CN218495053U - Novel water dividing and collecting device - Google Patents

Abstract

The utility model discloses a novel divide water collector for heating and air conditioner hot and cold water system's water yield distribution, including the water knockout drum on upper strata and the water collector of lower floor, the axis of the water knockout drum on upper strata and the water collector of lower floor is parallel with the horizontal plane, reserves out predetermined interval in the vertical direction between the water knockout drum of upper strata and the water collector of lower floor in order to insulate against heat, and a plurality of bleeder of the water knockout drum on upper strata are connect out by the top of water knockout drum, and a plurality of bleeder of the water collector of lower floor upwards pass the water knockout drum and stretch out to last. The utility model discloses a structure to the water collector has optimized and integrated, has avoided the alternately process of group team of pipeline, makes delivery pipe and wet return of every loop come out from dividing the water collector and just directly accomplish the state of group team, has reduced the system design degree of difficulty, has optimized spatial layout.

Description

Novel water dividing and collecting device

Technical Field

The utility model relates to a divide water collector technical field, especially relate to a novel divide water collector.

Background

The water dividing and collecting device is a device for connecting a cold and hot water main water supply pipe and a water return pipe in a heating ventilation air conditioning system and is divided into a water divider and a water collecting device. The water distributor is a water distribution device used for connecting cold and hot water supply pipes in a water system. The water collector is a water collecting device which is used for connecting cold and hot water return pipes of each path in a water system. The traditional water dividing and collecting device is two independent devices, wherein a water separator is used for being connected to a water supply pipe of each branch system, and a water collector is used for being connected with a water return pipe returned from each racking machine system. In the prior art, a water separator and a water collector are independently arranged, the direction of a water supply pipeline and a water return pipeline of each system needs to be adjusted before the water supply pipeline and the water return pipeline are connected into the water separator, a water return pipe is connected into the water collector, and pipelines are crossed when a plurality of branch pipes exist. After the water supply pipe and the water return pipe are led out from the two independent water distributors and the water collectors, the water supply pipe and the water return pipe must be assembled into a team and respectively connected to an area and a system which are not used, so that pipelines cross and occupy more space of a station house, and a great trouble is caused to design work.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a novel divide water collector to the technical defect who exists among the prior art.

For realizing the utility model discloses a technical scheme that the purpose adopted is:

the utility model provides a novel divide water collector for heating and air conditioner hot and cold water system's water yield distribution, including the water knockout drum on upper strata and the water collector of lower floor, the axis of the water knockout drum on upper strata and the water collector of lower floor is parallel with the horizontal plane, reserves out predetermined interval in the vertical direction between the water knockout drum on upper strata and the water collector of lower floor in order to insulate against heat, and a plurality of bleeder of the water knockout drum on upper strata are received out by the top of water knockout drum, and a plurality of bleeder of the water collector of lower floor upwards pass the water knockout drum after to stretching out.

Wherein, a plurality of branch pipes of the water collector of the lower layer extend upwards from positions among a plurality of branch pipes of the water separator of the upper layer.

The water separator on the upper layer and the water collector on the lower layer are fixedly connected through a rib plate, and the water separator and the water collector are integrated.

One end of the water separator on the upper layer and one end of the water collector on the lower layer are respectively provided with a water drainage opening, and the other opposite ends are respectively provided with a bypass opening.

And a foot support is fixed at the bottom of the water collector on the lower layer.

And the axes of the plurality of branch pipes of the water separator on the upper layer and the plurality of branch pipes of the water collector on the lower layer are connected into a straight line.

The cross sections of the water separator and the water collector are all in a round-cornered rectangular structure.

The water distributor is characterized in that a plurality of heat insulation sleeves corresponding to the plurality of branch pipes of the water collector in number and positions are arranged in the water distributor along the radial direction, and the plurality of branch pipes of the water collector at the lower layer upwards correspondingly penetrate through the heat insulation sleeves in the water distributor and then upwards extend out.

The utility model discloses a structure to the water collector has optimized and integrated, has avoided the alternately process of group team of pipeline, makes delivery pipe and wet return of every loop come out from dividing the water collector and just directly accomplish the state of group team, has reduced the system design degree of difficulty, has optimized spatial layout.

Drawings

Fig. 1 is a schematic top view of the novel water dividing and collecting device of the present invention.

Fig. 2 is a schematic front view of the novel water collecting and distributing device of the present invention.

Fig. 3 is a schematic side view of the novel water collecting and distributing device of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

As shown in fig. 1 to 3, a novel water dividing and collecting device for water distribution of a heating and air-conditioning cold and hot water system comprises an upper water distributor 1 and a lower water collector 2, wherein the axes of the upper water distributor and the lower water collector are parallel to the horizontal plane, a predetermined interval is reserved between the upper water distributor and the lower water collector in the vertical direction for heat insulation, a plurality of branch pipes of the upper water distributor 1 are connected from the top of the water distributor, and a plurality of branch pipes of the lower water collector 2 extend upwards after passing through the water distributor 1.

And a plurality of branch pipes of the water collector of the lower layer extend upwards from positions among the plurality of branch pipes of the water separator of the upper layer.

The upper end of the water separator can be provided with a pressure gauge 10, a thermometer 9 and other monitoring devices, the plurality of branch pipes on the water separator comprise a water inlet pipe 7 (a branch pipe positioned on the left side and provided with a downward indicating arrow at the upper end) and a plurality of water outlet pipes (provided with an upward indicating arrow at the upper end), the plurality of branch pipes on the water collector comprise a plurality of water demand pipes from time to time (provided with a downward indicating arrow at the upper end, the arrow is respectively adjacent to the water outlet pipe on the water separator and the pipe diameters of the two adjacent pipes are the same, such as DN01, DN02, DN03, DN04 and DN 05) and a water outlet pipe 8 (provided with an upward indicating arrow at the upper end and adjacent to the water inlet pipe of the water separator, such as DN01 pipes are respectively adopted).

The spacing between the plurality of branch pipes of the upper-layer water separator 1 and the plurality of branch pipes of the lower-layer water collector is as shown in table 1, and the pipe diameters of the branch pipes are set as required.

As a preferred embodiment or implementation manner, the water separator on the upper layer and the water collector on the lower layer are welded and fixed by a rib plate 6, the water separator and the water collector are integrated into a whole, the number of the rib plates is multiple, three rib plates are arranged at intervals as shown in fig. 2, and the three rib plates are uniformly arranged between the water separator on the upper layer and the water collector on the lower layer at intervals.

As a preferred embodiment or implementation manner, one end of each of the water separator on the upper layer and the water collector on the lower layer is provided with a water drain opening 4, and the other end of each of the water separator on the upper layer and the water collector on the lower layer is provided with a bypass opening 5, so that a bypass pipe and water drain can be conveniently arranged, and the bypass opening 5 is convenient for flushing of plant pipelines during initial debugging and anti-freezing use of the plant pipelines. If the bypass port can be connected with a shut-off valve, the system can be opened to form circulation when being flushed, and can also be opened when no tail end load exists, so that the main pipe has certain minimum flow, and the effects of preventing freezing or maintaining the water temperature of a loop are achieved; the drain opening can be respectively connected with a drain pipe and a shut-off valve, so as to play a role in pollution discharge.

The bottom of the lower water collector is fixed with foot supports 3, preferably two foot supports, but not limited to the foot supports, for supporting the water collector.

As a preferred embodiment or implementation manner, the axes of the plurality of branch pipes of the water separator on the upper layer and the plurality of branch pipes of the water collector on the lower layer are connected to form a straight line, and the water supply and return branch pipes with uniform pipe diameters are arranged in close proximity, so that the water supply and return pipes on the same loop can be directly grouped and discharged from the machine room.

In a preferred embodiment, the cross-section of the water separator and the water collector is a rounded rectangular structure. The sections of the water separator and the water collector are set to be rectangular with round corners, so that the structure is compact, and the pipe distribution is convenient.

The inside of the water separator is provided with a plurality of heat insulation sleeves 11 which are consistent with the plurality of branch pipes of the water collector in number and position along the radial direction, the plurality of branch pipes of the water collector at the lower layer upwards correspondingly penetrate through the heat insulation sleeves in the water separator and then upwards extend out, and a certain gap is reserved between the sleeve reserved inside the water separator and the branch pipes of the water collector correspondingly sleeved through the sleeve, so that heat transfer is prevented.

The water supply main pipe and the water return main pipe of cold and hot water are respectively connected to the main pipe DN01 on the right side of the water collecting and distributing device, the branch pipes of different cold and hot water loops (such as a radiator hot water branch, a floor heating hot water branch, a process hot water branch and the like) are respectively connected to the interfaces DN02, DN03, DN04 and the like behind the water collecting and distributing device, and the branch pipes of the same loop are arranged in an adjacent manner.

Valve devices (not shown) such as a shut-off valve, a thermometer, a pressure gauge, a flow meter, an electric valve, a balance valve and even a water mixing pump can be arranged on the branch pipe as required, the branch pipe is intensively arranged on one side wall of the station room, all pipelines are orderly grouped, and the valve devices are intensively arranged, so that the design, the construction and the later operation and maintenance are facilitated.

L0(mm)	120
		L1(mm)	DN01+120
L2(mm)	DN01+DN01+120
		L3(mm)	DN01+DN02+120
L4(mm)	DN02+DN01+120
		L5(mm)	DN02+DN03+120
L6(mm)	DN03+DN03+120
		L7(mm)	DN03+DN04+120
L8(mm)	DN04+DN04+120
		L9(mm)	DN04+DN05+120
L10(mm)	DN05+DN05+120
		L11(mm)	DN05+120
L12(mm)	120

TABLE 1

In addition, the temperature of the cold water and the hot water can be specifically kept by adopting rubber plastic or centrifugal glass wool to divide the water collector, so that the heat loss is reduced, and the condensation is prevented.

The utility model discloses to divide the water collector integration together, the delivery pipe and the wet return next-door neighbour of every system are in the same place, need not through the pipeline adjustment can directly connect to each system, and the pipeline does not have alternately, and the system is clear, has reduced the demand in site space, has reduced the possibility that the mistake was taken over in the scene, has improved the pleasing to the eye degree of station room.

The utility model discloses the device is particularly suitable for the place that needs cold and hot water energy such as central heating, air conditioner such as various industry factory buildings, civil buildings, optimizes and is tied in the pipeline and arrange, has practiced thrift valuable space, and convenient design is convenient to be maintained the operation.

The basic principles and main features of the present invention and the advantages of the present invention have been shown and described above, it will be obvious to those skilled in the art that the present invention is not limited to the details of the foregoing exemplary embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof;

the present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

Furthermore, it should be understood that although the present specification describes embodiments, not every embodiment includes only a single embodiment, and such description is for clarity purposes only, and it is to be understood that all embodiments may be combined as appropriate by one of ordinary skill in the art to form other embodiments as will be apparent to those of skill in the art from the description herein.

Claims (8)

1. The novel water dividing and collecting device is characterized by comprising an upper water distributor and a lower water collector, wherein the axes of the upper water distributor and the lower water collector are parallel to the horizontal plane, a preset interval is reserved between the upper water distributor and the lower water collector in the vertical direction to insulate heat, a plurality of branch pipes of the upper water distributor are connected out from the top of the water distributor, and a plurality of branch pipes of the lower water collector extend out upwards after passing through the water distributor.

2. The novel water dividing and collecting device as claimed in claim 1, wherein the plurality of branch pipes of the lower water collector extend upward from positions between the plurality of branch pipes of the upper water collector.

3. The novel water dividing and collecting device as claimed in claim 1, wherein the water segregator on the upper layer and the water collector on the lower layer are connected and fixed through ribbed plates, so that the water segregator and the water collector are integrated.

4. The novel water dividing and collecting device as claimed in claim 1, wherein one end of the water segregator of the upper layer and one end of the water collector of the lower layer are respectively provided with a water discharge opening, and the other opposite ends are respectively provided with a bypass opening.

5. The novel water collecting and distributing device as claimed in claim 1, wherein a foot support is fixed to the bottom of the lower layer of water collector.

6. The novel water dividing and collecting device as claimed in claim 1, wherein the axial center connecting lines of the branch pipes of the water segregator on the upper layer and the branch pipes of the water collector on the lower layer are a straight line.

7. The novel water distributor and collector according to claim 1, wherein the cross sections of the water distributor and collector are both of rounded rectangular structures.

8. The novel water dividing and collecting device as claimed in claim 1, wherein a plurality of heat insulating sleeves corresponding to the plurality of branch pipes of the water collector in number and position are arranged in the water dividing and collecting device along the radial direction, and the plurality of branch pipes of the water collector in the lower layer extend upwards after passing through the heat insulating sleeves in the water dividing and collecting device.

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