CN219808435U - Water knockout drum and water supply system of low-rise modularization building - Google Patents

Abstract

The utility model relates to the technical field of water supply of bottom-layer buildings, in particular to a water separator and a water supply system of a low-layer modularized building, wherein the water separator comprises: the water separator comprises a first main pipe of a water separator, a second main pipe of the water separator and a water separator connecting frame for connecting the two ends of the first main pipe of the water separator and the second main pipe of the water separator; the first manifold of the water separator and the second manifold of the water separator are provided with a water inlet and a closed end opposite to the water inlet; the top parts of the first main pipe of the water separator and the second main pipe of the water separator are also provided with a plurality of water separator water outlets; the water knockout drum link includes: the horizontal section is L-shaped and symmetrically arranged on the first side plate and the second side plate at two ends of the first main pipe of the water separator and the second main pipe of the water separator. The water separators can supply water to a plurality of water supply points in a plurality of building modules simultaneously, and the water supply of the building modules can be realized simultaneously only by connecting the water inlets of a municipal pipe network, so that the water pressure of each water supply point is not influenced by other building modules.

Description

Water knockout drum and water supply system of low-rise modularization building

Technical Field

The utility model relates to the technical field of water supply of bottom-layer buildings, in particular to a water separator and a water supply system of a low-layer modularized building.

Background

The concrete modularized low-rise house building is a novel building mode which is recently raised in China at present, and has the characteristics of full decoration, rapid building, heat preservation, energy conservation and the like. Since in terms of function setting, the core idea is that a single function is integrated into a single module, for example: toilet modules, kitchen modules, stair modules, etc. Therefore, a new design concept is required in the aspect of waterway design.

In the assembling process of each module, because the module installation space is relatively small, the problem of high difficulty in butt joint of pipelines can be generated in the waterway construction process, the construction quality is difficult to guarantee, and the maintenance difficulty is high.

If only a serial waterway design is adopted, the problem of insufficient water pressure at partial points can be caused. Therefore, how to realize the independent functions of the single modules of the waterway design, so that the water pressure of each module is not affected by the use of other modules is of interest to those skilled in the art.

In addition, too long waterways can lead to too many interfaces, which can cause difficulties for subsequent overhauling. How to reduce the on-site pipeline connection construction while the functions of the modules are independent is also in need of optimization and improvement.

Disclosure of Invention

First, the technical problem to be solved

In view of the defects and shortcomings of the prior art, the utility model provides a water separator and a water supply system of a low-rise modularized building, which solve the technical problems that the installation space of a concrete modularized low-rise building is insufficient, the water pressure of part of water supply points is insufficient, and the interface is too many and the maintenance is inconvenient.

(II) technical scheme

In order to achieve the above purpose, the main technical scheme adopted by the utility model comprises the following steps:

a water separator, comprising: the water separator comprises a first main pipe of a water separator, a second main pipe of the water separator and a water separator connecting frame for connecting the two ends of the first main pipe of the water separator and the second main pipe of the water separator;

the first manifold of the water separator and the second manifold of the water separator are provided with a water inlet and a closed end opposite to the water inlet;

the top parts of the first main pipe of the water separator and the second main pipe of the water separator are also provided with a plurality of water separator water outlets;

the water knockout drum link includes: the horizontal section is L-shaped and symmetrically arranged on the first side plate and the second side plate at two ends of the first main pipe of the water separator and the second main pipe of the water separator.

And one end of the first side plate, which corresponds to the first main pipe of the water separator and the second main pipe of the water separator, is provided with a through hole so that the first main pipe of the water separator and the second main pipe of the water separator can feed water.

A water supply system for a low-rise modular building, employing the water separator, the low-rise modular building including a plurality of building modules, the water supply system comprising: a first water separator for simultaneously supplying water to a plurality of water supply points in each building module, a second water separator for supplying water to the first water separator, and a water heater for supplying water to the first water separator;

the first water separators are respectively connected with the second water separators through cold water branch pipes and hot water branch pipes; the second water separator is connected with the water heater through a hot water main pipe, and the second water separator and the water heater are respectively connected with a municipal pipe network through a cold water main pipe.

The first water separator and the first main pipe of the water separator of the second water separator are cold water pipes, and the second main pipe of the water separator of the first water separator and the second water separator is a hot water pipe.

The first water separator and the second water separator are fixed on the building module through the water separator connecting frame.

The water knockout drum link has stiff end and link, stiff end perpendicular to the link.

The connecting end is provided with a plurality of mounting holes for mounting, and the first water separator and/or the second water separator are/is fixed on the wall body of the building module through bolts.

The plurality of water supply points in the building module comprise: shower water supply points, toilet water supply points and hand basin water supply points;

the shower water supply point, the toilet water supply point and the hand basin water supply point are provided with a cold water receiving port and a hot water receiving port.

(III) beneficial effects

The beneficial effects of the utility model are as follows: the utility model provides a water separator and a water supply system of a low-rise modularized building, which simplify the structure and reduce the whole volume of the water separator on the basis of guaranteeing the water separation function by combining a water separator connecting frame with a water separator first main pipe and a water separator second main pipe, so that the water separator occupies less space in the installation and use process, can be fixed in a smaller installation space, meets the construction requirement of the low-rise modularized building, and is more convenient to install.

Through the combination setting of second water knockout drum and first water knockout drum, on realizing that single building module water supply function is independent, a plurality of water knockout drums can realize supplying water simultaneously to a plurality of water supply points in the a plurality of building modules, only need connect the water inlet of a municipal pipe network, can realize the water supply simultaneously of a plurality of building modules, and the water pressure of each water supply point also does not receive other building module's influence. In the on-site installation process of the building module, only the water inlet of the second water separator is required to be in butt joint with the municipal water pipe network, so that on-site pipeline connection construction is greatly reduced. The water supply system can be preloaded in the building module in the factory, so that the integrity of the building module when leaving the factory is improved, and the construction steps of the building module in the assembling process are saved.

Drawings

FIG. 1 is a schematic diagram of the structural connection of the water supply system of the low-rise modular building of the present utility model;

FIG. 2 is a schematic view of the structure of the water separator of the present utility model;

fig. 3 is a schematic view of a water feed point connection within a building module of the present utility model.

[ reference numerals description ]

1: a building module;

2: a second water separator; 21: a first water separator; 211: a fixed end; 212: a connection end; 213: a first manifold of the water separator; 214: a cold water outlet of the water separator; 215: a hot water outlet of the water separator; 216: a second manifold of the water separator; 217: a first side plate; 218: a second side plate;

3: a cold water main pipe; 31: cold water branch pipes;

4: a water heater;

5, a hot water main pipe; 51: a hot water branch pipe;

61: a water supply point of the shower head; 62: a water supply point of the toilet bowl; 63: water supply point of the hand basin.

Detailed Description

The utility model will be better explained by the following detailed description of the embodiments with reference to the drawings.

In order that the above-described aspects may be better understood, exemplary embodiments of the present utility model will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the present utility model are shown in the drawings, it should be understood that the present utility model may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the utility model to those skilled in the art.

A water dispenser and water supply system for a low-rise modular building, applied to the low-rise modular building, comprising: a first water separator 21 for supplying water to a plurality of water supply points in each building module 1 at the same time, a second water separator 2 for supplying water to the first water separator 21, a water heater 4 for supplying water to the first water separator 2, a cold water main 3 for connecting municipal pipe network, a hot water main 5 for connecting the second water separator 2 and the water heater 4, a cold water branch 31 and a hot water branch 51 for connecting the first water separator 21 and the water supply points in the building module 1.

The water heater 4 and the second water separator 2 are respectively connected with municipal pipe networks through the cold water main pipe 3, the second water separator 2 is connected with the water heater 4 through the hot water main pipe 5, the second water separator 2 is connected with the first water separator 21 through the cold water branch pipe 31 and the hot water branch pipe 51, and the first water separator 21 is respectively connected with water supply points in each building module 1 through the cold water branch pipe 31 and the hot water branch pipe 51. The parallel water supply of a plurality of water supply points in a plurality of building modules 1 is realized through the first water separator 21 and the second water separator 2, the phenomenon that water pressure is unstable due to water used in each area is avoided, the number of water pipe connectors is greatly reduced, the water leakage risk is reduced, and the later maintenance difficulty is also avoided. Meanwhile, the water supply system can be preloaded in the building module 1 in a factory, so that the integrity of the building module 1 when leaving the factory is improved, and the construction steps of the building module 1 in the assembling process are saved.

The water supply points within the building module 1 comprise: the shower water supply point 61, the toilet water supply point 62 and the wash basin water supply point 63 are provided with a cold water receiving port and a hot water receiving port.

The second water separator 2 and the first water separator 21 each include: a diverter coupling frame, a diverter first manifold 213, and a diverter second manifold 216. Both ends of the first water separator header 213 and the second water separator header 216 are fixed to a water separator connecting frame for fixing the water separator to a building wall. The first water separator header 213 is a cold water pipe and the second water separator header 216 is a hot water pipe.

The first water separator header 213 and the second water separator header 216 are disposed in parallel at the same horizontal plane to save the overall installation space of the water separator. One end of the first main pipe 213 of the water separator is provided with a cold water inlet of the water separator, the other end is a closed end, the top of the first main pipe 213 of the water separator is also provided with a plurality of cold water outlets 214 of the water separator, and the cold water outlets 214 of the water separator are connected with water supply points in a building through the cold water branch pipes 31 so as to realize that a plurality of water supply points can simultaneously supply cold water.

One end of the second main pipe 216 is provided with a hot water inlet of the water separator, the other end is a closed end, the top of the second main pipe 216 is also provided with a plurality of hot water outlets 215 of the water separator, and the hot water outlets 215 of the water separator are connected with water supply points in a building through the hot water branch pipes 51 so as to realize that a plurality of water supply points can simultaneously supply hot water.

Because the whole building space of low-rise modularization building is little for traditional building's water route installation space, also need consider the size of water knockout drum occupation space, the water knockout drum link includes: the first side plate 217 and the second side plate 218, the first side plate 217 and the second side plate 218 are respectively provided with a fixed end 211 and a connecting end 212, the fixed end 211 is perpendicular to the connecting end 212, the connecting end 212 is provided with a plurality of mounting holes for mounting, and the water knockout drum can be fixed on a building wall body through bolts.

The connection end 212 is triangular, and the occupation space of the water separator can be reduced by combining the triangular connection end 212 with the first water separator main 213 and the second water separator main 216. The connecting end 212 of the first side plate 217 is provided with through holes corresponding to the cold water inlet of the water separator and the hot water inlet of the water separator so that the water separator first main pipe 213 and the water separator second main pipe 216 can feed water. Through the combination setting of first curb plate 217, second curb plate 218 and water knockout drum first manifold 213, water knockout drum second manifold 216, on guaranteeing the basis of water knockout function, simplified the structure, reduced the whole volume of water knockout drum, make the water knockout drum occupation space less in the installation, can fix in less installation space, satisfy the construction demand of low-rise modularization building, it is more convenient to install.

The utility model provides a water separator and a water supply system of a low-rise modularized building, wherein one end of a cold water main pipe 3 is connected with a municipal pipe network, the other end of the cold water main pipe is respectively connected with a water separator cold water inlet of a water heater 4 and a water separator hot water inlet of a second water separator 2, the water separator hot water inlet of the water heater 4 and the water separator hot water inlet of the second water separator 2 are connected through a hot water main pipe 5, the water separator cold water outlet 214 of the second water separator 2 and the water separator cold water inlet of a first water separator 21 are connected through a cold water branch pipe 31, and the water separator hot water outlet 215 of the second water separator 2 and the water separator hot water inlet of the first water separator 21 are connected through a hot water branch pipe 51. The cold water branch pipes 31 are connected with the cold water outlet 214 of the first water separator 21 and the water supply point in the module building 1, and the hot water branch pipes 51 are respectively connected with the hot water outlet 215 of the first water separator 21 and the water supply point in the module building 1, so that parallel water supply of a plurality of water supply points in a plurality of low-level modularized buildings is realized, ultra-long serial pipelines in the assembled building module 1 are avoided, the phenomenon of unstable water pressure caused by water consumption in each area is avoided, meanwhile, the number of times of pipeline butt joint in the construction process is greatly reduced, the construction difficulty is reduced, and the water leakage risk is also reduced. The internal waterway arrangement of the water supply system of the low-rise modularized building can be completed in a factory, and the finishing degree of the module is improved.

The water supply system of the low-rise modularized building comprises the following specific construction steps:

s1: when a module is manufactured in a factory and is constructed, a water separator is pre-buried at a position where the module is suitable to be in butt joint with an external water inlet pipe (municipal pipe network); wherein, the water knockout drum includes: a second water separator 2 and a first water separator 21.

S2: connecting the water outlet of the first water separator 21 to each water supply point in the modular building 1 through a cold water branch pipe 31 and a hot water branch pipe 51 respectively; the water inlet of the second water separator 2 is a 6-branch pipe interface, and the cold water main pipe 3 and the hot water main pipe 5 adopt 6-branch pipes. The cold water branch pipe 31 and the hot water branch pipe 51 adopt 4 branch pipes, and the matched pipe diameters can be selected according to the actual connection requirements.

S3: the building modules 1 loaded into the water supply system are all decorated and transported to the project site for assembly, one water path is connected from the second water separator 2 of one module to the first water separator 21 of the other module, the water inlet of the second water separator 2 is connected with cold water through a municipal water pipe network, and the water heater 4 is connected with hot water.

Wherein, each first water separator 21 is connected from the second water separator 2, so that each first water separator 21 is in parallel connection structure without mutual interference.

The utility model provides a water separator and a water supply system of a low-rise modularized building, which are characterized in that through the combination of a second water separator 2 and a first water separator 21, on the basis of realizing independent water supply function of a single building module, a plurality of first water separators 21 can realize simultaneous water supply to a plurality of water supply points in a plurality of building modules 1, and the simultaneous water supply of the building modules 1 can be realized only by connecting a water inlet of a municipal pipe network, and the water pressure of each water supply point is not influenced by other building modules 1. In the field installation process of the building module 1, only the water inlet of the second water separator 2 is required to be in butt joint with the municipal water pipe network, so that the field pipeline connection construction is greatly reduced. The water supply system can be preloaded in the building module 1 in a factory, so that the integrity of the building module 1 when leaving a factory is improved, and the construction steps of the building module 1 in the assembling process are saved.

Meanwhile, the second water separator 2 and the first water separator 21 are combined with the first water separator main pipe 213 and the second water separator main pipe 216 through the water separator connecting frame, so that the structure is simplified, the whole volume of the water separator is reduced on the basis of guaranteeing the water separation function, the occupied space of the water separator in the installation and use processes is smaller, the water separator can be fixed in a smaller installation space, the construction requirement of a low-rise modularized building is met, and the installation is more convenient.

In the description of the present utility model, it should be understood that the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present utility model, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

In the present utility model, unless explicitly specified and limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium; may be a communication between two elements or an interaction between two elements. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

In the present utility model, unless expressly stated or limited otherwise, a first feature is "on" or "under" a second feature, which may be in direct contact with the first and second features, or in indirect contact with the first and second features via an intervening medium. Moreover, a first feature "above," "over" and "on" a second feature may be a first feature directly above or obliquely above the second feature, or simply indicate that the first feature is higher in level than the second feature. The first feature being "under", "below" and "beneath" the second feature may be the first feature being directly under or obliquely below the second feature, or simply indicating that the first feature is level lower than the second feature.

In the description of the present specification, the terms "one embodiment," "some embodiments," "examples," "particular examples," or "some examples," etc., refer to particular features, structures, materials, or characteristics described in connection with the embodiment or example as being included in at least one embodiment or example of the present utility model. In this specification, schematic representations of the above terms are not necessarily directed to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, the different embodiments or examples described in this specification and the features of the different embodiments or examples may be combined and combined by those skilled in the art without contradiction.

While embodiments of the present utility model have been shown and described above, it will be understood that the above embodiments are illustrative and not to be construed as limiting the utility model, and that alterations, modifications, substitutions and variations may be made in the above embodiments by those skilled in the art within the scope of the utility model.

Claims (8)

1. A water separator, comprising: a first water separator main pipe (213), a second water separator main pipe (216) and water separator connecting frames for connecting the first water separator main pipe (213) and the second water separator main pipe (216);

the first manifold (213) and the second manifold (216) have a water inlet and a closed end opposite the water inlet;

the tops of the first water separator main pipe (213) and the second water separator main pipe (216) are also provided with a plurality of water separator water outlets;

the water knockout drum link includes: and the horizontal section is L-shaped and symmetrically arranged at the first side plate (217) and the second side plate (218) at the two ends of the first water distributor main pipe (213) and the second water distributor main pipe (216).

2. The water separator according to claim 1, wherein the first side plate (217) is provided with a through hole at one end corresponding to the first water separator main pipe (213) and the second water separator main pipe (216) so that the first water separator main pipe (213) and the second water separator main pipe (216) can feed water.

3. A water supply system for a low-rise modular building comprising a plurality of building modules (1) employing a water separator according to any one of claims 1-2, characterized in that it comprises: a first water separator (21) for supplying water to a plurality of water supply points in each building module (1) at the same time, a second water separator (2) for supplying water to the first water separator (21), and a water heater (4) for supplying water to the first water separator (21);

the first water separators (21) are respectively connected with the second water separators (2) through cold water branch pipes (31) and hot water branch pipes (51); the second water separator (2) is connected with the water heater (4) through the hot water main pipe (5), and the second water separator (2) and the water heater (4) are respectively connected with the municipal pipe network through the cold water main pipe (3).

4. A water supply system for a low-rise modular building according to claim 3, characterized in that the first water separator (21) and the first water separator manifold (213) of the second water separator (2) are cold water pipes and the first water separator (21) and the second water separator manifold (216) of the second water separator (2) are hot water pipes.

5. A water supply system for a low-rise modular building according to claim 3, characterized in that the first water separator (21) and the second water separator (2) are fixed to the building module (1) by means of the water separator connection frame.

6. The water supply system of a low-rise modular building according to claim 5, wherein the water diverter connection has a fixed end (211) and a connection end (212), the fixed end (211) being perpendicular to the connection end (212).

7. The water supply system of a low-rise modular building according to claim 6, characterized in that the connection end (212) is provided with a number of mounting holes for mounting, the first water separator (21) and/or the second water separator (2) being fastened to the wall of the building module (1) by means of bolts.

8. A water supply system for a low-rise modular building according to claim 3, characterized in that the several water supply points within the building module (1) comprise: a shower water supply point (61), a toilet water supply point (62) and a hand basin water supply point (63);

the shower water supply point (61), the toilet water supply point (62) and the hand basin water supply point (63) are respectively provided with a cold water receiving port and a hot water receiving port.