CN218583463U - Multifunctional cabinet type dehumidification integrated system - Google Patents

Abstract

The utility model discloses a multifunctional cabinet type dehumidification integrated system, which comprises a refrigeration system and a host machine, wherein the condenser comprises an indoor condenser and an outdoor condenser which are arranged in parallel; a division plate and a water receiving tray are arranged in the shell, and the shell is divided into a condensation chamber, a dehumidification chamber and a press chamber from top to bottom; an indoor air outlet is arranged on one side wall of the condensing chamber, and an exhaust pipe is connected with the other side wall of the condensing chamber; the side wall of the dehumidification chamber is provided with a dehumidification air inlet; the side wall of the dehumidification chamber is connected with a fresh air pipeline; a fan is arranged in the dehumidification chamber, and an air outlet of the fan is communicated with the condensation chamber; still including circulation water route and heating water route, the utility model discloses compact structure, the integrated level is high, has concurrently and adds hot water, heated air and air dehumidification function, can discharge into the environment with damp and hot air, can introduce the new trend, and one set of system realizes the function that many sets of systems had in the past, and the all-round natatorium that satisfies has good popularization and application prospect to the requirement of temperature, temperature and air humidity.

Description

Multifunctional cabinet type dehumidification integrated system

Technical Field

The present invention relates to swimming pool related equipment, and more particularly to a device for warming swimming pool water and adjusting the temperature of the swimming pool.

Background

With the improvement of living standard of people, swimming fitness becomes an important activity in the life of many people. The water in the swimming pool needs to keep a relatively constant comfortable temperature, the temperature is generally increased in winter, and the temperature is generally reduced in summer; in a natatorium, people wear swimwear for swimming, and a high air temperature is required to maintain comfort. The humidity in the natatorium is high, sweat secreted by people during activities is not easy to evaporate, and the people often cannot stop sweating during sweating, so that people feel uncomfortable.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a multi-functional cabinet type dehumidification all-in-one, the system integrated level is high, and existing for the interior air dehumidification function of natatorium, also has the function of heaing up, is located under the indoor condition at the evaporimeter invariant, can give off the heat to outdoor in summer.

In order to achieve the purpose, the multifunctional cabinet type dehumidification integrated system comprises a refrigeration system and a host arranged in a natatorium, wherein the host is provided with a shell; the refrigerating system comprises a compressor, wherein an air outlet of the compressor is sequentially connected with a condenser, a throttling device and an evaporator through a refrigerant pipeline, and the evaporator is connected with an air suction port of the compressor to form a closed refrigerating cycle;

the condenser comprises an indoor condenser and an outdoor condenser which are arranged between an air outlet of the compressor and the throttling device in parallel, an inlet and an outlet of the indoor condenser are respectively provided with a first inlet valve and a first outlet valve, and an inlet and an outlet of the outdoor condenser are respectively provided with a second inlet valve and a second outlet valve;

the outlet of the indoor condenser and the outlet of the outdoor condenser are respectively connected with the inlet of the throttling device through refrigerant pipelines, the outlet of the throttling device is connected with the inlet of the evaporator through a refrigerant pipeline, and the outlet of the evaporator is connected with the air suction port of the compressor through a refrigerant pipeline;

the compressor, the indoor condenser, the throttling device and the evaporator are all positioned in a shell of the host machine;

a horizontally arranged partition plate and a water receiving tray are arranged in the shell, the partition plate is higher than the water receiving tray, the water receiving tray and the shell below the water receiving tray enclose a press chamber, the water receiving tray, the partition plate and the shell between the water receiving tray and the partition plate enclose a dehumidification chamber, and the partition plate and the shell above the partition plate enclose a condensation chamber;

an indoor air outlet for supplying air into the indoor of the swimming library is formed in the top of one side wall of the condensation chamber, and an air supply valve is arranged at the indoor air outlet;

the other side wall of the condensation chamber is connected with an exhaust pipe, and the exhaust pipe is communicated with the outside of the condensation chamber; an exhaust valve is arranged at the communication part of the exhaust pipe and the condensing chamber;

the side wall of the dehumidification chamber below the exhaust pipe is provided with a dehumidification air inlet communicated with the indoor space of the swimming room, and the dehumidification air inlet is provided with a dehumidification air inlet valve;

the side wall of the dehumidifying chamber below the dehumidifying air inlet is connected with a fresh air pipeline, and the fresh air pipeline is communicated to the outside; a fresh air inlet valve is arranged at the communication part of the fresh air pipeline and the side wall of the dehumidification chamber;

the indoor condenser is positioned in the condensing chamber, and the evaporator is positioned in the dehumidifying chamber and is adjacent to the dehumidifying air inlet valve; the outdoor condenser is positioned outdoors;

a fan is arranged in the dehumidification chamber, and an air inlet of the fan forms negative pressure in the dehumidification chamber and is used for introducing dehumidification air and fresh air through a dehumidification air inlet valve and a fresh air inlet valve; the air outlet of the fan is communicated with the condensing chamber;

the swimming pool water circulating system further comprises a circulating water path and a heating water path, wherein the circulating water path is used for circularly heating the swimming pool water, and the heating water path is used for transferring heat to the swimming pool water.

The lowest position of the water pan is connected with a drain pipe, and the drain pipe extends out of the shell and is used for draining condensed water.

A shell-and-tube heat exchanger is arranged in the press chamber, the shell-and-tube heat exchanger is provided with a tube side and a shell side, the shell side is provided with a shell side inlet and a shell side outlet, and the tube side is provided with a tube side inlet and a tube side outlet;

the bottom of the swimming pool is connected with a circulating water outlet pipe, the circulating water outlet pipe is connected with a shell pass inlet or a tube pass inlet of a shell-and-tube heat exchanger, a shell pass outlet or a tube pass outlet of the shell-and-tube heat exchanger is connected with a circulating water return pipe, and the circulating water return pipe is communicated with the middle part of the swimming pool; the circulating water path is composed of a circulating water outlet pipe, a circulating water return pipe, a swimming pool and a shell pass or a pipe pass of the shell-and-tube heat exchanger, and a first circulating pump is arranged on the circulating water outlet pipe or the circulating water return pipe.

A tube side inlet or a shell side inlet of the shell-and-tube heat exchanger is connected with a heating water return pipe, a coil pipe used for absorbing heat generated by the indoor condenser is arranged at the indoor condenser, the heating water return pipe is connected with the coil pipe, the coil pipe is connected with a heating water outlet pipe, and the heating water outlet pipe is connected with a tube side outlet or a shell side outlet of the shell-and-tube heat exchanger; the heating water path is composed of a heating water return pipe, a heating water outlet pipe, a coil pipe and a pipe side or a shell side of the shell-and-tube heat exchanger, and a second circulating pump is arranged on the heating water return pipe or the heating water outlet pipe.

The top of the compressor is provided with a heat exchange cavity which is connected in series on a heating water outlet pipe or a heating water return pipe.

The middle part of the heating water return pipe is connected with an air release pipe, the air release pipe extends upwards after being bent and is provided with an air release valve, and the air release pipe is provided with a stop valve.

The utility model discloses have following advantage:

the utility model discloses the integrated level is very high, and existing wind path for the inside hot-blast that provides of swimming pool also has the water route that makes swimming pool water intensification, still has the dehumidification function. After the humidity in the natatorium is reduced, people can be prevented from continuously sweating (at the moment, people are often unwilling to come out of water) due to violent activities, and the comfort level is improved.

In prior art swimming pool heating systems, the condenser was located indoors as part of the main unit. By arranging the outdoor condenser, the heat can be discharged to the outdoor by using the outdoor condenser through controlling the corresponding valve.

The fresh air inlet valve is used for introducing fresh air into the dehumidification chamber, and the dehumidification inlet valve is used for guiding indoor wet air of the natatorium and enabling the indoor wet air to pass through the evaporator; the evaporator temperature is very low, therefore the condensation phenomenon takes place very easily in evaporimeter department for the humid air, and the comdenstion water is collected in the water collector and is discharged through the drain pipe, can reduce the inside air humidity of natatorium, improves the comfortable degree of people's activity.

The utility model discloses a circulation water route circulation heating swimming pool water makes hot water constantly take the heat that the condenser produced to the shell and tube type heat exchanger in and heat the swimming pool water through heating water route circulation.

The air release pipe and the air release valve can release gas in the circularly heated water, so that the heat exchange efficiency is prevented from being influenced by excessive bubbles in the pipeline. The stop valve can the manual control gassing process, avoids opening the gassing function all the time and leads to here to leak.

The temperature generated at the compressor is not lower than that generated at the condenser, so that the high temperature at the compressor is wasted and cannot be utilized after being dispersed into the environment; the utility model discloses be equipped with the heat transfer chamber at the compressor top to establish ties to heating outlet pipe or heating wet return on, thereby can constantly follow compressor department at hydrologic cycle's in-process and absorb the heat, thereby both improved energy utilization and reduced the energy consumption, reduced the thermal pollution that the compressor produced to the environment again, kill two birds with one stone.

In a word, the utility model discloses compact structure, the integrated level is high, has concurrently and adds hot water, heated air and air dehumidification function, can discharge the environment with damp and hot air, can introduce the new trend, and one set of system realizes the function that many sets of systems had in the past, and the all-round natatorium that satisfies has good popularization and application prospect to temperature, temperature and air humidity's requirement.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

fig. 2 is a schematic structural diagram of the refrigeration system of the present invention;

FIG. 3 is an enlarged schematic view of the host computer of FIG. 1;

fig. 4 is an enlarged schematic view of the bleed tube and bleed valve of fig. 1 and 3.

The direction indicated by the arrows in fig. 1 to 3 is the direction of flow of the fluid (water, wind or refrigerant) there.

Detailed Description

As shown in fig. 1 to 4, the multifunctional cabinet type dehumidification integrated system of the present invention comprises a refrigeration system and a host machine disposed in a natatorium, wherein the host machine has a housing 1; the refrigerating system comprises a compressor 2, wherein an air outlet of the compressor 2 is sequentially connected with a condenser, a throttling device 3 and an evaporator 4 through a refrigerant pipeline, and the evaporator 4 is connected with an air suction port of the compressor 2 to form a closed refrigerating cycle;

the condenser comprises an indoor condenser 5 and an outdoor condenser 6 which are arranged between the air outlet of the compressor 2 and the throttling device 3 in parallel, the inlet and the outlet of the indoor condenser 5 are respectively provided with a first inlet valve 7 and a first outlet valve 8, and the inlet and the outlet of the outdoor condenser 6 are respectively provided with a second inlet valve 9 and a second outlet valve 10;

the outlet of the indoor condenser 5 and the outlet of the outdoor condenser 6 are respectively connected with the inlet of the throttling device 3 through refrigerant pipelines, the outlet of the throttling device 3 is connected with the inlet of the evaporator 4 through a refrigerant pipeline, and the outlet of the evaporator 4 is connected with the air suction port of the compressor 2 through a refrigerant pipeline;

the compressor 2, the indoor condenser 5, the throttling device 3 and the evaporator 4 are all positioned in the shell 1 of the main machine; a division plate 11 and a water pan 12 which are horizontally arranged are arranged in the shell 1, the division plate 11 is higher than the water pan 12, the water pan 12 and the shell 1 below the water pan 12 enclose a press chamber 13, the water pan 12, the division plate 11 and the shell 1 between the water pan 12 and the division plate 11 enclose a dehumidification chamber 14, and the division plate 11 and the shell 1 above the division plate enclose a condensation chamber 15; the expansion device 3 may be provided in the press chamber 13 or the dehumidification chamber 14.

An indoor air outlet 16 for supplying air into the indoor of the swimming room is arranged at the top of one side wall of the condensation chamber 15, and an air supply valve is arranged at the indoor air outlet 16;

the other side wall of the condensing chamber 15 is connected with an exhaust pipe 17, and the exhaust pipe 17 leads to the outside; an exhaust valve is arranged at the communication part of the exhaust pipe 17 and the condensing chamber 15;

a dehumidifying air inlet 18 communicated with the indoor space of the swimming room is arranged on the side wall of the dehumidifying chamber 14 below the exhaust pipe 17, and a dehumidifying air inlet valve is arranged at the dehumidifying air inlet 18;

the side wall of the dehumidification chamber 14 below the dehumidification air inlet 18 is connected with a fresh air pipeline 19, and the fresh air pipeline 19 is led to the outside; a fresh air inlet valve is arranged at the communication part of the fresh air pipeline 19 and the side wall of the dehumidification chamber 14; the arrangement of air valves at the air ports or air pipes is conventional, and air supply valves, exhaust valves, dehumidification air inlet valves and fresh air inlet valves are not shown in the figure. Because of the limitation of the space of the drawing, the dehumidifying air inlet 18 and the fresh air pipeline 19, etc. only show a part of the interface.

The indoor condenser 5 is positioned in the condensing chamber 15, and the evaporator 4 is positioned in the dehumidifying chamber 14 and is adjacent to the dehumidifying air inlet valve; the outdoor condenser 6 is located outdoors;

a fan 20 is arranged in the dehumidification chamber 14, and an air inlet of the fan 20 forms negative pressure in the dehumidification chamber 14 and is used for introducing dehumidification air (dehumidification air is air flow formed by humid air in the natatorium room) and fresh air through a dehumidification air inlet valve and a fresh air inlet valve; an air outlet 16 of the fan 20 is communicated with the condensing chamber 15;

the swimming pool water circulating system further comprises a circulating water path and a heating water path, wherein the circulating water path is used for circularly heating the swimming pool water, and the heating water path is used for transferring heat to the swimming pool water.

Wherein, the throttling device 3 is a capillary tube or an expansion valve. The refrigeration system is conventional in the art, and the specific structure is not described in detail. The lowest part of the water pan 12 is connected with a drain pipe 21, and the drain pipe 21 extends out of the casing 1 and is used for draining condensed water.

A shell-and-tube heat exchanger 22 is arranged in the press chamber 13, the shell-and-tube heat exchanger 22 is provided with a tube side and a shell side, the shell side is provided with a shell side inlet and a shell side outlet, and the tube side is provided with a tube side inlet and a tube side outlet; the shell-and-tube heat exchanger is a conventional technology, the specific structure is not detailed any more, and in order to avoid the situation that the shell pass inlet, the shell pass outlet, the tube pass inlet and the tube pass outlet are not indicated in a messy drawing, the pipeline joints are all interfaces.

The bottom of the swimming pool 23 is connected with a circulating water outlet pipe 24, the circulating water outlet pipe 24 is connected with a shell side inlet or a tube side inlet of the shell-and-tube heat exchanger 22, a shell side outlet or a tube side outlet of the shell-and-tube heat exchanger 22 is connected with a circulating water return pipe 25, and the circulating water return pipe 25 is communicated with the middle part of the swimming pool 23; the circulating water path is composed of a circulating water outlet pipe 24, a circulating water return pipe 25, a swimming pool 23 and a shell pass or a pipe pass of the shell-and-tube heat exchanger 22, and a first circulating pump 26 is arranged on the circulating water outlet pipe 24 or the circulating water return pipe.

A tube side inlet or a shell side inlet of the shell-and-tube heat exchanger 22 is connected with a heating water return pipe 27, a coil pipe (the coil pipe is of a conventional structure and not shown) for absorbing heat generated by the indoor condenser 5 is arranged at the indoor condenser 5, the heating water return pipe 27 is connected with the coil pipe, the coil pipe is connected with a heating water outlet pipe 28, and the heating water outlet pipe 28 is connected with a tube side outlet or a shell side outlet of the shell-and-tube heat exchanger; the heating water path is composed of a heating water return pipe 27, a heating water outlet pipe 28, a coil pipe and a pipe side or a shell side of the shell-and-tube heat exchanger 22, and a second circulating pump is arranged on the heating water return pipe 27 or the heating water outlet pipe 28. The circulation pump is a conventional component, the second circulation pump not being shown.

The top of the compressor 2 is provided with a heat exchange cavity 29, and the heat exchange cavity 29 is connected in series with a heating water outlet pipe 28 or a heating water return pipe 27.

The middle part of the heating water return pipe 27 is connected with an air bleed pipe 30, the air bleed pipe 30 extends upwards after being bent and is provided with an air bleed valve 31, and the air bleed pipe 30 is provided with a stop valve 32.

The air release pipe 30 and the air release valve 31 can release gas in the circularly heated water, so that the influence of excessive bubbles in the pipeline on the heat exchange efficiency is avoided. The stop valve 32 can be manually controlled to prevent water leakage at the position caused by opening the air release function all the time.

The temperature generated at the compressor 2 is not lower than the high temperature generated at the condenser, and the high temperature at the compressor 2 is wasted and cannot be utilized after being scattered into the environment; the utility model discloses be equipped with heat transfer chamber 29 at compressor 2 top to establish ties to heating outlet pipe 28 or heating wet return 27 on, thereby can constantly follow compressor 2 at hydrologic cycle's in-process and absorb the heat, thereby both improved energy utilization and reduced the energy consumption, reduced the thermal pollution that compressor 2 produced to the environment again, kill two birds with one stone.

The indoor heating is not needed in summer. When the outdoor condenser 6 is used, the second inlet valve 9 and the second outlet valve 10 are opened while the first inlet valve 7 and the first outlet valve 8 are closed to close the indoor condenser 5, so that heat generated in the operation of the refrigeration system can be discharged to the outside in summer. In winter or the like, when it is required to warm the indoor, the first inlet valve 7 and the first outlet valve 8 are opened while the second inlet valve 9 and the second outlet valve 10 are closed to close the outdoor condenser 6, so that heat generated in the operation of the refrigerating system can be used to heat the indoor air.

When dehumidification is needed, the fresh air inlet valve can be closed (or the fresh air inlet valve can not be closed according to the situation, so that the dehumidification speed is slower), the dehumidification inlet valve is opened, the indoor air in the natatorium communicated with the dehumidification inlet valve enters the dehumidification chamber 14 through the air pressure generated by the fan 20, the air passes through the evaporator 4 when being cooled, the condensation phenomenon occurs at the evaporator 4, and the condensed water is discharged through the drain pipe 21 of the water receiving disc 12. The air cooled and dehumidified by the evaporator 4 is sent to the condensing chamber 15 by the fan 20.

When dehumidification, the exhaust valve is opened and the air supply valve is closed, and the exhaust air is exhausted to the outside through the exhaust pipe 17.

When normal air supply is carried out, the air supply valve is opened and the exhaust valve is closed, and air supply is sent into indoor space of the swimming room through the indoor air outlet 16.

In the summer, the indoor condenser 5 is not operated, and thus the supply air is not heated. In the winter, the indoor condenser 5 is operated, and thus the supply air is heated.

In the air supply process, the opening or closing of the fresh air inlet valve is controlled according to the requirement, or the opening degree of the fresh air inlet valve is adjusted, so that the freshness of the air in the natatorium is adjusted.

In both winter and summer, the pool water either needs no temperature adjustment or needs to be heated. Therefore, the working conditions of the circulating waterway and the heating waterway are always the same, and the circulating waterway and the heating waterway are not opened or are always in an opening state. The first circulating pump 26 drives the swimming pool water to circularly flow between the shell-and-tube heat exchanger 22 and the swimming pool and is heated at the shell-and-tube heat exchanger 22; the second circulation pump then circulates the heated water between the coils at the condenser and the shell and tube heat exchanger 22, thereby continuously transferring heat from the condenser to the pool circulating water in the shell and tube heat exchanger 22.

The above embodiments are only used for illustrating but not limiting the technical solutions of the present invention, and although the present invention is described in detail with reference to the above embodiments, those of ordinary skill in the art should understand that: modifications and equivalents of the present invention may be made without departing from the spirit and scope of the invention, which is intended to be covered by the appended claims.

Claims (6)

1. The multifunctional cabinet type dehumidification integrated system comprises a refrigeration system and a host arranged in a natatorium room, wherein the host is provided with a shell; the refrigerating system comprises a compressor, wherein an air outlet of the compressor is sequentially connected with a condenser, a throttling device and an evaporator through a refrigerant pipeline, and the evaporator is connected with an air suction port of the compressor to form a closed refrigerating cycle;

the method is characterized in that: the condenser comprises an indoor condenser and an outdoor condenser which are arranged between an air outlet of the compressor and the throttling device in parallel, an inlet and an outlet of the indoor condenser are respectively provided with a first inlet valve and a first outlet valve, and an inlet and an outlet of the outdoor condenser are respectively provided with a second inlet valve and a second outlet valve;

the outlet of the indoor condenser and the outlet of the outdoor condenser are respectively connected with the inlet of the throttling device through refrigerant pipelines, the outlet of the throttling device is connected with the inlet of the evaporator through a refrigerant pipeline, and the outlet of the evaporator is connected with the air suction port of the compressor through a refrigerant pipeline;

the compressor, the indoor condenser, the throttling device and the evaporator are all positioned in a shell of the main machine;

the shell is internally provided with a partition plate and a water pan which are horizontally arranged, the partition plate is higher than the water pan, the water pan and the shell below the water pan enclose a press chamber, the water pan, the partition plate and the shell between the water pan and the partition plate enclose a dehumidification chamber, and the partition plate and the shell above the partition plate enclose a condensation chamber;

an indoor air outlet for supplying air into the indoor of the swimming room is arranged at the top of one side wall of the condensation chamber, and an air supply valve is arranged at the indoor air outlet;

the other side wall of the condensing chamber is connected with an exhaust pipe, and the exhaust pipe is communicated with the outside; an exhaust valve is arranged at the communication part of the exhaust pipe and the condensing chamber;

a dehumidifying air inlet communicated with the indoor space of the swimming room is formed in the side wall of the dehumidifying chamber below the exhaust pipe, and a dehumidifying air inlet valve is arranged at the dehumidifying air inlet;

the side wall of the dehumidifying chamber below the dehumidifying air inlet is connected with a fresh air pipeline, and the fresh air pipeline is communicated to the outside; a fresh air inlet valve is arranged at the communication part of the fresh air pipeline and the side wall of the dehumidification chamber;

the indoor condenser is positioned in the condensing chamber, and the evaporator is positioned in the dehumidifying chamber and is adjacent to the dehumidifying air inlet valve; the outdoor condenser is positioned outdoors;

a fan is arranged in the dehumidification chamber, and an air inlet of the fan forms negative pressure in the dehumidification chamber and is used for introducing dehumidification air and fresh air through a dehumidification air inlet valve and a fresh air inlet valve; the air outlet of the fan is communicated with the condensing chamber;

the swimming pool water circulating system further comprises a circulating water path and a heating water path, wherein the circulating water path is used for circularly heating the swimming pool water, and the heating water path is used for transferring heat to the swimming pool water.

2. The multifunctional cabinet type dehumidification integrated system according to claim 1, wherein: the lowest position of the water pan is connected with a drain pipe, and the drain pipe extends out of the shell and is used for draining condensed water.

3. The multifunctional cabinet type dehumidification integrated system according to claim 1, wherein: a shell-and-tube heat exchanger is arranged in the press chamber, the shell-and-tube heat exchanger is provided with a tube side and a shell side, the shell side is provided with a shell side inlet and a shell side outlet, and the tube side is provided with a tube side inlet and a tube side outlet;

the bottom of the swimming pool is connected with a circulating water outlet pipe, the circulating water outlet pipe is connected with a shell side inlet or a tube side inlet of a shell-and-tube heat exchanger, a shell side outlet or a tube side outlet of the shell-and-tube heat exchanger is connected with a circulating water return pipe, and the circulating water return pipe is communicated with the middle part of the swimming pool; the circulating water path is formed by a circulating water outlet pipe, a circulating water return pipe, a swimming pool and a shell pass or a pipe pass of the shell-and-tube heat exchanger, and a first circulating pump is arranged on the circulating water outlet pipe or the circulating water return pipe.

4. The multifunctional cabinet-type dehumidification integrated system according to any one of claims 1 to 3, wherein:

a tube side inlet or a shell side inlet of the shell-and-tube heat exchanger is connected with a heating water return pipe, a coil pipe used for absorbing heat generated by the indoor condenser is arranged at the indoor condenser, the heating water return pipe is connected with the coil pipe, the coil pipe is connected with a heating water outlet pipe, and the heating water outlet pipe is connected with a tube side outlet or a shell side outlet of the shell-and-tube heat exchanger; the heating water path is composed of a heating water return pipe, a heating water outlet pipe, a coil pipe and a pipe side or a shell side of the shell-and-tube heat exchanger, and a second circulating pump is arranged on the heating water return pipe or the heating water outlet pipe.

5. The multifunctional cabinet type dehumidification integrated system according to claim 4, wherein: the top of the compressor is provided with a heat exchange cavity which is connected in series on a heating water outlet pipe or a heating water return pipe.

6. The multifunctional cabinet type dehumidification integrated system according to claim 5, wherein: the middle part of the heating water return pipe is connected with an air release pipe, the air release pipe extends upwards after being bent and is provided with an air release valve, and the air release pipe is provided with a stop valve.

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