CN219660220U - Energy-saving communication cabinet air conditioner - Google Patents

Abstract

The utility model relates to the technical field of communication cabinet air conditioners, in particular to an energy-saving communication cabinet air conditioner; the communication cabinet comprises a cabinet air conditioner shell, wherein the front surface of the cabinet air conditioner shell is attached to the communication cabinet, a fan and an evaporator are arranged in the cabinet air conditioner shell, the fan is located above the evaporator, and the fan is communicated with the internal space of the communication cabinet; the utility model discloses a cabinet air conditioner, including cabinet air conditioner shell, temperature and humidity sensor, circuit control device, communication cabinet air conditioner, air valve, cabinet circulation wind gap, first blocking part, second blocking part and two air valves are still provided with in the front below of cabinet air conditioner shell, cabinet air conditioner shell is inside still to be provided with temperature and humidity sensor and circuit control device, circuit control device with temperature and humidity sensor with circuit connection between the air valve has reached the effect that the inside humiture of communication cabinet air conditioner keeps the cabinet in the requirement of settlement humiture when energy-conserving.

Description

Energy-saving communication cabinet air conditioner

Technical Field

The utility model relates to the technical field of communication cabinet air conditioners, in particular to an energy-saving communication cabinet air conditioner.

Background

In the operation of the communication cabinet, the temperature in the cabinet can be continuously increased because the devices in the communication cabinet emit heat or are irradiated by outdoor sunlight or are hot in weather, and if heat dissipation is not timely carried out, the normal operation of the devices in the cabinet can be affected. Therefore, the communication cabinet needs to be provided with a special heat exchanger to dissipate heat of air in the cabinet, namely a cabinet air conditioner or cabinet refrigeration equipment. The cabinet air conditioner in the prior art is often used for adjusting the internal temperature of the cabinet for a long time through a refrigerating system, and the problem of overlarge energy consumption exists. In addition, there is a problem in that the temperature inside the cabinet cannot be maintained within a set temperature.

Disclosure of Invention

The utility model aims to provide an energy-saving communication cabinet air conditioner aiming at the defects in the prior art, and achieves the effect of saving energy of the communication cabinet air conditioner and simultaneously keeping the internal temperature of the cabinet within a set temperature.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows:

the energy-saving communication cabinet air conditioner comprises a cabinet air conditioner shell, wherein the front surface of the cabinet air conditioner shell is attached to a communication cabinet, a fan and an evaporator are arranged in the cabinet air conditioner shell, the fan is positioned above the evaporator, and the fan is communicated with the internal space of the communication cabinet; a cabinet circulating air port is also arranged below the front surface of the cabinet air conditioner shell;

the cabinet air conditioner shell is internally provided with a first blocking part, a second blocking part and two air valves; the first blocking part and the second blocking part are respectively positioned at the upper side and the lower side of the evaporator; the first blocking part is also positioned between the fan and the evaporator;

the first blocking mechanism comprises a first inclined baffle and a first vertical baffle, the first inclined baffle is fixed on the inner side of the back surface of the cabinet air conditioner shell along an angle inclined to the back surface of the cabinet air conditioner shell, and the first vertical baffle is fixed on the top end of the first inclined baffle along a central line in the cabinet air conditioner shell; one of the air valves is arranged at the top end of the first vertical baffle;

the second blocking mechanism comprises a second inclined baffle and a second vertical baffle, the second inclined baffle is fixed on the inner side of the back surface of the cabinet air conditioner shell along an angle inclined to the front surface of the cabinet air conditioner shell, and the second vertical baffle is fixed at the bottom end of the second inclined baffle along a central line inside the cabinet air conditioner shell; the other air valve is arranged at the bottom end of the second vertical baffle;

the cabinet air conditioner is characterized in that a temperature and humidity sensor and a circuit control device are further arranged in the cabinet air conditioner shell, and the circuit control device is in circuit connection with the temperature and humidity sensor and the air valve.

Further, the outer diameter of the air valve is the same as the inner diameter of the shell of the cabinet air conditioner, and the upper space and the lower space of the air valve are isolated when the air valve is closed; the air valve comprises a front valve blade part and a rear valve blade part, and the front valve blade part and the rear valve blade part can be respectively opened and closed.

Further, an upper air port is further formed in the cabinet air conditioner shell, and the position of the upper air port is matched with the position of the inclined surface of the first inclined baffle plate towards the back surface of the cabinet air conditioner shell.

Further, a lower air port is further formed in the cabinet air conditioner shell, and the position of the lower air port is matched with the position of the inclined surface of the second inclined baffle plate towards the front surface of the cabinet air conditioner shell.

Further, a control device bearing machine is further arranged in the cabinet air conditioner shell, the control device bearing machine is arranged at the top of the cabinet air conditioner shell, and the circuit control device is installed on the control device bearing machine.

Further, the temperature and humidity sensor is arranged at a position between the lower air port and the second inclined baffle plate.

Further, the air return temperature and humidity sensor is arranged at the position below the fan.

Furthermore, the air valve can also be an L-shaped blocking mechanism driven by the controller.

By the technical scheme of the utility model, the following technical effects can be realized:

the communication cabinet is characterized by comprising a cabinet air conditioner shell, wherein the front surface of the cabinet air conditioner shell is attached to the communication cabinet, a fan and an evaporator are arranged in the cabinet air conditioner shell, the fan is positioned above the evaporator, and the fan is communicated with the internal space of the communication cabinet; a cabinet circulating air port is also arranged below the front surface of the cabinet air conditioner shell; the cabinet air conditioner shell is internally provided with a first blocking part, a second blocking part and two air valves; the first blocking part and the second blocking part are respectively positioned at the upper side and the lower side of the evaporator; the first blocking part is also positioned between the fan and the evaporator; the first blocking mechanism comprises a first inclined baffle and a first vertical baffle, the first inclined baffle is fixed on the inner side of the back surface of the cabinet air conditioner shell along an angle inclined to the back surface of the cabinet air conditioner shell, and the first vertical baffle is fixed on the top end of the first inclined baffle along a central line in the cabinet air conditioner shell; one of the air valves is arranged at the top end of the first vertical baffle; the second blocking mechanism comprises a second inclined baffle and a second vertical baffle, the second inclined baffle is fixed on the inner side of the back surface of the cabinet air conditioner shell along an angle inclined to the front surface of the cabinet air conditioner shell, and the first vertical baffle is fixed at the bottom end of the first inclined baffle along a central line inside the cabinet air conditioner shell; the other air valve is arranged at the bottom end of the first vertical baffle; the cabinet air conditioner is characterized in that a temperature and humidity sensor and a circuit control device are further arranged inside the cabinet air conditioner shell, and the circuit control device is in circuit connection with the temperature and humidity sensor and the air valve, so that the effect that the communication cabinet air conditioner can save energy and simultaneously maintain the internal temperature of the cabinet within a set temperature is achieved.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are required to be used in the embodiments or the description of the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present utility model, and other drawings may be obtained according to the drawings without inventive effort to those skilled in the art.

FIG. 1 is a schematic diagram of an energy-efficient communication cabinet air conditioner in an embodiment of the utility model;

FIG. 2 is an exploded view of an air conditioner of an energy-efficient communication cabinet in accordance with an embodiment of the present utility model;

FIG. 3 is a schematic diagram of an energy-saving communication cabinet air conditioner with a cover removed in an embodiment of the utility model;

FIG. 4 is a front view of an energy-efficient communications cabinet air conditioner with a cover removed in accordance with an embodiment of the present utility model;

FIG. 5 is a right side cross-sectional view of an energy-efficient communications cabinet air conditioner with a cover removed in accordance with an embodiment of the present utility model;

FIG. 6 is a schematic view of a first blocking mechanism in an embodiment of the present utility model;

FIG. 7 is a schematic view of a second blocking mechanism in an embodiment of the utility model;

FIG. 8 is a schematic illustration of another damper with front and rear side lobes that may be used in an embodiment of the present utility model;

reference numerals: the cabinet air conditioner comprises a cabinet air conditioner shell 1, an upper air port 11, a lower air port 12, a fan 2, an evaporator 3, a first blocking mechanism 4, a first inclined baffle 41, a first vertical baffle 42, a second blocking mechanism 5, a second inclined baffle 51, a second vertical baffle 52, an air valve 6, a front valve blade 61, a rear valve blade 62, a temperature and humidity sensor 7, a circuit control device 8, a control device bearing machine table 81, a return air temperature and humidity sensor 9 and a cabinet circulating air port 10.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

In the description of the present utility model, it should be noted that the directions or positional relationships indicated as being "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are directions or positional relationships based on the drawings are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements to be referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

An energy-saving communication cabinet air conditioner is shown in fig. 1, and comprises a cabinet air conditioner shell 1, wherein the front surface of the cabinet air conditioner shell 1 is attached to a communication cabinet, a fan 2 and an evaporator 3 are arranged in the cabinet air conditioner shell 1, the fan 2 is positioned above the evaporator 3, and the fan 2 is communicated with the internal space of the communication cabinet; a cabinet circulating air port 10 is also arranged below the front surface of the cabinet air conditioner shell 1;

the inside of the cabinet air conditioner shell 1 is also provided with a first blocking part 4, a second blocking part 5 and two air valves 6; the first blocking mechanism 4 and the second blocking mechanism 5 are respectively positioned on the upper side and the lower side of the evaporator 3; the first blocking member 4 is also located between the blower 2 and the evaporator 3;

the first blocking mechanism 4 comprises a first inclined baffle 41 and a first vertical baffle 42, wherein the first inclined baffle 41 is fixed on the inner side of the back surface of the cabinet air conditioner shell 1 along an angle inclined to the back surface of the cabinet air conditioner shell 1, and the first vertical baffle 42 is fixed on the top end of the first inclined baffle 41 along a central line in the interior of the cabinet air conditioner shell 1; one of the air valves 6 is arranged at the top end of the first vertical baffle 42;

the second blocking mechanism 5 comprises a second inclined baffle plate 51 and a second vertical baffle plate 52, the second inclined baffle plate 51 is fixed on the inner side of the back surface of the cabinet air conditioner shell 1 along an angle inclined to the front surface of the cabinet air conditioner shell 1, and the second vertical baffle plate 52 is fixed on the bottom end of the second inclined baffle plate 51 along a central line in the cabinet air conditioner shell 1; the other air valve 6 is arranged at the bottom end of the second vertical baffle plate 52;

the inside of the cabinet air conditioner shell 1 is also provided with a temperature and humidity sensor 7 and a circuit control device 8, and the circuit control device 8 is in circuit connection with the temperature and humidity sensor 7 and the air valve 6.

Specifically, the front laminating of rack air conditioner shell 1 is on communication rack, and rack air conditioner shell 1 inside is provided with fan 2 and evaporimeter 3, and fan 2 is located the top of evaporimeter 3, and fan 2 and communication rack inner space intercommunication to be used for fan 2 to take out communication rack inside air, form the circulation wind channel. The first inclined baffle 41 and the first vertical baffle 42 of the first blocking mechanism cooperate with the air valve 6 to separate or communicate the inner space of the cabinet air conditioner housing above and below the first blocking mechanism, i.e. the space above the first inclined baffle 41 and the first vertical baffle 42 is separated or communicated with the space where the evaporator 3 is located. The second inclined baffle 51 and the second vertical baffle 52 of the second blocking mechanism cooperate with the damper 6 to separate or communicate the space below the second inclined baffle 51 and the second vertical baffle 52 with the space where the evaporator 3 is located. Through the inside temperature and humidity sensor 7 and the circuit control device 8 that is provided with of rack air conditioner shell 1, circuit connection's structure between circuit control device 8 and temperature and humidity sensor 7 and the air valve 6, temperature and humidity sensor 7 is perceived communication rack external environment humiture, when communication rack external environment temperature satisfies the control system setting and is less than the setting temperature 1 ℃ and external environment humidity < 65%RH, change the circulation wind channel in local main part and the communication rack through the conversion of air valve 6 opening direction, at this moment, the air valve 6 that is located first inclined baffle 41 and first perpendicular baffle 42 top separates evaporimeter 3 and its top space, the air valve 6 that is located second inclined baffle 51 and second perpendicular baffle 52 below separates evaporimeter 3 and its below space, the fan work in compressor and the outer machine body in stopping the outer machine body in the wind channel conversion finishing, make the inside heat and the external environment of producing of rack exchange, reach the purpose that reduces the inside temperature of rack. When the external environment temperature of the communication cabinet is higher than the temperature set by the control system or the external environment humidity is higher than 65% RH, the compressor in the external machine body and the fan in the external machine body are started to enable the external machine body and the fan to be in a working state, at the moment, the circulating air duct in the cabinet air conditioner shell 1 and the communication cabinet is restored, and heat generated in the cabinet is subjected to heat exchange with the evaporator in the machine body, so that the requirement of keeping the internal temperature of the cabinet at the set temperature is met.

As a preference of the above embodiment, as shown in fig. 3, the outer diameter of the air valve 6 is the same as the inner diameter of the cabinet air conditioner casing 1, and the air valve 6 isolates the upper and lower spaces when closed; the damper 6 includes a front valve blade 61 and a rear valve blade 62, and the front valve blade 61 and the rear valve blade 62 are openable and closable, respectively.

Specifically, the outer diameter of the air valve 6 is the same as the inner diameter of the cabinet air conditioner casing 1, the air valve 6 includes a front valve blade 61 and a rear valve blade 62, the front valve blade 61 and the rear valve blade 62 can be respectively opened and closed to better complete the functions of isolating and converting the air duct, wherein the front valve blade 61 and the rear valve blade 62 can be respectively controlled by the same controller, or by two controllers, so as to realize different opening and closing of two sides.

As a preferable example of the above embodiment, as shown in fig. 3, the cabinet air conditioner housing 1 is further provided with an upper air port 11, and the position of the upper air port 11 is adapted to the position of the inclined surface of the first inclined baffle 41 toward the back surface of the cabinet air conditioner housing 1.

As a preferable example of the above embodiment, as shown in fig. 3, the cabinet air conditioner housing 1 is further provided with a lower air port 12, and the position of the lower air port 12 is adapted to the position of the inclined surface of the second inclined baffle 51 facing the front surface of the cabinet air conditioner housing 1.

Specifically, the circulation efficiency of the external air duct formed in the state that the evaporator 3 and the space above the evaporator 3 are separated by the air valve 6 above the first inclined baffle 41 and the first vertical baffle 42 and the evaporator 3 and the space below the evaporator 3 are separated by the air valve 6 below the second inclined baffle 51 and the second vertical baffle 52 in the energy-saving mode is improved by the structure that the position of the upper air opening 11 is matched with the position of the inclined surface of the first inclined baffle 41 to the back surface of the cabinet air conditioner shell 1 and the position of the lower air opening 12 is matched with the position of the inclined surface of the second inclined baffle 51 to the front surface of the cabinet air conditioner shell 1.

As a preferred embodiment of the foregoing embodiment, as shown in fig. 4, a control device carrying platform 81 is further disposed in the cabinet air conditioner casing 1, the control device carrying platform 81 is disposed on the top in the cabinet air conditioner casing 1, and the circuit control device 8 is mounted on the control device carrying platform 81.

Specifically, the control device bearing platform 81 is arranged at the top in the cabinet air conditioner shell 1, and the circuit control device 8 is arranged on the control device bearing platform 81, so that the circuit control device 8 is used for controlling the air valve 6 to switch and providing support and calculation for each sensor.

As a preferable example of the above embodiment, as shown in fig. 4, the temperature and humidity sensor 7 is disposed at a position between the lower tuyere 12 and the second inclined baffle 51.

Specifically, the temperature and humidity sensor 7 is disposed at a position between the lower tuyere 12 and the second inclined baffle 51 for better sensing the temperature and humidity of the external space.

As a preferred embodiment of the foregoing, as shown in fig. 3, the air conditioning system further includes a return air temperature and humidity sensor 9, where the return air temperature and humidity sensor 9 is disposed at a position below the fan 2.

Specifically, through the structure that return air temperature and humidity sensor 9 set up in the position of fan 2 below to be used for the inside humiture of return air of perception communication rack, thereby cooperate blast gate 6 to act through circuit control device 8.

As a preferred embodiment, as shown in fig. 3, the air valve 6 may also be an L-shaped blocking mechanism driven by a controller.

In particular, the damper 6 may be a variety of space-blocking mechanisms that achieve a similar effect.

Specifically, through including cabinet air conditioner shell 1, cabinet air conditioner shell 1's front laminating is on communication rack, cabinet air conditioner shell 1 is inside to be provided with fan 2 and evaporimeter 3, fan 2 is located the top of evaporimeter 3, fan 2 and communication rack inner space intercommunication; a cabinet circulating air port 10 is also arranged below the front surface of the cabinet air conditioner shell 1; the inside of the cabinet air conditioner shell 1 is also provided with a first blocking part 4, a second blocking part 5 and two air valves 6; the first blocking mechanism 4 and the second blocking mechanism 5 are respectively positioned on the upper side and the lower side of the evaporator 3; the first blocking member 4 is also located between the blower 2 and the evaporator 3; the first blocking mechanism 4 comprises a first inclined baffle 41 and a first vertical baffle 42, wherein the first inclined baffle 41 is fixed on the inner side of the back surface of the cabinet air conditioner shell 1 along an angle inclined to the back surface of the cabinet air conditioner shell 1, and the first vertical baffle 42 is fixed on the top end of the first inclined baffle 41 along a central line in the interior of the cabinet air conditioner shell 1; one of the air valves 6 is arranged at the top end of the first vertical baffle 42; the second blocking mechanism 5 comprises a second inclined baffle plate 51 and a second vertical baffle plate 52, the second inclined baffle plate 51 is fixed on the inner side of the back surface of the cabinet air conditioner shell 1 along an angle inclined to the front surface of the cabinet air conditioner shell 1, and the first vertical baffle plate 52 is fixed on the bottom end of the first inclined baffle plate 51 along a central line in the interior of the cabinet air conditioner shell 1; the other air valve 6 is arranged at the bottom end of the first vertical baffle 42; the cabinet air conditioner is characterized in that a temperature and humidity sensor 7 and a circuit control device 8 are further arranged inside the cabinet air conditioner shell 1, and the circuit control device 8 is connected with the temperature and humidity sensor 7 and the air valve 6 through a circuit, so that the problem that in the prior art, a refrigeration mode cannot be adjusted by a communication cabinet air conditioner, and energy consumption is overlarge due to long-time work is solved.

The foregoing has outlined and described the basic principles, features, and advantages of the present utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (8)

1. An energy-saving communication cabinet air conditioner is characterized in that:

the communication cabinet comprises a cabinet air conditioner shell (1), wherein the front surface of the cabinet air conditioner shell (1) is attached to the communication cabinet, a fan (2) and an evaporator (3) are arranged in the cabinet air conditioner shell (1), the fan (2) is located above the evaporator (3), and the fan (2) is communicated with the inner space of the communication cabinet; a cabinet circulating air port (10) is also arranged below the front surface of the cabinet air conditioner shell (1);

a first blocking part (4), a second blocking part (5) and two air valves (6) are also arranged in the cabinet air conditioner shell (1); the first blocking part (4) and the second blocking part (5) are respectively positioned at the upper side and the lower side of the evaporator (3); the first blocking mechanism (4) is also positioned between the fan (2) and the evaporator (3);

the first blocking mechanism (4) comprises a first inclined baffle (41) and a first vertical baffle (42), the first inclined baffle (41) is fixed on the inner side of the back surface of the cabinet air conditioner shell (1) along an angle inclined to the back surface of the cabinet air conditioner shell (1), and the first vertical baffle (42) is fixed on the top end of the first inclined baffle (41) along a central line inside the cabinet air conditioner shell (1); one of the air valves (6) is arranged at the top end of the first vertical baffle (42);

the second blocking mechanism (5) comprises a second inclined baffle plate (51) and a second vertical baffle plate (52), the second inclined baffle plate (51) is fixed on the inner side of the back surface of the cabinet air conditioner shell (1) along an angle inclined to the front surface of the cabinet air conditioner shell (1), and the second vertical baffle plate (52) is fixed on the bottom end of the second inclined baffle plate (51) along a central line inside the cabinet air conditioner shell (1); the other air valve (6) is arranged at the bottom end of the second vertical baffle plate (52);

the cabinet air conditioner is characterized in that a temperature and humidity sensor (7) and a circuit control device (8) are further arranged inside the cabinet air conditioner shell (1), and the circuit control device (8) is in circuit connection with the temperature and humidity sensor (7) and the air valve (6).

2. The energy-saving communication cabinet air conditioner according to claim 1, wherein the outer diameter of the air valve (6) is the same as the inner diameter of the cabinet air conditioner shell (1), and the air valve (6) isolates the upper space and the lower space when being closed; the air valve (6) comprises a front valve blade part (61) and a rear valve blade part (62), and the front valve blade part (61) and the rear valve blade part (62) can be respectively opened and closed.

3. The energy-saving communication cabinet air conditioner according to claim 2, wherein an upper air port (11) is further arranged on the cabinet air conditioner shell (1), and the position of the upper air port (11) is adapted to the position of the inclined surface of the first inclined baffle plate (41) towards the back surface of the cabinet air conditioner shell (1).

4. The energy-saving communication cabinet air conditioner according to claim 2, wherein a lower air port (12) is further arranged on the cabinet air conditioner shell (1), and the position of the lower air port (12) is adapted to the position of the inclined surface of the second inclined baffle plate (51) facing the front surface of the cabinet air conditioner shell (1).

5. The energy-saving communication cabinet air conditioner according to claim 1, wherein a control device bearing machine table (81) is further arranged in the cabinet air conditioner shell (1), the control device bearing machine table (81) is arranged at the top in the cabinet air conditioner shell (1), and the circuit control device (8) is installed on the control device bearing machine table (81).

6. The energy-saving communication cabinet air conditioner according to claim 4, wherein the temperature and humidity sensor (7) is disposed at a position between the lower tuyere (12) and the second inclined baffle (51).

7. The energy-saving communication cabinet air conditioner according to claim 1, further comprising a return air temperature and humidity sensor (9), wherein the return air temperature and humidity sensor (9) is arranged at a position below the fan (2).

8. The energy-saving communication cabinet air conditioner according to claim 1, wherein the air valve (6) can be an L-shaped partition mechanism driven by a controller.