CN109708181B - Buried water dividing and collecting device for heating system - Google Patents

Abstract

The invention relates to a buried water dividing and collecting device for a heating system, which comprises a water dividing and collecting device body, wherein the water dividing and collecting device body comprises a semicircular water divider and a semicircular water collector, a water supply pipe, a plurality of water divider branches and a water divider tail end plug are sequentially arranged on the semicircular side wall of the semicircular water divider, a water return pipe, a plurality of water collector branches and a water collector tail end plug are sequentially arranged on the semicircular side wall of the semicircular water collector, an exhaust valve is arranged at the top of the semicircular water divider and the semicircular water collector, a filter screen is arranged in the semicircular water divider and the semicircular water collector, the filter screen divides the inner cavity of the semicircular water divider and the semicircular water collector into a filter cavity and a circulation cavity, the water divider branches and the water collector branches are communicated with the circulation. The invention has the advantages that the internal space is enlarged, the impact generated by the change of the water pressure is well absorbed, and the impact of liquid on the body is reduced; the installation form is more free and flexible, and the buried installation is suitable.

Description

Buried water dividing and collecting device for heating system

Technical Field

The invention relates to the technical field of water collecting and distributing devices, in particular to an underground water collecting and distributing device for a heating system.

Background

The water collecting and collecting device is a device used for connecting a main heating water supply pipe and a water return pipe in a floor heating system. The water separator is divided into a water separator and a water collector. The water distributor is a water distribution device which is used for connecting water supply pipes of heating pipes in a water system. The water collector is a water collecting device which is arranged in a water system and is used for connecting water return pipes of heating pipes.

The water distributor-collector consists of a water distributing main pipe and a water collecting main pipe, wherein the water distributing main pipe is connected with a water supply pipe of a pipe network system and is mainly used for distributing hot water from the pipe network system to each room needing floor heating through a ground heating pipe buried under the floor. When the hot water flows in the ground heating pipe, the heat is transferred to the floor, and then the heat is radiated and transferred to the indoor through the floor. The other end of the ground heating pipe is connected with the water collecting main pipe of the water collecting and collecting device, and backwater with reduced temperature returns to the pipe network system through the water collecting main pipe after indoor heat dissipation to complete a cycle.

Current divide water collector mostly a plurality of lateral pipelines of cylindrical main part collocation that have the cavity, and inner space is less, and the mounted position is on the wall, and the filter equipment that divides water collector is mostly external, carries out impurity filtering before the heating medium gets into the main part, needs special filter, has increased holistic installation space, and the installation form is more single.

Disclosure of Invention

The invention aims to solve the defects of the prior art and provides an underground water dividing and collecting device for a heating system.

In order to achieve the purpose, the invention adopts the following technical scheme:

a buried water dividing and collecting device for a heating system comprises a water dividing and collecting device body, wherein the water dividing and collecting device body comprises a separated semicircular water distributor and a semicircular water collector which are spliced into a circle, a water supply pipe, a plurality of water distributor branches and a water distributor tail end plug are sequentially arranged on the semicircular side wall of the semicircular water distributor, the water distributor branches are uniformly distributed and provided with water distributor branch control valves, the water supply pipe and the water distributor tail end plug are oppositely arranged, a water return pipe, a plurality of water collector branches and a water collector tail end plug are sequentially arranged on the semicircular side wall of the semicircular water collector, the water return pipe and the water collector tail end plug are uniformly distributed and provided with water collector branch control valves, the water return pipe and the water collector tail end plug are oppositely arranged, and the water supply pipe and the water return pipe are positioned on the same side, the top parts of the semicircular water separator and the semicircular water collector are provided with exhaust valves at one ends of the water separator tail end pipe plug and the water collector tail end pipe plug, filter screens are arranged in the semicircular water separator and the semicircular water collector respectively, the filter screens in the semicircular water separator are arranged in parallel with the connecting line direction of the water supply pipe and the water separator tail end pipe plug, the filter screens in the semicircular water collector are arranged in parallel with the connecting line direction of the water return pipe and the water collector tail end pipe plug, the filter screens divide the inner cavities of the semicircular water separator and the semicircular water collector into a filter cavity and a circulation cavity, the water supply pipe and the water separator tail end pipe plug are communicated with the filter cavity of the semicircular water separator, the water separator branch is communicated with the circulation cavity of the semicircular water separator, the water return pipe and the water collector tail end pipe plug are communicated with the filter cavity of the semicircular water collector, and the water collector branch is communicated, the semicircular water distributor and the semicircular water collector are provided with a sewage draining outlet at the bottom of the filter cavity.

And a plurality of support rods are uniformly distributed at the bottoms of the semicircular water distributor and the semicircular water collector.

Particularly, metal thread embedded rings are arranged in the water distributor branch and the water collector branch, and the metal thread embedded rings are in threaded connection with metal pipelines.

Particularly, the water distributor branch and the water collector branch are connected with plastic pipelines in a hot melting mode.

The semicircular water distributor and the semicircular water collector are made of PERT materials.

The water distributor branch and the water collector branch are five.

The semicircular water separator and the semicircular water collector are made of PERT materials, and are different from the traditional copper water separator and water collector, so that the actual weight is reduced.

When the semicircular water distributor and the semicircular water collector are connected with the pipeline and other heating and ventilation accessories, if the pipeline or other heating and ventilation accessories are made of metal materials, the pipeline or other heating and ventilation accessories are connected by using the metal thread embedded ring, and if the pipeline is made of plastic such as PPR, the pipeline or other heating and ventilation accessories can be directly connected by using a hot melting mode.

The internal space of the water collecting and distributing device body is enlarged, the original external filter is directly arranged in the water collecting and distributing device body, impurities in the heat supply medium are filtered before the branch pipeline, and the height of the water supply pipe and the water return pipe is higher than that of the bottom of the filter cavity, so the impurities can be deposited to the bottom under the action of gravity and can be discharged from a sewage discharge outlet at the bottom.

The exhaust valve is arranged on the upper part of the water collecting and distributing device body, and gas can be collected at the top, so that the excessive gas can be fully exhausted.

The water collecting and distributing device is different from the traditional water collecting and distributing device, the traditional water collecting and distributing device is arranged on a wall, the water collecting and distributing device is installed underground, the water collecting and distributing device needs to be paved and installed under a household floor or a ceramic tile, and meanwhile, an access hole is reserved for detection and maintenance. The water supply side and the water return side can be combined together or separated independently and can be freely combined and placed according to the position required by installation.

The invention has the beneficial effects that: the invention has the advantages that the internal space is enlarged, the impact generated by the change of the water pressure is well absorbed, the uniformity and the stability of branch fluid are facilitated, the internal area is increased and the flow rate is reduced under the condition of certain total flow, the impact of liquid on the body can be fully relieved, and the service life of the body can be prolonged; the installation form is more free and flexible, and the buried installation is suitable.

Drawings

FIG. 1 is a front view of the present invention;

FIG. 2 is a top view of the present invention;

FIG. 3 is a bottom view of the present invention;

FIG. 4 is a right side cross-sectional view of the present invention;

FIG. 5 is a perspective view of the present invention;

FIG. 6 is a positional arrangement of the present invention in use;

FIG. 7 is a view of a positional arrangement of the semicircular water distributor and the semicircular water collector in use of the present invention;

FIG. 8 is a view of an alternative arrangement of the semicircular water knockout vessel and the semicircular water collector in use of the invention;

in the figure: 1-semicircular water separator; 2-a semicircular water collector; 3-a water supply pipe; 4-water separator branch; 5-plugging the tail end of the water separator; 6-branch control valve of water separator; 7-a water return pipe; 8-a water collector branch; 9-plugging the tail end of the water collector; 10-a water collector branch control valve; 11-an exhaust valve; 12-a filter screen; 13-a filter chamber; 14-a sewage draining outlet; 15-support rods;

the following detailed description will be made in conjunction with embodiments of the present invention with reference to the accompanying drawings.

Detailed Description

The invention is further illustrated by the following examples in conjunction with the accompanying drawings:

as shown in fig. 1 to 5, an underground water distributor and collector for a heating system comprises a water distributor and collector body, wherein the water distributor and collector body comprises a separated semicircular water distributor 1 and a semicircular water collector 2, the semicircular water distributor 1 and the semicircular water collector 2 are spliced into a circle, a water supply pipe 3, a plurality of water distributor branches 4 and a water distributor tail end plug 5 are sequentially arranged on a semicircular side wall of the semicircular water distributor 1, the water distributor branches 4 are uniformly distributed and provided with water distributor branch control valves 6, the water supply pipe 3 and the water distributor tail end plug 5 are oppositely arranged, a water return pipe 7, a plurality of water collector branches 8, a water collector tail end plug 9 are sequentially arranged on a semicircular side wall of the semicircular water collector 2, the water collector branches 8 are uniformly distributed and provided with water collector branch control valves 10, the water return pipe 7, The water collector tail end pipe plugs 9 are oppositely arranged, the water supply pipe 3 and the water return pipe 7 are positioned on the same side, exhaust valves 11 are arranged at the top parts of the semicircular water distributor 1 and the semicircular water collector 2 at the ends where the water distributor tail end pipe plugs 5 and the water collector tail end pipe plugs 9 are positioned, filter screens 12 are arranged in the semicircular water distributor 1 and the semicircular water collector 2, the filter screens 12 in the semicircular water distributor 1 are arranged in parallel with the connecting line direction of the water supply pipe 3 and the water distributor tail end pipe plugs 5, the filter screens 12 in the semicircular water collector 2 are arranged in parallel with the connecting line direction of the water return pipe 7 and the water collector tail end pipe plugs 9, the filter screens 12 divide the inner cavities of the semicircular water distributor 1 and the semicircular water collector 2 into a filter cavity 13 and a circulation cavity, the water supply pipe 3 and the water distributor tail end pipe plugs 5 are communicated with the filter cavity 13 of the semicircular water distributor 1, and the water distributor branch 4 is communicated, the water return pipe 7 and the water collector tail end pipe plug 9 are communicated with a filter cavity 13 of the semicircular water collector 2, a water collector branch 8 is communicated with a circulation cavity of the semicircular water collector 2, and a sewage discharge outlet 14 is formed in the bottom of the filter cavity 13 of the semicircular water collector 1 and the semicircular water collector 2.

And a plurality of support rods 15 are uniformly distributed at the bottoms of the semicircular water distributor 1 and the semicircular water collector 2.

Particularly, metal threaded embedded rings are arranged in the water distributor branch 4 and the water collector branch 8, and the metal threaded embedded rings are in threaded connection with metal pipelines.

Particularly, the water distributor branch 4 and the water collector branch 8 are connected with plastic pipelines in a hot melting mode.

The semicircular water distributor 1 and the semicircular water collector 2 are made of PERT materials.

The number of the water distributor branches 4 and the number of the water collector branches 8 are five.

The semicircular water distributor 1 and the semicircular water collector 2 are made of PERT materials, and are different from the traditional copper water distributor and collector, so that the actual weight is reduced.

When the semicircular water distributor 1 and the semicircular water collector 2 are connected with a pipeline and other heating and ventilation fittings, if the pipeline or other heating and ventilation fittings are made of metal materials, the pipeline or other heating and ventilation fittings are connected by using a metal thread embedded ring, and if the pipeline is made of plastic such as PPR, the pipeline or other heating and ventilation fittings can be directly connected by using a hot melting mode.

The internal space of the water collecting and distributing device body is enlarged, the original external filter is directly arranged in the water collecting and distributing device body, impurities in a heat supply medium are filtered before branch paths, and the height of the water supply pipe 3 and the height of the water return pipe 7 are higher than that of the bottom of the filter cavity 13, so the impurities can be deposited to the bottom under the action of gravity and can be discharged from a sewage outlet 14 at the bottom.

The exhaust valve 11 is arranged at the upper part of the water collecting and distributing device body, and gas can be collected at the top, so that the excessive gas can be fully exhausted.

The water collecting and distributing device is different from the traditional water collecting and distributing device which is installed on the wall and underground, needs to be paved and installed under a household floor or a ceramic tile, and simultaneously reserves an access hole for detection and maintenance, as shown in fig. 6. Meanwhile, the water supply side and the water return side of the invention can be combined together as shown in fig. 2, or can be separated independently and freely combined and placed according to the installation required position as shown in fig. 7 and 8.

The invention has the advantages that the internal space is enlarged, the impact generated by the change of the water pressure is well absorbed, the uniformity and the stability of branch fluid are facilitated, the internal area is increased and the flow rate is reduced under the condition of certain total flow, the impact of liquid on the body can be fully relieved, and the service life of the body can be prolonged; the installation form is more free and flexible, and the buried installation is suitable.

The invention has been described in connection with the accompanying drawings, it is to be understood that the invention is not limited to the specific embodiments disclosed, but is intended to cover various modifications, adaptations or uses of the invention, and all such modifications and variations are within the scope of the invention.

Claims (6)

1. A buried water collecting and distributing device for a heating system is characterized by comprising a water collecting and distributing device body, wherein the water collecting and distributing device body comprises a separated semicircular water distributor (1) and a semicircular water collector (2), the semicircular water distributor (1) and the semicircular water collector (2) are spliced into a circle, a water supply pipe (3), a plurality of water distributor branches (4) and a water distributor tail end plug (5) are sequentially arranged on the semicircular side wall of the semicircular water distributor (1), the water distributor branches (4) are uniformly distributed and provided with water distributor branch control valves (6), the water supply pipe (3) and the water distributor tail end plug (5) are oppositely arranged, a water return pipe (7), a plurality of water collector branches (8) and a water collector tail end plug (9) are sequentially arranged on the semicircular side wall of the semicircular water collector (2), the water collector branches (8) are uniformly distributed and provided with water collector branch control valves (10), the water return pipe (7) and the water collector tail end pipe plug (9) are oppositely arranged, the water supply pipe (3) and the water return pipe (7) are positioned at the same side, the top parts of the semicircular water distributor (1) and the semicircular water collector (2) are provided with exhaust valves (11) at the ends where the water distributor tail end pipe plug (5) and the water collector tail end pipe plug (9) are positioned, filter screens (12) are respectively arranged in the semicircular water distributor (1) and the semicircular water collector (2), the filter screens (12) in the semicircular water distributor (1) are arranged in parallel with the connecting line direction of the water supply pipe (3) and the water collector tail end pipe plug (5), the filter screens (12) in the semicircular water collector (2) are arranged in parallel with the connecting line direction of the water return pipe (7) and the water collector tail end pipe plug (9), and the inner cavities of the semicircular water distributor (1) and the semicircular water collector (2) are divided into filter cavities (13, the water supply pipe (3), the water distributor terminal plug (5) and the filter chamber (13) of the semicircular water distributor (1) are communicated, the water distributor branch (4) and the circulation chamber of the semicircular water distributor (1) are communicated, the water return pipe (7), the water collector terminal plug (9) and the filter chamber (13) of the semicircular water collector (2) are communicated, the water collector branch (8) and the circulation chamber of the semicircular water collector (2) are communicated, and the semicircular water distributor (1) and the semicircular water collector (2) are provided with a sewage discharge outlet (14) at the bottom of the filter chamber (13).

2. The underground water collector according to claim 1, wherein a plurality of support rods (15) are uniformly distributed at the bottom circumferences of the semicircular water distributor (1) and the semicircular water collector (2).

3. The underground water distributor-collector for the heating system as claimed in claim 2, wherein metal threaded rings are arranged in the water distributor branch (4) and the water collector branch (8), and the metal threaded rings are in threaded connection with metal pipes.

4. The underground water distributor-collector for the heating system as claimed in claim 2, wherein the water distributor branch (4) and the water collector branch (8) are connected with plastic pipes by hot melting.

5. An underground water collector according to claim 3 or 4, wherein the semicircular water distributor (1) and the semicircular water collector (2) are made of PERT material.

6. The underground water distributor-collector for the heating system according to claim 1, wherein the number of the water distributor branch (4) and the water collector branch (8) is five.

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