CN218264717U - Ground heating integrated module system with assembly type pipe capable of being broken and divided - Google Patents
Ground heating integrated module system with assembly type pipe capable of being broken and divided Download PDFInfo
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- CN218264717U CN218264717U CN202120793183.2U CN202120793183U CN218264717U CN 218264717 U CN218264717 U CN 218264717U CN 202120793183 U CN202120793183 U CN 202120793183U CN 218264717 U CN218264717 U CN 218264717U
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Abstract
The utility model discloses an integrated module system warms up that assembled can be broken tub can be in charge, including ground heating coil, ground the heating module, connect pipe fitting, aluminium membrane radiation layer, waterproof layer and heat source, the card has ground heating coil in the module of heating up, and the disconnected pipe node of branch pipe of ground heating coil is through connecting the pipe fitting connection, and ground heating coil, ground heating coil surface cover aluminium membrane radiation layer, ground heating coil outside still is provided with the waterproof layer, and ground heating coil is connected with the heat source. The utility model discloses an adapt to the built-in demand of assembled, the concept of assembled is for productizing the engineering, on the factory production product the accuse quality to aim at reducing the quality problems that the manual operation brought in the construction, make the material use the purpose that reduces in order to reach the environmental protection material-saving with engineering nodularization. The laying area is increased through the pipe distribution, materials are saved, the pipe breaking technology can be matched with the assembly type building for laying, for example, the pipe breaking technology is combined with precast concrete floor slabs or wall surfaces or other assembly type building components for production, and the pipe breaking positions are connected after the assembly type building is hoisted.
Description
Technical Field
The utility model relates to a technical field warms up integratedly, concretely relates to but integrated module system warms up that assembled disconnected pipe can be in charge of.
Background
Dry-type ground heating is a classification in ground heating, and is thin ground heating which is laid by embedding a prefabricated groove heat-preservation ground heating module into a heating pipe and does not need cement backfill. Heat is supplied to the room through radiation and convection, so that the aim of rapid temperature rise is fulfilled. The construction adopting dry connection and splicing is called dry floor heating, and the construction adopting a cement wet method is called wet floor heating. The dry floor heating is relatively wet floor heating, downward heat transfer loss is effectively reduced, use convenience is improved, and no backfill operation is needed, so that no heat storage time is needed for a cement heat storage layer, and the floor height is not occupied.
Compared with wet floor heating, the dry floor heating can reduce the use cost by 10-30% (related to the plate type of the dry floor heating module, which is not described herein). The existing dry floor heating is divided into dry type water floor heating and dry type electric floor heating, and the patent is a dry type water floor heating technology, so that the dry type electric floor heating is not introduced. In dry-type water floor heating, a boiler is generally adopted to heat water and then output the hot water to a water separator, then the water separator is connected with a floor heating pipe through a water inlet and a water outlet of the water separator, the hot water circulates in the floor heating pipe to heat a heat transfer material in a floor heating module, and the heat transfer material thermally radiates the ground to achieve the heating purpose. General dry-type ground warm-water heating adopts prefabricated ground heating module inlay card ground heating coil, consequently, because ground heating module board groove generally designs for the multi-pipe groove for satisfying the demand of laying, consequently often meet the incident of on-the-spot cutting ground heating module in order to dodge wall or barrier in actually laying, the integrality of ground heating module has been destroyed greatly, and because multi-pipe groove can meet the pipe groove condition of not being used at the in-process of mating formation, the entering air in the module of messenger ground heating, thereby reduce the heat insulating ability, make ground heating water heating need consume more energy. And the traditional dry type water floor heating can not be connected in a broken pipe way and supplies heat for the circulation of the single pipe in a primary loop and the return water, so that the design of broken pipes and branch pipes is avoided, and the node design in the assembled characteristic can not be met.
To sum up, the utility model designs an assembly type can be broken and manage integrated module system warms up that can be in charge of.
SUMMERY OF THE UTILITY MODEL
To the not enough that exists on the prior art, the utility model aims to provide a but the disconnected pipe of assembled warms up integrated module system of can being in charge of, for the built-in demand of adaptation assembled, the notion of assembled is for productizing the engineering, to the accuse quality on the factory production product to aim at reducing the quality problem that the manual operation brought in the construction, make the material use reduce the purpose in order to reach environmental protection festival material with engineering nodularization. The laying area is increased through the pipe distribution, materials are saved, the pipe breaking technology can be matched with the assembly type building for laying, for example, the pipe breaking technology is combined with precast concrete floor slabs or wall surfaces or other assembly type building components for production, and the pipe breaking positions are connected after the assembly type building is hoisted.
In order to achieve the above purpose, the present invention is realized by the following technical solution: but integrated module system warms up of disconnected pipe of assembled branch, including ground heating coil, warm up the module, connect pipe fitting, aluminium membrane radiation layer, waterproof layer and heat source, the card has ground heating coil in the module warms up, and the branch pipe of ground heating coil is disconnected the pipe connection node and is passed through connecting the pipe fitting and connect, and ground heating coil, warm up the module surface and cover aluminium membrane radiation layer, ground heating coil outside still is provided with the waterproof layer, and ground heating coil is connected with the heat source.
Preferably, the floor heating pipe adopts a branch pipe circulation structure.
Preferably, the floor heating module adopts a multi-module combination form.
Preferably, the floor heating module can adopt an avoidance processing structure on a wall or an obstacle.
As preferred, ground warm module and prefabricated component of assembly type structure cooperate, and the vacancy department of ground warm module and prefabricated component of assembly type structure is filled with the insulation material with the same thickness of underfloor heating system.
Preferably, the splicing position of the prefabricated member of the assembly type building is a node, and the prefabricated special pipe fittings are exposed at the broken pipe position; after the prefabricated members of the fabricated building are hoisted and spliced, the node is connected with a broken pipe, and the broken pipe at the outer end is a water inlet and outlet.
The utility model has the advantages that: the utility model discloses a module warms up has the flexibility, can avoid all kinds of obstacles, and can cover various corners. Because of the broken pipe connection, the prefabricated member can be matched with the prefabricated member to directly produce the prefabricated member of the house with the heating node in a factory, and the laying area can be wider and the energy efficiency can be higher due to the pipe dividing technology. If the prefabricated building member is not produced together with the prefabricated building member, the ordinary house can be paved, the paving speed is high, and the on-site maintenance is not needed because the prefabricated building member is a factory finished product.
Drawings
The present invention will be described in detail with reference to the accompanying drawings and specific embodiments;
FIG. 1 is a schematic structural diagram of the present invention
FIG. 2 is another schematic structural view of the present invention;
fig. 3 is a schematic view of an avoidance structure of the present invention;
fig. 4 is a schematic view of another avoidance structure of the present invention;
FIG. 5 is a schematic view of the hot water cycle of the present invention;
fig. 6 is a perspective view of an avoidance structure of the present invention;
figure 7 is the utility model discloses with assembly and building prefab cooperation sketch map.
Detailed Description
In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention is further described below with reference to the following embodiments.
Referring to fig. 1 to 7, the following technical solutions are adopted in the present embodiment: but integrated module system warms up that assembled disconnected pipe can be managed, including ground heating coil 1, warm up module 2, connect pipe fitting 3, aluminium membrane radiation layer, waterproof layer and heat source, the card has ground heating coil 1 in the module 2 warms up, the disconnected pipe node department of branch of ground heating coil 1 is connected through connecting pipe fitting 3, ground heating coil 1, 2 surface covering aluminium membrane radiation layers of ground heating coil 1, ground heating coil, 1 outside waterproof layers that still are provided with of ground heating coil, ground heating coil 1 is connected with the heat source.
It is worth noting that the floor heating pipe 1 adopts a branch pipe circulation structure.
It is worth noting that the floor heating module 2 adopts a multi-module combination form.
It is worth noting that the floor heating module 2 can adopt an avoidance processing structure at the wall or the barrier 5.
It is worth noting that ground heating module 2 and prefabricated component 4 cooperate, and the vacancy of ground heating module 2 and prefabricated component 4 is filled with the insulation material of the same thickness with the ground heating system.
In addition, the splicing position of the prefabricated member 4 of the assembly type building is a node, and the prefabricated special pipe fittings are exposed at the broken pipe position; after the prefabricated members of the fabricated building are hoisted and spliced, the node is connected with a broken pipe.
The installation method is characterized in that the installation method is that designers confirm house types, for example, the design is carried out in the range of 100-150w of heat load per square meter by taking 5 ℃ as a reference, the types of floor heating modules of 8 types are selected and the rooms are arranged, the length of the floor heating pipes needing to be clamped and embedded in the floor heating modules is calculated, and the heat sources meeting the lift and the power are selected and configured according to the length of the floor heating pipes. The ground heating module is arranged on the site by workers according to construction drawings, then the ground heating pipe is clamped into the ground heating pipe to be attached to the ground heating module and cover the aluminum film radiation layer, all nodes are connected through special pipe fittings, and the pressing test is completed after the installation.
In the floor heating branch pipe circulation system of the embodiment, as shown in fig. 1-2, taking a three branch pipe as an example, the pipe diameters of the branch pipe and the main pipe and the size of the module can be adjusted according to the number of the branch pipes, and a special pipe fitting (a connecting pipe fitting 3) is manufactured; as shown in fig. 7, the floor heating system and the prefabricated building prefabricated part are produced together in a factory, the splicing position of the prefabricated building prefabricated part is used as a node, and the prefabricated special pipe fitting is exposed at the broken pipe position. After the prefabricated members of the fabricated building are hoisted and spliced, the nodes are connected in a broken pipe mode, and a floor heating system is completed; when the prefabricated floor heating system and the prefabricated member of the prefabricated building are produced simultaneously, the heat-insulating material with the same thickness as the floor heating system is filled in the gap.
This embodiment is owing to filled insulation material with underfloor heating system and assembly type structure prefab's vacancy, air layer gap is not left basically, laminate ground heating coil and insulation material completely, then the heat transfer aluminium membrane of tiling is as the radiation layer, because there is the branch pipe in the module, therefore ground heating coil density is very high, lead to the programming rate to accelerate, and possible even heating, it is more energy-conserving, warm up for ordinary dry-type, because the water yield of heat source heating is the same, the scope that can radiate that this kind of special design came out is wider, the radiation range is wide, the rate of heating is fast, human experience is good, so this kind of module heats the temperature of traditional dry-type module, the gas or the electric quantity of use just still less, the energy consumption is low, therefore, the clothes hanger is strong in practicability.
The basic principles and the main features of the invention and the advantages of the invention have been shown and described above. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.
Claims (6)
1. Assembled can be disconnected tub can be in charge warm up integrated module system, a serial communication port, including ground heating coil (1), warm up module (2), connect pipe fitting (3), aluminium membrane radiation layer, waterproof layer and heat source, it has ground heating coil (1) to inlay card in module (2) to warm up, the disconnected pipe node of branch pipe of ground heating coil (1) is connected through connecting pipe fitting (3), ground heating coil (1), warm up module (2) surface covering aluminium membrane radiation layer, ground heating coil (1) outside still is provided with the waterproof layer, ground heating coil (1) is connected with the heat source.
2. The assembled type floor heating integrated module system with the pipe capable of being broken and divided as claimed in claim 1, wherein the floor heating pipe (1) adopts a pipe dividing circulation structure.
3. The assembled type floor heating integrated module system with the pipe capable of being broken and divided as claimed in claim 1, wherein the floor heating module (2) is in a multi-module combination form.
4. The assembled floor heating integrated module system with the pipe capable of being broken and branched as claimed in claim 1, wherein the floor heating module (2) can adopt an avoidance processing structure at a wall or an obstacle.
5. The assembly type floor heating integrated module system with the breakable pipes capable of being separated according to claim 1, characterized in that the floor heating module (2) is matched with the assembly type building prefabricated member (4), and the vacant positions of the floor heating module (2) and the assembly type building prefabricated member (4) are filled with heat insulation materials with the same thickness as the floor heating system.
6. The assembled type floor heating integrated module system with the pipe capable of being broken and divided as claimed in claim 5, wherein the splicing position of the assembled type building prefabricated member (4) is a node.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202120793183.2U CN218264717U (en) | 2021-04-19 | 2021-04-19 | Ground heating integrated module system with assembly type pipe capable of being broken and divided |
Applications Claiming Priority (1)
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CN202120793183.2U CN218264717U (en) | 2021-04-19 | 2021-04-19 | Ground heating integrated module system with assembly type pipe capable of being broken and divided |
Publications (1)
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CN218264717U true CN218264717U (en) | 2023-01-10 |
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CN202120793183.2U Active CN218264717U (en) | 2021-04-19 | 2021-04-19 | Ground heating integrated module system with assembly type pipe capable of being broken and divided |
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2021
- 2021-04-19 CN CN202120793183.2U patent/CN218264717U/en active Active
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