CN219674398U - Embedded electrode humidification module and machine room air conditioner adopting same - Google Patents

Abstract

The utility model discloses an embedded electrode humidifying module and a machine room air conditioner adopting the same, wherein the embedded electrode humidifying module comprises an outer shell with an opening at the front side, an electrode humidifier is detachably arranged in the outer shell, the top of the electrode humidifier is connected with a steam spray pipe, the bottom of the electrode humidifier is connected with a water inlet pipe and a water outlet pipe, the steam spray pipe comprises a copper pipe and a hose, the copper pipe extends out through a round hole at the back side of the outer shell, and the hose is used for connecting the copper pipe and a steam port of the electrode humidifier. The electrode humidifying module is embedded in the front side of the interior of the unit, so that the occupied space is saved, and meanwhile, the front side of an operator can conveniently finish the actions of checking, cleaning, disassembling and the like.

Description

Embedded electrode humidification module and machine room air conditioner adopting same

Technical Field

The utility model relates to an embedded electrode humidifying module and a machine room air conditioner adopting the same, and belongs to the technical field of air conditioner refrigeration.

Background

With the rapid development of economy, communication, IT, mobile internet and big data services are also rapidly increasing. As a central system, the requirements of the data center on the machine room air conditioner are not limited to the most basic safety and reliability, and higher requirements are also put forward on the maintainability of the machine room air conditioner in the later period. Especially, for the machine room air conditioner with the humidifying function, the rationalization of the internal structure of the machine set is ensured, and the maintainability of the humidifying module is ensured.

On the one hand, the heat exchanger occupies most of the space of the air conditioning unit due to the large length, width and height, which also results in a limited installation space of the humidification module. On the other hand, humidification involves water and electricity, and is also periodically checked and cleaned according to the use condition, and when the humidification is used on a unit, the humidification can be completely maintained on the front side.

Therefore, an electrode humidification module needs to be designed, and the electrode humidification module can be embedded in the front of the unit, so that an operator can finish the actions of checking, cleaning, disassembling and the like in front when checking a circuit or cleaning and maintaining a humidification barrel.

Disclosure of Invention

The utility model aims to: aiming at the problems existing in the prior art, the utility model provides the embedded electrode humidifying module and the machine room air conditioner adopting the same, and the embedded electrode humidifying module is embedded and arranged on the front surface inside a machine unit, so that the occupied space is saved, and meanwhile, the front surface of an operator can conveniently finish the actions of checking, cleaning, disassembling and the like.

The technical scheme is as follows: in order to achieve the above purpose, the utility model provides an embedded electrode humidification module, which comprises an outer shell with an opening at the front, wherein an electrode humidifier is detachably arranged in the opening of the outer shell, the top of the electrode humidifier is connected with a steam spray pipe, the bottom of the electrode humidifier is connected with a water inlet pipe and a water outlet pipe, the steam spray pipe comprises a copper pipe and a hose, the copper pipe extends out through a round hole at the back of the outer shell, and the hose is used for connecting the copper pipe and a steam port of the electrode humidifier.

Furthermore, the extending part of the copper pipe is in a descending-then-ascending trend, circular arc transition is carried out between ascending and descending, and the bottom of the transition section of the copper pipe is communicated with a thin copper pipe (the diameter of the copper pipe is smaller than that of the copper pipe). Therefore, condensed water generated by steam can be directly discharged to the lower condensed water tray through the thin copper pipe, and the phenomenon of wind outlet and water entrainment can not be generated.

Further, a rubber ring is arranged at the round hole on the back of the outer shell, and the copper pipe is fixed in an auxiliary mode.

Further, a spray pipe support is arranged on one side of the round hole, the spray pipe support is fixed with the outer shell, and the copper pipe is fixed with the spray pipe support through a pipe clamp.

Furthermore, in order to ensure the connection tightness, the two ends of the hose are respectively locked and fixed through the hose clamp.

Further, the electrode humidifier comprises an L-shaped support and a humidifying barrel, wherein the L-shaped support is fixed with the outer shell, the humidifying barrel is tightly bound and fixed with the L-shaped support through a rubber binding belt, and the electrode humidifier is firm and stable in structure and convenient to assemble, disassemble and maintain.

Further, the opening edge of the outer shell is turned outwards and is used for realizing the fixed installation of the outer shell.

In addition, the utility model also provides a machine room air conditioner adopting the embedded electrode humidifying module, which comprises a heat exchanger supporting plate, wherein the heat exchanger supporting plate is provided with a mounting groove for mounting the embedded electrode humidifying module.

The beneficial effects are that: compared with the prior art, the utility model has the following advantages:

(1) The structure is simple, the installation is convenient, and the internal space of the unit is reasonably and effectively utilized;

(2) The front door of the unit is opened, so that the humidification can be maintained on the whole front face;

(3) The device is arranged on a triangle plate of the heat exchanger, so that when humidification is performed, the transmission path of steam entering the cavity of the heat exchanger is short, and the steam is quickly carried out when a fan is performed;

(4) The steam transmission path is short, so that the consumption of the steam spray pipe and the copper pipe is reduced.

Drawings

Fig. 1 is a front view of an electrode humidification module according to an embodiment of the present utility model;

FIG. 2 is a cross-sectional view of the electrode humidification module of FIG. 1;

fig. 3 is a front view of an air conditioner in a machine room according to an embodiment of the present utility model;

FIG. 4 is a cross-sectional view B-B of the room air conditioner of FIG. 3;

the drawings include: 1. the air conditioner comprises an air conditioner frame, 2, a heat exchanger, 3, a triangular plate, 4, an electrode humidification module, 5, a condensation plate, 101, an outer shell, 102, a binding wire frame, 103, a spray pipe bracket, 104, an electrode humidifier, 105, a copper pipe, 106, a hose, 107, a drain pipe, 108, a water inlet pipe, 109, a pipe clamp, 110, a hose clamp, 111, a rubber ring, 112, a thin copper pipe, 401, an L-shaped bracket, 402, a humidification barrel, 403 and a rubber binding belt.

Detailed Description

The following description of the preferred embodiments of the present utility model will be made with reference to the accompanying drawings, to more clearly and completely illustrate the technical aspects of the present utility model.

As shown in fig. 1, the embedded electrode humidification module provided in this embodiment includes an external housing 101 with a completely opened front surface (the shape and size are adapted to those of an electrode humidifier 104), wherein the external housing 101 is internally provided with the electrode humidifier 104, the electrode humidifier 104 includes an L-shaped bracket 401 and a humidification barrel 402, the L-shaped bracket 401 is fixed in the external housing 101, the humidification barrel 402 is tightly fastened and fixed with the L-shaped bracket 401 through a rubber binding belt 403, and the structure is firm and stable, and is convenient for loading, unloading and maintenance. In addition, a steam spray pipe is connected to the top of the humidifying tub 402, and a water inlet pipe 108 and a water outlet pipe 107 are connected to the bottom of the humidifying tub 402.

As shown in fig. 2, the steam nozzle comprises a copper pipe 105 and a hose 106, wherein the copper pipe 105 extends out through a round hole on the back surface of the outer shell 101, the extending part is in a descending-then-ascending trend, circular arc transition is carried out between ascending-descending changes, and the bottom of the transition section is communicated with a thin copper pipe 112 (the outer diameter is 6.35mm, and the inner diameter is 4.95 mm). The condensed water generated by the steam can be directly discharged to the lower condensate tray 5 through the thin copper pipe 112, and the phenomenon of water entrainment of the air outlet can not occur.

In addition, the hose 106 is used for connecting the copper pipe 105 and the steam port on the humidifying barrel 402, and in order to ensure the connection tightness, two ends of the hose 106 are respectively locked and fixed through the hose clamp 110.

Further, the bottom of the round hole is provided with a spray pipe bracket 103 fixed on the outer shell 101, angle steel is adopted here, the copper pipe 105 is fixed with the spray pipe bracket 103 through a pipe clamp 109, and a rubber ring 111 is arranged at the round hole to assist in fixing the copper pipe 105.

Further, the opening edge of the outer case 101 is turned outwards for achieving a fixed mounting of the outer case 101. In addition, the outer housing 101 is further provided with a binding frame 102 for fixing the circuit.

The mounting sequence of this embodiment is: firstly, fixing a spray pipe bracket 103 on an outer shell 101 through rivets, sleeving a rubber ring 111 on a round hole of the outer shell 101, enabling a part of a copper pipe 105 to pass through the rubber ring 111 from the back surface of the outer shell 101, and then connecting and fixing the copper pipe 105 and the spray pipe bracket 103 by utilizing a pipe clamp 109; then the L-shaped bracket 401 is connected and fixed with the outer shell 101 by bolts, the binding frame 102 is fixed with the outer shell 101 by rivets, the humidifying barrel 402 is placed on the L-shaped bracket 401 and is fixed by rubber binding bands 403; finally, the copper pipe 105 is connected with the humidifying barrel 402 by the hose 106, two ends of the copper pipe are respectively fixed and tightened by the hose clamp 110, and the outer shell 101 is fixed on the triangle 3 of the heat exchanger 2, so that the embedded electrode humidifying module can be formed.

As shown in fig. 3 and 4, this embodiment also provides a machine room air conditioner using an embedded electrode humidifying module, which is an upper air supply machine room air conditioner, the air conditioner heat exchangers 2 are distributed in the air conditioner frame 1 in a V shape, and the electrode humidifying module 4 capable of front maintenance is embedded and installed on the triangle 3 between the air conditioner heat exchangers 2.

Corresponding mounting grooves and mounting holes are formed in the triangular plate 3 according to the outline dimensions of the electrode humidifying module 4, the electrode humidifying module 4 is fixed at a corresponding position through fasteners (bolts and the like), corresponding pipelines are connected, and relevant power lines, signal lines and the like are connected with an electric box, so that the installation can be completed.

The above detailed description is merely illustrative of the preferred embodiments of the present utility model and is not intended to limit the scope of the present utility model. Various modifications, substitutions and improvements of the technical scheme of the present utility model will be apparent to those skilled in the art from the description and drawings provided herein without departing from the spirit and scope of the utility model.

Claims (8)

1. The utility model provides an embedded electrode humidification module, its characterized in that, includes openly open-ended external shell, demountable installation has the electrode humidifier in the external shell, the top of electrode humidifier is connected with steam spray tube, and the bottom of electrode humidifier is connected with inlet tube and drain pipe, the steam spray tube includes copper pipe and hose, and wherein the copper pipe passes the round hole on external shell back and extends out, and the hose is used for connecting the steam mouth of copper pipe and electrode humidifier.

2. The embedded electrode humidifying module according to claim 1, wherein the portion of the copper tube extending out is in a descending-then-ascending trend, circular arc transition is performed between ascending and descending, and a thin copper tube is communicated with the bottom of the transition section of the copper tube.

3. The embedded electrode humidification module of claim 1, wherein a rubber ring is provided at a round hole on the back of the outer housing.

4. The embedded electrode humidification module of claim 1, wherein a nozzle support is arranged on one side of the round hole, the nozzle support is fixed with the outer shell, and the copper pipe is fixed with the nozzle support through a pipe clamp.

5. An embedded electrode humidification module as claimed in claim 1, wherein the two ends of the hose are secured by a hose clamp, respectively.

6. The embedded electrode humidification module of claim 1, wherein the electrode humidifier comprises an L-shaped bracket and a humidification barrel, wherein the L-shaped bracket is secured to the outer housing, and the humidification barrel is secured to the L-shaped bracket by a rubber strap.

7. An embedded electrode humidification module as claimed in claim 1, wherein the opening edge of the outer housing is turned outwards for achieving a fixed mounting of the outer housing.

8. A machine room air conditioner adopting an embedded electrode humidifying module, which is characterized by comprising a heat exchanger supporting plate, wherein a mounting groove is arranged on the heat exchanger supporting plate and is used for mounting the embedded electrode humidifying module as claimed in any one of claims 1-7.