KR101790785B1 - Hot and cold water pipes for hot water panels - Google Patents

Abstract

A cold / hot water pipe for a hot water panel, comprising: a lower panel (10) having a heating pattern groove (12); a cold / hot water pipe (20) coupled to a heating pattern groove (12) The upper surface of the cold / hot water pipe 20 is coupled to the upper panel 10 to which the cold / hot water pipe 20 is coupled, so that heat is conducted from the cold / hot water pipe 20, In the hot water panel formed by the panel 30, the cold / hot water pipe 20 forms a rectangular cross-section so as to enlarge the contact area through surface contact with the upper panel 30, and hot water or cold water A circulation pipe main body 100 having circulation circulation flow path 110 formed therein; Wherein at least one or more downwardly protruding portions are formed on the lower surface of the rectangular pipe body 100 so as to support a support, and the cold / hot water pipe 20 is connected to the heating pattern groove 12 through air And a support protrusion 200 formed so as to be capable of absorbing heat and shocks, and is easy to install, minimizes heat loss, and can efficiently use a heat source, The present invention relates to a cold / hot water pipe for a hot water panel capable of heating and cooling through selective circulation of hot water and cold water.

Description

Hot and cold water pipes for hot water panels {Hot and cold water pipes for hot water panels}

The present invention relates to a cold / hot water pipe for a hot water panel, and more particularly, to a cold / hot water pipe for a hot water panel, which comprises a cold / hot water pipe fitted into a heating pattern groove of a hot water panel in a rectangular shape, And the heating pipe is fitted into the heating pattern groove to form an air cell insulation layer, so that the hot water panel can prevent the cold or the heat from being blocked from the bottom surface, Hot water pipes for panels.

 In general, there are two types of indoor heating methods: indirect heating, which warms the air by the stove, and direct heating, which warms the floor directly, such as the ondol. Korea has long been a direct heating system that warms the floors directly like the ondol, and this type of direct heating system is currently preferred to circulating hot water.

Such a hot water circulation method is divided into a wet method in which a hot water circulation pipe (hot water pipe) is installed on the floor, a wet method in which the hot water circulation pipe is cemented with cement or the like, and a dry method in which a heating panel having a hot water circulation pipe is assembled.

The wet method described above requires a long time to cure the cement, so that the place of installation is limited, and when the facilities such as hot water pipes are broken, the maintenance work is also difficult. As a typical example of such a wet method, the most common construction method currently being applied to most houses is a method of using an XL pipe.

The above-mentioned excel pipe is formed as a hot water heat pipe by zigzag-shaped pipes at regular intervals with respect to the floor of the heating floor, and the floor of the Ondol floor is filled with the cement mortar between the pipes and the upper surface. In the above-mentioned wet type process equipment, a heat pipe installation structure for piping and fixing an excel pipe in a zigzag shape at regular intervals and a structure for forming a floor heating floor due to the installation of a cement mortar, It is an important factor that affects quality.

Conventionally, in a construction method of piping an XL pipe to a heat pipe, it is difficult to fix an Excel pipe, a long construction time, low durability of a floor heating and low heat generation effect, There is a problem that the quality of the hot water ondol is low.

Meanwhile, in addition to the problems of the construction time and the construction cost in the piping construction methods for fixing the above-mentioned pipe pipe hot water heat pipe to the floor of the heating, the hot water heating pipe materials and construction constructions provided up to now have problems such as the quality of the hot water heating floor, There are also problems.

In the installation of the cement mortar for forming the floor heating floor, the cement mortar layer is filled with a thin layer at the lower end of the heat pipe of the hot water pipe of the hot water pipe, so that the cement mortar layer under the heat pipe is easily broken during use, There is a problem in that the heating efficiency of the heating floor is remarkably lowered because the area of contact between the cement mortar floor heating floor and the heating surface of the hot water heat pipe is decreased and the heat transfer rate of the heating heat is lowered.

In addition, in the construction structure for fixing the hot water heat pipe, when the heat-insulating styrofoam with a thin thickness is used, the material cost is reduced and some heat insulation effect is obtained. However, Layer floor heating floor can not be expected to reduce the inter-floor noise.

There is a hot water panel disclosed to solve the above problems. In the hot water panel, a pipe for heating is installed in the finished product, and the hot water panel is connected to each other to enable indoor heating.

In such a hot water panel, usually, a joining groove for joining the hot water pipe to the lower panel is formed. The joining groove has a joining groove formed in various heating patterns, a round hot water pipe is coupled on the joining groove, Panels are combined and completed.

In such a conventional hot water panel, the hot water pipe which is coupled to the inside of the conventional hot water pipe has a substantially circular shape, and the groove portion of the coupling groove is formed to correspond to the shape of the outer periphery of the circular pipe, Are used in combination.

However, since the hot water pipe coupled to the conventional hot water panel is formed in a circular shape, the following problems are caused. First, since the cross-section takes a circular shape, the contact area due to heat radiation to the upper panel is point contact with respect to the cross-section, and the line contact is taken with respect to the entire longitudinal direction so that the conduction area of the heat source There is a problem of low efficiency and low heat use.

Secondly, by using the circular hot water pipe, the lower side contact area of the hot water pipe is enlarged by forming the coupling groove in a corresponding shape so as not to be idled or separated from the coupling groove, Resulting in a reduction in thermal efficiency due to cold transfer.

Thirdly, although the heat loss of the hot water pipe is generally reduced through the heat insulating function from the bottom through a part of the heat insulating material, the heat conductive area of the floor is enlarged as described above, which causes a problem of a large heat loss.

In order to overcome such a problem, the upper panel is also formed by forming an engagement groove corresponding to the shape of the upper outer circumference of the round hot water pipe, but it is very difficult to fit the hot water pipe to the engagement groove of the upper panel, Is lowered. In addition, because of the shape of the circular hot water pipe, the productivity is lowered and the productivity is lowered.

To solve this problem, a rectangular hot water circulation hose disclosed in Korean Patent No. 10-1465681 is disclosed. In the hot water circulation hose, a hot water circulation passage is formed inside, a frame and a contact surface are formed to be wide, Sectional shape is formed in a square shape and both upper corners are chamfered in a circular shape to reduce the bending of the corner portion at the time of bending and are excellent in heat resistance and workability to prevent deformation due to high temperature heating water And is formed of EPDM material.

However, the square hot water pipe introduced as the conventional hot water circulation hose has the heat conduction area enlarged in the surface contact state, but both the upper and lower portions are formed in the surface contact form, so that the heat loss due to the cold air from the floor is also formed, There is a problem that it is not so different from the circular hot water pipe.

In addition to being advantageous in that it is more stable in joining to the frame, it is difficult to find a structure for efficiently using the heat source and reducing the heat loss in order to save energy. Thus, it is not different from the conventional circular hot water pipe.

1. Korean Unexamined Utility Model Publication No. 20-19990-0015964, September 03, 1990. 2. Korean Patent No. 10-1465681, November 20, 2014.

Accordingly, the present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a cold / hot water pipe having a rectangular shape and having an upper part formed to increase the contact area through surface contact so as to improve thermal conductivity, And at least one support protrusion is formed at a lower portion of the heating pattern groove so as to form an air cell heat insulating layer so as to minimize the contact area through line contact and to insulate by the air cell insulation layer, And it is an object of the present invention to provide a cold / hot water pipe for a hot water panel that can be stably bonded to a hot water panel and can be easily assembled to improve production efficiency.

In addition, the present invention circulates cold water in addition to heating through hot water, quickly absorbs the heat source of hot air of the outside air from the upper surface where the contact area according to the surface contact of the square cold / hot water pipes is enlarged, Another object of the present invention is to provide a cold / hot water pipe for a hot water panel which can be cooled.

To achieve these and other advantages and in accordance with the purpose of the present invention, as embodied and broadly described herein, there is provided a cold / hot water pipe for a hot water panel, comprising: a lower panel having a heating pattern groove; (20) is coupled to an upper portion of the lower panel (10) to which the cold / hot water pipe (20) is coupled so that heat is conducted from the cold / hot water pipe (20) In the hot water panel formed by the upper panel 30 contacting with the upper panel 30, the cold / hot water pipe 20 forms a rectangular cross-section so as to enlarge the contact area through surface contact with the upper panel 30, A circulation pipe main body 100 having a circulation flow path 110 in which hot water or cold water is circulated; Wherein at least one or more downwardly protruding portions are formed on the lower surface of the rectangular pipe body 100 so as to support a support, and the cold / hot water pipe 20 is connected to the heating pattern groove 12 through air And a support protrusion 200 formed to cover the air cell insulation layer 300, which is partitioned in a state of being filled with air, to be adiabatically and shock-absorbed.

The area of contact between the upper surface of the upper portion of the circulation pipe body 100 and the upper panel 30 is further increased so that hot water or cold water circulated through the circulation channel 110 can be efficiently conducted and absorbed. And the expansion pipe body 100 can be easily disengaged from the heating pattern groove 12 in the field for the maintenance or replacement of the circulation pipe body 100 joined to the heating pattern groove 12, (400) is formed horizontally symmetrically to the left and right of the upper surface of the circulation pipe body (100).

Here, the circulation pipe body 100, the support protrusions 200, and the extended contact pieces 400 constituting the cold / hot water pipe 20 are thermoplastic rubber (TPR) which is a thermoplastic rubber.

A sealing film is formed on the lower surface of the lower surface of the circulation pipe body 100 in which the support protrusions 200 are formed to form air cell insulation layers 300 inside the heating pattern grooves 12 to which the support protrusions 200 are coupled So as to maintain the airtightness.

In the present invention, a rectangular cold / hot water pipe is formed, and the upper part is formed so as to increase the contact area through surface contact so that the thermal conductivity can be improved so that efficient heat use can be achieved. At least one support protrusion is formed to form a heat insulating layer, minimizing the contact area through line contact and insulating by the air cell insulation layer, minimizing thermal conductivity from bottom cooling or heating, It is possible to increase the efficiency and circulate the cold water in addition to the heating through the hot water to rapidly absorb the heat source of the hot air of the outside air from the upper surface where the contact area due to the surface contact of the rectangular hot / It has the advantage of being able to cool the floor through.

1 is an overall perspective view of a hot water panel provided with a cold / hot water pipe for a hot water panel according to the present invention.
2 is an exploded perspective view of a hot water panel provided with a cold / hot water pipe for a hot water panel according to the present invention.
3 is an enlarged perspective view of the cold / hot water pipe for a hot water panel according to the present invention.
4 is an enlarged cross-sectional view of a cold / hot water pipe for a hot water panel according to the present invention.
5 is a sectional view of the hot / cold water pipe for use in a hot water panel according to the present invention.
6 is a cross-sectional view showing another embodiment of the cold / hot water pipe for a hot water panel according to the present invention.
7 is a cross-sectional view illustrating another embodiment of the cold / hot water pipe for a hot water panel according to the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention, and how to accomplish them, will become apparent by reference to the embodiments described in detail below with reference to the accompanying drawings. However, the present invention is not limited to the embodiments described below, but may be embodied in many different forms.

In the present specification, the present embodiment is provided to complete the disclosure of the present invention and to fully disclose the scope of the invention to a person having ordinary skill in the art to which the present invention belongs. And the present invention is only defined by the scope of the claims. Accordingly, in some embodiments, well known components, well known operations, and well-known techniques are not specifically described to avoid an undesirable interpretation of the present invention.

Like reference numerals refer to like elements throughout the specification. And, the terms used (hereafter) used herein are intended to illustrate the embodiments and are not intended to limit the invention in any way. In the present specification, the singular form includes plural forms unless otherwise specified in the specification. Also, components and acts referred to as " comprising (or comprising) " do not exclude the presence or addition of one or more other components and operations.

Unless defined otherwise, all terms (including technical and scientific terms) used herein may be used in a sense commonly understood by one of ordinary skill in the art to which this invention belongs. Also, commonly used predefined terms are not ideally or excessively interpreted unless they are defined.

Hereinafter, technical features of the cold / hot water pipe of the hot water panel according to the present invention will be described in detail with reference to the accompanying drawings.

2 is a perspective view of a hot water panel in which a cold / hot water pipe for a hot water panel according to the present invention is installed. FIG. 3 is a perspective view of a hot water panel according to the present invention, 4 is an enlarged cross-sectional view of a cold / hot water pipe for a hot water panel according to the present invention, FIG. 5 is a sectional view of the hot / cold water pipe for a hot water panel according to the present invention, FIG. 6 is a cross- FIG. 7 is a cross-sectional view illustrating another embodiment of the hot / cold water pipe for a hot water panel according to the present invention.

The cold / hot water pipe for a hot water panel according to the present invention improves heat conduction by improving the heat conduction to the upper panel of the hot water panel, minimizes thermal conduction to the lower panel, and forms heat insulating layer by joining the hot / The lower panel 10 having the heating pattern grooves 12 and the heating pattern grooves 12 of the lower panel 10 as shown in FIGS. 1 and 2, A cold and hot water pipe 20 connected to the cold and hot water pipe 20 and coupled to the upper panel 10 to which the cold and hot water pipe 20 is coupled so that heat is conducted from the cold and hot water pipe 20, The conventional cold / hot water pipe of the hot water panel formed by the upper panel 30 whose upper surface is in face-to-face contact with the upper panel 20 can be replaced with the above-described effect.

As shown in FIGS. 2, 3, and 4, the cold / hot water pipe 20 for a hot water panel according to the present invention comprises a circulation pipe body 100 and a support protrusion 200.

The circulation pipe main body 100 forms a rectangular cross-section so that a contact area through surface contact with the upper panel 30 of the hot water panel is enlarged. A circulation flow path 110 in which hot water or cold water is circulated is formed at the center of the cross section of the square. Here, the rectangularity of the circulation pipe main body 100 may be such that the contact area of the upper panel 30 is in surface contact to enlarge the contact area, but the upper panel 30 is stably supported to maintain the horizontal position.

The support protrusions 200 are formed on the lower surface of the rectangular pipe body 100 so as to protrude downwardly integrally with each other. Here, the support protrusion 200 plays a role of supporting the circulation pipe main body 100 together with buffering action by the elastic return force, and also plays a role of preventing interlayer noise through it. The support protrusion 200 is formed with an air cell insulation layer 300 partitioned in a state where air is filled inside the heating pattern groove 12 through the connection of the cold / hot water pipe 20 to the heating pattern groove 12 So that the external impact caused by the heat insulation and the air layer is further buffered.

5, when the support protrusions 200 are coupled to the heating pattern grooves 12, air is trapped inside the heating pattern grooves 12 to form respective divided air cells, The cell space serves as a heat insulating member capable of blocking cold air or heat from the floor. In addition, it is apparent that the formation of the air-cell heat insulating layer 300 filled with air doubles the buffering action for the shock resistance of the support protrusions, and also the noise cushioning effect of the air.

Here, the support protrusions 200 may be formed in various shapes such as a vertical shape and an inverted triangle, so that structural stability and formation of the air cell insulation layer 300 are more smoothly formed.

6, the area of contact between the top surface of the upper portion of the circulation pipe body 100 and the upper panel 30 is further increased so that the hot water or the cold water, which is circulated through the circulation path 110, The user can remove the circulating pipe body 100 from the heating pattern groove 12 in the field in order to perform maintenance or replacement of the circulating pipe body 100 joined to the heating pattern groove 12, The extended contact piece 400 is formed horizontally symmetrically to the left and right of the upper surface of the circulation pipe body 100 to facilitate disassembly of the pipe.

Here, the extended contact piece 400 allows the upper surface of the rectangular recirculating pipe body 100 to have a larger contact area with the upper panel 30, When the user releases the engagement from the pattern groove 12, the user easily pushes the heating pattern groove 12 with his or her fingers without being pushed into the heating pattern groove 12 by air or hand. The extended contact piece 400 has a horizontally enlarged shape with the same horizontal plane as that of the circulation pipe body on the left and right sides of the circulation pipe body 100.

7, the airtightness maintaining film 500 is formed on the left and right sides of the lower surface of the circulation pipe body 100 where the support protrusions 200 are to be started, and the heating protrusion 200, And is formed so as to maintain the airtightness due to the formation of the air-cell heat insulating layer 300 on the inner side of the air- That is, the inside of the heating pattern groove 12 in which the support protrusions 200 are coupled through the airtightness maintaining film 500 is maintained, thereby limiting the air leakage of the air cell insulation layer 300 So that it is possible to increase the heating effect of the air cell insulation layer 300 and to increase the buffering effect due to the external impact.

The circulation pipe main body 100, the support protrusions 200 and the extended contact pieces 400 constituting the cold / hot water pipe 20 for a hot water panel according to the present invention are made of rubber and plastic intermediate material, And TPR (Thermo Plastic Rubber), which is thermoplastic rubber excellent in workability and capable of instantly responding to the shape of the heating pattern groove portion 12 by softening when heat is applied.

While the present invention has been described in detail with reference to the embodiments thereof, it will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the scope and spirit of the invention. And embodiments of the present invention.

10: lower panel 12: heating pattern groove portion
20: cold / hot water pipe 30: upper panel
100: circulation pipe body 110: circulation channel
200: support protrusion 300: air cell insulation layer
400: extended contact piece 500: airtight film

Claims (4)

delete delete delete A cold and hot water pipe 20 coupled to the heating pattern groove 12 of the lower panel 10 and a lower panel 10 coupled to the cold and hot water pipe 20, 10. A hot water panel formed by an upper panel (30) coupled to an upper portion of a cold / hot water pipe (20) so that heat is conducted from the cold / hot water pipe (20) The cold / hot water pipe (20) has a rectangular cross section so as to enlarge a contact area through surface contact with the upper panel (30), and a circulation channel (110) (100); Wherein at least one or more downwardly protruding portions are formed on the lower surface of the rectangular pipe body 100 so as to support a support, and the cold / hot water pipe 20 is connected to the heating pattern groove 12 through air And a support protrusion 200 formed to cover the air cell insulation layer 300 and to be cushioned by external heat and external shock,
The area of contact between the upper surface of the upper portion of the circulation pipe body 100 and the upper panel 30 is further increased so that the hot water or cold water circulated through the circulation channel 110 can be efficiently conducted and absorbed, The user can easily remove the circulation pipe body 100 from the heating pattern groove 12 in the field for repairing or replacing the circulation pipe body 100 joined to the heating pattern groove 12, 400 are symmetrically formed horizontally symmetrically on the upper surface of the circulation pipe body 100 and the circulation pipe main body 100 constituting the cold / hot water pipe 20, the support protrusions 200 and the extended contact pieces 400 are made of thermoplastic rubber TPR (Thermo Plastic Rubber)
Wherein a hermetic sealing film (500) is formed on the left and right sides of the lower surface of the circulation pipe body (100) where the support protrusion (200) starts.

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