KR20200102294A - Device for cooling and dehumidifing the control panel - Google Patents

Abstract

The present invention relates to a cooling dehumidifier for a control panel and, more specifically, to a cooling dehumidifier for a control panel capable of removing moisture from inside of the control panel. According to the present invention, the cooling dehumidifier for the control panel comprises: a cooling dehumidifier body; a cooling dehumidifier cover having an external outlet formed on one side thereof; a humidity measurement sensor formed inside the cooling dehumidifier body; a temperature measurement sensor formed inside the cooling dehumidifier body; a display unit; a cooling dehumidification module; and a control unit.

Description

Device for cooling and dehumidifing the control panel}

The present invention relates to a control panel cooling dehumidifier, and more particularly, it is detachably attached to the side of the control panel, cools the internal temperature of the control panel that has risen to a high temperature due to heat generated from various electronic devices, and removes moisture inside the control panel. In order to do this, it relates to a control panel cooling dehumidifier.

In general, various control panels (control panels) mainly used in industry are not equipped with a system capable of controlling the temperature inside the control panel. In the case of Korea, especially in summer, the temperature inside the control panel rises to a high temperature of 45 degrees or more due to various electric and electronic components inside the control panel, and thus, equipment or facilities are often paralyzed. High temperature causes malfunction of the equipment, and if the temperature rises above 70 to 80 degrees, a fire may occur inside the control panel.

Currently, the only method is to attach an air conditioner to the control panel to lower the temperature inside the control panel. However, installing the air conditioner in the control panel is not always a good way. It is also a problem that the air conditioner is expensive, but there are many cases where a dehumidifier with a dehumidifying function must be separately installed in order to lower the humidity. Accordingly, there is a tendency to be reluctant to use it in Korea because the production cost is excessively high and the maintenance cost, such as a large amount of electricity, is not easy.

In particular, in the case of air conditioners for machine equipment control panels, a high A/S cost is incurred in case of failure after a certain period of time after installation. The machine equipment control panel is not a defect of the product, but microscopic vibrations caused by wear are generated due to long-term use of the machine equipment, and accordingly, various parts including air conditioner piping become loose, causing a crack in the piping. Is lost. If the refrigerant is lost, it is not possible to solve the problem by filling only the refrigerant, and the piping must also be replaced. This is the cause of high maintenance costs.

Korean Patent Publication No. 10-1541852 is posted by a protection switchboard for substation facilities equipped with a dehumidification and cooling device. In the pre-registered patent, a dehumidification and cooling device is fixedly attached to a protection switchboard for a substation facility. This method is a method that is integrally fixed to the switchboard, and since the dehumidification and cooling device must be separately attached during the manufacturing process of the switchboard, there is a problem that it is difficult to apply to the switchboard installed in the existing site.

Korean Registered Patent Publication No. 10-1541852 (registered on July 29, 2015)

The problem to be solved by the present invention is to form an insertion hole through which the cooling dehumidification module can pass through the side of the control panel, and by separately manufacturing a cooling dehumidifier to which the cooling dehumidification module is combined, the cooling dehumidifier is detachably attached to the control panel. By doing so, it provides a control panel cooling dehumidifier that can cool the temperature of the control panel and control moisture.

The objects of the present invention are not limited to the above-mentioned objects, and other objects that are not mentioned will be clearly understood by those of ordinary skill in the art from the following description.

In order to achieve the above object, the present invention is detachably attached to the side of the control panel to cool the temperature and remove moisture in the control panel according to the present invention, and the control panel cooling dehumidifier is detachably attached to the side of the control panel. , A cooling dehumidifier body having a space therein; A cooling dehumidifier cover coupled to a front surface of the cooling dehumidifier body and having an external outlet configured to discharge air inside the cooling dehumidifier to the outside; A humidity measurement sensor formed inside the cooling dehumidifier body; A temperature measurement sensor formed inside the cooling dehumidifier body: a display unit installed on one side of the cooling dehumidifier cover to display the temperature and humidity measured by the humidity measurement sensor and the temperature measurement sensor; Attached to the cooling dehumidifier body, the heating-side exhaust fan, the heating-side cover body, and the heating-side heater sink are located inside the cooling dehumidifier body, and the cooling-side exhaust fan, the cooling-side cover body, and the cooling-side heater sink are the cooling dehumidifier body. A cooling dehumidifying module protruding to the outside of and in which a thermoelectric element is located in the center; And a control unit formed inside the cooling dehumidifier body to control on/off of the cooling dehumidifying module and controlling the display unit; including, a cooling-side exhaust fan, a cooling-side cover body, and a cooling-side heater corresponding to the cooling side. The sink is a protruding type protruding to the outside of the cooling dehumidifier body.

According to a preferred embodiment, the cooling-side heater sink corresponds to a cooling-side heater sink body, a plurality of plate-shaped radiating fins formed on the cooling-side heated sink body, and the size of the thermoelectric element protruding from the cooling-side heater sink body. It includes a protruding plate having a size smaller than that of the cooling-side heater sink body, and the radiating fin is configured to be erected in a vertical direction so that condensed water can flow from top to bottom along a side of the radiating fin of the cooling-side heater sink.

According to a preferred embodiment, the cooling dehumidifier body is formed to protrude from the rear side in the rear direction and is coupled to the cooling side cover of the cooling dehumidifying module, and further includes an insertion flange protruding outward to be inserted into the insertion hole of the control panel. do.

According to a preferred embodiment, the heat dissipation fins of the cooling-side heater sink are not in close contact with the cooling-side cover body and are formed at regular intervals so that the cooling heat of the radiating fins of the cooling-side heater sink is not transmitted to the cooling-side cover body. The heat dissipation fins of the heating-side heater sink are not in close contact with the heating-side cover and are spaced apart from each other so that the heat of the heat dissipation fins of the heating-side heater sink is not transmitted to the cooling-side cover.

According to a preferred embodiment, one side of the heating side cover body is formed with a long extension portion longer than the length of the heat dissipation fin of the heating side heater sink so as to be coupled to the heating side heater sink body, and the other sides are radiating fins inside the heating side cover body. Shorter than the heat dissipation fin of the heating side heater sink is formed to allow air to flow in, and the cooling side cover body has a longer length than the heat dissipation fin of the cooling side heater so that both sides of the cooling side can be combined with the cooling side heater sink body. A tenon is formed, and a short extension portion shorter than the radiating fin of the cooling-side heater sink is formed on both sides of the other side so that air can flow into the radiating fins inside the cooling-side cover.

According to a preferred embodiment, thermal grease having excellent thermal conductivity is applied between the protruding plate and the thermoelectric element.

According to a preferred embodiment, an insulating material in the shape of a square plate having a cutout corresponding to the thermoelectric element in the center is formed around the thermoelectric element.

According to a preferred embodiment, a coupling protrusion plate corresponding to a size is additionally formed on the insulating material to attach the cooling dehumidifying module to the cooling dehumidifier body using bolts.

As described above, the control panel cooling dehumidifier of the present invention performs cooling and heat generation at the same time using a thermoelectric element, and by manufacturing a cooling dehumidifier in which the cooling dehumidifying module using the thermoelectric element is combined with the cooling dehumidifier body, the existing installation It can be easily installed on a control panel that has been installed, and has the advantage of cooling the temperature inside the control panel and removing moisture.

In addition, cooling and dehumidification efficiency can be improved by making the inside of the control panel and the inside of the cooling dehumidifier insulated from each other so that the cooling side and the heating side are not continuously transmitted with each other around the thermoelectric element. There is an advantage in that it is possible to prevent the temperature of the heat dissipation fin from rising by preventing cold heat from being transferred and to cool the air more efficiently.

In addition, there is an advantage of increasing the adhesion rate between the thermoelectric element and the heater sink, so that cold heat and heat generated from the thermoelectric element can be efficiently transferred to the heater sinks on both sides of the thermoelectric element.

1 is a schematic diagram of a separation of a control panel cooling dehumidifier attached to a control panel according to a preferred embodiment of the present invention.
2 is a schematic side view of a control panel cooling dehumidifier attached to the control panel according to a preferred embodiment of the present invention.
3 is a perspective view of a control panel cooling dehumidifier according to a preferred embodiment of the present invention.
4 is a perspective view of a cooling dehumidifying module of a control panel cooling dehumidifier according to a preferred embodiment of the present invention.
5 is a side and partially enlarged cross-sectional view of a cooling dehumidifying module of a control panel cooling dehumidifier according to a preferred embodiment of the present invention.
6 is an exploded perspective view of a cooling side heater sink, a cover body, a thermoelectric element, and an insulating material of a control panel cooling dehumidifying module according to a preferred embodiment of the present invention.
7 is a cross-sectional view showing a state in which the cooling side heater sink and the cover body of the control panel cooling dehumidification module are coupled according to a preferred embodiment of the present invention.

Advantages and features of the present invention, and a method of achieving them will become apparent with reference to the embodiments described below in detail together with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but will be implemented in various forms different from each other, and only these embodiments make the disclosure of the present invention complete, and common knowledge in the technical field to which the present invention pertains. It is provided to completely inform the scope of the invention to those who have it, and the invention is only defined by the scope of the claims.

With reference to the accompanying drawings below will be described in detail for the implementation of the present invention. Regardless of the drawings, the same reference numerals refer to the same elements, and "and/or" includes each and all combinations of one or more of the mentioned items.

Although the first, second, and the like are used to describe various components, it goes without saying that these components are not limited by these terms. These terms are only used to distinguish one component from another component. Therefore, it goes without saying that the first component mentioned below may be the second component within the technical idea of the present invention.

The terms used in this specification are for describing exemplary embodiments, and are not intended to limit the present invention. In this specification, the singular form also includes the plural form unless specifically stated in the phrase. As used in the specification, “comprises” and/or “comprising” do not exclude the presence or addition of one or more other elements other than the mentioned elements.

Unless otherwise defined, all terms (including technical and scientific terms) used in the present specification may be used as meanings that can be commonly understood by those of ordinary skill in the art to which the present invention belongs. In addition, terms defined in a commonly used dictionary are not interpreted ideally or excessively unless explicitly defined specifically.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a schematic side view of a control panel cooling dehumidifier attached to a control panel according to a preferred embodiment of the present invention, and FIG. 2 is a schematic side view of a control panel cooling dehumidifier attached to the control panel according to a preferred embodiment of the present invention. 3 is a perspective view of a control panel cooling dehumidifier according to a preferred embodiment of the present invention.

1 to 3, the control panel cooling dehumidifier 1000 of the present invention includes a cooling dehumidifier body 100, a cooling dehumidifier cover 102, a cooling dehumidifying module 200, a control unit (not shown), and the like. . The control panel cooling dehumidifier 1000 is a type in which a cooling dehumidifying module 200 for cooling air and removing moisture is attached to the cooling dehumidifier body 100.

The control panel cooling dehumidifier 1000 is not an integral type that is integrally fixed to the control panel, but a cooling dehumidifying module is fixed in the cooling dehumidifier body 100, and the cooling dehumidifier body is detachably attached to the side of the control panel 10, thereby controlling the control panel. It is a detachable control panel cooling dehumidifier to cool the inside temperature and remove moisture.

The cooling dehumidifier body 100 is a part corresponding to the casing of the control panel cooling dehumidifier and has a substantially hexahedral shape with a space formed therein. A humidity measuring sensor for measuring humidity and a measuring sensor for measuring temperature are attached to the cooling dehumidifier body 100. Various electronic devices such as a power supply unit, a control PCB (control unit), and an alarm unit may be attached to the inside of the cooling dehumidifier body. The control PCB (control unit) receives the measured temperature and humidity and controls the cooling and dehumidifying module to adjust the temperature and humidity, and controls various electronic devices such as a display unit and a power supply unit. That is, the control unit will be referred to as a control module that receives power and controls the control panel cooling dehumidifier overall.

External air inlets 114 for introducing external air are formed on the side and upper surfaces of the cooling dehumidifier body 100. The air introduced from the external air inlet 114 is discharged to the outside through the external outlet 116 formed in the cooling dehumidifier cover 102 with the heat generated from the thermoelectric element 280. In addition, a power switch 140 is formed on the side of the cooling dehumidifier body 100 to allow a user to control whether or not the cooling dehumidifier is operated.

An insertion flange 110 protruding in the rearward direction is formed on the rear side of the cooling dehumidifier body 100. The insertion flange 110 is for stably fixing the cooling dehumidifying module, and is preferably coupled with the cooling side cover body 230. When attaching the control panel cooling dehumidifier to the control panel, the insertion flange 110 is inserted into the insertion hole 11 formed on the side of the control panel, and guides the cooling dehumidifier to be stably inserted into the control panel and at the same time allows it to be stably fixed. .

An internal air inlet 112 through which air inside the control panel is inserted is formed on the upper surface of the insertion flange 110. The cooling dehumidification module can be divided into a heating unit that emits heat and a cooling unit that dissipates cold heat, and a part inserted into the control panel corresponds to a cooling unit that radiates cold heat. Accordingly, a portion inserted into the insertion flange 110 is also a cooling and heating unit.

The air inside the control panel enters the cooling side heater sink through the internal air inlet 112, cools, and then circulates to be discharged back into the control panel through the cooling side exhaust fan 210. In other words, the inside of the control panel circulates the cold heat generated by the thermoelectric element, cools the temperature inside the control panel by circulation of cold heat, and discharges condensate water condensed from the air due to cooling, thereby performing the dehumidification function. As described above, the air inside the control panel is sealed and circulates inside the control panel, which corresponds to the internal circulation method.

In the cooling dehumidifying module, the part that emits heat is inserted into the body of the cooling dehumidifier. The external air flows into the external air inlet 114 formed on the side of the cooling dehumidifier body 110, then flows into the heating-side heater sink 252, passes through the heating-side exhaust fan 240, and then the cooling dehumidifier cover ( This is a method of being discharged to the outside through the external discharge port 116 formed in 102).

Meanwhile, a swash plate 120 is formed on the lower surface of the insertion flange 110, that is, the rear surface of the cooling dehumidifier body. The swash plate 120 is a portion in which the condensed water condensed in the cooling heater sink flows to the bottom while the air inside the control panel circulates. The condensed water flowing down the swash plate 120 is collected in the lower portion of the cooling dehumidifier body 100 and is discharged to the outside through the condensed water outlet 130 formed in the lower portion of the cooling dehumidifier body. Preferably, the condensed water outlet is connected to an external hose, and the condensed water is finally discharged to a destination through the external hose.

The air inside the control panel is cooled by the circulation method of the air inside the control panel as described above, and the dehumidification function is also performed through the discharge of condensed water.

The cooling dehumidifier cover 102 is formed on the front side of the cooling dehumidifier body, is coupled to one side by a hinge, and is fixed to the other side by a fixing clip. The cooling dehumidifier cover can be opened and closed in one direction from the cooling dehumidifier body by releasing the fixing clip. The cooling dehumidifier cover 102 corresponds to a rotatable opening and closing door to which one side is fixed.

The cooling dehumidifier cover 102 is formed with a display unit that displays the temperature and humidity inside the cooling dehumidifier, a failure notification lamp indicating whether the cooling dehumidifier is malfunctioning, and a power lamp indicating whether power is being supplied to the cooling dehumidifier. Has been. The display unit, the failure notification lamp, and the power lamp are all connected to a control unit and are driven according to a control signal from the control unit.

The cooling dehumidifying module 200 is a device that generates cold heat on one side and heat on the opposite side by a thermoelectric element located in the center. The cooling dehumidifying module 200 is attached to the rear of the cooling dehumidifier body, and the part that generates heat is located inside the cooling dehumidifier body, and the part that generates cold heat protrudes to the outside of the cooling dehumidifier body, so that the control panel and the cooling dehumidifier Is located inside the control panel when combined. That is, the cooling dehumidifying module 200 is fixedly attached to the cooling dehumidifier body 100, and the heating-side exhaust fan 240, the heating-side cover body 260 and the heating-side heater sink 250 are located inside the cooling dehumidifier body. , The cooling-side exhaust fan 210, the cooling-side cover body 230, and the cooling-side heater sink 220 are positioned to protrude to the outside of the cooling dehumidifier body, and have a structure in which a thermoelectric element is located in the center.

The control panel cooling dehumidifier 1000 of the present invention has a structure in which the cooling-side exhaust fan 210 corresponding to the cooling side, the cooling-side cover body 230, and the cooling-side heater sink 220 protrude to the outside of the cooling dehumidifier body. It corresponds to a protruding cooling dehumidifier

The thermoelectric element 280 located in the center of the cooling and dehumidifying module is an element that simultaneously generates cold heat and heat by power. The thermoelectric module is also referred to as a Peltier device, and is a semiconductor device that simultaneously absorbs heat and generates heat due to a Peltier effect. The Peltier effect is a phenomenon in which heat flows with current when a potential difference is applied to both sides of an object, resulting in a temperature difference at both ends. When a current is passed, a temperature difference is created, one is heated and the other is cooled. This is also called a thermoelectric effect in terms of the effect of changing heat and electricity. Thermoelectric devices generally use a PN junction made of a semiconductor such as a compound of bismuth and tere (Bi ₂ Te ₃ ).

The temperature inside the control panel should be kept below 35℃, and the humidity should be kept below about 40%. The cooling side exhaust fan and the heating side exhaust fan always operate while the cooling dehumidifier power is supplied by the power switch, but the thermoelectric element is turned on and off by a control signal from the control unit according to the temperature/humidity condition of the control panel.

If any one or more of the temperature and humidity of the control panel does not meet the above criteria, power is supplied to the thermoelectric element to generate cooling and heat to perform cooling and dehumidification. Otherwise, the operation of the thermoelectric element is It is turned off and only the cooling side exhaust fan and the heating side exhaust fan are operated.

Next, the cooling dehumidification module 200 will be described in more detail with reference to FIGS. 4 to 7.

4 is a perspective view of a cooling dehumidifying module of a control panel cooling dehumidifier according to a preferred embodiment of the present invention, and FIG. 5 is a side and partially enlarged cross-sectional view of a cooling dehumidifying module of the control panel cooling dehumidifier according to a preferred embodiment of the present invention, 6 is an exploded perspective view of a cooling-side heater sink, a cover body, a thermoelectric element, and an insulating material of a control panel cooling dehumidifying module according to a preferred embodiment of the present invention, and FIG. 7 is a control panel cooling dehumidifying module according to a preferred embodiment of the present invention. It is a cross-sectional view showing a state in which the cooling side heater sink and the lid body are combined.

4 to 7, based on the thermoelectric element 280 positioned at the center of the cooling and dehumidifying module 200, it is divided into a part that generates cold heat and a part that generates heat.

The portion for dissipating cold heat includes a cooling-side heater sink 220 for dissipating cold heat, a cooling-side cover body 230 for protecting the cooling-side heat sink, and a cooling-side exhaust fan 210 for circulating cold heat. Is an internal circulation method that circulates inside the control panel.

The part for dissipating heat includes a heating-side heater sink 250 for dissipating heat, a heating-side cover body 260 for protecting the heating-side heating sink, and a heating-side exhaust fan 240 for circulating heat. Is an external circulation method in which air outside the cooling dehumidifier is sucked into the cooling dehumidifier and discharged to the outside again.

The cooling-side heater sink 220 for dissipating the cooling heat of the thermoelectric element includes a cooling-side heater sink body 222, a plurality of plate-shaped radiating fins 224, and a protruding plate 223. That is, the cooling-side heater sink 230 is a cooling-side heater sink body 222, a plurality of plate-shaped radiating fins 224 formed on the cooling-side heated sink body, and a thermoelectric element protruding from the cooling-side heater sink body. It includes a protruding plate 223 having a size smaller than that of the cooling-side heater sink body to correspond to the size of. The heater sink 220 is preferably formed of aluminum having excellent workability and excellent thermal conductivity.

The protruding plate 223 protruding from the surface of the cooling-side heater sink body is smaller than the size of the cooling-side heater sink body 222 and has a size corresponding to the size of the thermoelectric element. The protruding plate 223 is installed to more effectively transfer the cooling and heat of the thermoelectric element.

The protruding plate 223 is in close contact with the thermoelectric element, and the surface of the protruding plate is formed with a very smooth polishing surface through a polishing machine, and thermal grease is applied to the polishing surface. Thermal grease is a fluid material that transfers heat, and serves to increase the conductivity of cold heat generated from the thermoelectric element by filling the minute space between the protruding plate and the thermoelectric element. That is, in order to increase the thermal conductivity between the thermoelectric element and the cooling-side heater sink, a protrusion plate is formed, and the surface of the protrusion plate has a polished surface polished with a polishing machine, and thermal grease is applied between the protrusion plate and the thermoelectric element. It becomes.

The heat dissipation fin 224 of the cooling-side heater sink has a structure erected in a vertical direction, as shown. This is to allow the condensed water condensed from the moisture inside the control panel to flow from the top to the bottom along the side of the radiating fin of the cooling heater sink. That is, the internal air of the control panel passes through the plurality of radiating fins formed on the cooling-side heater sink. At this time, the radiating fins are configured to be erected in a vertical direction as shown in the figure, so that moisture in the air introduced from the top is condensed and the lower swash plate ( It flows to 120) and can be discharged to the outside through the condensate outlet 130 again.

The cooling-side cover body 230 surrounds and protects the cooling-side heater sink heat dissipation fin, and at the same time serves to support the cooling-side exhaust fan. One side of the cooling-side cover body 230 has a long extension portion 232 is formed, the other side has a structure in which a short extension portion 234 is formed. That is, in the cooling side cover, long extensions 232 longer than the length of the heat dissipation fins of the heater sink are formed on both sides of the cooling side so as to be coupled with the cooling side heater sink body, and the other sides are controlled by radiating fins inside the cooling side cover. An end extension portion 234 shorter than the heat dissipation fin of the heater sink is formed so that internal air can be introduced. The heating-side cover body 260 also has the same structure for the same reason.

An insulating material 270 is formed around the thermoelectric element 280. The heat insulating material 270 is made of a rubber material having excellent heat shielding properties and waterproof properties, and this is to protect the thermoelectric element and at the same time, to prevent heat transfer between the cooling and heating parts from each other. That is, in order to prevent heat transfer between the cold heat inside the control panel and the heat inside the cooling dehumidifier, a heat insulating material is formed using a rubber material having excellent heat shielding properties and waterproof properties. A cutout 271 corresponding to the thermoelectric element is formed in the center of the heat insulating material 270, and the cutout 271 corresponds to the size of the thermoelectric element.

Meanwhile, a coupling protrusion plate 272 corresponding to the size of the insulating material is formed to attach the cooling dehumidifying module to the cooling dehumidifier body using bolts. The coupling protrusion plate 272 is a part for attaching the cooling dehumidifying module to the rear surface of the cooling dehumidifier body. The bonding protrusion plate 272 is made of a material such as SUS steel plate.

7 is a cross-sectional view showing a state in which a cooling side heater sink and a cover body of a control panel cooling dehumidifying module are coupled according to a preferred embodiment of the present invention.

Referring to FIG. 7, the radiating fins 224 of the cooling-side heater sink are spaced apart from the cooling-side cover body 230. That is, a plurality of radiating fins 224 are formed on the cooling-side heater sink body, and the radiating fins 224 are not in close contact with the cooling-side cover body 230 but are spaced apart from each other. In other words, the edge radiating fins of the radiating fins of the cooling-side heater sink do not come into close contact with the cooling-side cover body, but are spaced apart from each other to form a space A. This is to prevent the cold heat of the radiating fins 224 from being transferred to the cover body. The cold heat generated by the thermoelectric element is transferred to the radiating fins 224 of the cooling-side heater sink, and the air is cooled by cooling the radiating fins. If the radiating fins are in close contact with the cooling body cover, some of the cold heat is transferred to the relatively hot cover, so that the cooling heat for cooling the air is relatively reduced. Therefore, in the present invention, in order to use the cooling heat of the radiating fins to cool the air as much as possible, the radiating fins and the cover are configured to be spaced apart. The heat dissipation fin 254 on the heating side and the heating-side cover body 260 also have a space for the same reason.

Although the embodiments of the present invention have been described with reference to the above and the accompanying drawings, those of ordinary skill in the art to which the present invention pertains can implement the present invention in other specific forms without changing the technical spirit or essential features. You can understand that there is. Therefore, it is to be understood that the embodiments described above are illustrative and non-limiting in all respects.

10: control panel
11: insertion hole
1000: control panel cooling dehumidifier
100: cooling dehumidifier body
102: cooling dehumidifier cover
110: insertion flange
112: internal air inlet
114: external air inlet
116: external outlet
120: swash plate
130: condensate outlet
140: power switch
200: cooling dehumidification module
210: cooling side exhaust fan
220: cooling side heater sink
222: cooling side heater sink body
223: protruding plate
224: radiating fin A: spaced space
230: cooling side cover body
232: long extension
234: short lead
240: heating side exhaust fan
250: heating side heater sink
252: heating side heater sink body
254: heat dissipation fin
260: heating side cover body
262: long extension
264: short lead
270: insulation
271: incision
272: bonding protrusion plate
280: thermoelectric element

Claims (5)

In the control panel cooling dehumidifier that is detachably attached to the side of the control panel to cool the temperature inside the control panel and remove moisture,
A cooling dehumidifier body detachably attached to the side of the control panel and having a space therein;
A cooling dehumidifier cover coupled to a front surface of the cooling dehumidifier body and having an external outlet configured to discharge air inside the cooling dehumidifier to the outside;
A humidity measurement sensor formed inside the cooling dehumidifier body;
A temperature measuring sensor formed inside the cooling dehumidifier body:
A display unit installed on one side of the cooling dehumidifier cover to display the temperature and humidity measured by the humidity measurement sensor and the temperature measurement sensor;
Attached to the cooling dehumidifier body, the heating-side exhaust fan, the heating-side cover, and the heating-side heater sink are located inside the cooling dehumidifier body, and the cooling-side exhaust fan, the cooling-side cover and the cooling-side heater sink are the cooling dehumidifier body. A cooling dehumidifying module protruding to the outside of and in which a thermoelectric element is located in the center; And
A control unit formed inside the cooling dehumidifier body to control the on/off of the cooling dehumidifier module and to control the display unit;
A cooling dehumidifier, characterized in that the cooling-side exhaust fan, the cooling-side cover body, and the cooling-side heater sink corresponding to the cooling side have a protruding type protruding to the outside of the cooling dehumidifier body. The method of claim 1,
The cooling-side heater sink includes a cooling-side heater sink body, a plurality of plate-shaped radiating fins formed on the cooling-side heat sink body, and the cooling-side heater sink protruding from the cooling-side heater sink body to correspond to the size of a thermoelectric element. It includes a protruding plate having a size smaller than the body,
Control panel cooling dehumidifier, characterized in that the radiating fins are configured to be erected in a vertical direction so that condensed water can flow from top to bottom along the side of the radiating fins of the cooling side heater sink. The method of claim 1,
The cooling dehumidifier body is formed to protrude from the rear side in the rear direction, is coupled to the cooling side cover of the cooling dehumidifying module, and further comprises an insertion flange protruding outward to be inserted into the insertion hole of the control panel. Cooling dehumidifier The method of claim 1,
The heat dissipation fins of the cooling-side heater sink are not in close contact with the cooling-side cover and are spaced apart from each other at regular intervals so that cold heat from the radiating fins of the cooling-side heater sink is not transmitted to the cooling-side cover body,
Control panel cooling dehumidifier, characterized in that the heat dissipation fins of the heating-side heater sink are not in close contact with the heating-side cover body and are spaced apart from each other at a predetermined interval so that heat from the heat dissipation fins of the heating-side heater sink is not transmitted to the cooling-side cover body. The method of claim 1,
One side of the heating-side cover body is formed with long extensions longer than the length of the heat dissipation fins of the heating-side heater sink to be coupled to the heating-side heater sink body, and air can flow into the heat-radiating fins inside the heating-side cover body on the other side. Shorter than the heat dissipation fin of the heating side heater sink is formed so that
One side of the cooling-side cover body is formed with long extensions longer than the length of the radiating fins of the cooling-side heater sink so that it can be coupled to the cooling-side heater sink body, and air can flow into the radiating fins inside the cooling-side cover on the other side. Control panel cooling dehumidifier, characterized in that a short extension portion shorter than the heat dissipation fin of the cooling side heater sink is formed.

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