CN216136745U - Rotational flow dirt removing water collector - Google Patents

Abstract

The utility model discloses a rotational flow dirt removing water collector which comprises a water collector tank body and a rotational flow dirt removing device. The water collector tank is communicated with a water return main pipe and a plurality of water return branch pipes; the cyclone dirt separator is arranged in the water collector tank body, an interval is formed between the cyclone dirt separator and the water collector tank body, a dirt separator water outlet and a plurality of water inlets are formed in the cyclone dirt separator, the water inlets are communicated with the return water branch pipe, and the dirt separator water outlet is communicated with the inside of the water collector tank body. The utility model has the beneficial effects that: through setting up the whirl scrubbing water collector in the inside of the water collector jar body, make whirl scrubbing water collector possess steady voltage and filterable function simultaneously, and area is little, and space utilization is high, compares valve member and pipe fitting that prior art set up still less, has reduced air conditioner water system's resistance, has reduced the fault point simultaneously.

Description

Rotational flow dirt removing water collector

Technical Field

The utility model relates to the technical field of air-conditioning water systems, in particular to a rotational flow dirt removal water collector.

Background

A water collector and a low-resistance rotational flow dirt separator in an existing air-conditioning water system are both independently arranged, wherein the water collector is of a horizontal structure and is used for stabilizing the pressure of the system; the low-resistance rotational flow dirt separator is of a vertical structure and is used for filtering the system. The scattered monomer cold/heat medium in the system host enters the water collector through different branches to be converged and stabilized, then is discharged out of the water collector through a converging pipe of the water collector, enters a centralized filtering device (low-resistance rotational flow dirt remover) to be filtered and then is connected with a main pipe network of the central energy station, and finally returns to the system host to realize the circulation of the cold/heat medium. The water collector and the low-resistance rotational flow dirt separator are independently arranged in the central energy station, so that the large area of the central energy station is occupied.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a rotational flow dirt removal water collector which has the characteristics of high space utilization rate, few fault points and easiness in maintenance and cleaning.

In order to achieve the purpose, the utility model designs a rotational flow dirt removing water collector, which comprises:

the water collector tank body is communicated with a water return main pipe and a plurality of water return branch pipes, and an air outlet is also formed in the water collector tank body; and

the cyclone dirt separator is arranged in the water collector tank body, the outer wall of the cyclone dirt separator and the inner wall of the water collector tank body are spaced, a spiral flow deflector is arranged in the cyclone dirt separator, a dirt separator water outlet and a plurality of water inlets are arranged on the cyclone dirt separator, each water inlet is communicated with one return water branch pipe, and the dirt separator water outlet is communicated with the inside of the water collector tank body.

Further, the bottom of whirl scrubbing ware is provided with the drain, be provided with the blow off pipe on the water collector jar body, the one end setting of blow off pipe is in the inside of the water collector jar body with the drain intercommunication, the other end setting of blow off pipe is in the outside of the water collector jar body.

The beneficial effects of the further scheme are as follows: the sewage settled at the bottom of the cyclone dirt remover is directly discharged through the sewage discharge pipe extending to the outside of the water collector tank body, so that the cleanness of the inside of the water collector tank body is ensured.

Further, a sewage discharge mounting port is formed in the water collector tank body, and the sewage discharge pipe is connected with the sewage discharge mounting port in a sealing mode.

Furthermore, the water outlet of the dirt separator is arranged at the top of the cyclone dirt separator, and the plurality of water inlets are arranged at the side of the cyclone dirt separator along the height direction of the cyclone dirt separator at intervals.

Furthermore, a water collector water outlet and a plurality of branch pipe mounting openings are formed in the water collector tank body, the water return main pipe is connected with the water collector water outlet in a sealing mode, and the water return branch pipes are connected with the branch pipe mounting openings in a sealing mode.

Further, the distance from the water outlet of the water collector to the bottom of the water collector tank body is 1/3 and above the height of the water collector tank body.

The beneficial effects of the further scheme are as follows: by limiting the height of the water outlet of the water collector, the water in the water collector is convenient to converge and is discharged from the water return main pipe after being stabilized in pressure.

Furthermore, pressure gauges are respectively arranged on the return water main pipe and each return water branch pipe.

Further, still be provided with the blast pipe on the water collector jar body, the blast pipe with the gas vent intercommunication, be provided with discharge valve on the blast pipe, the gas vent sets up the top of the water collector jar body.

The beneficial effects of the further scheme are as follows: the top of the water collector tank body is provided with an air outlet which corresponds to a water outlet of the dirt separator arranged at the top of the rotational flow dirt separator, so that the water collector tank body is convenient to exhaust, the rotational flow dirt separator is also convenient to exhaust, the rotational flow dirt separator is not required to be additionally provided with an exhaust structure, and the structure is simplified.

Further, the water collector tank body is vertically arranged, and a support is arranged at the bottom of the water collector tank body.

The beneficial effects of the further scheme are as follows: the water collector tank body adopts a vertical structure, and compared with the existing horizontal structure, the water collector tank saves the occupied area.

The utility model has the beneficial effects that: the cyclone dirt removing water collector is arranged inside the water collector tank body, so that the cyclone dirt removing water collector has the functions of pressure stabilization and filtration, the occupied area is small, the space utilization rate is high, compared with the prior art, fewer valves and pipes are arranged, the resistance of an air-conditioning water system is reduced, and fault points are reduced.

Drawings

Fig. 1 is a schematic structural view of a cyclone dirt removal water collector of the present invention.

In the figure, 1, a water collector tank body; 1.1. an exhaust port; 1.2. a branch pipe mounting port; 1.3. a water outlet of the water collector; 1.4. a sewage discharge mounting port; 1.5. a support; 2. a cyclone dirt separator; 2.1. a spiral flow deflector; 2.2. a water outlet of the dirt separator; 2.3. a sewage draining outlet; 2.4. a water inlet; 3. a return water branch pipe; 4. a water return main pipe; 5. a blow-off pipe; 5.1. a first drain pipe; 5.2. a second sewage draining pipe; 6. an exhaust pipe; 7. a blowoff valve; 8. a pressure gauge; 9. and (4) exhausting the valve.

Detailed Description

The utility model is described in further detail below with reference to the figures and specific embodiments.

The rotational flow dirt removing water collector shown in figure 1 comprises a water collector tank body 1, a rotational flow dirt remover 2, a return water branch pipe 3, a return water main pipe 4, a sewage discharge pipe 5 and an exhaust pipe 6.

Specifically, the water collector tank body 1 is a vertical tank body structure which is vertically arranged, and a support 1.5 is arranged at the bottom of the water collector tank body. The top of the water collector tank body 1 is provided with an air vent 1.1, the side of the water collector tank body 1 is provided with four branch pipe mounting openings 1.2 along the interval of the height direction thereof, the side of the water collector tank body 1 is also provided with a water collector water outlet 1.3, wherein, the distance from the water collector water outlet 1.3 to the bottom of the water collector tank body 1 is 1/3 of the height of the water collector tank body 1 and more than the same, so that the water collector tank body 1 is internally provided with a sufficient pressure stabilizing space, the water collector water outlet 1.3 and the branch pipe mounting openings 1.2 in the embodiment are positioned at two same radial sides of the water collector tank body 1. Of course, the branch pipe mounting openings 1.2 can also be uniformly arranged along the circumferential direction of the water collector tank body 1. The bottom of the water collector tank body 1 is provided with a sewage installation port 1.4, the sewage installation port 1.4 can also be arranged on the side part of the water collector tank body 1, and the arrangement height of the sewage installation port 1.4 is lower than the installation height of the water collector water outlet 1.3 and the branch pipe installation port 1.2.

The cyclone dirt separator 2 is arranged inside the water collector tank body 1, and an interval is formed between the outer wall of the cyclone dirt separator 2 and the inner wall of the water collector tank body 1, so that a cavity is formed, the cavity is used for containing filtered water discharged by the cyclone dirt separator 2, and the pressure stabilizing effect is achieved on the filtered water.

The spiral flow deflector 2.1 is arranged in the cyclone dirt separator 2, the filtering principle and the structure of the cyclone dirt separator 2 for water adopt the prior art, and the embodiment is not specifically limited.

The cyclone dirt separator 2 is also of a vertical tank structure, the top of the cyclone dirt separator is provided with a dirt separator water outlet 2.2, the bottom of the cyclone dirt separator is provided with a sewage outlet 2.3, and the side part of the cyclone dirt separator is provided with four water inlets 2.4 at intervals along the height direction of the cyclone dirt separator.

The number of the backwater branch pipes 3 is four, each backwater branch pipe 3 penetrates through the branch pipe mounting opening 1.2 and is fixedly connected in a sealing mode, one end, located inside the water collector tank body 1, of each backwater branch pipe 3 is connected with the water inlet 2.4 in a sealing mode, one end, located outside the water collector tank body 1, of each backwater branch pipe 3 is used for being communicated with the air-conditioning water system and used for conveying water in the air-conditioning water system to the inside of the cyclone dirt separator 2 for filtering treatment. The filtered water is discharged to a cavity between the cyclone dirt separator 2 and the water collector tank body 1 through a dirt separator water outlet 2.2 at the top of the cyclone dirt separator 2, and is discharged to the outside of the water collector tank body 1 after the pressure of the water in the cavity is stabilized.

The water return main pipe 4 is arranged outside the water collector tank body 1, one end of the water return main pipe 4 is hermetically connected with the water outlet 1.3 of the water collector, and the other end of the water return main pipe 4 is communicated with the air conditioner water system and used for returning the filtered and stabilized water to the air conditioner water system.

The return water main pipe 4 and each return water branch pipe 3 are respectively provided with a pressure gauge 8.

The blow off pipe 5 passes blowdown installing port 1.4 and sealing connection is fixed, and the one end of blow off pipe 5 is located the inside of the water collector jar body 1 and communicates with drain 2.3, and the other end of blow off pipe 5 is located the outside of the water collector jar body 1 and is provided with blowoff valve 7.

The exhaust pipe 6 is arranged outside the water collector tank body 1, the exhaust pipe 6 is communicated with the exhaust port 1.1, an exhaust valve 9 is arranged on the exhaust pipe 6, and the exhaust port 1.1 and the water outlet 2.2 of the dirt separator keep a vertical distance.

Compared with the water collector with the horizontal structure in the prior art, the cyclone decontamination water collector with the vertical structure saves about 50 percent of occupied area, saves the installation of the original low-resistance cyclone decontamination device, further saves the occupied area and improves the construction efficiency. Because whirl dirt separator 2 sets up in the water collector jar body 1, both intercommunications need not to set up other pipeline and valves, therefore the fault point still less, and later maintenance is more convenient, and the whirl that whirl dirt separator 2 produced can play the cleaning action to the 1 inner walls of water collector jar body, has also solved the abluent problem of not being convenient for of the current water collector jar body 1 inner wall.

As another preferred scheme of this embodiment, blow off pipe 5 includes threaded connection's first blow off pipe 5.1 and second blow off pipe 5.2, and first blow off pipe 5.1 and second blow off pipe 5.2 realize split and equipment through threaded connection, and wherein, first blow off pipe 5.1 partly is located the inside of the water collector jar body 1, and another part of first blow off pipe 5.1 is located the outside of the water collector jar body 1, first blow off pipe 5.1 and water collector jar body 1 detachable connection. When the first sewage discharge pipe 5.1 and the second sewage discharge pipe 5.2 are connected into a whole, sediment at the bottom of the water collector tank body 1 needs to be discharged through the sewage discharge port 2.3 at the bottom of the cyclone sewage remover 2. If first blow off pipe 5.1 separates with second blow off pipe 5.2 to the filth of the 1 bottoms of the water collector jar body and 2 bottoms of whirl dirt separator all can discharge through first blow off pipe 5.1, realizes washing the high efficiency of the 1 inside of the water collector jar body.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the scope of the present invention; it is intended that the following claims be interpreted as including all such alterations, modifications, and equivalents as fall within the true spirit and scope of the utility model.

Claims (9)

1. The utility model provides a whirl scrubbing water collector which characterized in that includes:

the water collector tank body is communicated with a water return main pipe and a plurality of water return branch pipes, and an air outlet is also formed in the water collector tank body; and

the cyclone dirt separator is arranged in the water collector tank body, the outer wall of the cyclone dirt separator and the inner wall of the water collector tank body are spaced, a spiral flow deflector is arranged in the cyclone dirt separator, a dirt separator water outlet and a plurality of water inlets are arranged on the cyclone dirt separator, each water inlet is communicated with one return water branch pipe, and the dirt separator water outlet is communicated with the inside of the water collector tank body.

2. The cyclone dirt removing water collector of claim 1, wherein a drain outlet is arranged at the bottom of the cyclone dirt removing water collector, a drain pipe is arranged on the water collector tank body, one end of the drain pipe is arranged inside the water collector tank body and communicated with the drain outlet, and the other end of the drain pipe is arranged outside the water collector tank body.

3. The cyclone dirt removing water collector of claim 2, wherein a dirt discharging mounting opening is formed in the water collector tank body, and the dirt discharging pipe is connected with the dirt discharging mounting opening in a sealing mode.

4. The cyclone dirt removing water collector of claim 2 wherein the dirt removing outlet is arranged at the top of the cyclone dirt removing device, and the water inlets are arranged at the side of the cyclone dirt removing device at intervals along the height direction of the cyclone dirt removing device.

5. The cyclone dirt removing water collector of claim 1, wherein a water collector water outlet and a plurality of branch pipe mounting openings are formed in the water collector tank body, the water return main pipe is connected with the water collector water outlet in a sealing mode, and the water return branch pipes are connected with the branch pipe mounting openings in a sealing mode.

6. The cyclonic dirt removal collector of claim 5, wherein the distance from the collector outlet to the bottom of the collector tank is 1/3 or more of the height of the collector tank.

7. The cyclone dirt removing water collector of claim 5, wherein a pressure gauge is respectively arranged on the return water main pipe and each return water branch pipe.

8. The cyclone dirt removing water collector of any one of claims 1 to 7, wherein the water collector tank is further provided with an exhaust pipe, the exhaust pipe is communicated with the exhaust port, the exhaust pipe is provided with an exhaust valve, and the exhaust port is arranged at the top of the water collector tank.

9. The cyclonic dirt removal and collection device of claim 8 wherein the collector body is vertically disposed and has a support at the bottom thereof.

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