CN212930201U - Heating device with hot spring stone plate function for bay window - Google Patents
Heating device with hot spring stone plate function for bay window Download PDFInfo
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- CN212930201U CN212930201U CN202021243415.9U CN202021243415U CN212930201U CN 212930201 U CN212930201 U CN 212930201U CN 202021243415 U CN202021243415 U CN 202021243415U CN 212930201 U CN212930201 U CN 212930201U
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Abstract
The utility model relates to a heating device with hot spring stone plate function for bay window, which comprises a heat insulation mechanism and a heat exchange mechanism, wherein the heat insulation mechanism comprises a plate-shaped heat insulation layer, the upper end surface of the plate-shaped heat insulation layer is arranged in a V shape, and a layer of reflection film layer is laid on the upper end surface of the plate-shaped heat insulation layer; the heat exchange mechanism comprises a concrete filling layer positioned at the upper end of the reflecting film layer, the bottom of the concrete filling layer is arranged into a V shape matched with the upper end surface of the plate-shaped heat insulation layer, a hot water inlet pipe is pre-buried in the middle of the bottom of the concrete filling layer, and the water outlet end of the hot water inlet pipe is connected with a three-way pipe; and the two sides of the bottom of the concrete filling layer are respectively provided with a heat conduction pipe in an inclined winding manner, and the water inlet ends of the heat conduction pipes are respectively connected to the three-way pipe. The utility model discloses can effectively promote the heat exchange contact surface to effectively promote heating efficiency, and can effectively solve the inhomogeneous problem of heating that leads to because of the business turn over water end difference in temperature of heat medium pipe is big.
Description
Technical Field
The utility model relates to a heating device for window that wafts specifically indicates a heating device for window that wafts with hot spring slabstone function.
Background
In order to improve the thermal comfort of the bay window area, a heating mechanism can be additionally arranged on the bay window to cope with the weather cold and wet in winter or transition season, so that the leisure function of the bay window is increased, and the experience of the stone slab hot spring is realized.
Most of the existing heating of the bay window is realized by transmitting a heat exchange medium (low-temperature hot water) through a heat medium pipeline, and the bay window is effectively heated through heat exchange in the transmission process of the heat exchange medium. For the whole supporting effect of guaranteeing to float the window and ensure that the window that floats has sufficient heat-retaining performance, the concrete filling layer generally can be filled to current heat medium pipeline periphery, can ensure the whole supporting effect of window that floats through setting up one of concrete filling layer, can effectively carry out the heat energy storage through the concrete filling layer two.
The upper end face and the lower end face of the existing concrete filling layer are mostly planar, and the heat medium pipeline is coiled and laid on the lower part of the concrete filling layer in a planar state. In the heating process, the heat exchange contact surface is relatively fixed, so that the heating efficiency is relatively low, and the problem of small heat energy transfer amount per unit area exists in the actual heating process; and the temperature difference between the water inlet end and the water outlet end of the heat medium pipeline is large, so that large unevenness is easily caused by heating.
Therefore, the heat exchange contact surface can be effectively improved by designing the heat exchanger, so that the heating efficiency is effectively improved, and the heat energy transfer amount per unit area in the heating process is effectively improved; and can effectively solve the inhomogeneous problem of heating that leads to because of the business turn over water end difference in temperature of heat medium pipe the heating device for window that wafts with hot spring slabstone function is the utility model discloses a research purpose.
Disclosure of Invention
To the problem that above-mentioned prior art exists, the utility model provides a heating device for window that wafts with hot spring slabstone function, this heating device for window that wafts with hot spring slabstone function can effectively solve the technical problem that above-mentioned prior art exists.
The technical scheme of the utility model is that:
a heating device with a hot spring stone plate function for a bay window comprises a heat insulation mechanism and a heat exchange mechanism, wherein the heat insulation mechanism comprises a plate-shaped heat insulation layer, the upper end surface of the plate-shaped heat insulation layer is arranged in a V shape, and a reflection film layer is laid on the upper end surface of the plate-shaped heat insulation layer; the heat exchange mechanism comprises a concrete filling layer positioned at the upper end of the reflecting film layer, the bottom of the concrete filling layer is arranged into a V shape matched with the upper end surface of the plate-shaped heat insulation layer, a hot water inlet pipe is pre-embedded in the middle of the bottom of the concrete filling layer, the water inlet end of the hot water inlet pipe is connected with an external hot water inlet pipe, and the water outlet end of the hot water inlet pipe is connected with a three-way pipe; and heat conduction pipes are respectively obliquely coiled on two sides of the bottom of the concrete filling layer, the water inlet ends of the heat conduction pipes are respectively connected to the three-way pipe, and the water outlet ends of the heat conduction pipes are respectively connected to an external water outlet pipe.
The plate-shaped heat insulation layer is made of extruded polystyrene boards, and the reflecting film is fixedly adhered to the upper end face of the plate-shaped heat insulation layer through a white latex adhesive.
The three-way pipe is a reducing three-way pipe, and the pipe diameters of the heat conduction pipes are smaller than those of the hot water inlet pipe.
The hot water inlet pipe, the three-way pipe and the heat conducting pipe are all made of plastic pipes.
The hot water inlet pipe, the three-way pipe and the periphery of the heat conduction pipe are coated with a metal mesh layer.
The reflecting film is a floor heating reflecting film which is formed by compounding and processing a vacuum aluminizer, a polyester film and glass fiber.
The utility model has the advantages that:
1) the utility model discloses a heat transfer mechanism contains the concrete filling layer that is located reflection rete upper end, and the bottom of concrete filling layer sets to the V shape with slabby insulating layer up end matched with. The bottom of the concrete filling layer is arranged in a V shape, so that the arrangement length of the heat conduction pipes can be effectively prolonged, the heat exchange contact surface is improved, the heat exchange speed is effectively improved, and the heat energy transfer amount per unit area in the heating process is effectively improved; and secondly, the volume of the concrete filling layer can be effectively increased, so that the energy storage effect of the heat energy is effectively improved, and the diffusion speed of the heat energy is reduced.
2) The utility model discloses a pre-buried hot water admission pipe that has in the middle of the bottom of concrete filling layer, the play water end of hot water admission pipe is connected with the three-way pipe, and the bottom both sides of concrete filling layer are the tilting disk respectively and are provided with the heat pipe, and the end of intaking of heat pipe is connected to respectively on the three-way pipe. The heat exchange is effectively carried out in a mode of middle water inlet and two ends water outlet. Firstly, the circulation path of hot water is effectively shortened, so that the overlarge temperature difference between the water temperature at the water inlet end and the water temperature at the water outlet end caused by the extension of the length of the heat conduction pipe is prevented; secondly, the hot water with the largest amount and the highest temperature is conveyed to two sides in a centralized manner through the middle of the bottom of the concrete filling layer, so that the heating efficiency of the middle of the bottom of the concrete filling layer is effectively and greatly improved, and the heat energy is diffused to two sides from the middle of the bottom of the concrete filling layer, so that the heating efficiency is effectively further improved; third, the thickness of the concrete filling layer is gradually decreased from the middle to the two sides, and although the water temperature in the heat conduction pipe is reduced along with the proceeding of heat exchange, the area required to be heated is substantially reduced, so that the uniform degree of heat transfer can be effectively further ensured on the basis of improving the heating efficiency.
3) The hot water inlet pipe, the reducing three-way pipe and the heat conducting pipe are all made of plastic pipes, and the hot water inlet pipe, the reducing three-way pipe and the heat conducting pipe are coated with a corresponding cylindrical metal net layer. Effectively promote the bearing capacity of hot water admission pipe, reducing three-way pipe and heat pipe through setting up of tube-shape metal mesh layer, avoid it to produce the fracture, sink the scheduling problem, thereby effectively improve the utility model discloses a practical function.
Drawings
Fig. 1 is a schematic structural diagram of the present invention.
FIG. 2 is a schematic view of the structure of the heat pipe connected to the tee.
Detailed Description
To facilitate understanding of those skilled in the art, the structure of the present invention will now be described in further detail with reference to the following examples:
referring to fig. 1-2, a heating device for a bay window with a function of a hot spring stone slab comprises a heat insulation mechanism 1 and a heat exchange mechanism 2, wherein the heat insulation mechanism 1 comprises a plate-shaped heat insulation layer 101, the upper end surface of the plate-shaped heat insulation layer 101 is arranged in a V shape, and a reflection film layer 102 is laid on the upper end surface of the plate-shaped heat insulation layer 101; the heat exchange mechanism 2 comprises a concrete filling layer 201 positioned at the upper end of the reflecting film layer 102, the bottom of the concrete filling layer 201 is set to be in a V shape matched with the upper end face of the plate-shaped heat insulation layer 101, a hot water inlet pipe 202 is pre-embedded in the middle of the bottom of the concrete filling layer 201, the water inlet end of the hot water inlet pipe 202 is connected with an external hot water inlet pipe 3, and the water outlet end of the hot water inlet pipe 202 is connected with a three-way pipe 4;
and heat conduction pipes 203 are obliquely coiled on two sides of the bottom of the concrete filling layer 201 respectively, the water inlet ends of the heat conduction pipes 203 are connected to the three-way pipe 4 respectively, and the water outlet ends of the heat conduction pipes 203 are connected to an external water outlet pipe 5.
The plate-shaped heat insulation layer 101 is made of an extruded polystyrene board, and the reflection film layer 102 is fixedly adhered to the upper end face of the plate-shaped heat insulation layer 101 through a white latex adhesive. The three-way pipe 4 is a reducing three-way pipe, and the pipe diameters of the heat conduction pipes 203 are all smaller than the pipe diameter of the hot water inlet pipe 202 (in this embodiment, the pipe diameter of the heat conduction pipe 203 is 1/2 of the pipe diameter of the hot water inlet pipe 202).
The hot water inlet pipe 202, the three-way pipe 4 and the heat conducting pipe 203 are all made of plastic pipes. The hot water inlet pipe 202, the three-way pipe 4 and the heat conducting pipe 203 are all coated with a metal mesh layer 6. The reflection film layer 102 is a ground heating reflection film formed by compounding and processing a vacuum aluminum-plated film, a polyester film and glass fiber.
The bottom of the concrete filling layer 201 is arranged in a V shape, so that the arrangement length of the heat conduction pipes 203 can be effectively prolonged, the heat exchange contact surface is improved, and the heat exchange speed is effectively improved; secondly, can effectively increase the volume of concrete filling layer 201 to effectively promote the energy storage effect of heat energy, reduce the speed of giving off of heat energy.
The utility model discloses effectively carry out the heat exchange through the mode of middle intaking, both ends play water.
Firstly, the circulation path of hot water is effectively shortened, so that the overlarge temperature difference between the water temperature at the water inlet end and the water temperature at the water outlet end caused by the extension of the length of the heat conduction pipe 203 is prevented;
secondly, the hot water with the largest amount and the highest temperature is conveyed to two sides through the middle of the bottom of the concrete filling layer 201 in a centralized manner, so that the heating efficiency of the middle of the bottom of the concrete filling layer 201 is effectively and greatly improved, and the heat energy is diffused to two sides from the middle of the bottom of the concrete filling layer 201, so that the heating efficiency is effectively further improved;
third, the thickness of the concrete filling layer 201 decreases from the middle to both sides, and although the temperature of water in the heat transfer pipe 203 decreases as the heat exchange progresses, the area to be heated is substantially decreased, so that the heat transfer uniformity can be effectively ensured while the heating efficiency is improved.
The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.
Claims (6)
1. The utility model provides a heating device for window wafts with hot spring slabstone function, contains thermal-insulated mechanism (1) and heat transfer mechanism (2), its characterized in that:
the heat insulation mechanism (1) comprises a plate-shaped heat insulation layer (101), the upper end surface of the plate-shaped heat insulation layer (101) is arranged in a V shape, and a reflection film layer (102) is laid on the upper end surface of the plate-shaped heat insulation layer (101);
the heat exchange mechanism (2) comprises a concrete filling layer (201) positioned at the upper end of the reflecting film layer (102), the bottom of the concrete filling layer (201) is arranged into a V shape matched with the upper end surface of the plate-shaped heat insulation layer (101), a hot water inlet pipe (202) is embedded in the middle of the bottom of the concrete filling layer (201), the water inlet end of the hot water inlet pipe (202) is connected with an external hot water inlet pipe (3), and the water outlet end of the hot water inlet pipe (202) is connected with a three-way pipe (4);
and heat conduction pipes (203) are respectively obliquely coiled on two sides of the bottom of the concrete filling layer (201), the water inlet ends of the heat conduction pipes (203) are respectively connected to the three-way pipe (4), and the water outlet ends of the heat conduction pipes (203) are respectively connected to an external water outlet pipe (5).
2. A heating apparatus for a bay window having a function of a spa plate according to claim 1, wherein: the plate-shaped heat insulation layer (101) is made of extruded polystyrene boards, and the reflection film layer (102) is fixedly adhered to the upper end face of the plate-shaped heat insulation layer (101) through a white latex adhesive.
3. A heating apparatus for a bay window having a function of a spa plate according to claim 1, wherein: the three-way pipe (4) is a reducing three-way pipe, and the pipe diameters of the heat conduction pipes (203) are smaller than those of the hot water inlet pipe (202).
4. A heating apparatus for a bay window having a function of a spa plate according to claim 1, wherein: the hot water inlet pipe (202), the three-way pipe (4) and the heat conducting pipe (203) are all made of plastic pipes.
5. A heating apparatus for a bay window having a function of a spa plate according to claim 1, wherein: the peripheries of the hot water inlet pipe (202), the three-way pipe (4) and the heat conducting pipe (203) are coated with a metal mesh layer (6).
6. A heating apparatus for a bay window having a function of a spa plate according to claim 1, wherein: the reflection film layer (102) is a ground heating reflection film which is formed by compounding and processing a vacuum aluminum-plated film, a polyester film and glass fiber.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202021243415.9U CN212930201U (en) | 2020-06-30 | 2020-06-30 | Heating device with hot spring stone plate function for bay window |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202021243415.9U CN212930201U (en) | 2020-06-30 | 2020-06-30 | Heating device with hot spring stone plate function for bay window |
Publications (1)
Publication Number | Publication Date |
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CN212930201U true CN212930201U (en) | 2021-04-09 |
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN202021243415.9U Expired - Fee Related CN212930201U (en) | 2020-06-30 | 2020-06-30 | Heating device with hot spring stone plate function for bay window |
Country Status (1)
Country | Link |
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CN (1) | CN212930201U (en) |
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2020
- 2020-06-30 CN CN202021243415.9U patent/CN212930201U/en not_active Expired - Fee Related
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20210409 |