CN219775862U - Water separating and collecting device - Google Patents

Abstract

The utility model relates to a water separator for a heating system, comprising a water separator and a water collector, wherein the water separator is connected to a main water inlet pipe, the water collector is connected to a main water return pipe, the water separator and the water collector extend along the longitudinal direction, and each of the water separator and the water collector is provided with: the body comprises a plurality of paths of bodies; an end cover plate made of plastic and disposed at a longitudinally outer end of the body; a connecting rod extending through the body and the end cover plate, fixing members being provided at both ends of the connecting rod for applying a pressing force to the body and the end cover plate to fasten the body and the end cover plate together; and a side cover plate made of plastic and detachably mounted at the side of the body, and forming an air heat insulating layer between the side cover plate and the fluid pipe inside the body.

Description

Water separating and collecting device

Technical Field

The present utility model relates to heating systems. In particular, the present utility model relates to a water separator for a heating system.

Background

This section provides background information related to the present utility model, which does not necessarily constitute prior art.

Heating systems, particularly floor heating systems, typically employ a water separator-collector to connect a main water supply pipe and a return pipe, and to collect and distribute supply water and return water, regulate flow, and control the flow of supply water and return water. The water separator-collector is divided into two parts of water separator and water collector. The water distributor is a water distribution device used for connecting water supply pipes of all paths in the system. The water collector is a water collecting device used for connecting all the return water pipes in the system.

The main body of the two-in-one water collector in the current market mainly comprises a copper main body, a stainless steel main body, an engineering plastic main body and the like. Wherein, the condensation resistance effect of the metal body is the worst. Common engineering plastic bodies are also usually only single-wall structures (e.g. made of a single plastic tube) and also hollow composite structures (made of double plastic tubes with an air layer between the inner and outer plastic tubes). The condensation resistance effect of the body is poor, which can lead to the phenomena of dripping of a ceiling, falling of wall coating, water seepage and mildew, and the like, influence the appearance and the use function, bring a lot of inconvenience to the use of users and the management of property, and cause certain economic loss. Thus, problems with condensation may result in reduced brand acceptance by the floor heating system manufacturer.

In addition, the body of the water separator-collector made of metal is also costly.

On the other hand, the body of the diversity water device in the prior art adopts a mode that the single-path bodies are connected in parallel to be combined, so that the assembly is time-consuming and labor-consuming, and the cost is high.

In yet another aspect, the prior art water diversity apparatus employs a trim to integrally cover multiple bodies in parallel, with less design flexibility.

Disclosure of Invention

The object of the present utility model is to solve one or more of the technical problems mentioned above.

In particular, the present utility model aims to provide a water separator capable of reducing condensation.

In particular, it is another object of the present utility model to provide a water diversity apparatus capable of being assembled into a final body with a small number of bodies as needed, thereby achieving rapid assembly and reduced cost.

In particular, it is also an object of the present utility model to provide a water separator capable of providing a flexible design.

According to one aspect of the present utility model there is provided a water separator for a heating system, the water separator comprising a water separator for connection to a main water inlet pipe and a water collector for connection to a main water return pipe, the water separator and water collector extending in a longitudinal direction, each of the water separator and water collector having: the body comprises a plurality of paths of bodies; an end cover plate made of plastic and disposed at a longitudinally outer end of the body; the connecting rod extends through the body and the end cover plate, and fixing pieces are arranged at two ends of the connecting rod and used for applying pressing force to the body and the end cover plate to fasten the body and the end cover plate together; and a side cover plate made of plastic, detachably mounted at a side portion of the body, and forming an air heat insulating layer between the side cover plate and the fluid pipe inside the body.

According to one aspect of the utility model, the body comprises a three-way body, or comprises a two-way body, or any number and combination of three-way bodies and/or two-way bodies, wherein the three-way body is capable of connecting three split-body lines and the two-way body is capable of connecting two split-body lines.

According to one aspect of the utility model, the fluid tube extends longitudinally inside the body and the body comprises a rectangular top wall located above the fluid tube, a rectangular bottom wall located below the fluid tube and a rectangular end wall located at a longitudinal end of the fluid tube through which the fluid tube communicates with the outside.

According to one aspect of the utility model, ribs extending longitudinally along the fluid tube between the end walls are provided on the outer surface of the fluid tube.

According to one aspect of the utility model, the fluid tube has two mounts extending vertically upward beyond the top wall, and the fluid tube has a fluid port extending vertically downward beyond the bottom wall and aligned vertically with the mounts, the fluid port being connected to a fitting for connecting the shunt body conduit.

According to an aspect of the present utility model, each of the water separator and the water collector includes two links symmetrically arranged on both sides in a radial direction of the fluid pipe.

According to one aspect of the utility model, the top and bottom edges of the side panels are provided with hooks, respectively, which are rolled back towards the body, and grooves are provided at the side edges of the top and bottom walls of the body, and the hooks of the side panels are respectively inserted into and slid along the grooves when the side panels are installed, until the side panels cover the entire sides of the body, thereby forming an air insulating layer between the fluid pipe and the side panels.

According to one aspect of the utility model, threads are provided on both ends of the connecting rod, and a nut or nut can be screwed on both ends of the connecting rod, thereby fastening the body and the end cap plate together.

According to one aspect of the utility model, a seal is provided between the three-way body and/or the two-way body that make up the body.

According to one aspect of the utility model, a control device is attached to the water separator and an adjustment device is attached to the water collector.

According to the water separator-collector, the three-way body and the two-way body adopt a heat insulation layer design, so that condensation is reduced; the side cover plate is detachably arranged on the body, so that the appearance design is flexible; the two-way body and the three-way body are combined, so that the requirements of customers are easily met, and the manufacturing cost and the assembly cost of the monomer are reduced.

Drawings

The foregoing and additional features and characteristics of the present utility model will become more apparent from the following detailed description, taken in conjunction with the accompanying drawings, which are merely exemplary and not necessarily drawn to scale. Like reference numerals are used to designate like parts throughout the accompanying drawings, in which:

FIG. 1 is a front view of the water diverter of the present utility model;

FIG. 2 is a perspective view of a water collector of the present utility model; and

fig. 3 is an exploded perspective view of the water collector of the water separator-collector of the present utility model.

Detailed Description

Preferred embodiments of the present utility model will now be described in detail with reference to the accompanying drawings. The following description is merely exemplary in nature and is in no way intended to limit the utility model, its application, or uses.

Fig. 1 is a front view of the water diverter of the present utility model. The water separator-collector 1 comprises a water separator 2 and a water collector 3. A control device 4 is attached to the water separator 2. The control means 4 are, for example, flow meters for measuring the flow rate of the fluid flowing through the respective tapping lines. On the water collector 3 is attached an adjusting means 5. The regulating means 5 are, for example, regulating valves for regulating the fluid flowing through the respective branch return pipes. The water separator 2 and the water collector 3 are fixed to a bracket 6. In particular, the bracket 6 is fixed to the wall via fasteners (e.g., bolts) (not shown). The water separator 2 is connected to the mains water inlet pipe via a water inlet fitting 8 at one end of the water separator 2, and the water collector 3 is connected to the mains water return pipe via a water return fitting 7 at one end of the water collector 3. In this context, when the water separator-collector 1 is mounted on a wall, the direction in which the water separator 2 and the water collector 3 extend is referred to as the longitudinal direction, the direction of the wall is referred to as the vertical direction, and the direction orthogonal to the wall is referred to as the lateral direction. The water separator 2 and the water collector 3 extend in the longitudinal direction and have the same configuration.

Fig. 2 is a perspective view of a water collector of the water collecting and distributing device of the present utility model. Fig. 3 is an exploded perspective view of the water collector of the water separator-collector of the present utility model. In the embodiment shown in fig. 2 and 3, the water collector 3 comprises a body.

The water collector 3 further comprises an end cap plate 20 made of glass fiber reinforced plastic (e.g. nylon). The end cover plate 20 is provided at the longitudinally outer end of the body of the water collector 3. The return water connection 7 is arranged in one of the end plates 20. A seal is provided between the end cap plate 20 and the body of the water collector 3. The seal is for example an O-ring.

The water collector 3 further comprises a connecting rod 60, for example made of metal. The connecting rod 60 extends through the body of the water collector 3 and the end cap plate 20. Fixing members are provided at both ends of the link 60 for applying a pressing force to the body of the water collector 3 and the end cover plate 20 to fasten the body of the water collector 3 and the end cover plate 20 together. Optionally, threads are provided at both ends of the connecting rod 60, and nuts or nuts can be screwed to both ends of the connecting rod 60, thereby fastening the body of the water collector 3 and the end cover plate 20 together.

The body of the water collector 3 comprises a plurality of paths of bodies. In particular, the body of the water collector 3 comprises a three-way body 10 made of glass-fibre reinforced plastic (e.g. nylon), or comprises a two-way body 30 made of glass-fibre reinforced plastic (e.g. nylon), or any number of combinations of three-way bodies 10 and/or two-way bodies 30. The three-way body 10 can be connected with three split-flow pipelines (split return pipes), and the two-way body 30 can be connected with two split-flow pipelines (split return pipes). The two-way body 30 and the three-way body 10 are the most common basic pipeline numbers in actual use, or can be combined into the final required number of bodies with a smaller number of bodies according to the requirements of clients, and are installed through connecting rods, so that the combination of different ways is realized by the multipath bodies as few as possible.

In particular, a seal is provided between the three-way body 10 and/or the two-way body 30 that make up the body. The seal is for example an O-ring.

The present utility model will be further described with reference to fig. 3 by taking the two-way body 30 as an example. The two-way body 30 has a fluid tube 32 extending longitudinally inside the two-way body 30, a rectangular top wall 34 located vertically above the fluid tube 32, a rectangular bottom wall 36 located vertically below the fluid tube 32, and a rectangular end wall 38 located at a longitudinal end of the fluid tube 32. The fluid tube 32 communicates with the outside through the end wall 38. Preferably, on the outer surface of the fluid tube 32, e.g. radial ribs 33 are provided extending longitudinally along the fluid tube 32 between the end walls 38. For example, a sealing groove is provided on the outside surface of the end wall 38 around the fluid tube 32 for receiving an O-ring 39. The O-ring 39 is clamped between the end cap plate 20 of the header 3 and the end walls of the manifold bodies, between the end walls of each manifold body, to provide a seal to ensure that fluid in the fluid pipe does not spill or leak.

The fluid tube 32 of the two-way body 30 has two mounts 37 extending vertically upward beyond the top wall 34 of the two-way body 30, and the fluid tube 32 has fluid ports extending vertically downward beyond the bottom wall 36 and vertically aligned with the mounts 37. The fluid port is connected to a fitting 50 (e.g., copper screw insert) for connecting the return water pipes.

Preferably, the water collector 3 comprises two links 60. The connecting rods 60 are symmetrically arranged on both sides in the radial direction of the fluid pipe 32. Thus, the three-way body 10 and the two-way body 30 can be aligned with as few links 60 as possible, in particular the fluid pipes of the respective multipath bodies.

The water collector 3 further comprises a side cover 40. The side cover 40 is detachably mounted at the sides of the body, in particular at the sides of the three-way body 10 and the two-way body 30, and forms an air insulating layer between the side cover 40 and the fluid pipe inside the body. The side cover 40 is made of plastic that is not fiberglass reinforced. In particular, the top and bottom edges of the side cover 40 are provided with hooks 42 that are rolled back toward the three-way body 10 or the two-way body 30, respectively. Accordingly, grooves 35 are provided at the side edges of the top wall 34 and the bottom wall 36 of the two-way body 30. When the side cover 40 is installed, the hook portions 42 of the side cover 40 are respectively fitted into the grooves 35 and slid along the grooves 35 until the side cover 40 covers the entire side portion of the two-way body 30. Thereby, an air heat insulating layer is formed between the fluid pipe 32 of the two-way body 30 and the side cover 40, and only the joint (copper screw) portion is exposed. Therefore, condensation can be effectively avoided.

In addition, as described above, the side cover 40 is detachably attached to the two-way body 30, so that different side covers 40 can be designed for different users, and the design of the side cover 40 can be changed as needed, so that the design of the product is more flexible.

The three-way body 10 and the two-way body 30 of the water splitting and collecting device 1 adopt a heat insulation layer design, so that condensation and dew formation are reduced; the side cover plate 40 is detachably mounted on the three-way body 10 and the two-way body 30, so that the appearance design is flexible; the three-way body 10 and the two-way body 30 are combined, so that the requirements of customers are easily met, and the manufacturing cost and the assembly cost of the single body are reduced.

It should be appreciated that the various embodiments and features can be further designed and modified in a wide variety of different ways.

The wire stripping tool according to the preferred embodiment of the present utility model has been described above in connection with the specific embodiments. It will be understood that the above description is by way of example only and not by way of limitation, and that various modifications and alterations will occur to those skilled in the art in light of the above description without departing from the scope of the utility model. Such variations and modifications are intended to be included within the scope of the present utility model.

Claims (10)

1. A water separator-collector (1), the water separator-collector (1) being used for a heating system, the water separator-collector (1) comprising a water separator (2) and a water collector (3), the water separator (2) being used for being connected to a total water inlet pipe, the water collector (3) being used for being connected to a total water return pipe, the water separator (2) and the water collector (3) extending along a longitudinal direction, characterized in that each of the water separator (2) and the water collector (3) has:

the body comprises a plurality of paths of bodies;

an end cap plate (20), the end cap plate (20) being made of plastic and being provided at a longitudinally outer end of the body;

a connecting rod (60), wherein the connecting rod (60) extends through the body and the end cover plate (20), and fixing pieces are arranged at two ends of the connecting rod (60) and used for applying pressing force to the body and the end cover plate (20) so as to fasten the body and the end cover plate (20) together; and

a side cover plate (40), the side cover plate (40) being made of plastic, the side cover plate (40) being detachably mounted at a side of the body and forming an air insulating layer between the side cover plate and a fluid pipe located inside the body.

2. The water separator-collector (1) according to claim 1, characterized in that the body comprises a three-way body (10), or comprises a two-way body (30), or any number of combinations of the three-way body (10) and/or the two-way body (30), wherein the three-way body (10) is connectable to three split-body lines, and the two-way body (30) is connectable to two split-body lines.

3. The water separator-collector (1) according to claim 1, characterized in that the fluid pipe extends longitudinally inside the body and that the body comprises a rectangular top wall above the fluid pipe, a rectangular bottom wall below the fluid pipe and a rectangular end wall at a longitudinal end of the fluid pipe, through which end wall the fluid pipe communicates with the outside.

4. A water separator-collector (1) according to claim 3, characterized in that ribs extending longitudinally along the fluid pipe between the end walls are provided on the outer surface of the fluid pipe.

5. A water separator-collector (1) according to claim 3, characterized in that the fluid pipe has two mounting seats extending vertically upwards out of the top wall, and in that the fluid pipe has fluid ports extending vertically downwards out of the bottom wall and aligned vertically with the mounting seats, which fluid ports are connected with fittings for connecting the separator lines.

6. The water separator-collector (1) according to claim 1, characterized in that each of the water separator (2) and the water collector (3) comprises two of the links (60), the links (60) being symmetrically arranged on both sides in the radial direction of the fluid pipe.

7. A water separator-collector (1) according to claim 3, characterized in that the top and bottom edges of the side cover (40) are provided with hooks (42) respectively, which are rolled back towards the body, grooves (35) are provided at the side edges of the top and bottom walls of the body, and that the hooks (42) of the side cover (40) are respectively embedded in the grooves (35) and slid along the grooves (35) when the side cover (40) is mounted, until the side cover (40) covers the entire side of the body, whereby an air insulating layer is formed between the fluid pipe and the side cover (40).

8. The water separator-collector (1) according to claim 1, characterized in that threads are provided at both ends of the connecting rod (60), and nuts or nuts can be screwed onto both ends of the connecting rod (60) to fasten the body and the end cap plate (20) together.

9. The water separator-collector (1) according to claim 2, characterized in that a seal is provided between the three-way body (10) and/or the two-way body (30) that make up the body.

10. A water separator-collector (1) according to claim 1, characterized in that a control device (4) is attached to the water separator (2), and an adjustment device (5) is attached to the water collector (3).