KR200351874Y1 - A fabricated hot-water heating system. - Google Patents

Abstract

The present invention relates to a hot water piping system for heating, to ensure that the heat is distributed evenly throughout the floor, and the construction is good as a prefabricated construction, as well as a hot water piping system having a good bearing capacity for the load action on the floor according to the dry operation will be.

The object of the present invention is to install a pipe in close proximity between the inlet and outlet pipes alternately at intervals of three times and at regular intervals in the piping system zigzag wiring for even distribution in the heating area in the piping system Is achieved.

It is provided with a hot water pipe support plate coupled to the heat transfer plate on the upper surface of the styropole to support the pipe, each having a pipe groove consisting of a first plate, a second plate, and a third plate, between the first plate This is done by placing channels of the same height (thickness). The groove formed in each plate is formed to have a reverse ohmic cross section.

And the first plate is achieved by drilling a plurality of holes in the heat transfer plate in the planar portion excluding the groove.

Description

Prefabricated hot-water heating system. {A fabricated hot-water heating system}

The present invention relates to a hot water piping system for heating, and to a dry hot water piping system that can be piped prefabricated rather than wet construction by mortar, in particular to make the hot water pipe evenly distributed throughout the floor, It is a prefabricated construction, as well as a hot water heating system having a good bearing capacity for load acting on the floor according to the dry operation.

Normally, a heating hose for plumbing for heating a building by supplying heating water from a boiler is installed wrapped in cement on an indoor heating floor.

In other words, in general, the heating structure of most houses except for officetels or apartments of some buildings is made by installing a boiler and installing piping connected to the boiler inside the floor, and then plastering it with cement mortar. 1 is a cross-sectional view showing the bottom portion of the room in which the pipe of the boiler is embedded.

Referring to Figure 1, the above-described heating structure is a heating hose (2) connected to the boiler on the concrete layer (1) already cured by the formwork for the construction of the house is mainly provided in a grid form, the heating hose ( 2) is embedded and cement mortar (3) is plastered.

In such a configuration, various flooring materials are attached to the cement mortar 3 to form a floor of a house, and the hot water proceeds to the heating hose 2 by the boiler, and the heating hose 2 and The heat is transferred to the cement mortar (3) and the house is heated by the heat diffused into the room through the floor and the floor.

In the above-described heating structure of the house, the conventional cement mortar 3 is formed by mixing and mixing cement, sand and water at a constant magnification.

For reference, the material of these heating hoses is mainly P.E. It is formed of a synthetic resin such as P.P., which allows free bending.

Until now, the heating hose is temporarily fixed with cement mortar while temporarily fixed to the concrete layer as described above.

However, it is not easy to temporarily fix the heating hose to the concrete floor, so that the phenomenon of floating in the middle of the work occurs, and there is a problem that acts as a cause of increasing the thickness of the cement mortar to compensate for this, and thus construction The cost rises.

In addition, there is a problem in that it is difficult to fix the heating hose, it is difficult to use a beginner, so that a worker with work proficiency must be put in, thus increasing labor costs.

In addition, when the cement mortar is used as described above, there is a problem in that the construction is delayed because other operations cannot be performed until the mortar layer is hardened.

In view of the problems caused by the wet construction, there has been provided a technique of piping using a joint block in dry construction, but there is a problem that the unit cost of the block is high, and it is difficult to match the entire flatness of the floor and the block.

Accordingly, a panel having a heating plate attached to an upper surface of the styrofoam has been provided, and a semicircular groove is formed in the plane of the panel to allow construction of hot water pipes. However, this construction is extremely limited due to the overall distortion of the metal plate and the weak force against the load applied to the floor after installation.

Therefore, the present invention was conceived in view of the above problems, and the object of the present invention is to distribute the hot water pipe evenly over the entire floor, and its construction is good as a prefabricated, as well as the load action on the floor according to dry work. It is to provide a hot water heating system with good support.

The object of the present invention is to install a pipe in close proximity between the inlet and outlet pipes alternately at intervals of three times and at regular intervals in the piping system zigzag wiring for even distribution in the heating area in the piping system Is achieved.

It is provided with a hot water pipe support plate coupled to the heat transfer plate on the upper surface of the styropole to support the pipe, which is the first plate and the inlet and outlet of the rectangular planar inlet and outlet pipe joining grooves, and the adjacent plate of the first plate A second plate having semi-circular arcs with a predetermined interval to bend and join the water pipes, and a third plate having semi-circular arc-shaped conversion grooves formed at the point where the inlet / outlet pipes of the half points of the pipes are switched. Understand,

The channel having the same height (thickness) is provided between the first plates.

The groove formed in each plate is formed to have a reverse ohmic cross section having protrusions at both ends of the opening.

And the planar part except the groove | channel of a 1st plate is made by perforating a some hole in a heat exchanger plate.

On the other hand, as another embodiment it may be achieved by forming an embossed groove in the planar portion excluding the groove of the first plate.

1 is a cross-sectional view of a conventional hot water pipe installation state.

2 is a plan view of the installation state of the present invention,

Figure 3a, 3b, 3c is a perspective view of the first to third plates of the heat transfer plate of the present invention.

4 is a cross-sectional view taken along the line AA ′ of FIG. 2.

5 is an enlarged view illustrating main parts of FIG. 4;

6a and 6b is a first plate perspective view and a cross-sectional view of another embodiment of the present invention.

This will be described below in more detail by the accompanying drawings of the present invention.

Figure 2 is a plan view of the installation state of the present invention, Figures 3a, 3b, 3c is a perspective view of the first to third plates of the heat transfer plate of the present invention, Figure 4 is a cross-sectional view taken along line AA 'of Figure 2;

5 is an enlarged view illustrating main parts of FIG. 4, and FIGS. 6A and 6B are a perspective view and a cross-sectional view of a first plate according to another embodiment of the present invention.

In the piping system for hot water heating, the inlet pipe 10A is continuously piped at three times wider intervals (3t) and at a predetermined interval (t) for the pipe intervals zigzagly piped (10) to distribute heating in an even area. At the point (a) at which the inlet pipe 10A is switched to the outlet pipe 10B, the inlet pipe 10A is interposed between the three times interval 3t to include the inlet pipe constant interval t, and between the three times the inlet pipe. It characterized in that the water outlet pipe 10B is continuously installed at a predetermined interval (t).

That is, as shown in FIG. 2, the water inlet pipe 10A from the boiler B is spaced apart from the primary bent part 11 by three times the interval 3t of the normal pipe spacing t, and the secondary bent part. In (12), a continuous pipe having a constant interval t is formed, and the outlet pipe 10B and the inlet pipe 10A coming back from the half point (a) of the pipe are adjacent to the outlet pipe at a constant interval t. 10B) the first bent part 16 is bent at three times the interval (3t) and piped in the form surrounding the water inlet pipe of the predetermined interval (t), after which the second bent part (17) t) to be interposed between the inlet pipes 10B at three times the interval 3t.

Meanwhile, a hot water pipe support plate 20 having a heat transfer plate 22 coupled to an upper surface of the styropole 21, which is a heat insulating support material for supporting the pipe 10, is provided in a rectangular planar shape and obtained in parallel at a predetermined interval t. And a first plate 20A having a water outlet pipe coupling groove H formed therein,

A second plate 20B having a pair of semi-circular grooves H formed to be inscribed at a predetermined interval so as to be bent and coupled to the adjacent plate of the first plate by coupling;

Generally, it consists of the 3rd plate 20C which formed the semi-circular arc-shaped conversion groove | channel H in the point where the inflow-and-exit pipe of 1/2 pipe | tube is switched.

The first plate 20A is interposed between channels 30 having the same height (thickness).

This channel 30 serves to improve the bearing capacity by providing a suitable force to support the load to be loaded on the bottom plate of the present invention of relatively low strength.

The groove H formed in each plate is formed to have an inverse ohmic cross section having protrusions 24 at both ends of the opening 23.

As shown in FIG. 5, when the pipe 10 is coupled to the groove H, the pipe 10 elastically rides over with the pipe to be seated and inserted therein, thereby preventing the pipe 10 from being lifted out of the opening 23 after the pipe is mounted. Have

The plurality of holes 22A are drilled in the heat transfer plate 22 in the flat portion except for the groove H of the first plate 20A.

6A and 6B, the embossing grooves 22B may be formed in the styropole 21 and the heat transfer plate 22 of the planar portion except for the grooves of the first plate.

The present invention configured as described above is that the hot water pipe spacing of the present invention, as shown in Fig. 2 is alternately piped at a regular interval (t) and three times the interval (3t). This is the effect of the hot water is properly generated heat near the inlet portion when piping as in the prior art, the heating effect is reduced by the heat exchanged and cooled hot water reaches the end point. This is a part of the room is warm, but some of the lukewarm form of the hot water heating is not evenly distributed to achieve the effect of fundamentally improving.

In the present invention, the hole 22A or the embossed groove 22B formed in the heat transfer plate 22 of the first plate 20A is formed, but not shown, by forming an air layer between a bottom plate such as a slate plate, which is covered thereon. The air heated in the hot water pipe forms a hot air layer that stores heat for a certain time, thereby improving energy efficiency. In addition, it absorbs the noise, thereby improving the sound insulation effect of the noise and reducing the impact from the outside.

Since the heat exchanger plate is formed of an aluminum plate, the heat transfer effect is excellent, and as the hole is drilled, the heat transfer plate not only eliminates the distortion of crying, but also reduces heat conduction in conducting heat, thereby achieving rapid heat transfer.

In addition, due to the material properties of the heat transfer plate made of aluminum, it is easy to remove the hole 22A, and the groove H also has an advantage of easy processing.

The present invention is constructed and functioned as described above has the effect of forming a layer of air by the perforation of the heat transfer plate, as well as shock absorbing, as well as the sound insulation membrane to function as a heat shield as well as a noise shield and thermal insulation.

In addition, there is an effect of improving the defect that the material is lifted by the phenomenon of crying of the whole plate due to not perforated.

Of course, there is a price reduction allowance due to the perforation of the heat-transfer plate, which is an expensive material, and it is easy to join the pipe into the groove of the ohm-shaped cross section, which makes the construction simple and completely excludes the phenomenon of falling out again after joining once.

Claims (5)

In the piping system for hot water heating, the inlet pipe 10A is continuously piped at three times wider intervals (3t) and at a predetermined interval (t) for the pipe intervals zigzagly piped (10) to distribute heating in an even area. At the point (a) at which the inlet pipe 10A is switched to the outlet pipe 10B, the inlet pipe 10A is interposed between the three times interval 3t to include the inlet pipe constant interval t, and between the three times the inlet pipe. Prefabricated hot water heating system, characterized in that the water outlet pipe 10B is continuously installed at a predetermined interval (t). The method of claim 1. In providing a hot water pipe support plate 20 coupled to the heat transfer plate 22 on the upper surface of the styropole 21, which is a heat insulating support material for supporting the pipe 10, and obtained in parallel at a predetermined interval (t) in a rectangular planar shape. A first plate 20A having a water outlet pipe coupling groove H formed therein; A second plate (20B) having a pair of semi-circular grooves (H) which are inscribed at regular intervals to be bent by coupling the inlet / outlet pipes to adjacent plates of the first plate; A third plate 20C having a semicircular arc-shaped conversion groove (H) formed at a point (a) at which half of the pipes of the inlet / outlet pipes are switched; And Prefabricated hot water heating system, characterized in that between the first plate (20A) through a channel (30) of the same height (thickness). 3. The prefabricated hot water heating system according to claim 2, wherein the groove (H) formed in each plate is formed to have a reverse ohmic cross section having protrusions (24) at both ends of the opening (23). The prefabricated hot water heating system according to claim 2 or 3, wherein a plurality of holes (22A) are drilled in the heat transfer plate (22) of the flat portion except for the groove (H) of the first plate (20A). The prefabricated hot water heating system according to claim 2 or 3, wherein an embossed groove (22B) is formed in the styropole (21) and the heat transfer plate (22) of the flat portion excluding the groove of the first plate.