CN218936634U - Water removal all-air conditioning equipment inner machine structure - Google Patents

Abstract

The utility model relates to an inner machine structure of a water removal all-air conditioning device, wherein a top plate water outlet is formed in one end of a top plate of a shell, and a plate body of the top plate of the shell is inclined towards one end provided with the top plate water outlet; the inside of the shell is divided into four layers by a partition plate, a heat exchanger, a fan module and a first water collecting disc are arranged on the top layer, a humidifying and dehumidifying module and a second water collecting disc are arranged on the second layer, a filtering and sterilizing module is arranged on the third layer, a total water collecting disc is arranged on the bottom layer, a water collecting groove is arranged at one end of the disc body of the total water collecting disc, the disc body inclines towards one end of the water collecting groove, a total water falling port, a water level detector and a plurality of water receiving ports are arranged in the water collecting groove, the water receiving ports are respectively connected with a top plate water falling port, a first water falling port and a second water falling port, and the total water falling port is communicated with a drainage pump; a water outlet baffle plate is arranged above the first water outlet. The structure can collect and drain the condensed water generated inside and outside the shell in time and prevent the condensed water from being sucked into the heat exchanger reversely.

Description

Water removal all-air conditioning equipment inner machine structure

Technical Field

The utility model belongs to the field of air treatment equipment, and particularly relates to an indoor unit structure of all-air conditioning equipment, which can timely remove condensed water generated in the machine and outside.

Background

The air conditioning system is composed of an external unit and an internal unit, and the internal unit is used for delivering the treated air to a plurality of rooms through pipelines, so that the working efficiency of the internal unit is required to be high enough. When the air conditioner is used for high-power refrigeration, a large amount of condensed water is generated in the inner machine, which is needed to be discharged at the heat exchanger, the condensed water generated at the heat exchanger flows into the water collecting tray positioned at the lower part of the heat exchanger due to temperature difference on the wall of the inner machine shell and other parts, and then is discharged through the downpipe, when the inner machine is used for high-power operation, the wind speed and the wind quantity entering the heat exchanger are large, the water in the downpipe of the water collecting tray is easily sucked into the heat exchanger, so that the heat exchange effect of the heat exchanger can be greatly reduced, and meanwhile, if a small amount of condensed water generated at the wall of the inner machine shell and other parts due to temperature difference is not discharged in time, the humidity in the air of the inner machine can be increased, namely the heat exchange efficiency of the heat exchanger is influenced, and the electric devices in the inner machine can be damaged. When the high-power refrigeration of all-air conditioning equipment is carried out, condensed water is generated at the top end of the inner casing near the air outlet pipe and the water pipe, if the condensed water collected at the top end of the inner casing is not timely discharged, accumulated water is generated to breed bacteria, and even the bacteria flow along the casing.

Therefore, how to timely drain the condensed water generated by the internal machine of the existing all-air conditioning equipment and how to make the operation of the air heat exchanger achieve the best effect are the subject of the research and development efforts of technicians in the unit.

Disclosure of Invention

The utility model aims to improve the inner machine structure of the existing all-air conditioning equipment, and provides the inner machine structure of the all-air conditioning equipment, which can collect and remove condensed water generated inside and outside a shell in time, prevent water in a water collecting disc downpipe from being sucked into a heat exchanger reversely, and improve the working efficiency of the heat exchanger and the service life of electric elements.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the inner machine structure of the water-removing all-air conditioning equipment comprises a shell, wherein a top plate water outlet is formed in one end of a top plate of the shell, and a plate body of the top plate of the shell is inclined towards one end provided with the top plate water outlet; the utility model discloses a fan, including the casing, the top layer is equipped with heat exchanger and fan module and first water collector, and the top layer is equipped with humidification and dehumidification module and second water collector, and the third layer is equipped with filters and degerming module, and the bottom is equipped with total water collector, the disk body one end of total water collector is equipped with the water catch bowl, and the disk body inclines to water catch bowl one end, be equipped with total water outlet, water level detector and a plurality of water collector in the water catch bowl, a plurality of water collector are connected through the second water outlet on first water outlet, the second water collector on water outlet on top plate water outlet, first water outlet on the first water collector respectively through the pipe in water, total water outlet and drain pump UNICOM.

The water outlet baffle is arranged above the first water outlet of the first water collecting disc, and the water outlet baffle is fixed on the first water collecting disc through one or more than two supporting rods.

The water outlet baffle is a circular plate, and the radius of the circular plate is at least 1 cm larger than that of the first water outlet.

The utility model has the beneficial effects that:

the utility model relates to an inner machine structure of a dewatering all-air conditioning device, wherein a top plate of a shell is an inclined plate body, condensed water generated on the top plate of the shell can flow from a top plate water falling port to a total water collecting disc, and the problem of accumulated water on the top of the shell is solved.

The condensate water that heat exchanger produced in the casing is collected by first catchment dish, the humidification is collected by the second catchment dish with the waste water that dehumidification module during operation produced, the rivers that first, second catchment dish collected are all collected by total catchment dish to the water collector of total, the condensate water that condenses on casing inner wall and other parts, water that gathers on total catchment dish is discharged outside the casing through the drain pump, the condensate water that produces in the casing has all been collected and in time discharged like this, the humidity of the air in the casing has been reduced, simultaneously first falling water mouth top of first catchment dish is equipped with the falling water mouth baffle, can effectively avoid the water in the first catchment dish downpipe to fall to inhale the heat exchanger, the work efficiency of heat exchanger and electrical components's life have effectively been improved.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of the structure of the total water collecting tray of the present utility model;

FIG. 3 is a schematic view of a first water collecting tray according to the present utility model;

reference numerals illustrate:

a top plate 10 of the casing, a top plate water outlet b1;

the heat exchanger and fan module 1, the first water collecting disc 1-1, the first water falling port b2, the water falling pipe c and the water falling port baffle d;

a humidifying and dehumidifying module 2, a second water collecting tray 2-1;

a filtration and sterilization module 3;

a total water collecting tray 4, a water collecting tank 41, a total water outlet b4, a water level detector 412 and a water receiving port 411.

Detailed Description

The utility model is described in further detail below with reference to the drawings and examples.

The inner machine structure of the water-removing all-air conditioning equipment shown in fig. 1 and 2 comprises a machine shell, wherein a top plate water falling opening b1 is formed in one end, close to an air outlet of the inner machine, of a top plate 10 of the machine shell, and a plate body of the top plate 10 of the machine shell is inclined towards one end provided with the top plate water falling opening b 1. The condensed water generated on the top plate 10 of the casing is collected to one end provided with a top plate water outlet.

The inside of the machine shell is divided into four layers by a partition plate, a heat exchanger and fan module 1 and a first water collecting disc 1-1 are arranged on the top layer, a humidifying and dehumidifying module 2 and a second water collecting disc 2-1 are arranged on the second layer, a filtering and sterilizing module 3 is arranged on the third layer, a total water collecting disc 4 is arranged on the bottom layer, a water collecting groove 41 is arranged at one end of a disc body of the total water collecting disc 4, the disc body inclines towards one end of the water collecting groove, a total water falling opening b4 is arranged in the water collecting groove 41, a water level detector 412 and a plurality of water receiving openings 411 are arranged, the plurality of water receiving openings 411 are respectively connected with a roof water falling opening b1 through a water falling pipe c, a first water falling opening b2 on the first water collecting disc 1-1 and a second water falling opening on the second water collecting disc 2-1, and the total water collecting opening b4 is communicated with a drainage pump. The condensed water generated on the top plate 10 of the casing can flow from the water outlet b1 of the top plate to the total water collecting tray, so that the problem of accumulated water on the top of the casing is solved. The condensed water generated by the heat exchanger in the shell is collected by the first water collecting disc 1-1, the waste water generated by the humidifying and dehumidifying module 2 during operation is collected by the second water collecting disc 2-1, the water collected by the first water collecting disc and the second water collecting disc flows to the total water collecting disc 4, the condensed water condensed on the inner wall of the shell and other parts is collected by the total water collecting disc 4, and the water collected on the total water collecting disc 4 is discharged out of the shell through the drainage pump, so that the condensed water generated in the shell is collected and timely discharged, the humidity of air in the shell is reduced, the damage to electric elements is avoided, and the heat exchanging effect of the heat exchanger is also improved.

As shown in fig. 3, a water outlet baffle d is disposed above the first water outlet b2 on the first water collecting tray 1-1, and the water outlet baffle d is fixed on the first water collecting tray through one or more support rods. The water outlet baffle d is a circular plate, and the radius of the circular plate is at least 1 cm larger than that of the first water outlet b 2. The water falling opening baffle d can effectively prevent water in the water falling pipe of the first water collecting disc from being sucked into the heat exchanger reversely, and the working efficiency of the heat exchanger is effectively improved.

The above-described embodiments are only preferred embodiments of the present utility model and are not intended to limit the present utility model, and various modifications and variations of the present utility model will be apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (3)

1. An inner machine structure of a water removal all-air conditioning device is characterized in that: the device comprises a shell, wherein a top plate water outlet is formed in one end of a top plate of the shell, and a plate body of the top plate of the shell is inclined towards one end provided with the top plate water outlet; the utility model discloses a fan, including the casing, the top layer is equipped with heat exchanger and fan module and first water collector, and the top layer is equipped with humidification and dehumidification module and second water collector, and the third layer is equipped with filters and degerming module, and the bottom is equipped with total water collector, the disk body one end of total water collector is equipped with the water catch bowl, and the disk body inclines to water catch bowl one end, be equipped with total water outlet, water level detector and a plurality of water collector in the water catch bowl, a plurality of water collector are connected through the second water outlet on first water outlet, the second water collector on water outlet on top plate water outlet, first water outlet on the first water collector respectively through the pipe in water, total water outlet and drain pump UNICOM.

2. The water removal all-air conditioning equipment inner unit structure according to claim 1, wherein: the water outlet baffle is arranged above the first water outlet on the first water collecting disc, and the water outlet baffle is fixed on the first water collecting disc through one or more than two support rods.

3. The water removal all-air conditioning equipment inner unit structure according to claim 2, wherein: the water outlet baffle is a circular plate, and the radius of the circular plate is at least 1 cm larger than that of the first water outlet.

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