KR200241262Y1 - Self heat management outdoor enclosure - Google Patents

Abstract

The present invention relates to a structure of an outdoor self-heating enclosure for effectively treating heat generated inside an enclosure by an air flow in an outdoor communication equipment (wireless communication device, transmission device, etc.). The structure of the outdoor self-heat dissipating enclosure has a main body having a double wall so as to be divided into the inside and the outside, an internal air circulation passage through which air inside the main body is circulated through a predetermined path, and is separated from the internal air circulation passage. And an outside air circulation passage in which outside air introduced from the outside of the main body is circulated through a predetermined path, and an inside circulation circulating in the inside air circulation passage and circulating internal air of the main body as a predetermined power voltage is supplied. A fan, an outside air circulation fan installed in the outside air circulation passage and circulating outside air of the main body when a predetermined power voltage is supplied, and installed in a double wall constituting the main body to allow passage of internal air and outside air of the main body; Are each configured to include a thin heat exchanger crossing each other in an isolated state, the bet circulation fan and the outside Flow path of the bet and the outside air which is circulated in accordance with the driving of the circulation fan is characterized in that the passage across the heat exchange group.

Description

Structure of self-heating enclosure for outdoor use {SELF HEAT MANAGEMENT OUTDOOR ENCLOSURE}

The present invention relates to a structure of an outdoor self-heating enclosure, and more particularly, to a structure of an outdoor self-heating enclosure for effectively treating heat generated inside an enclosure by an air flow in outdoor communication equipment (wireless communication equipment, a transmission device, etc.). .

In general, outdoor communication equipment emits heat generated in the equipment to the outside of the main body by using a separate heat dissipation device (air conditioner, heat exchanger, heat pipe, etc.) in the outdoor type such as a base station, subscriber network, traffic controller, etc. A method of inhaling to the inside and cooling the inside of the main body is adopted.

1 is a heat exchange structure and an air flow diagram of a conventional outdoor communication equipment.

In the related art, as shown in FIG. 1, a heat exchange structure diagram of an outdoor communication device includes an inner body 11, a loop 12, and a pedestal 13. The inner body 11 is mounted with various self-heating parts, and the air conditioner 16a and the heater 16b are installed in a combined manner. The roof 12 is installed at the upper part of the housing 10, and the base 13 is provided at the lower end of the housing 10 to form a working space such as a handle car or a forklift for moving. Doors 10a and 10b are installed at the front and rear of the enclosure 10, respectively. The inner body 11 is mounted on the lower (11a) to form a high power consumption portion, and the upper side to mount a variety of shelf (11b) as a low power consumption portion, respectively. The pan self 15 is installed between the air baffle 14 and the upper various self 11b between the lower sel on which the various sels 11b are mounted. An air conditioner 16a and a heater 16b are provided on the rear side and the lower side on which the various self 11b are mounted, respectively.

In the heat exchange structure of the conventional outdoor communication equipment configured as described above, the air conditioner 16a and the heater 16b are respectively installed on the rear side and the lower side of the inner body 11 of the enclosure 10, so that the interior of the enclosure 10 is provided. The heat generated will be released. The air conditioner 16a and the heater 16b are usually operated by AC power. In order to discharge the heat generated by the self installed in the inner body 11 of the enclosure 10, which is the outdoor communication equipment as described above, the air conditioner 16a on the rear side on which the various self 11b are mounted is operated to operate the air. Will be sent downward as arrow (A). At this time, the air is moved to the various self (11b) side of the low power consumption of the upper side through the self (11a) of the high power consumption of the lower side. The air is then passed through the air baffle 14 installed between the self and the air is moved upward and by the fan self 15 to move the air upward strongly. The air passes through various kinds of shelves 11b and is circulated again by moving the air downward by the air conditioner 16a. In addition, the outside air is sucked in the lower center of the rear of the housing 10 as shown by the arrow B, the air is moved upward by the lower air conditioner 16a, and the heat generated therein is released to the upper rear.

In the above state, when the temperature inside the enclosure 10 falls below a predetermined temperature in winter, the heater 16b is operated to raise the temperature inside the body 11 to room temperature.

However, in the heat exchange structure of the conventional outdoor communication equipment, the air conditioner combined heater is usually operated by an AC power source, so it is necessary to have a spare power generation facility in case of power failure, but the existing outdoor communication equipment does not have a reserve power generation facility. In addition, when there is a power failure or the air conditioner is broken, there is a problem that can cause a malfunction if the door of the communication equipment is not opened quickly due to a rapid temperature rise inside the enclosure. In addition, according to the technological progress, the self-mounting in the enclosure is high density, the power consumption inside the enclosure is increased to increase the size of the air conditioner, eventually affecting the size of the equipment. The size and weight of the communication equipment is a constraint in the development of the product, so the size of the installed air conditioner cannot grow indefinitely as the amount of heat generation increases, so there is a problem in that heat generated inside the enclosure is not properly released by the air conditioner.

It is an object of the present invention to provide a structure of an outdoor self-heating enclosure capable of dissipating heat generated from outdoor communication equipment to the outside using air circulation between inside and outside air.

Another object of the present invention is to provide a structure of an outdoor self-heating enclosure that can reduce the size of the communication equipment by utilizing the inside of the double-wall structure of the outdoor enclosure as a heat exchange space.

Another object of the present invention is to provide a structure of an outdoor self-heating enclosure that can maximize the heat exchange of the air flowing through the air circulation path and the air circulation passage of the outdoor communication equipment.

The present invention for achieving the above object in the structure of the self-heating enclosure for outdoor, the main body having a double wall and a plurality of self in the interior and the outside to be divided into the inside and the outside, the air inside the body is circulated through a predetermined path The internal circulation path and the internal circulation path are installed separately from the internal circulation path, the external air circulation path through which external air introduced from the outside of the main body is circulated through a predetermined path, and the internal air circulation path are provided in a predetermined power supply voltage. Accordingly, the internal air circulation fan for circulating the internal air of the main body, the external air circulation fan installed in the external air circulation passage and circulating the external air of the main body when a predetermined power voltage is supplied, and the internal air circulation fan are mounted in the double wall constituting the main body. Thin-walled heat exchanger which crosses each other in a state where internal and external air passages are isolated from each other Configuration, and also, is characterized in that the circulating fan and the bet wager and the flow path of the air which is circulated in accordance with the driving of the air circulation fan is passed across the heat exchange group.

1 is a heat exchange structure and air flow diagram of a conventional outdoor communication equipment.

Figure 2 is a schematic diagram showing the air flow state of the structure of the outdoor self-heating enclosure according to an embodiment of the present invention.

3 is a block diagram of the structure of the outdoor self-heating enclosure according to an embodiment of the present invention.

FIG. 4 is a detailed view showing that an air circulation environment path and an outdoor air environment path are formed through the heat exchanger illustrated in FIG. 3.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. First, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are used for the same components, even if displayed on different drawings. And, in describing the present invention, it should be noted that a detailed description of a known function or configuration is omitted in order not to disturb the gist of the present invention.

Figure 2 is a schematic diagram showing the air flow state of the structure of the outdoor self-heating enclosure according to an embodiment of the present invention. 3 is a block diagram of the structure of the outdoor self-heating enclosure according to an embodiment of the present invention. FIG. 4 is a detailed view showing that the air flow environment path 56 and the outdoor air environment path 58 are formed through the heat exchanger 54 shown in FIG. 3.

With reference to the drawings will be described the configuration of the outdoor self-heating enclosure according to an embodiment of the present invention.

The outdoor communication equipment of the present invention is configured in a heat-sealed sealed type to maintain the internal environment, such as temperature, humidity, and external dust inflow, and is equipped with a heat exchanger (54) to effectively heat dissipate heat generated inside the enclosure (40). .

The enclosure 40 of the outdoor communication equipment of the present invention is composed of a main body 42, a loop 44, a pedestal 46, a heat exchanger 54 as shown in FIG. The outside air circulation fan 52 is installed between the upper portion of the main body 42 and the roof 44 of the enclosure 40, and the inside air circulation fan 50 is installed below the outside air circulation fan 52. The bet circulation fan 50 installed in the main body 42 circulates air in the main body 42 to radiate heat generated in the main body 42 to the outside of the main body 42. In addition, the outdoor air circulation fan 52 installed on the upper portion of the internal air circulation fan 50 circulates air outside the main body 42 to radiate heat generated from the circulating air inside the main body 42 to the outside of the main body 42. . The internal air circulation fan 50 and the external air circulation fan 52 uses a blower fan to increase the air circulation efficiency. It should be noted that the mounting positions of the internal and external circulation fans 50 and 52 can be directly mounted in the main body 42, and can be separately installed in the main body 42. In each of the left and right sides of the inner and outer circulation fans 50 and 52, holes 51 and 53 are formed to be connected to the inner and outer circulation passages 56 and 58, respectively.

A pedestal 46 is installed at the lower end of the main body 42. The pedestal 46 forms a workspace such as a handle car or a forklift for lifting the housing 40. Respective doors 60 and 62 are installed at the front or rear of the enclosure 40.

With reference to the drawings will be described a process of heat exchange by the flow of air generated during the operation of the internal and external circulation fan 50, 52 in the structure of the self-heating enclosure for outdoor according to an embodiment of the present invention.

First, the present invention is configured in a sealed structure to prevent the air outside the main body 42 is introduced into the main body 42. That is, in the configuration of the heat exchanger 54, as shown in FIG. 3, the internal air circulation path and the external air circulation path are not mixed with each other so that the internal air and the outdoor air are not mixed. At this time, in order to maximize the air-conditioning efficiency by the temperature difference between the outside and the inside is characterized in that the built-in thin heat exchanger 54 by utilizing the inner space of the double wall of the main body (42). Here, the double wall is to be understood as a comprehensive meaning between the double walls such as the left and right side walls 64 and 66, the front and rear doors 60 and 62, the roof 44, and the like of the main body 42.

The outdoor communication device configured as described above generates heat from the inside of the main body 42 when the ambient temperature of the enclosure 40 rises sharply or when it operates in a state where the self is mounted in the main body 42. The internal temperature will rise. At this time, the air flow path inside the main body 42 is the inside of the main body 42 ⇒ the internal circulation fan 50 ⇒ hole 51 ⇒ heat exchange, as shown in FIGS. The upper part of the internal air circulation passage of the machine 54 ⇒ the lower part of the internal air circulation passage of the heat exchanger 54 and the inside of the main body 42 are circulated. Reference numeral 56 denotes an air beating route.

In addition, the flow path of air flowing from the outside of the main body 42 is lower than the outside air circulation path of the main body 42 outside the heat exchanger 54 as the external air circulation fan 52 is driven as shown in FIGS. 2 and 4. ⇒ The outside air circulation passage of the heat exchanger 54 is circulated in the order of the outside ⇒ the hole 53 ⇒ the outside air circulation fan 52 ⇒ the loop 44 ⇒ the main body 42. Reference numeral 58 denotes an outdoor air environment path.

The above characteristics of the air flow consider the forced convection method. That is, as shown in FIG. 2 and FIG. 4, the flow direction of the inside and the outside air introduced into the heat exchanger 54 through the inside air purifying environment path 56 and the outside air purifying environment path 58 is reversed (or forward direction). Referring to FIG. 4, the air flow path 56 is formed from the top to the bottom of the main body 42, and the air flow path 58 is formed from the bottom to the top (or top to bottom) of the main body 42. Should be.

On the other hand, in the detailed description of the present invention has been described with respect to specific embodiments, it will be apparent to those skilled in the art that various design changes are possible without departing from the scope of the present invention.

In the above embodiment, the heat exchanger 54 is installed in the middle of the double wall of the main body 42 in the structure of the self-heating enclosure for outdoor to maximize the air conditioning efficiency of the inside and the outside air, but having ordinary knowledge in the art If it grows, it can be configured as a heat exchanger structure using a plate or a flat plate, which is installed in the middle of the double wall to separate the outside and the inside, and is a specialized part (for example, a recuperator, a heat pipe). In the case of using), the specialized parts may be separately built into the main body 42 in an auxiliary specification form or part state to be configured in a structure that structurally separates the outside and the bet. In addition, it is equipped with a temperature detection sensor and a controller for detecting the temperature of the internal and external air, it is possible to self-heat the heat generated in the main body 42. Herein, self-heating means heat dissipation to the outside of the main body 42 when the temperature in the main body 42 is higher than the preset reference temperature, and when the temperature in the main body 42 is lower than the preset reference temperature. It means to increase the temperature. In addition, when supplying power after leaving the main body 42 at a low temperature for a long time, it is possible to incorporate a preheating device to prevent the failure or damage of the system caused by operating before the system built in the main body 42 reaches the normal operating temperature environment. have. In the present invention, even the implementation of such a technical configuration will be claimed.

As described above, the structure of the outdoor self-heating enclosure according to the embodiment of the present invention is to install a heat exchanger in the double wall constituting the enclosure to efficiently handle the heat generated inside the enclosure, and to mount the heat exchanger in the conventional communication equipment By eliminating the limiting factors of the enclosure size, various design changes can be achieved, and the air conditioning efficiency can be increased by maximizing the contact area between the inside and the outside air, and the load loss caused by solar heat can be reduced.

Claims (3)

In the structure of the self-heating enclosure for outdoor, A main body having a double wall so as to be divided into an interior and an exterior, and having a plurality of shelves therein; An internal air circulation passage through which air inside the main body is circulated through a predetermined path, Is installed in isolation with the internal circulation passage, the outdoor air circulation passage in which the outside air introduced from the outside of the main body is circulated through a predetermined path, An internal circulation fan installed in the internal circulation path and configured to circulate internal air of the main body when a predetermined power voltage is supplied; An outside air circulation fan installed in the outside air circulation passage and circulating outside air of the main body as a predetermined power voltage is supplied; It is mounted in the double wall constituting the main body and comprises a thin heat exchanger intersecting each other in a state in which the passage of the internal air and the external air of the main body, respectively, The internal heat dissipation enclosure structure of the outdoor heat dissipation enclosure, characterized in that the flow path of the internal air and the outdoor air circulated in accordance with the operation of the internal air circulation fan and the external air circulation fan passes through the heat exchanger. The air conditioner according to claim 1, wherein the main body includes a pedestal installed at a lower end of the main body, a loop provided at an upper part of the main body, and a door installed at the front and rear of the main body to open and close the air. The self-heat dissipating enclosure for outdoor use, characterized in that the heat-sealed closed type is configured so that it does not mix with the air inside the body. The structure of an outdoor self-heat dissipating enclosure according to claim 1, wherein the double wall generally means double walls such as left and right side walls, front and rear doors, and loops of the main body.