hemispherical groove 222.

Reference numeral 400 is a connector, 404 is a connector cover, 410 is a cold and hot water inlet, 412 is a cold and hot water outlet, 414 is a cold and hot water inlet, 416 is a cold and hot water outlet.

Construction of the assembly panel 100 of the present invention configured as described above is as follows.

First install one piece of the assembly panel 100 on the floor to be installed, but the end of the guide pipe 224 configured in the assembly panel 100 is directed toward the other assembly panel 100 to be assembled.

In the above state, while installing another assembly panel 100 on the side where the end of the induction pipe 224 is located, the end of the induction pipe 224 configured on both side assembly panel 100 to face each other.

As shown above, both ends of the induction pipe 224 are assembled and connected to each other by using the connection pipe 400 as shown in FIG. 12 in a state in which the ends of the induction pipe 224 face each other. Ideally, it is evenly applied and then assembled.

At this time, the connection pipe 400 can expect a quick and convenient connection using the heat shrink pipe.

That is, when both ends of the induction pipe 224 is fitted with a connection pipe 400 composed of a heat-shrink tube, the outer surface is heated so that the connection pipe 400 is contracted firmly to the outer surface of the induction pipe 224 so that complete assembly is achieved. do.

As shown in FIG. 12, the necessary number of assembly panels 100 are arranged on the floor 408 to be assembled, and the auxiliary panels compression-molded with a separate foamed resin are provided on the floor on which the assembly panels 100 are not laid. The panel 406 is laid to handle the part where the assembly panel 100 is not laid, and at the same time, the cold and hot water inflow pipe 414 is connected to the end of the induction pipe 224 configured in the assembly panel 100, and the cold and hot water discharge pipe 416 is connected to the end of the induction pipe 224 of the last assembly panel 100 connected to the induction pipe 224 composed of a plurality of assembly panels 100, the cold and hot water inlet pipe 414 and the outlet pipe 416 ) Is connected to the boiler.

As described above, when the assembly of the plurality of assembly panels 100 on the floor is completed by using a level on each assembly panel 100 is adjusted to a horizontal state.

At this time, if one side of the assembly panel 100 is measured as a result of measuring using a leveler to adjust the height by using the lifting adjustment screw rod 333 fitted in the fastening holes 204, 304 of the assembly panel 100. It becomes possible.

That is, when one side of the assembly panel 100 is low, when the lifting adjustment screw rod 333 located at the lower side is rotated, the lifting adjustment screw rod 333 fitted to the support pipe 330 rotates and descends, but the ball bearing 338 is lowered. As a result, the support piece 334 does not rotate, but only descends along the elevating adjustment screw rod 333, and thus the lower side of the assembly panel 100 is raised, so that the horizontal state of the assembly panel 100 can be adjusted. .

Contrary to the above, in order to lower the height of one side of the assembly panel 100, the lifting adjustment screw rod 333 is rotated in the opposite direction to the above so that the lifting adjustment screw rod 333 screwed to the support pipe 330 rises. The lower surface of the support piece 334 also rises, so that the high position of the assembly panel 100 is lowered and in this way the state of the entire assembly panel 100 is adjusted horizontally.

Cold and hot water induction pipe 224 composed of a plurality of assembly panels laid on the floor is completed through the connection pipe 400, at the same time when the horizontal state adjustment of the assembly panel 100 is completed, each assembly panel 100 By connecting the connector cover 404 to the pipe groove 212, which provided a connection space for the connection of the cold and hot water induction pipe 224 of the cold and hot water induction pipe 224 in the incision 406 formed at the bottom The pipe groove 212 formed in the assembly panel 100 is filled by the connector cover 404 to maintain a parallel horizontal state.

As described above, when the connection pipe cover 404 is inserted into the pipe groove 212 of the assembly panel 100 and the coupling is completed, the construction of the assembly panel is completed by installing the flooring material on the assembly panel 100.

At this time, the floor covering laid on the assembly panel 100 can be used to spread the flooring made of various materials such as jangpan, wooden floorboard, stone plate according to the user's preference.

As described above, when the boiler is operated for heating while the construction of the assembly panel 100 is completed on the floor, the heating is performed while the hot water is circulated by the circulation pump (not shown). There is a difference.

In other words, the assembly panel 100 to be provided in the present invention is that anyone can be easily and simply assembled without a professional construction technician.

That is, the assembly panel 100 is placed close to the floor to be constructed, and then the cold / hot water induction pipe 224 configured to protrude into the pipe groove 212 of the assembly panel 100 is connected to the pipe 400 and the pipe groove. Put the connector cover 404 on the coupling (212), and adjust the height of the assembling panel 100 using the elevating adjustment screw rod 333 configured at each corner of the assembly panel 100 and the desired type thereon Since it is necessary to lay the flooring, anyone who is not a professional construction engineer can easily install it.

In addition, heating and cooling is done by using the assembly panel, but it is made by circulation of cold and hot water, so the heating and maintenance cost is low, and it can be used for floor heating of the vinyl house, lawn field, and roof garden facilities of the building regardless of the installation place. have.

At this time, the connection portion for connecting the cold and hot water induction pipe 224 to each assembly panel 100 is configured in a straight line or a gentle curve form without bending as possible does not hinder the circulation of cold and hot water.

In particular, the cold and hot water induction pipe 224 is arranged evenly in the front while drawing in a gentle curved form in the assembly panel 100 to smoothly flow the cold and hot water as well as to evenly heat the entire area of the assembly panel 100.

Assembly panel 100 to be provided in the present invention is not only rapid heating is made can be maintained for a long time heating state is economical and efficient heating.

That is, when the hot water is circulated into the cold and hot water induction pipe 224 for heating, the cold and hot water induction pipe 224 is heated first, and when the cold and hot water induction pipe 224 is heated, the heat transfer plate 223 located in the hemispherical groove 222. ) Is heated, and the heat transfer plate 223 is made of a metal material having good thermal conductivity, so that heat is quickly transmitted to the entire surface.

When heat is transferred to the front surface of the heat transfer plate 223, the heat transfer plate 223 located on the engaging jaw 211 and the support protrusion 213 and the reinforcement protrusion 215 formed on the protruding frame 210 of the assembly panel 100. ) Is also heated, so that heat is transferred to the heat diffusion plate 240 in contact with it, and thus rapid heating is achieved.

As described above, as the heat of the hot water is gradually transferred to the heat storage material 230 filled in the concave portion 220 of the assembly panel 100 as time passes after the first transfer is completed to the thermal diffusion plate 240. It is heated.

It takes some time for heat to be transferred to the heat storage material 230, but the heat storage function has a heat storage function so that the heat once heated is not easily cooled and lasts for a long time, thereby reducing the need for hot water for heating, thus reducing heating costs. You can expect. At this time, the material of the upper and lower body 200, 300 constituting the assembly panel 100 is made of a foam resin with excellent thermal insulation, so that the heated heat is blocked without being transferred down, thereby achieving more effective heat transfer.

In particular, the heat storage material 230 is composed of functional materials such as ocher, ceramic jade, germanium and charcoal, so that not only far-infrared rays are radiated from the materials but also the radiation of far-infrared rays increases when heated, so that a health effect can be expected. It becomes possible.

In addition, the materials have a function of blocking water veins that are known to be harmful to health, and prevents the habitat of harmful insects such as mites, cockroaches, ants, etc., thus creating a pleasant and hygienic environment.

In addition, the assembly panel 100 to be provided in the present invention is configured by thermally bonding the upper body 200 and the lower body 300 made of foam resin, the hollow portion 260 between the upper and lower body 200, 300 The bottom portion 320 of the lower main body 300 has a spherical groove 351 is disposed at equal intervals can significantly reduce the phenomenon that the noise or vibration generated from the upper side of the assembly panel 100 is transmitted to the lower side. This will solve the problems caused by the noise between floors.

In the case of cooling by using the assembly panel 100 of the present invention, when cold cold water is circulated in the cold and hot water induction pipe 224, the circulating cold water absorbs the surrounding heat, thereby cooling the room temperature. Therefore, a cooling effect can also be expected.

If necessary, if you install the assembly panel 100 to be provided in the present invention on the inner wall during the construction of the wall construction not only enhances the heating and cooling effect of the room, but also can be expected to block the sound insulation, even in this case the circulation of cold and hot water The forced circulation system by the circulation pump does not interfere with the circulation of cold and hot water.

The present invention configured as described above uses an assembly panel for cooling and heating, but installs an induction pipe for circulating cold and hot water on the inner surface of the assembly panel to allow cooling and hot water to be circulated, thereby using an assembly panel configured to circulate cold and hot water. Cooling and heating is possible, and in particular, it is easy to construct assembling panel, so that everyone can easily construct and at the same time, it can be installed and used without regard to the installation place at low cost and can expect efficient heating effect. There is such an effect.

Claims (2)

In constructing a cooling and heating device using cold and hot water, the concave portion 220 is formed by protruding the protruding frame 210 to the edge of the upper body 200 constituting the assembly panel 100, the concave portion 220 The hot and cold water induction pipe 224 is disposed in a curved shape on both sides of the cold and hot water induction pipe 224, characterized in that the both ends of the protruding to the outside through the pipe groove 212 configured on both sides of the protruding frame (210). Assembly panel for heating and cooling using cold and hot water. According to claim 1, Protruding frame (210) constitutes the engaging jaw 211, and in the concave inlet portion 220 formed in the upper body 200 constitutes the support protrusion 213 and the hemispherical groove (222) The heat transfer plate 223 is positioned in the concave inlet 220 and the hemispherical groove 222, and the lower main body 300 is positioned at the bottom of the upper main body 200, while the hollow part 260 is formed therebetween. Assembly panel for heating and cooling using cold and hot water, characterized in that.