CN106499131B - Roofing domestic water heat preservation and insulation system - Google Patents

Abstract

A heat preservation and insulation system for roof domestic water relates to the technical field of heat preservation and insulation, and comprises a water source, water utilization equipment, a plurality of series-connected square water-cooling modules and a connecting assembly for fixedly connecting two adjacent water-cooling modules together; the water cooling module comprises a square bearing shell and a snake-shaped bent pipe wrapped by the bearing shell; among the plurality of water cooling modules in the shape of a square block connected in series, the first water cooling module is provided with a water inlet for externally connecting a water source, and the last water cooling module is provided with a water outlet for externally connecting water using equipment; in two adjacent water-cooling modules, the side surface of the bearing shell of one water-cooling module is provided with a stepped hole communicated with the inner cavity of the snake-shaped elbow inside the water-cooling module, the side surface of the bearing shell of the other water-cooling module is provided with a hollow joint which protrudes outwards and corresponds to the stepped hole, the inner cavity of the hollow joint is communicated with the inner cavity of the snake-shaped elbow inside the water-cooling module, and the middle hole plug is inserted into the stepped hole, so that the snake-shaped elbows inside the two connected water-cooling modules are.

Description

Roofing domestic water heat preservation and insulation system

Technical Field

The invention relates to the technical field of building heat preservation and insulation, in particular to a heat preservation and insulation system for roof domestic water.

Background

The heat preservation and insulation of the building mainly comprises two aspects, namely the heat preservation and insulation of an outer wall on one hand and the heat preservation and insulation of a top layer of the building on the other hand. The common mode of external wall heat preservation and insulation at present is to lay a heat preservation and decoration integrated plate on the external wall, and the common mode of top layer heat insulation is to brush heat insulation paint on the top layer floor, cover a hollow heat preservation and insulation layer or lay a light heat insulation plate.

The heat insulation coating realizes heat insulation and heat preservation mainly by adding glass particles to the coating to reflect light, and the heat insulation effect of the heat insulation coating is continuously reduced along with more and more dust accumulated on the surface of the coating. Hollow heat preservation insulating layer mainly utilizes the poor principle of air heat conductivility to insulate against heat, the thermal-insulated principle of light insulation board is similar with hollow heat preservation insulating layer, mainly utilize the airtight space that forms in the expanded material to slow down heat transfer, however in hot summer, the top layer floor will receive solar radiation at 8 am usually, sunshine process generally can last to afternoon 5 o 'clock, because the floor receives sunshine time overlength, even if cover hollow heat preservation insulating layer or lay light insulation board, the temperature in the top layer room still can continuously rise, so hollow heat preservation insulating layer and the light insulation board of current structure's thermal-insulated effect is very limited, can not satisfy people to the thermal-insulated demand of building top layer heat preservation.

Disclosure of Invention

The invention aims to provide a heat preservation and insulation system for roof domestic water, which is simple in structure and good in heat preservation and insulation effect.

In order to solve the technical problems, the invention adopts the following technical scheme: a heat preservation and insulation system for roof domestic water comprises a water source, water utilization equipment, a plurality of series-connected square water-cooling modules and a connecting assembly for fixedly connecting two adjacent water-cooling modules together;

the water utilization equipment is arranged in each floor below the roof, the water cooling module is flatly paved on the roof of the roof, and the water source is a water storage tank or a tap water pipe arranged on the roof of the roof;

the water cooling module comprises a square bearing shell and a snake-shaped bent pipe wrapped by the bearing shell;

among the plurality of water cooling modules which are connected in series, the first water cooling module is provided with a water inlet connected with a water source, and the last water cooling module is provided with a water outlet connected with water using equipment;

in two adjacent water-cooling modules, the communicating shoulder hole of the inner chamber rather than inside snakelike return bend is seted up to the bearing casing side of a water-cooling module, the bearing casing side of another water-cooling module be equipped with toward outer protrusion and with the corresponding hollow joint of shoulder hole, the inner chamber of hollow joint communicates with each other with the inner chamber of the inside snakelike return bend of this water-cooling module, the mesopore plug inserts in the shoulder hole for two inside snakelike return bends of water-cooling module that link to each other communicate.

The connecting assembly comprises a connecting bolt, a connecting convex strip fixedly connected to one water cooling module and extending outwards from the side surface of the bearing shell of the water cooling module, and a connecting groove correspondingly formed in the side surface of the bearing shell of the other water cooling module;

the connecting convex strip is provided with a threaded hole;

the connecting convex strips are inserted into the connecting grooves, and the connecting bolts are screwed into the threaded holes formed in the connecting convex strips from the outside of the bearing shell of the water cooling module with the connecting grooves, so that two adjacent water cooling modules are fixedly connected together.

The connecting assembly further comprises a cushion block, a cushion block accommodating groove for accommodating the cushion block is formed in the top of the bearing shell of the water cooling module provided with the connecting groove, and the bottom of the cushion block accommodating groove is communicated with the connecting groove;

the cushion block comprises an inclined sliding surface, an inclined bed surface corresponding to the sliding surface is arranged in the cushion block accommodating groove, and a through hole for a connecting bolt to pass through is formed in the cushion block;

a sealing element is arranged in the stepped hole and is arranged between the stepped surface of the stepped hole and the stepped surface of the hollow joint;

after the connecting bolt penetrates through the through hole and is screwed into the threaded hole formed in the connecting convex strip downwards, the cushion block slides along the inclined bed surface under the action of the pressure of the head of the connecting bolt and drives the connecting bolt and the connecting convex strip to move, so that the sealing element is tightly pressed on the step surface of the stepped hole by the step surface of the hollow joint, and the sealing between the stepped hole and the hollow joint is realized.

Further, the sealing member is rubber seal, the seal groove has been seted up on the step face of shoulder hole, rubber seal places in the seal groove, connecting bolt passes and down twists the screw hole of connecting the sand grip and seting up back from the through-hole, rubber seal is compressed tightly in the seal groove to the step face of hollow joint, thereby realize sealed between shoulder hole and hollow joint.

Further, shoulder hole and cavity connect all include two step faces, two step faces of shoulder hole are first step face and locate the second step face in the first step face outside respectively, two step faces of cavity connect are respectively with first step face corresponding third step face and with the corresponding fourth step face of second step face, the seal groove is seted up on first step face, connecting bolt passes and screws in down behind the screw hole that the connection sand grip was seted up from the through-hole, rubber seal is sticis in the seal groove by third step face, it has the sealed glue that is used for forming the second and is sealed between shoulder hole and cavity connect to fill in the space between second step face and the fourth step face.

Preferably, the bearing shell of the water cooling module is formed by injection molding of PVC or PMMA.

Preferably, the connecting convex strip is a metal strip, and one end of the metal strip is embedded into the bearing shell of the water-cooling module.

Preferably, the rubber sealing ring is an O-shaped rubber sealing ring.

Preferably, the connecting bolt is a hexagon socket head cap screw.

Wherein, the water using equipment is a toilet flushing device.

The heat preservation and insulation system for the roof domestic water is formed by splicing a plurality of connected square water cooling modules, wherein the water cooling modules are internally provided with snake-shaped bent pipes, when in construction and installation, the water cooling modules are connected in series and are laid on the top floor, then the water inlet of the first water cooling module is connected with a water source, and then the water outlet of the last water cooling module is connected with water utilization equipment (such as toilets, water heaters for bathing and the like on all floors) on all floors through pipelines. Because water cooling module has connected water equipment and water source simultaneously, its bearing casing can prevent that the sun from shining top floor, and the heat of bearing casing is absorbed to the water in the snakelike return bend, and when water equipment water use, hot water after the heat exchange with the bearing casing in the snakelike return bend flows out from water cooling module, and cold water is poured into to the snakelike return bend simultaneously to the water source, and cold water and bearing casing carry out the heat exchange once more, and bearing casing temperature reduces, avoids heat transfer to the floor. The roof domestic water heat-insulation system is simple in structure and good in heat-insulation effect, and can achieve excellent heat-insulation effect when being applied to heat insulation of the top layer of a high-rise office building/residential building (the toilet flushing water consumption of the high-rise office building/residential building is large).

Drawings

FIG. 1 is a schematic overall structure diagram of an embodiment of the present invention;

FIG. 2 is a schematic view of the overall structure of the embodiment shown in FIG. 1 after two adjacent water cooling modules are connected together;

FIG. 3 is a cross-sectional view taken along line A-A of FIG. 2;

FIG. 4 is a sequence diagram illustrating an embodiment of the present invention when two adjacent water cooling modules are fixedly connected by the connecting assembly;

FIG. 5 is a schematic top view of a spacer in the connecting assembly;

FIG. 6 is a cross-sectional view taken along line A-A of FIG. 5;

FIG. 7 is a front view of the connecting bolt in the connecting assembly;

FIG. 8 is a schematic longitudinal sectional view of a stepped hole formed in a side surface of a load bearing housing according to the present invention;

FIG. 9 is a schematic longitudinal sectional view of a hollow joint protruding from the side of the load bearing housing according to the present invention;

FIG. 10 is a schematic view showing an overall longitudinal sectional structure of the hollow joint after being inserted into the stepped hole;

in the figure:

1-water cooling module 2-connecting component 3-sealing component 4-sealing glue

1 a-bearing shell 1 b-serpentine elbow 2 a-connecting bolt 2 b-connecting convex strip

2 c-connecting groove 2 d-cushion block 1a 1-stepped hole 1a 2-hollow joint

1a3 cushion receiving groove 2b1 screw hole 2d1 sliding surface

2d 2-through hole 1a1 a-first step surface 1a1 b-second step surface

1a2 a-third step surface 1a2 b-fourth step surface 1a3 a-inclined bed surface

A-water source B-water using equipment.

Detailed Description

In the description of the present invention, it is to be understood that the terms "upper", "lower", "top", "bottom", "inner", "outer", "above", "below", and the like, refer to orientations or positional relationships illustrated in the drawings, which are used for simplicity and convenience in describing the present invention, and do not indicate or imply that the referenced components must have a particular orientation, be constructed in a particular orientation, and be operated.

In addition, in the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," "fixed," and the like are to be construed broadly, e.g., as being fixedly connected, detachably connected, or integrally connected; they may be directly connected or indirectly connected through an intermediate, and those skilled in the art can understand the specific meaning of the above terms in the present invention according to specific situations.

In order to facilitate a person skilled in the art to understand the inventive concept more deeply, the invention is further described below with reference to examples.

As shown in fig. 1-3 and 8-10, a heat preservation and insulation system for roof domestic water comprises a water source a, water using equipment B, a plurality of series-connected square water-cooling modules 1 and a connecting assembly 2 for fixedly connecting two adjacent water-cooling modules 1 together;

the water utilization equipment B is arranged in each floor below the roof, the water cooling module 1 is tiled on the roof of the building, and the water source A is a water storage tank or a tap water pipe arranged on the roof of the building;

the water cooling module 1 comprises a square bearing shell 1a and a snake-shaped bent pipe 1b wrapped by the bearing shell 1 a;

among the plurality of water cooling modules 1 which are connected in series, the first water cooling module 1 is provided with a water inlet connected with a water source A, and the last water cooling module 1 is provided with a water outlet connected with a water using device B;

in two adjacent water-cooling modules 1, a side surface of a bearing shell 1a of one water-cooling module 1 is provided with a stepped hole 1a1 communicated with an inner cavity of a serpentine elbow 1b inside the water-cooling module, a side surface of a bearing shell 1a of the other water-cooling module 1 is provided with a hollow joint 1a2 which protrudes outwards and corresponds to the stepped hole 1a1, the inner cavity of the hollow joint 1a2 is communicated with the inner cavity of the serpentine elbow 1b inside the water-cooling module 1, and a middle-hole plug 1a2 is inserted into the stepped hole 1a1, so that the serpentine elbows 1b inside the two connected water-cooling modules 1 are communicated.

The heat preservation and insulation system for the roof domestic water provided by the embodiment is formed by splicing a plurality of series-connected square water cooling modules 1, the water cooling modules 1 are internally provided with the snake-shaped bent pipes 1B, during construction and installation, the water cooling modules 1 are firstly connected in series and paved on the top floor, then the water inlet of the first water cooling module 1 is connected with the water source A (the external water source can be a tap water pipe or a water storage tank on the roof), and then the water outlet of the last water cooling module 1 is connected with the water utilization equipment B in each floor through a pipeline (the water utilization equipment can be a toilet flusher of each floor, a water heater for bathing and the like). Because water cooling module 1 has connected water consumption equipment B and water source A simultaneously, its bearing casing 1a can prevent that the sun from shining the top floor, the heat of bearing casing 1a is absorbed to the water in snakelike return bend 1B, when water consumption equipment B used water, the hot water after exchanging with bearing casing heat 1a in snakelike return bend 1B flowed out from water cooling module 1, water source A pours into cold water into snakelike return bend 1B simultaneously, cold water exchanges heat with bearing casing 1a once more, bearing casing 1a temperature reduction, avoid heat transfer to the floor. The roof domestic water heat-insulation system is simple in structure and good in heat-insulation effect, and can achieve excellent heat-insulation effect when being applied to heat insulation of the top layer of a high-rise office building/residential building (the toilet flushing water consumption of the high-rise office building/residential building is large).

It should be noted that, the structure of the connection assembly 2 is not specifically described in the above embodiments, and it should be understood by those skilled in the art that there are various implementations for fixedly connecting two adjacent water cooling modules 1 in the prior art, for example, two bolts and a metal sheet with two holes may be used to fixedly connect two adjacent water cooling modules 1, or one corner connector and two screws may be used to connect two water cooling modules, as long as the connection assembly 2 can achieve the purpose of connecting two adjacent water cooling modules 1 together.

As shown in fig. 2 and fig. 4-7, the connecting assembly 2 may have the following structure: comprises a connecting bolt 2a, a connecting convex strip 2b which is fixedly connected with one water cooling module 1 and extends outwards from the side surface of the bearing shell 1a of the water cooling module 1, and a connecting groove 2c which is correspondingly arranged on the side surface of the bearing shell 1a of the other water cooling module 1;

the connecting convex strip 2b is provided with a threaded hole 2b 1;

the connecting convex strips 2b are inserted into the connecting grooves 2c, and the connecting bolts 2a are screwed into the threaded holes 2b1 formed in the connecting convex strips 2b from the outside of the bearing shell 1a of the water-cooling module 1 provided with the connecting grooves 2c, so that two adjacent water-cooling modules 1 are fixedly connected together.

Further, as shown in fig. 4 and 10, the connecting assembly 2 further includes a pad 2d, a pad accommodating groove 1a3 for accommodating the pad 2d is formed at the top of the bearing housing 1a of the water-cooling module 1 having the connecting groove 2c, and the bottom of the pad accommodating groove 1a3 is communicated with the connecting groove 2 c;

the cushion block 2d comprises an inclined sliding surface 2d1, an inclined bed surface 1a3a corresponding to the sliding surface 2d1 is arranged in the cushion block accommodating groove 1a3, and a through hole 2d2 for the connecting bolt 2a to pass through is formed in the cushion block 2 d;

a sealing element 3 is arranged in the stepped hole 1a1, and the sealing element 3 is arranged between the step surface of the stepped hole 1a1 and the step surface of the hollow joint 1a 2;

after the connecting bolt 2a passes through the through hole 2d2 and is screwed down into the threaded hole 2b1 formed in the connecting convex strip 2b, the cushion block 2d slides along the inclined bed surface 1a3a under the action of the pressure of the head of the connecting bolt 2a and drives the connecting bolt 2a and the connecting convex strip 2b to displace, so that the sealing element 3 is pressed on the step surface of the stepped hole 1a1 by the step surface of the hollow joint 1a2, and sealing is realized between the stepped hole 1a1 and the hollow joint 1a 2.

The connecting assembly 2 for fixedly connecting the two adjacent water-cooling modules 1 is simple in structure, not only plays a role of connecting the two water-cooling modules 1, but also improves the sealing performance between the stepped hole 1a1 and the hollow joint 1a2 by matching with the sealing piece 3, and effectively avoids the situation that water in the serpentine elbow 1b seeps out from a gap between the stepped hole 1a1 and the hollow joint 1a 2.

Preferably, as shown in fig. 10, the sealing member 3 is a rubber sealing ring, a sealing groove is formed in a step surface of the stepped hole 1a1, the rubber sealing ring is placed in the sealing groove, after the connecting bolt 2a is passed through the through hole 2d2 and screwed down into the threaded hole 2b1 formed in the connecting convex strip 2b, the rubber sealing ring is tightly pressed in the sealing groove by the step surface of the hollow joint 1a2, and sealing is achieved between the stepped hole 1a1 and the hollow joint 1a 2.

Further, as shown in fig. 10, each of the stepped hole 1a1 and the hollow joint 1a2 includes two step surfaces, the two step surfaces of the stepped hole 1a1 are a first step surface 1a1a and a second step surface 1a1b provided outside the first step surface 1a1a, the two step surfaces of the hollow joint 1a2 are a third step surface 1a2a corresponding to the first step surface 1a1a and a fourth step surface 1a2b corresponding to the second step surface 1a1b, respectively, the sealing groove is opened in the first step surface 1a1a, the connecting bolt 2a is inserted into the through hole 2d2 and screwed down into the threaded hole 2b1 opened by the connecting protrusion 2b, the rubber sealing ring is tightly pressed in the sealing groove by the third step surface 1a2a, and the gap 92 between the second step surface 1a1 7378 and the fourth step surface 1a2b is used for forming a double seal between the hollow joint and the sealant 6864.

Finally, in the above embodiment, the load-bearing housing 1a of the water-cooling module 1 is preferably made of injection-molded PVC or PMMA. The connecting ribs 2b are preferably metal strips, one end of which is embedded in the load-bearing housing 1a of the water-cooled module 1. The rubber seal ring is preferably an O-shaped rubber seal ring. The connecting bolt 2a is preferably a hexagon socket head cap screw.

The above embodiments are preferred implementations of the present invention, and the present invention can be implemented in other ways without departing from the spirit of the present invention.

Some of the drawings and descriptions of the present invention have been simplified to facilitate the understanding of the improvements over the prior art by those skilled in the art, and some other elements have been omitted from this document for the sake of clarity, and it should be appreciated by those skilled in the art that such omitted elements may also constitute the subject matter of the present invention.

Claims (5)

1. Roofing domestic water heat preservation heat-proof system, its characterized in that: the water supply system comprises a water source (A), water utilization equipment (B), a plurality of series-connected square water-cooling modules (1) and a connecting assembly (2) for fixedly connecting two adjacent water-cooling modules (1) together;

the water-cooling module (1) is tiled on the roof of the building, and the water source (A) is a water storage tank or a tap water pipe arranged on the roof of the building;

the water cooling module (1) comprises a square bearing shell (1 a) and a snake-shaped bent pipe (1 b) wrapped by the bearing shell (1 a);

among the plurality of water cooling modules (1) which are connected in series, the first water cooling module (1) is provided with a water inlet connected with a water source (A), and the last water cooling module (1) is provided with a water outlet connected with water using equipment (B);

in two adjacent water-cooling modules (1), a stepped hole (1 a 1) communicated with the inner cavity of the serpentine elbow (1 b) inside the bearing shell (1 a) of one water-cooling module (1) is formed in the side surface of the bearing shell (1 a) of the other water-cooling module (1), a hollow joint (1 a 2) which protrudes outwards and corresponds to the stepped hole (1 a 1) is arranged in the side surface of the bearing shell (1 a) of the other water-cooling module (1), the inner cavity of the hollow joint (1 a 2) is communicated with the inner cavity of the serpentine elbow (1 b) inside the water-cooling module (1), and the hollow joint (1 a 2) is inserted into the stepped hole (1 a 1) so that the serpentine elbows (1 b) inside the two connected water-cooling modules (1) are communicated;

the connecting assembly (2) comprises a connecting bolt (2 a), a connecting convex strip (2 b) which is fixedly connected to one water cooling module (1) and extends outwards from the side surface of the bearing shell (1 a) of the water cooling module, and a connecting groove (2 c) which is correspondingly formed in the side surface of the bearing shell (1 a) of the other water cooling module (1);

a threaded hole (2 b 1) is formed in the connecting convex strip (2 b);

the connecting convex strip (2 b) is inserted into the connecting groove (2 c), and the connecting bolt (2 a) is screwed into a threaded hole (2 b 1) formed in the connecting convex strip (2 b) from the outside of a bearing shell (1 a) of the water-cooling module (1) provided with the connecting groove (2 c), so that two adjacent water-cooling modules (1) are fixedly connected together;

the connecting assembly (2) further comprises a cushion block (2 d), a cushion block accommodating groove (1 a 3) for accommodating the cushion block (2 d) is formed in the top of a bearing shell (1 a) of the water-cooling module (1) provided with the connecting groove (2 c), and the bottom of the cushion block accommodating groove (1 a 3) is communicated with the connecting groove (2 c);

the cushion block (2 d) comprises an inclined sliding surface (2 d 1), an inclined bed surface (1 a3 a) corresponding to the sliding surface (2 d 1) is arranged in the cushion block accommodating groove (1 a 3), and a through hole (2 d 2) for a connecting bolt (2 a) to pass through is formed in the cushion block (2 d);

a sealing element (3) is arranged in the stepped hole (1 a 1), and the sealing element (3) is arranged between the step surface of the stepped hole (1 a 1) and the step surface of the hollow joint (1 a 2);

after the connecting bolt (2 a) passes through the through hole (2 d 2) and is screwed downwards into a threaded hole (2 b 1) formed in the connecting convex strip (2 b), the cushion block (2 d) slides along the inclined bed surface (1 a3 a) under the action of the pressure of the head of the connecting bolt (2 a) and drives the connecting bolt (2 a) and the connecting convex strip (2 b) to displace, so that the sealing element (3) is tightly pressed on the step surface of the stepped hole (1 a 1) by the step surface of the hollow joint (1 a 2), and sealing between the stepped hole (1 a 1) and the hollow joint (1 a 2) is realized;

the sealing element (3) is a rubber sealing ring, a sealing groove is formed in the step surface of the stepped hole (1 a 1), the rubber sealing ring is placed in the sealing groove, after the connecting bolt (2 a) penetrates through the through hole (2 d 2) and is screwed downwards into a threaded hole (2 b 1) formed in the connecting convex strip (2 b), the rubber sealing ring is tightly pressed in the sealing groove by the step surface of the hollow joint (1 a 2), and therefore sealing is achieved between the stepped hole (1 a 1) and the hollow joint (1 a 2);

the stepped hole (1 a 1) and the hollow joint (1 a 2) both include two step surfaces, two step surfaces of the stepped hole (1 a 1) are respectively a first step surface (1 a1 a) and a second step surface (1 a1 b) arranged outside the first step surface (1 a1 a), two step surfaces of the hollow joint (1 a 2) are respectively a third step surface (1 a2 a) corresponding to the first step surface (1 a1 a) and a fourth step surface (1 a2 b) corresponding to the second step surface (1 a1 b), the sealing groove is formed in the first step surface (1 a1 a), the connecting bolt (2 a) penetrates through the through hole (2 d 2) and is screwed into a threaded hole (2 b 1) formed by the connecting convex strip (2 b), the rubber sealing ring is tightly pressed in the third step surface (1 a 2), and the second step surface (1 a2 a) is used for forming a gap between the second step surface (1 a2 a) and the second step surface (2 a 2) and the hollow joint (23 a 2) forming a2 and the sealing groove 638) forming a2 and the first step surface (23 a2 b) forming a2b forming a2b A second resealed sealant (4);

when the water equipment (B) uses water, hot water in the serpentine bent pipe (1B) after heat exchange with the bearing shell (1 a) flows out of the water cooling module (1) to the water equipment (B), cold water is injected into the serpentine bent pipe (1B) from the water source (A) at the same time, and the cold water exchanges heat with the bearing shell (1 a) to reduce the temperature of the bearing shell (1 a).

2. The heat preservation and insulation system for the roof domestic water according to claim 1, characterized in that: the bearing shell (1 a) of the water cooling module (1) is formed by injection molding of PVC or PMMA materials.

3. The heat preservation and insulation system for the roof domestic water according to claim 1, characterized in that: the connecting convex strips (2 b) are metal strips, and one ends of the metal strips are embedded into the bearing shell (1 a) of the water cooling module (1).

4. The heat preservation and insulation system for the roof domestic water according to claim 1, characterized in that: the rubber sealing ring is an O-shaped rubber sealing ring.

5. The heat preservation and insulation system for the roof domestic water according to claim 1, characterized in that: the connecting bolt (2 a) is an inner hexagon bolt.

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