CN218096524U - Drainage structure of three-in-one dehumidification unit and three-in-one dehumidification unit - Google Patents

Abstract

The utility model provides a drainage structure of a three-in-one dehumidification unit and the three-in-one dehumidification unit, wherein the drainage structure of the three-in-one dehumidification unit comprises a plurality of drainage units, and each drainage unit is arranged on a base of the three-in-one dehumidification unit; each drainage unit comprises a water pan, a water tank and a drainage pipe, wherein the water pan is installed on the base of the three-in-one dehumidification unit, a water leakage port is formed in the plate surface of the water pan, the water tank is arranged below the water leakage port, one end of the drainage pipe is communicated with the water tank, and the other end of the drainage pipe extends out of the side surface of the base of the three-in-one dehumidification unit. Compared with the prior art, the utility model discloses set up a plurality of drainage units on the base of three integrative dehumidification units of collection, the comdenstion water that makes three integrative dehumidification units of collection produce can discharge to guarantee three integrative dehumidification units of collection's normal operating.

Description

Drainage structure of three-in-one dehumidification unit and three-in-one dehumidification unit

Technical Field

The utility model relates to a dehumidification equipment field especially relates to a drainage structures and three integrative dehumidification units of collection.

Background

The three-in-one dehumidification unit is equipment with three functions of heating water, reducing air humidity and adjusting air temperature, and is widely applied to places such as natatoriums. The three-in-one dehumidification unit can condense gaseous water vapor in the air into liquid water in the process of reducing air humidity or air temperature, and if the generated condensed water cannot be discharged out of the three-in-one dehumidification unit, the normal operation of the three-in-one dehumidification unit can be influenced.

SUMMERY OF THE UTILITY MODEL

Based on this, the utility model aims to provide a drainage structures of three integrative dehumidification units of collection and three integrative dehumidification units of collection including this drainage structures to the comdenstion water that makes three integrative dehumidification units of collection produce can discharge.

The utility model discloses a drainage structure of a three-in-one dehumidifier unit, which comprises a plurality of drainage units, wherein each drainage unit is arranged on a base of the three-in-one dehumidifier unit; each drainage unit comprises a water pan, a water tank and a drainage pipe, wherein the water pan is installed on the base of the three-in-one dehumidification unit, a water leakage port is formed in the plate surface of the water pan, the water tank is arranged below the water leakage port, one end of the drainage pipe is communicated with the water tank, and the other end of the drainage pipe extends out of the side surface of the base of the three-in-one dehumidification unit.

Furthermore, two end parts of the water tank are respectively connected with drain pipes, and the tail ends of the drain pipes extend out of the side surface of the base on the side where the drain pipes are located.

Furthermore, a drain elbow which bends downwards is arranged on the drain pipe of each drain unit.

Furthermore, a support frame for supporting the water pan is arranged below the water pan of each drainage unit.

Furthermore, the three-in-one dehumidification unit comprises an air supply section, a fin section, a fresh air exhaust section and a return air section which are sequentially arranged on the base, wherein the air supply section comprises an air supply fan, the fin section comprises an evaporator and a condenser, and the fresh air exhaust section comprises an exhaust cavity and a fresh air cavity; the drainage structure comprises a first drainage unit, a second drainage unit, a third drainage unit and a fourth drainage unit; the first drainage unit is arranged below the exhaust cavity, the second drainage unit is arranged below the fresh air cavity, the third drainage unit is arranged below the evaporator and the condenser, and the fourth drainage unit is arranged below the air supply fan.

Further, the water pan of the third drainage unit and the water tank are integrally formed.

Further, the bottom area of the water tank of the third drainage unit is smaller than the area of the upper opening thereof.

Furthermore, the number of the water tanks of the third drainage unit is two, and the two water tanks are sequentially arranged along the airflow direction.

Furthermore, the number of the water tanks of the fourth drainage unit is two, the two water tanks are arranged along the width direction of the base, and the two water tanks are communicated with each other through a pipeline.

The utility model provides an integrative dehumidification unit of three collections, including the section of airing exhaust newly, wing section, air supply section, return air section, base and foretell integrative dehumidification unit's of three collections drainage structures.

The fresh air exhaust section comprises a heat exchanger, an air exhaust cavity and a fresh air cavity, a first air inlet, a first air outlet, a second air inlet and a second air outlet are arranged on the heat exchanger, a first air flow channel is arranged between the first air inlet and the first air outlet, a second air flow channel is arranged between the second air inlet and the second air outlet, the air flow passing through the first air flow channel and the air flow passing through the second air flow channel can exchange heat, the first air inlet and the second air outlet are respectively communicated with the external environment, the first air outlet is communicated with the fresh air cavity, and the second air inlet is communicated with the air exhaust cavity.

The fin section comprises an evaporator and a condenser, an inlet of the evaporator is communicated with a first air outlet of the heat exchanger through the fresh air cavity, and an inlet of the condenser is communicated with an outlet of the evaporator; the air supply section comprises an air supply fan, an inlet of the air supply fan is communicated with an outlet of the condenser, and an outlet of the air supply fan is communicated with a space which needs to be dehumidified.

The air return section comprises an air return fan, the outlet of the air return fan is communicated with the second air inlet of the heat exchanger through the exhaust cavity, and the inlet of the air return fan is communicated with a space needing dehumidification.

The drainage structure sets up on the base, just first drainage unit set up in the below in exhaust chamber, second drainage unit set up in the below in new trend chamber, third drainage unit set up in the below of evaporimeter and condenser, fourth drainage unit set up in the below of air supply fan.

Compared with the prior art, the beneficial effects of the utility model are as follows:

1. a plurality of drainage units are arranged on the base of the three-in-one dehumidification unit, so that condensed water produced by the three-in-one dehumidification unit can be discharged, and normal operation of the three-in-one dehumidification unit is guaranteed.

2. The two ends of the water tank are respectively connected with the drain pipes, and the tail ends of the drain pipes extend out of the side face of the base on the side where the drain pipes are located, so that the drain pipes are connected with the main drain pipe outside the three-in-one dehumidification unit, and the three-in-one dehumidification unit and the main drain pipe are more flexible to arrange.

3. The drain pipe is provided with the drain elbow which is bent downwards, so that condensed water generated by the three-in-one dehumidification unit can be smoothly discharged, external air is prevented from entering the three-in-one dehumidification unit from the drain pipe, and normal operation of the three-in-one dehumidification unit is guaranteed.

Drawings

Fig. 1 is a structural diagram of the upper part of a drainage structure of a triple-integrated dehumidification unit in an embodiment of the invention;

fig. 2 is a structural diagram of the lower part of the drainage structure of the triple-integrated dehumidification unit in the embodiment of the present invention;

fig. 3 is an overall structure diagram of a triple-integrated dehumidification unit according to an embodiment of the present invention.

In the figure: 10. thirdly, a drainage structure of the integrated dehumidification unit; 11. a water pan; 12. a water tank; 13. a drain pipe; 14. draining water to bend; 15. a support frame; 20. a new air exhaust section; 21. a heat exchanger; 211. a first air inlet; 212. a first air outlet; 213. a second air inlet; 214. a second air outlet; 22. a fresh air port; 23. an air outlet; 30. a wing segment; 31. an evaporator; 32. a condenser; 40. an air supply section; 41. an air supply fan; 42. an air supply outlet; 50. a return air section; 51. a return air fan; 52. an air return opening;

a1, a first drainage unit; a2, a second drainage unit; a3, a third drainage unit; a4, a fourth drainage unit; C. an exhaust chamber; D. a fresh air cavity; E. an air return flow channel; F. an air supply flow passage.

Detailed Description

The following are specific embodiments of the present invention, and the technical solutions of the present invention will be further described with reference to the accompanying drawings, but the present invention is not limited to these embodiments.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, are not to be construed as limiting the present invention.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present.

The utility model provides a three integrative dehumidification units's of collection drainage structures, as shown in figure 1 and figure 2, this drainage structure includes a plurality of drainage units, each drainage unit sets up on three integrative dehumidification units's of collection base 60, every drainage unit includes water collector 11, basin 12 and drain pipe 13, water collector 11 is installed in three integrative dehumidification units's of collection base 60's top, water collector 11's quotation is provided with the mouth that leaks, basin 12 sets up in the below of leaking the mouth, drain pipe 13 one end communicates in basin 12, the other end stretches out to three integrative dehumidification units's of collection base 60's side. Condensed water generated by the three-in-one dehumidification unit falls on the water pan 11 and then is discharged to the outside of the three-in-one dehumidification unit through the water tank 12 and the water discharge pipe 13 in sequence.

The tail end of the drain pipe 13 of each drain unit can be communicated with a drain main pipe outside the three-in-one dehumidification unit, so that condensed water generated by the three-in-one dehumidification unit is collected to the drain main pipe and then is discharged together; in a preferred embodiment, the drainage pipes 12 are connected to both ends of the water tank 12, respectively, and the end of each drainage pipe 12 protrudes to the side of the base 60 on the side where it is located. When one side of the three-in-one dehumidification unit is arranged close to a wall, water can be discharged to the main drainage pipe outside the three-in-one dehumidification unit through the drainage pipe 12 on the other side, arrangement of the main drainage pipe is facilitated, and the three-in-one dehumidification unit is arranged flexibly.

When the three-in-one dehumidification unit is in a working state, negative pressure can be generated inside the three-in-one dehumidification unit, namely the pressure inside the three-in-one dehumidification unit is smaller than the ambient pressure, the negative pressure can influence the discharge of condensed water in the three-in-one dehumidification unit, and external air can also enter the three-in-one dehumidification unit from a drain pipe 13 of a drainage unit, so that the normal operation of the three-in-one dehumidification unit is influenced; in order to smoothly discharge the condensed water generated by the triple-integrated dehumidification unit and prevent the external air from entering the unit from the drain pipes 13 of the drain units, in a preferred embodiment, the drain pipes 13 of the drain units are provided with drain bends 14 which are bent downwards. In an alternative embodiment, the drain trap 14 is formed by bending the middle of the drain pipe 13.

In order to prevent the drip tray 11 from deforming and causing condensed water to overflow from the edge of the drip tray 11, in a preferred embodiment, a support frame 15 for supporting the drip tray 11 is provided below the drip tray 11 of each drainage unit.

The three-in-one dehumidification unit comprises an air supply section 40, a fin section 30, a fresh air exhaust section 20 and an air return section 50 which are sequentially arranged on a base 60, wherein the air supply section 40 comprises an air supply fan 41, the fin section 30 comprises an evaporator 31 and a condenser 32, the fresh air exhaust section 20 further comprises an air exhaust cavity C and a fresh air cavity D, and the air supply fan 41, the evaporator 31, the condenser 32, the air exhaust cavity C and the fresh air cavity D can generate condensed water in the working process; therefore, in a preferred embodiment, the drainage structure 10 of the triple integrated dehumidification unit includes a first drainage unit A1, a second drainage unit A2, a third drainage unit A3 and a fourth drainage unit A4; wherein, the first water discharging unit A1 is arranged below the air discharging cavity C, the second water discharging unit A2 is arranged below the fresh air cavity D, the third water discharging unit A3 is arranged below the evaporator 31 and the condenser 32, and the fourth water discharging unit A4 is arranged below the air supply fan 41.

The condenser 32 generates more condensed water, and thus the amount of water discharged by the third drain unit A3 is larger; in order to prevent the third drainage unit A3 from leaking water and improve the reliability of the third drainage unit A3, in a preferred embodiment, the drain pan 11 of the third drainage unit A3 is integrally formed with the water tank 12, and there is no seam between the drain pan 11 and the water tank 12, so as to prevent water leakage at the seam after long-time operation.

In order to facilitate the gathering and sufficient drainage of the condensed water in the water tank 12 of the third drainage unit A3, reduce the gathering of the condensed water in the water tank 12, and improve the drainage efficiency of the third drainage unit A3, in a preferred embodiment, the bottom area of the water tank 12 of the third drainage unit A3 is smaller than the area of the upper opening thereof; specifically, the cross section of the water tank 12 of the third drainage unit A3 may be in a shape with a wide top and a narrow bottom, such as an inverted trapezoid or a semicircle.

In order to improve the drainage efficiency of the third drainage unit A3, in a preferred embodiment, there are two water tanks 12 of the third drainage unit A3, and the two water tanks 12 are sequentially arranged along the airflow direction of the triple-integrated dehumidification unit.

Under the action of the air flow, part of the condensed water generated on the condenser 32 is blown to the vicinity of the air inlet of the air supply fan 41, and the air inlet of the air supply fan 41 is located at both sides of the air supply fan 41, so in a preferred embodiment, there are two water tanks 12 of the fourth drainage unit A4, the two water tanks 12 are arranged along the width direction of the base 60, and the two water tanks 12 are communicated with each other through a pipeline, and the two water tanks 12 are respectively located corresponding to the air inlets at both sides of the air supply fan 41 to drain the condensed water near the two air inlets of the air supply fan 41.

In a second aspect, the present invention further provides a triple-integrated dehumidifying unit, which comprises a new air exhaust section 20, a fin section 30, an air supply section 40, an air return section 50, a base 60 and the drainage structure 10 of the triple-integrated dehumidifying unit, as shown in fig. 3.

The fresh air exhaust section 20 comprises a heat exchanger 21, an exhaust cavity C and a fresh air cavity D, a first air inlet 211, a first air outlet 212, a second air inlet 213 and a second air outlet 214 are arranged on the heat exchanger 21, a first air flow channel is arranged between the first air inlet 211 and the first air outlet 212, a second air flow channel is arranged between the second air inlet 213 and the second air outlet 214, heat exchange can be carried out between air flow passing through the first air flow channel and air flow passing through the second air flow channel, the first air inlet 211 is communicated with the external environment through a fresh air port 22, the second air outlet 214 is communicated with the external environment through an exhaust port 23, the first air outlet 212 is communicated with the fresh air cavity D, and the second air inlet 213 is communicated with the exhaust cavity C.

The fin section 30 includes an evaporator 31 and a condenser 32, an inlet of the evaporator 31 communicates with the first air outlet 212 of the heat exchanger 21 through the fresh air chamber D, and an inlet of the condenser 32 communicates with an outlet of the evaporator 31.

The air supply section 40 includes an air supply fan 41, an inlet of the air supply fan 41 is communicated with an outlet of the condenser 32, and an outlet of the air supply fan 41 is communicated with a space to be dehumidified through an air supply outlet 42.

The return air section 50 includes a return air blower 51, an outlet of the return air blower 51 is communicated with the second air inlet 213 of the heat exchanger 21 through the exhaust chamber C, and an inlet of the return air blower 51 is communicated with a space to be dehumidified through a return air inlet 52.

The drainage structure 10 is disposed on the base 60, the first drainage unit A1 is disposed below the air exhaust chamber C, the second drainage unit A2 is disposed below the fresh air chamber D, the third drainage unit A3 is disposed below the evaporator 31 and the condenser 32, and the fourth drainage unit A4 is disposed below the air supply fan 41.

Under the action of the return air fan 51, the air in the space to be dehumidified is discharged to the external environment through the return air flow passage E; specifically, the air in the space to be dehumidified passes through the air return opening 52, the air return fan 51, the air exhaust cavity C, the heat exchanger 21 and the air outlet 23 in sequence and is then exhausted to the external environment.

Under the action of the air supply fan 41, air in the external environment is conveyed to the space needing dehumidification through the air supply flow channel F; specifically, the air in the external environment sequentially passes through the fresh air inlet 22, the heat exchanger 21, the fresh air chamber D, the evaporator 31, the condenser 32, the air supply fan 41 and the air supply outlet 42, and then reaches the environment to be dehumidified, wherein the evaporator 31 and the condenser 32 are used for reducing the humidity of the air flowing through.

Compared with the prior art, the beneficial effects of the utility model are as follows:

1. a plurality of drainage units are arranged on a base of the three-in-one dehumidification unit, so that condensed water produced by the three-in-one dehumidification unit can be discharged in time, and normal operation of the three-in-one dehumidification unit is guaranteed.

2. The two ends of each water tank are respectively connected with a drain pipe, and the tail end of each drain pipe extends out of the side face of the base on one side where the drain pipe is located, so that the drain pipes are connected with a main drain pipe outside the three-in-one dehumidification unit, and the three-in-one dehumidification unit and the main drain pipe are arranged more flexibly.

3. Set up the drainage of downwarping on the drain pipe curved, make the comdenstion water that three integrations dehumidification units produced discharge smoothly, also prevent that outside air from getting into three integrations dehumidification units inside from the drain pipe, guarantee three integrations dehumidification units's normal operating.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the concept of the present invention, several variations and modifications can be made, which all fall within the scope of the present invention.

Claims (10)

1. The utility model provides a drainage structures of three integrative dehumidification units of collection which characterized in that:

the integrated dehumidification unit comprises a plurality of drainage units, wherein each drainage unit is arranged on a base (60) of the three-in-one dehumidification unit;

each drainage unit comprises a water pan (11), a water tank (12) and a drainage pipe (13), wherein the water pan (11) is installed on a base (60) of the three-in-one dehumidification unit, a water leakage port is formed in the surface of the water pan (11), the water tank (12) is arranged below the water leakage port, one end of the drainage pipe (13) is communicated with the water tank (12), and the other end of the drainage pipe extends out of the side face of the base (60) of the three-in-one dehumidification unit.

2. The drainage structure of a triple-integrated dehumidification unit as claimed in claim 1, wherein:

the two end parts of the water tank (12) are respectively connected with drain pipes (13), and the tail end of each drain pipe (13) extends out of the side surface of the base (60) on the side where the drain pipe is located.

3. The drainage structure of a triple-integrated dehumidification unit as claimed in claim 1, wherein:

the drain pipe (13) of each drain unit is provided with a drain elbow (14) which is bent downwards.

4. The drainage structure of a triple-integrated dehumidification unit as claimed in claim 1, wherein:

a support frame (15) for supporting the water pan (11) is arranged below the water pan (11) of each drainage unit.

5. The drainage structure of a triple-integrated dehumidification unit as claimed in claim 1, wherein:

the three-in-one dehumidification unit further comprises an air supply section (40), a fin section (30), a fresh air exhaust section (20) and an air return section (50) which are sequentially arranged on the base (60), wherein the air supply section (40) comprises an air supply fan (41), the fin section (30) comprises an evaporator (31) and a condenser (32), and the fresh air exhaust section (20) comprises an air exhaust cavity (C) and a fresh air cavity (D); the drainage structure (10) comprises a first drainage unit (A1), a second drainage unit (A2), a third drainage unit (A3) and a fourth drainage unit (A4); wherein, first drainage unit (A1) sets up in the below of exhaust chamber (C), second drainage unit (A2) sets up in the below of new trend chamber (D), third drainage unit (A3) sets up in the below of evaporimeter (31) and condenser (32), fourth drainage unit (A4) sets up in the below of air supply fan (41).

6. The drainage structure of a triple-integrated dehumidification unit as claimed in claim 5, wherein:

the water pan (11) of the third drainage unit (A3) and the water tank (12) are integrally formed.

7. The drainage structure of a triple-integrated dehumidification unit as claimed in claim 5, wherein:

the bottom area of the water tank (12) of the third drainage unit (A3) is smaller than the area of the upper opening thereof.

8. The drainage structure of a triple-integrated dehumidification unit as set forth in claim 5, wherein:

the number of the water tanks (12) of the third drainage unit (A3) is two, and the two water tanks (12) are sequentially arranged along the airflow direction.

9. The drainage structure of a triple-integrated dehumidification unit as claimed in claim 5, wherein:

the number of the water tanks (12) of the fourth drainage unit (A4) is two, the two water tanks (12) are arranged along the width direction of the base, and the two water tanks (12) are communicated through a pipeline.

10. The utility model provides an integrative dehumidification unit of three collections which characterized in that:

the drainage structure (10) of the triple-integrated dehumidification unit comprises a fresh air exhaust section (20), a fin section (30), an air supply section (40), an air return section (50), a base (60) and any one of claims 5 to 9;

the fresh air exhaust section (20) comprises a heat exchanger (21), an exhaust cavity (C) and a fresh air cavity (D), a first air inlet (211), a first air outlet (212), a second air inlet (213) and a second air outlet (214) are arranged on the heat exchanger (21), a first air flow channel is arranged between the first air inlet (211) and the first air outlet (212), a second air flow channel is arranged between the second air inlet (213) and the second air outlet (214), the air flow passing through the first air flow channel and the air flow passing through the second air flow channel can exchange heat, the first air inlet (211) and the second air outlet (214) are respectively communicated with the external environment, the first air outlet (212) is communicated with the fresh air cavity (D), and the second air inlet (213) is communicated with the exhaust cavity (C);

the fin section (30) comprises an evaporator (31) and a condenser (32), the inlet of the evaporator (31) is communicated with the first air outlet (212) of the heat exchanger (21) through the fresh air cavity (D), and the inlet of the condenser (32) is communicated with the outlet of the evaporator (31);

the air supply section (40) comprises an air supply fan (41), the inlet of the air supply fan (41) is communicated with the outlet of the condenser (32), and the outlet of the air supply fan (41) is communicated with a space needing dehumidification;

the air return section (50) comprises an air return fan (51), an outlet of the air return fan (51) is communicated with a second air inlet (213) of the heat exchanger (21) through the exhaust cavity (C), and an inlet of the air return fan (51) is communicated with a space needing dehumidification;

drainage structure (10) sets up on base (60), just first drainage unit (A1) set up in the below of exhaust chamber (C), second drainage unit (A2) set up in the below of new trend chamber (D), third drainage unit (A3) set up in the below of evaporimeter (31) and condenser (32), fourth drainage unit (A4) set up in air supply fan (41)'s below.

Images