CN217004864U - Surface air cooler with drainage and water retaining structure - Google Patents

Abstract

The utility model provides a surface cooler with drainage and retaining structure, relates to surface cooler device technical field. The utility model aims to solve the problem that when the surface air cooler is used for a long time, the external part of the surface air cooler is easy to break, so that water leakage is caused. The surface air cooler with the water drainage and retaining structure comprises a surface air cooler and further comprises: surface cooler baffle, drainage plate and drainage subassembly. The utility model provides a surface cooler with drainage and retaining structure is when the surface cooler leaks, and water flows to the surface cooler bottom through the drainage board on the surface cooler baffle, discharges through drainage subassembly, when the surface cooler is leaked everywhere, all can flow to the delivery port through the drainage board. The fan coil or the air conditioner is mainly used.

Description

Surface air cooler with drainage and water retaining structure

Technical Field

The utility model belongs to the technical field of surface air cooler devices, and particularly relates to a surface air cooler with a water drainage and retaining structure.

Background

The surface air cooler is also called a surface air cooler, which allows a heating medium, a cooling medium or a refrigerating medium to flow through the inner cavity of the metal pipeline, and the air to be treated flows through the outer wall of the metal pipeline to carry out heat exchange so as to achieve the purpose of heating or cooling the air. The heat and moisture exchange of the surface cooler is carried out under the action of the temperature difference and the water vapor partial pressure difference between the main air and the boundary layer air which is tightly attached to the outer surface of the heat exchanger. It can realize two air treatment processes: when the temperature of the boundary layer air is lower than the dew point temperature of the main air, a dehumidifying and cooling process or a wet cooling process (wet working condition) occurs; when the temperature of the boundary layer air is lower than the temperature of the main body air but is higher than the dew point temperature, an equal-humidity cooling process (dry working condition) occurs. In the dehumidification cooling process, because the temperature difference and the water vapor partial pressure difference exist between the boundary layer air and the main body air, sensible heat exchange and latent heat exchange accompanied with humidity exchange are realized through the surface of the heat exchanger. Therefore, the surface air cooler under the wet working condition has larger heat exchange capacity than that under the dry working condition, or for the same surface air cooler, when the dry bulb temperature and the water temperature of the processed air are kept unchanged, the higher the wet bulb temperature of the air is, the larger the cooling and dehumidifying capacity of the surface air cooler is.

The problem that the outside of the existing surface cooler is broken to cause water leakage at multiple places is easy to occur when the existing surface cooler is used for too long time. The utility model provides a surface air cooler with a water drainage and retaining structure aiming at the problems of the existing surface air cooler.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problems that the external part of the surface air cooler is easy to crack and a plurality of parts leak water when the existing surface air cooler is used for a long time. The utility model provides a surface air cooler with a water drainage and retaining structure.

The technical scheme of the utility model comprises a surface cooler and further comprises the following steps: the surface cooler comprises a baffle plate, a drainage plate and a drainage assembly; the surface cooler sets up in the surface cooler baffle, and leaves the clearance between surface cooler baffle and the surface cooler, the drainage plate is attached to on the inner wall of surface cooler baffle, the drainage subassembly sets up between surface cooler baffle and surface cooler.

Preferably, the surface cooler baffle is surrounded by a plurality of rectangular parallelepiped plates.

Preferably, the drainage plate is a plurality of wave-shaped plates or a plurality of slope-shaped plates.

Preferably, the drainage component is including returning to the throne board, drain bar, delivery port, first spacing rope and second spacing rope, the drain bar is the ring structure with the delivery port, the drain bar communicates with the coaxial fixed of delivery port, and the axial fixation at the both ends of drain bar is followed respectively to the one end of first spacing rope and second spacing rope, and the lower surface at the board that resets is fixed to the other end of first spacing rope and second spacing rope, it is coaxial with the delivery port to reset the board to fix on the outer wall of surface cooler.

Preferably, the surface cooler baffle is made of stainless steel.

Preferably, the drainage plate is made of silicon rubber.

Preferably, the surface cooler baffle plate further comprises a plurality of bolts, and the surface cooler baffle plate and the surface cooler are fixedly connected through the plurality of bolts.

According to the surface cooler with the water drainage and retaining structure, the surface cooler baffle is arranged on the outer side of the surface cooler, and the drainage plate is arranged between the surface cooler baffle and the surface cooler, so that the problem that multiple places are leaked due to the fact that the outer part of the surface cooler is broken easily when the existing surface cooler is used for a long time is solved.

Drawings

FIG. 1 is a perspective view of a surface cooler having a drainage and baffling structure;

FIG. 2 is a front view of a surface cooler having a drainage and baffling structure;

FIG. 3 is a partial enlarged view of A in FIG. 1;

in the figure: 1. surface cooler baffle, 2, surface cooler, 3, drainage plate, 4, bolt, 5, drainage subassembly, 51, the board that resets, 52, drain bar, 53, delivery port, 54, first spacing rope, 55, second spacing rope.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "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 being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

The first specific implementation way is as follows: specifically describing the present embodiment with reference to fig. 1 to 3, the surface cooler with a water drainage and retaining structure according to the present embodiment includes a surface cooler 2, and further includes: the surface cooler comprises a surface cooler baffle 1, a drainage plate 3 and a drainage assembly 5; the surface cooler 2 is arranged in the surface cooler baffle 1, a gap is reserved between the surface cooler baffle 1 and the surface cooler 2, the drainage plate 3 is attached to the inner wall of the surface cooler baffle 1, and the drainage assembly 5 is arranged between the surface cooler baffle 1 and the surface cooler 2.

In the embodiment, when the surface water cooler 2 leaks water, the water flows to the bottom of the surface water cooler with the water drainage and retaining structure through the drainage plate 3 on the baffle 1 of the surface water cooler, and is drained through the drainage assembly 5, and when any place of the surface water cooler leaks water, the water can flow to the water outlet through the drainage plate 3.

The second embodiment is as follows: in this embodiment, a surface cooler having a water drainage and blocking structure according to a first embodiment is further described, in which the baffle plate 1 of the surface cooler is surrounded by a plurality of rectangular parallelepiped plates.

In this embodiment, the surface cooler baffle 1 is used for enclosing the surface cooler 2, and the surface cooler 2 is prevented from leaking water and overflowing outside the surface cooler baffle 1.

The third concrete implementation mode: in this embodiment, the surface air cooler with the water drainage and retaining structure described in the second embodiment is further described, and the drainage plate 3 is a plurality of wave-shaped plates or a plurality of slope-shaped plates.

In this embodiment, the drainage plate 3 is used to introduce the water leaked from the surface air cooler 2 into the drainage assembly 5, which has the advantage of preventing the leaked water from flowing back into the surface air cooler.

The fourth concrete implementation mode: the embodiment further describes the surface air cooler with a water drainage and blocking structure in the first embodiment, the water drainage assembly 5 includes a reset plate 51, a water drainage plate 52, a water outlet 53, a first limiting rope 54 and a second limiting rope 55, the water drainage plate 52 and the water outlet 53 are both in a circular structure, the water drainage plate 52 and the water outlet 53 are coaxially and fixedly communicated, one end of the first limiting rope 54 and one end of the second limiting rope 55 are respectively fixed at two ends of the water drainage plate 52 along the axial direction of the water drainage plate 52, the other end of the first limiting rope 54 and the other end of the second limiting rope 55 are fixed at the lower surface of the reset plate 51, and the reset plate 51 is coaxial with the water outlet 53 and is fixed on the outer wall of the surface air cooler 2.

In this embodiment, the drainage assembly 5 is composed of the reset plate 51, the drainage plate 52, the water outlet 53, the first limiting rope 54 and the second limiting rope 55, when the water flowing into the drainage assembly 5 is less, the water can directly flow out from the water outlet 53 along the drainage plate 52, when the water flowing into the drainage assembly 5 is more, the water flow buoyancy makes the drainage plate 52 stick below the reset plate 51, so that a large amount of water flows out from the water outlet 53.

The beneficial effect is that when the water leakage is too much, the water can flow out from the water outlet 53 quickly.

The fifth concrete implementation mode: in this embodiment, a surface cooler with a water drainage and retaining structure is further described, in which the baffle plate 1 is made of stainless steel.

In this embodiment, the baffle plate 1 of the surface cooler is made of stainless steel material, so that the baffle plate 1 of the surface cooler with the water drainage and retaining structure can be prevented from rusting due to long-time oxidation reaction, and the service life can be prolonged.

The sixth specific implementation mode is as follows: in this embodiment, a surface air cooler with a drainage and water blocking structure is further described, in which the drainage plate 3 is made of silicon rubber.

In the embodiment, the silicon rubber material is a high-activity adsorption material, belongs to an amorphous substance, is insoluble in water and any solvent, is nontoxic and tasteless, has stable chemical properties, does not react with any substance except strong alkali and hydrofluoric acid, and has the characteristics of high adsorption performance, good thermal stability, stable chemical properties, higher mechanical strength and the like.

The seventh embodiment: the surface cooler with the water drainage and retaining structure further comprises a plurality of bolts 4, and the surface cooler baffle plate 1 and the surface cooler 2 are fixedly connected through the bolts 4.

The working principle is as follows: when the surface cooler 2 is broken, the surface cooler 2 leaks water everywhere, the leaked water flows into the drainage plate 3 attached to the baffle plate 1 of the surface cooler, the drainage plate 3 guides the water into the drainage assembly 5, and when the water leakage is less, the water can directly flow to the water outlet 53 through the drainage plate 52 and then is discharged out of the surface cooler; when water leakage is large, the water flow buoyancy acts on the drainage plate 52 to the lower part of the resetting plate 51, so that water flow can be quickly discharged out of the surface air cooler, and when the water drainage is finished, the drainage plate 52 is reset to the position above the water outlet 53.

It is to be understood that the present invention has been described with reference to certain embodiments, and that various changes in the features and embodiments, or equivalent substitutions may be made therein by those skilled in the art without departing from the spirit and scope of the utility model. In addition, many modifications may be made to adapt a particular situation or material to the teachings of the utility model without departing from the essential scope thereof. Therefore, it is intended that the utility model not be limited to the particular embodiment disclosed, but that the utility model will include all embodiments falling within the scope of the appended claims.

Claims (7)

1. The utility model provides a surface cooler with drainage and retaining structure, includes surface cooler (2), its characterized in that still includes: the surface cooler comprises a surface cooler baffle (1), a drainage plate (3) and a drainage assembly (5); surface cooler (2) set up in surface cooler baffle (1), and leave the clearance between surface cooler baffle (1) and surface cooler (2), drainage plate (3) are attached to on the inner wall of surface cooler baffle (1), drainage subassembly (5) set up between surface cooler baffle (1) and surface cooler (2).

2. A surface cooler having a water drainage and retaining structure according to claim 1, wherein the surface cooler baffle plate (1) is defined by a plurality of rectangular parallelepiped plates.

3. A surface cooler with a water drainage and retaining structure according to claim 1, characterized in that the flow guiding plate (3) is a plurality of wave-shaped plates or a plurality of slope-shaped plates.

4. The surface air cooler with the water discharging and blocking structure is characterized in that the water discharging assembly (5) comprises a resetting plate (51), a water discharging plate (52), a water outlet (53), a first limiting rope (54) and a second limiting rope (55), the water discharging plate (52) and the water outlet (53) are of a circular ring structure, the water discharging plate (52) is coaxially and fixedly communicated with the water outlet (53), one ends of the first limiting rope (54) and the second limiting rope (55) are respectively fixed at two ends of the water discharging plate (52) along the axial direction of the water discharging plate (52), the other ends of the first limiting rope (54) and the second limiting rope (55) are fixed on the lower surface of the resetting plate (51), and the resetting plate (51) is coaxial with the water outlet (53) and is fixed on the outer wall of the surface air cooler (2).

5. A surface cooler with a water drainage and retaining structure as claimed in claim 2, characterized in that the baffle plate (1) of the surface cooler is made of stainless steel.

6. A surface cooler with a water drainage and retaining structure as claimed in claim 3, characterized in that the flow guide plate (3) is made of silicon rubber.

7. A surface cooler with a water drainage and retaining structure according to claim 1, further comprising a plurality of bolts (4), wherein the surface cooler baffle plate (1) and the surface cooler (2) are fixedly connected through the plurality of bolts (4).

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