CN209944708U - Marine air conditioner condensate water discharge system - Google Patents

Abstract

The utility model discloses a marine air conditioner condensate water discharge system, which comprises an evaporator condensate water tray, a U-shaped pipe, a middle condensate water tray, an air conditioner chassis water tank, a drain plug, an evaporation cavity middle partition plate, a relevant refrigeration system, an air treatment system and other parts of the air treatment system, wherein the air conditioner is divided into an upper part and a lower part by the evaporation cavity middle partition plate, the air treatment system is arranged above the evaporation cavity middle partition plate, and the refrigeration system parts are arranged below the evaporation cavity middle partition plate; condensed water generated by an evaporator in the air treatment system is accumulated in a water condensation disc of the evaporator and then is converged into a drainage pipeline through a U-shaped pipe; a low-temperature part of the refrigeration system which is not insulated is arranged above the middle condensation tray, and a small amount of condensed water generated by the refrigeration system part is collected to the middle condensation tray and then converged into a drainage pipeline by utilizing the water vapor migration principle. The utility model discloses can condense water with the air conditioner under the various conditions and all discharge the outside water drainage pipe way of air conditioner smoothly, avoid having the air conditioner to condense water and spill when the slope is swayd at marine air conditioner.

Description

Marine air conditioner condensate water discharge system

Technical Field

The utility model relates to an air treatment device drainage system field specifically is a marine air conditioner drainage system that condenses.

Background

The condensed water generated by the operation of the air conditioner often causes some troubles, particularly on a marine air conditioner, the condensed water is more difficult to be completely discharged due to the inclined swinging, and the condensed water is spilled out of the air conditioner, thereby causing adverse effects. Many marine air conditioners only have the condensate water dish and the water collector of air conditioner bottom of evaporimeter lower part, in the air conditioner operation in-process, refrigerating system also often because the not tight a small amount of condensate water accumulation that produces of heat preservation in the water dish of air conditioner bottom, because of the reason of structure, the water dish of air conditioner lower part often is the same with unit area, the very big difference in height of this kind of very big air conditioner bottom water dish along with the slope swing of ship of area produces, consequently there is not thorough accumulation of condensate water discharge and very easy spill to the floor in one side of unavoidably, even set up about a plurality of drainage interfaces also need consider hull direction factor, and because cabin space restriction, the air conditioner can only set up 1 drainage interface under many circumstances. In order to solve the problem, a condensate pump drainage mode is sometimes adopted, but the mode is obviously more complicated and faces unreliable factors of damage of the condensate pump.

The utility model aims at providing a marine air conditioner drainage system that condenses to solve prior art marine air conditioner drainage problem.

In order to achieve the above purpose, the utility model discloses the technical scheme who adopts is:

the utility model provides a marine air conditioner drainage system that condenses which characterized in that: the air conditioner comprises an evaporation cavity middle clapboard arranged in the air conditioner, the evaporation cavity middle clapboard divides the air conditioner into an upper area and a lower area, the area above the evaporation cavity middle clapboard is an area A, the area below the evaporation cavity middle clapboard is an area B, an air treatment system of the air conditioner is arranged in the area A, a refrigeration system of the air conditioner is arranged in the area B, the parts forming the air treatment system at least comprise an evaporator, the parts forming the refrigeration system at least comprise low-temperature parts which are not insulated, an evaporator water condensation disc is arranged in the area A and is positioned under the evaporator, the evaporator water condensation disc receives condensate generated by the evaporator, a middle water condensation disc is arranged in the area B, the low-temperature parts which are not insulated are all positioned over the middle water condensation disc, the middle water condensation disc receives condensate generated by the low-temperature parts which are not insulated, and an air conditioner chassis water tank is arranged at the bottom in the area B, the bottom of the air conditioner chassis water tank is communicated with a drainage pipeline which can be cut off, the drainage pipeline penetrates out of the air conditioner, the bottom of the evaporator water condensation plate is communicated with a water outlet pipe, the bottom of the intermediate water condensation plate is communicated with a water outlet pipe, and the water outlet pipes are respectively communicated to the drainage pipeline in a bypass mode.

The marine air conditioner condensate water discharge system is characterized in that: region B is a nearly closed cavity.

The marine air conditioner condensate water discharge system is characterized in that: the water outlet pipe at the bottom of the evaporator water condensation disc is a U-shaped pipe with at least two bends.

The marine air conditioner condensate water discharge system is characterized in that: the area of the air conditioner chassis water tank can completely cover the air treatment system, the refrigerating system, the evaporator water condensation plate and the middle water condensation plate.

The marine air conditioner condensate water discharge system is characterized in that: one section of the drainage pipeline which penetrates out of the air conditioner is provided with a U-shaped bend.

The marine air conditioner condensate water discharge system is characterized in that: a detachable drainage plug is arranged at the communication position of the air conditioner chassis water tank and the drainage pipeline, so that the drainage pipeline can be turned off.

The utility model discloses separate air handling system and refrigerating system, wherein air handling system is on upper portion, and refrigerating system is in the lower part, and the lower part is airtight. In the refrigerating system, a small-sized intermediate water-condensing disc is arranged below a low-temperature part of the refrigerating system without heat preservation, a low-temperature part of the refrigerating system is arranged above the intermediate water-condensing disc, a certain distance is reserved between the small-sized intermediate water-condensing disc and the bottom of the air conditioner, a small amount of condensed water generated by the refrigerating system can be migrated and accumulated in the intermediate water-receiving disc during the operation of the air conditioner, and the small amount of condensed water is discharged to the outside of the air conditioner under the action of the height of the intermediate water-receiving disc, so that the air conditioner can be.

Most of condensed water generated by an evaporator in the air conditioner falls in an evaporator water condensation disc below the evaporator, flows through a U-shaped pipe under the action of gravity, converges in a drainage pipeline and is discharged to the outside of the air conditioner.

The bottom of the air conditioner is provided with an air conditioner chassis water tank with a water outlet with a detachable plug, and when the air conditioner is not operated, such as maintenance of a water-cooled condenser, the plug can be manually detached to discharge accumulated water in the chassis.

The utility model relates to an ability homoenergetic is thoroughly smooth under the various slope situation of swaying of boats and ships and is congealed water exhaust technical scheme with the air conditioner, can be with the water discharge of congealing that the air conditioner evaporimeter produced thoroughly to congeal a small amount of water with refrigerating system production and also collect and discharge, when the air conditioner does not operate in addition, also can discharge the water that air conditioner bottom water tray probably exists.

Compared with the prior art, the utility model discloses the advantage does:

1. the condensed water generated by the air conditioner under various conditions can be discharged completely without a condensed water pump, and the condensed water is not accumulated in the air conditioner.

2. Is especially suitable for the inclination and swing conditions of ships and can still thoroughly discharge condensed water.

3. Even under the condition that the ship inclines and swings, only the water outlet is needed to be arranged on one side of the air conditioner, and a plurality of water discharging interfaces are not needed to be arranged on the left side, the right side, the front side and the rear side of the air conditioner, so that the complex engineering workload is avoided.

4. When the air conditioner is not in operation, such as in the case of maintenance of the condenser, the standing water entering the air conditioner base pan can also be manually drained to a drain line.

5. When the air conditioner runs, the water outlet of the air conditioner chassis can be sealed by a plug, so that water in the external water drainage pipe of the air conditioner is prevented from flowing back into the air conditioner chassis when the air conditioner is inclined.

6. The refrigeration system is isolated from the outside, which can greatly reduce the influence of the noise of the compressor on the environment.

Drawings

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

Detailed Description

The present invention will be further explained with reference to the drawings and examples.

As shown in fig. 1, use the utility model discloses an air conditioner includes evaporimeter condensate tray 1, vapour and liquid separator 2, middle condensate tray 3, air conditioner chassis basin 4, drainage end cap 5, drain line 6, U-shaped pipe 7, evaporation chamber median septum 8, compressor 9, condenser 10, evaporimeter 11, expansion valve 12, fan 13, and the part that wherein constitutes air conditioner air handling system includes evaporimeter 11, fan 13 at least, and the part that constitutes air conditioner refrigerating system includes vapour and liquid separator 2, compressor 9, condenser 10 at least.

The air conditioner is divided into an upper part and a lower part by the middle clapboard 8 of the evaporation cavity, an area A is arranged above the middle clapboard 8 of the evaporation cavity, and an evaporator 11, a fan 13, related pipelines and the like are arranged in the area A to form parts of an air conditioning air treatment system. The part below the partition plate 8 in the evaporation cavity is a region B, and a gas-liquid separator 2, a compressor 9, a condenser 10, related pipelines and the like are arranged in the region B to form parts of an air-conditioning refrigeration system.

When the air conditioner is operated, condensed water generated by the evaporator 11 flows into the evaporator water condensation disc 1, then flows through the U-shaped pipe 7 through the water discharge port 1a and is discharged to the water discharge pipeline 6 outside the air conditioner, and the U-shaped pipe 7 is used for preventing unclean air in the water discharge pipeline 6 outside the air conditioner from being sucked into the air conditioner due to air conditioner negative pressure. In this way, the condensed water in the area A can be thoroughly discharged to the outside of the air conditioner.

Simultaneously, the air conditioner operation in-process, if keep warm tight inadequately, the low temperature part of air conditioner also can produce the condensate to store up in air conditioner chassis 4, the utility model discloses a this problem is solved to following mode:

zone B is substantially closed: the periphery is provided with an air conditioner external panel, the lower part is provided with an air conditioner chassis water tank, and the upper part is provided with an evaporation cavity middle partition plate 8 and an evaporator water condensation plate 1; an intermediate water condensation tray 3 is arranged in the area B, low-temperature components which are not insulated by the refrigerating system are arranged above the intermediate water condensation tray 3, and comprise but not limited to a gas-liquid separator which is not insulated, an air return pipeline which is not insulated and the like, and the low-temperature components of the refrigerating system above the non-intermediate water condensation tray 3 are all insulated, so that in the operation process of the air conditioner, the water in the area B is transferred and accumulated in the intermediate water condensation tray 3 by utilizing the principle that water vapor in a closed space is transferred to a cold end, and then the water is discharged to a water discharge pipeline 6 outside the air conditioner from a water discharge port 3a of the water condensation tray 3. The position of the middle water condensation plate 3 is higher than the chassis of the air conditioner enough to ensure that water in a drainage pipeline 6 outside the air conditioner cannot flow back into the middle water condensation plate 3 under various inclined and swinging conditions.

In addition, the air conditioner chassis water tank 4 at the bottom of the air conditioner is provided with a detachable drainage plug 5, and a drainage port 4a of the air conditioner chassis water tank 4 can be closed or opened according to requirements; the air conditioner chassis water tank 4 is large enough to fully collect water produced by accident in the refrigeration system, for example, when a condenser of the refrigeration system is maintained and cleaned, the water falling into the air conditioner chassis water tank 4 can be discharged to a drainage pipeline 6 outside the air conditioner after the drainage plug 5 is pulled down. When the air conditioner is operated, the drainage plug 5 can block the drainage port 4a, so that water is prevented from flowing back into the water tank 4 of the air conditioner chassis from the drainage pipeline 6 outside the air conditioner under the condition of inclined swinging. A small U-bend is provided at the drain line 6 to form a water seal to isolate the gas in the external drain line.

The utility model discloses an like the top formula, can guarantee under the various slope sways and maintains the maintenance circumstances that the air conditioner can thoroughly discharge condensation water and ponding smoothly, prevent that the air conditioner is inside to have ponding.

The utility model is not only limited to the use of air conditioners, but also can be used for all the air treatment devices such as dehumidifiers, fan coil pipes, indirect air treatment units and the like.

The above-mentioned embodiments are only for describing the preferred embodiments of the present invention, and are not intended to limit the scope of the present invention, and various modifications and improvements made by those skilled in the art without departing from the design spirit of the present invention should fall into the protection scope defined by the claims of the present invention.

Claims (6)

1. The utility model provides a marine air conditioner drainage system that condenses which characterized in that: the air conditioner comprises an evaporation cavity middle clapboard arranged in the air conditioner, the evaporation cavity middle clapboard divides the air conditioner into an upper area and a lower area, the area above the evaporation cavity middle clapboard is an area A, the area below the evaporation cavity middle clapboard is an area B, an air treatment system of the air conditioner is positioned in the area A, a refrigeration system of the air conditioner is positioned in the area B, the parts forming the air treatment system at least comprise an evaporator, the parts forming the refrigeration system at least comprise low-temperature parts which are not insulated, an evaporator water condensation disc is arranged in the area A and is positioned under the evaporator, the evaporator water condensation disc receives condensate generated by the evaporator, a middle water condensation disc is arranged in the area B, the low-temperature parts which are not insulated are all positioned over the middle water condensation disc, the middle water condensation disc receives condensate generated by the low-temperature parts which are not insulated, and an air conditioner chassis water tank is arranged at the bottom in the area B, the bottom of the air conditioner chassis water tank is communicated with a drainage pipeline which can be cut off, the drainage pipeline penetrates out of the air conditioner, the bottom of the evaporator water condensation plate is communicated with a water outlet pipe, the bottom of the intermediate water condensation plate is communicated with a water outlet pipe, and the water outlet pipes are respectively communicated to the drainage pipeline in a bypass mode.

2. The condensate discharge system of claim 1, wherein: region B is a nearly closed cavity.

3. The condensate discharge system of claim 1, wherein: the water outlet pipe at the bottom of the evaporator water condensation disc is a U-shaped pipe with at least two bends.

4. The condensate discharge system of claim 1, wherein: the area of the air conditioner chassis water tank can completely cover the air treatment system, the refrigerating system, the evaporator water condensation plate and the middle water condensation plate.

5. The condensate discharge system of claim 1, wherein: one section of the drainage pipeline which penetrates out of the air conditioner is provided with a U-shaped bend.

6. The condensate discharge system of claim 1, wherein: a detachable drainage plug is arranged at the communication position of the air conditioner chassis water tank and the drainage pipeline, so that the drainage pipeline can be turned off.

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