KR101671575B1 - Dehumidifier - Google Patents

Abstract

The dehumidifier according to the embodiment of the present invention is characterized in that the control box and the capacitor are separately mounted on the front and back surfaces of the housing assembly for partitioning the dehumidifier main body and the control box and the capacitor are connected by the shortest distance, So that it can be efficiently utilized.

Description

Dehumidifier {Dehumidifier}

The present invention relates to a dehumidifier.

Generally, the dehumidifier sucks the humid air in the indoor space into the case, passes through a heat exchanger including a condenser and an evaporator through which the refrigerant flows, lowers the humidity, and then discharges the dehumidified air back into the indoor space. (Humidity) of the apparatus.

That is, the dehumidifier uses a method of taking heat from ambient air by evaporating refrigerant in a liquefied state in the evaporator. As the refrigerant evaporates, the temperature of the evaporator becomes lower and the temperature of the air passing through the evaporator also becomes lower. Accordingly, as the temperature around the evaporator is lowered, the moisture contained in the air is condensed and dewed on the surface of the evaporator, and the dehumidified air is discharged into the room to lower the humidity of the indoor space.

Such a dehumidifier has been recently increased in capacity and functionality for the purpose of improving dehumidification performance and ease of use. Therefore, dehumidification capacity of the dehumidifier as well as products having a larger size are preferred.

Korean Patent Laid-Open No. 10-2010-0025351 discloses a structure in which a frame dividing an internal space is provided in a main body of a dehumidifier and a control box is seated on an upper portion of the frame.

When the dehumidifying capacity of the conventional dehumidifier is increased, the capacity of various electric devices is increased, and heat generated by the operation of the dehumidifier can be generated. In addition, if an inverter type compressor capable of controlling the rotational speed is used to improve the efficiency of the dehumidifier, the control box is further heated, which may cause overheating and fire.

It is an object of the present invention to provide a dehumidifier having an efficient cooling structure while preventing a fire hazard of a control box mounted on the dehumidifier.

A dehumidifier according to an embodiment of the present invention includes an inverter compressor; A heat exchanger for adsorbing moisture of the intake air; A blowing fan for forcing the suction of air; A housing assembly for accommodating the blowing fan and guiding the discharge of air passing through the heat exchanger; And a control box electrically connected to the inverter compressor to control driving of the inverter compressor. The control box includes an electric component for controlling the operation of the dehumidifier, and a heat sink for cooling the electric component A printed circuit board; A control box case formed of a metal material, the control box case being accommodated such that the entire printed circuit board is not exposed to the outside, and a guide opening formed at a position corresponding to the heat sink; The control box case is formed to surround the heat sink from the inside of the control box case and extends from the periphery of the heat sink to the periphery of the guide opening to form an arrangement space of the heat sink partitioned from the inside of the control box case And a heat sink guide.

The control box case includes a lower case on which the printed circuit board is mounted; And an upper case coupled to the lower case to form an upper shape of the control box case and having the guide opening formed on an upper surface thereof.

The heat sink guide is formed to have different heights of the front and rear surfaces, and the guide opening is formed to have an inclination or a round corresponding to the opening at the upper end of the heat sink guide.

The control box case and the heat sink guide are provided at their upper ends with coupling projections and coupling grooves formed to be mutually engaged with each other, and screw holes for coupling the coupling screws are formed at positions facing the coupling projections and the coupling grooves. .

The bottom surface of the heat sink guide corresponds to the shape of the top surface of the heat sink, and the top of the heat sink is received inside the heat sink guide.

And the heat sink opening is formed such that the inflow side of the outside air is formed lower.

And a substrate base on which the printed circuit board is mounted is received in the control box case.

And a guide unit extending from the control box case to extend outwardly from the substrate base and slidably inserted into one side of the housing assembly to fix the control box.

The control box case is further formed with a case guide portion extending to be overlapped with the guide portion and slidably inserted into one side of the inside of the main body.

And a guide rib is formed around the substrate base at a position corresponding to a wire hole opened around the control box case and formed of a pair of spaced apart spaced apart wires so as to allow the wire to pass therethrough.
The control box mounting part may include a housing assembly for housing the blowing fan and guiding the discharge of the air passing through the heat exchanger, and the housing assembly may include a control box mounting part extending to a space in which the heat exchanger is disposed, Is formed.

According to the dehumidifier according to the embodiment of the present invention, the control box for controlling the operation of the dehumidifier is enclosed by the metal control box case to prevent the fire from being transferred to the outside even when the printed circuit board is ignited due to heat generation. So that safety can be improved.

A heat sink is provided on one side of the printed circuit board having a large heat generation. The heat sink further includes a guide member penetrating the control box case to be exposed to the outside, so that when the control box case is assembled, .

In addition, when the control box case is assembled, the guide member can direct external air toward the heat sink, thereby improving the cooling efficiency of the heat sink, thereby solving the problem of performance deterioration or fire caused by heat generation .

In particular, when the compressor of the inverter type which rotates at a high speed is driven, external air can effectively dissipate heat of the heat sink by the guide opening and the heat sink guide when the printed circuit board or the electric parts mounted thereto are heated, The stable operation of the dehumidifier provided with the compressor becomes possible.

1 is a front perspective view of a dehumidifier according to an embodiment of the present invention.
2 is a rear perspective view of the dehumidifier.
3 is a perspective view showing the moisturization in which the water tank of the dehumidifier is separated.
4 is an exploded perspective view of the dehumidifier.
5 is an exploded perspective view showing a coupling structure between a top cover assembly and a main body, which is a constitution of the dehumidifier.
6 is an exploded view showing a coupling of a rear case which is a constitution of the dehumidifier.
7 is an exploded perspective view showing a configuration of a housing assembly which is a constitution of the dehumidifier.
8 is an exploded perspective view showing a coupling structure of a control box which is a constitution of the dehumidifier.
9 is an exploded perspective view of the control box.
10 is an exploded perspective view showing the case of the control box being opened.
11 is a partial perspective view showing a connection state between the control box and the capacitor.

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the drawings. However, it should be understood that the present invention is not limited to the embodiment shown in the drawings, and that other embodiments falling within the spirit and scope of the present invention may be easily devised by adding, .

The refrigerator according to the embodiment of the present invention will be described with reference to a refrigerator in which a refrigerator compartment is disposed above the freezer compartment for convenience of explanation and understanding and a refrigerator compartment in which a pair of doors are disposed on the left and right sides, It should be noted that it is applicable to all types of refrigerators.

1 is a front perspective view of a dehumidifier according to an embodiment of the present invention. 2 is a rear perspective view of the dehumidifier. 3 is a perspective view showing the moisturization in which the water tank of the dehumidifier is separated. 4 is an exploded perspective view of the dehumidifier.

As shown in the drawing, the body forming the dehumidifier 1 according to the embodiment of the present invention may have an elliptical cross-section when viewed from above as a whole, and may be formed in a cylindrical shape having a predetermined height.

The outer casing of the dehumidifier 1 includes a top cover assembly 100 forming an upper surface, a base fan assembly 10 forming a bottom surface, and a front case 200 and a rear case 300 ), And a side deck 400 that forms part of both sides of the left and right sides.

In detail, the top cover assembly 100 forms an upper surface shape of the dehumidifier 1, and may be formed in an elliptical shape. A handle hole 111 may be formed on both left and right sides of the top cover assembly 100 to allow a user to insert his / her hand and grasp it when the dehumidifier 1 is moved.

 A louver 130 is formed on the front of the top cover assembly 100. The louver 130 has a plurality of discharge ports 131 through which the dehumidified air is discharged from the inside of the dehumidifier 1 and is rotatably mounted on the top cover assembly 100. Therefore, when the dehumidifier 1 is in operation, the discharge port 131 is exposed to the outside, and when the dehumidifier 1 is not operated, the discharge port 131 is rotated So that it is formed in the same plane as the top cover assembly 100 to form an outer appearance. The louver 130 may be rotatably driven by a motor (132 in FIG. 7). When the dehumidifier 1 is operated, the louver 130 automatically rotates to open the discharge port 131 and adjust the discharging direction of the dehumidified air Lt; / RTI >

The display window 113 is formed behind the louver mount 112 on which the louver 130 is mounted. The display portion window 113 is formed such that the display portion 152 can be exposed, and a portion opened with a corresponding shape or a portion opened with a transparent material is shielded. The cover plate 110 adjacent to the display window 113 may further include a printing unit 114 for indicating the position of the operation unit 151 in FIG. Accordingly, the operation unit 151 can be operated by touching the printing unit 114.

The front case 200 and the rear case 300 form a front outer appearance and a rear outer appearance of the dehumidifier 1 and are formed of a plate material and are respectively connected to the top cover assembly 100 and the base pan 11, As shown in FIG. Therefore, the front case 200 and the rear case 300 may be rounded to have a curvature corresponding to the circumference of the top cover assembly 100 and the base pan 11.

On the left and right sides of the upper portion of the front case 200, a front extension portion 210 extending rearward is formed. The front extension part 210 contacts the rear extension part 310 of the rear case 300 and connects the front case 200 and the rear case 300. The front extension part 210 is a part for connecting the front case 200 and the rear case 300, As shown in FIG.

A tank mounting part 220, in which the water tank assembly 700 is disposed, is formed below the front case 200. The tank mounting portion 220 is formed to open in a shape corresponding to the tank drawer 710 constituting the water tank assembly 700. The upper end of the tank mounting part 220 is formed to be in contact with the back surface of the tank drawer 710 when the tank drawer 710 is closed. A latch hole 222 through which the rocker 721 protruding from the tank drawer 710 is inserted and removed is formed at the center of the step portion 221 so that the tank drawer 710 is selectively fixed .

The rear case 300 forms a rear surface of the front case 200 and the dehumidifier 1 and has a shape symmetrical with the front case 200. Rear extension parts 310 may be formed on the left and right sides of the rear case 300 so as to be coupled to the front extension parts 210.

An accessory hole 320 is provided at an upper portion of the rear case 300. The accessory hole 320 is a hole through which the accessory connection part 570 to be described below passes and is formed in a corresponding shape so that the accessory connection part 570 can penetrate and protrude to the outside.

A suction grill part 330 is formed below the accessory hole 320. The suction grill portion 330 is formed in a rectangular shape which is recessed inwardly and formed into a shape corresponding to the heat exchange module 30 to be described below and has a plurality of suction ports 331, (1).

The grill cover 340 is mounted on the depressed outer side of the suction grill portion 330. The grill cover 340 shields the recessed space of the suction grill portion 330 and forms the same line as the outer surface of the rear case 300. Of course, the grill cover 340 is formed with a plurality of holes to allow air to flow through the suction grill portion 330.

The grill cover 340 is detachably attached to the suction grill part 330. A filter assembly 341 may be mounted between the suction grill 330 and the grill cover 340. 4, the filter assembly 341 may be fixed on the suction grill unit 330, or may be fixed to the filter assembly 341 as shown in FIG. 4. The filter assembly 341 may be configured to filter foreign substances in the air flowing through the suction grill unit 330, As shown in FIG.

A code fixture 360 and a cord holder 350 may be formed below the suction grill portion 330. Each of the cord holders 350 is provided with a pair of left and right sides of the rear case 300 so that a power supply line for supplying power to the dehumidifier 1 can be wound around the pair of cord holders 350, And the protruding end portion is formed to extend outward.

The cord fastener 360 is located above the cord holder 350 and may be formed in the center of the cord holder 350 to be recessed in the same shape as the receptacle so that the plug of the power line end can be inserted. Therefore, after the power line is wound around the cord holder 350, the plug can be inserted into the cord fastener 360 to effectively store and hold the power line.

The top cover assembly 100 and the base assembly 10 can be fixedly mounted on the upper and lower ends of the front case 200 and the rear case 300. Between the front case 200 and the rear case 300, The side deco 400 can be mounted to form the overall appearance of the dehumidifier 1.

A housing assembly 500 having an air blowing fan 540 and a motor 530 and a heat exchange module 30 for heat exchange with the intake air are installed in the upper part of the front case 200 and the rear case 300, A frame 600 supporting the housing assembly 500 and the heat exchange module, a water tank assembly 700 in which condensed water generated in the heat exchange module 30 is collected, a heat exchange module 30, And a compressor (20) connected to compress the refrigerant.

At this time, the compressor (20) can be an inverter compressor capable of adjusting the rotation speed by changing the frequency according to the load. With the adoption of the inverter compressor, active dehumidification operation can be performed according to the humidity of the room, and efficient dehumidification operation and power consumption can be reduced.

A frame 600 is mounted on the upper surface of the base assembly 10. The frame 600 may include a vertical part 610 extending in the vertical direction and a horizontal part 620 extending in the horizontal direction at the upper end of the vertical part 610.

The vertical part 610 defines a space in which the water tank assembly 700 is mounted in the front part of the dehumidifier 1 to form a space in which the lower space of the dehumidifier 1 is spaced back and forth, . A main guide 630 and a sub-guide 640 are formed on the left and right sides of the vertical part 610 so that the tank drawer 710 can be slid in and out.

The horizontal portion 620 divides the inner space of the dehumidifier 1 into upper and lower portions to allow the housing assembly 500 and the heat exchange module 30 to be seated. In the horizontal portion, a channel for guiding the condensed water generated in the heat exchange module 30 to the water tank 800 is formed.

The specific shape of the frame 600 will be described in more detail below.

5 is an exploded perspective view showing a coupling structure between a top cover assembly and a main body, which is a constitution of the dehumidifier. FIG. 6 is an exploded view showing the coupling of the rear case, which is one component of the dehumidifier.

Referring to FIG. 1, the top cover assembly 100 may include a cover plate 110 and a cover frame 120. Referring to FIG.

The cover plate 110 forms an upper surface of the dehumidifier 1 and is formed in a plate shape and may be formed in an elliptical shape so as to correspond to the entire top surface of the dehumidifier 1.

On both left and right sides of the cover plate 110, a handle hole 111 capable of forming a handle 40 of the dehumidifier 1 is formed. The handle hole 111 may be formed to allow the user to hold the dehumidifier 1 from both sides by inserting his or her hand and may have a size corresponding to the opening 430 of the side deco 400.

The cover plate 110 is formed with a louver mount 112 for mounting the louver 130 therein. The louver mount 112 is formed in a size and shape corresponding to the upper surface of the louver 130 in a state where the louver 130 is closed. Accordingly, when the louver 130 is closed, the upper surface of the louver 130 shields the louver mount 112 and is located on the same plane as the cover plate 110. When the louver 130 is opened, the louver mount 112 can also be opened.

An operation unit 150 may be fixedly mounted on a lower surface of the cover plate 110 corresponding to the operation unit 151 and the display unit 152. The operation unit 150 may include the display unit 152 and the operation unit 151. The display unit 152 and the operation unit 151 may include a display and a plurality of switches or sensors on one printed circuit board 153, 151 so that the user can manipulate the operation of the dehumidifier 1 or display the operation state to the outside. Of course, the operation unit 150 may be configured only by the operation unit 151, and the display unit 152 may be independently configured separately.

The operation unit 151 is operated by a user to operate the dehumidifier 1 and is provided in a rear space of the louver 130. The operation unit 151 is disposed in the rear space of the louver 130, And is provided at a position corresponding to the portion 114 so that the user can operate it. The operation unit 151 may be configured in various ways such as an electrostatic touch sensor, a button, and a switch.

Further, a display unit 152 for displaying the operation state of the dehumidifier 1 may be further provided on a side adjacent to the operation unit 151. The display unit 152 may be exposed to the outside through the display unit window 113 so that the user can check the display unit from the outside.

The operation unit 150 may further include a substrate case 154 that receives the printed circuit board 153 and allows the operation unit 150 to be fixed to the cover plate 110.

The cover frame 120 is mounted on a lower surface of the cover plate 110 and may be formed in a ring shape having a size corresponding to the cover plate 110. The cover frame 120 is disposed on the lower surface of the cover plate 110 and has a frame engaging portion 121 formed at a predetermined interval along the periphery thereof. The cover plate 110 and the cover frame 120 can be engaged with each other by the screw S fastened to the cover plate 110. [

A plurality of frame fixing hooks 123 may be formed along the circumference of the lower surface of the cover frame 120. The frame fixing hook 123 is formed to be engaged with the back surface of the front case 200 formed on the front case 200.

Since the cover frame 120 is coupled to the front case 200 and the cover frame 120 is engaged with the cover plate 110, the top cover assembly 100 and the front case 200 Are fixed to each other.

The front case 200 is fixedly mounted on the top cover assembly 100 and the base fan assembly 10 and the rear case 300 is fixedly mounted on the top cover assembly 100 and the base fan assembly 10, The frame 600, the housing assembly 500, and the heat exchanger module 30, the compressor 20, and the like may be inserted and fixedly mounted from the rear to the front.

In order to fix the rear case 300, first, the lower end of the rear case 300 is inserted into the base pan 10, and then the upper end of the rear case 300 is fixed to the cover frame 120, As shown in FIG.

To this end, the inner surface of the rear case 300 and the outer surface of the cover frame 120 are engaged or constrained together.

7 is an exploded perspective view showing a configuration of a housing assembly which is a constitution of the dehumidifier.

The housing assembly 500 is mounted on a horizontal portion 620 of the frame 600 by mounting a motor 530 and a blowing fan 540 for forced air flow. The housing assembly 500 includes a housing case 510 and a housing cover 520. The housing cover 520 includes a housing case 520 and a housing case 510, And a space through which the air flows can be formed.

The housing case 510 is formed in a shape having an opened rear face, and forms a space in which the blowing fan 540 can be received. The upper surface of the housing case 510 is opened to mount the louver 130. The entire opened rear surface of the housing case 510 is configured to be shielded by the housing cover 520 formed in a corresponding shape.

A housing 511 for accommodating the motor 530 is received in the housing case 510 and a rotating shaft of the motor 530 extends through the housing case 510. The motor 530 is used for rotating the blowing fan 540 and may be a BLDC motor having a long life and easy to control the speed. The motor 530 can be fixedly mounted on the housing case 510 by the motor bracket 531.

The inner space of the housing case 510 is provided with a blowing fan 540 for sucking air in the axial direction and discharging the air in a circumferential direction. The air blowing fan 540 may be a Sirocco fan having low noise and excellent air blowing ability. The air introduced into the housing case 510 by the rotation of the air blowing fan 540 flows along the inner side surface of the housing case 510 and can be discharged to the outside through the louver 130 do.

The inner surface of the housing case 510 is formed in a curved shape to improve the flow of air, and a curved surface portion 513 corresponding to the curvature of the inner surface of the housing case 510, . The curved surface portion 513 is formed from the lower end of the housing case 510 to the louver mounting portion 550 where the louver 130 is mounted and a capacitor (not shown) is formed between the curved surface portion 513 and the louver mounting portion 550 The capacitor mounting portion 560 on which the capacitor 591 is mounted can be exposed. That is, the curved surface portion 513 of the housing case 510 is formed along the inner curvature of the housing case 510 so that the capacitor mounting portion 560 can be formed.

On the other hand, at the both left and right ends of the housing case 510, a case wire guide part 512 is formed. The case wire guide part 512 is connected to the electric wire such as a motor or a capacitor 591 provided in the housing assembly 500 or a wire connecting the electrical devices such as the compressor 20 or various valves, (L) to be connected to the control box 900, and is formed in an annular shape opening upward, so that the control box 900 forms a passage through which the electric wire L can be connected . That is, the electric wire L passes through the housing assembly and is directed from the front half to the rear half of the main body of the dehumidifier 1.

The case wire guide portion 512 may be positioned at the same height as the capacitor mounting portion 560 so that the capacitor 591 and the control box 900 can be connected at the shortest distance.

The shape of the case wire guide part 512 may correspond to the shape of the cover wire guide part 522 to be described below and may be overlapped with the housing case 510 when the housing cover 520 is coupled They may be formed in the same shape at the same position.

The case wire guide portions 512 may be formed on both sides of the case, but may be formed only on one side of the left and right sides, at least on the side where the capacitor 591 is mounted.

Meanwhile, the housing cover 520 may be formed in a plate shape corresponding to the housing case 510, and an orifice 521 forming a passage through which air is sucked may be opened. An accessory connection part 570 is formed on one side of the upper portion of the housing cover 520. The accessory connection part 570 is formed in a shape that allows the inside of the housing case 510 in which the louver 130 is mounted to communicate with the outside space of the dehumidifier 1, So that they can be exposed to the outside.

A connection cap 571 is detachably attached to an end of the accessory connection part 570. The connection cap 571 shields the open end of the accessory connection part 570 to prevent air from leaking to the outside. The accessory connection part 570 may be formed with a rotation engaging part 572 at an end of the accessory connection part 570 for coupling with the connection part cap 571 and may be detachably attached to the accessory connection part 570 by rotating the connection part cap 571 . After the connection cap 571 is separated, the extension hose or other accessories can be easily coupled to the rotation coupling portion 572 by the rotation operation.

A control box mounting portion 580 is formed above the orifice 521. The control box mounting portion 580 extends rearward from the rear surface of the housing cover 520 and divides the space in which the heat exchange module 30 is disposed up and down. Therefore, a control box 900 for controlling the operation of the dehumidifier 1 can be mounted above the control box mounting portion 580.

At this time, the control box mounting portion 580 may be disposed at a position corresponding to the position of the capacitor mounting portion 560, so that the capacitor 591 is disposed at the same height as the control box 900, So that it has a structure that can be connected by the shortest distance from the first antenna 900.

A cover wire guide portion 522 may be formed at the left and right ends of the housing cover 520. The cover wire guide portion 522 is a portion through which electric wires L connecting the control box 900 and other electric devices such as the case wire guide portion 512 pass, As shown in Fig.

Accordingly, when the housing case 510 and the housing cover 520 are coupled, the electric wire L forms a passage through which the electric wire L can be guided, and the electric wire L is disposed on both sides of the housing assembly The capacitor 591 and the control box 900 can be connected to each other.

On the other hand, a heat exchange module 30 is disposed below the control box mounting portion 580. The heat exchange module 30 is mounted on the horizontal portion 620 of the frame 600 and may have a size corresponding to the space between the control box mounting portion 580 and the horizontal portion 620.

The heat exchange module 30 is connected to the compressor 20 and is connected to the evaporator 31 to exchange heat with the air flowing into the internal space of the dehumidifier 1, And a condenser 32 for heat exchange with the air that has passed through the evaporator 31.

The evaporator (31) and the condenser (32) are disposed in a juxtaposition, and are arranged in the longitudinal direction. Therefore, the air that has been heat-exchanged with the refrigerant while passing through the evaporator 31 can be configured to exchange heat once with the refrigerant while passing through the condenser 32.

That is, the refrigerant supplied from the compressor 20 flows through the expansion means to the condenser 32 via the evaporator 31, and then flows into the compressor 20 again. The air sucked into the dehumidifier 1 passes through the evaporator 31 and the condenser 32 and passes through the orifice 521 to the inside of the housing assembly 500 to be discharged to the outside .

Accordingly, the indoor air sucked through the suction port 331 is heat-exchanged at a low temperature while passing through the evaporator 31, so that the moisture contained in the air is liquefied and separated from the air to be dehumidified air.

The air separated from the moisture while passing through the evaporator 31 is heated and dried while passing through the condenser 32. The dried air is discharged into the dehumidifier through the discharge port 131, 1).

The evaporator 31 and the condenser 32 are arranged in parallel so that the air having passed through the inlet 331 is dehumidified while passing through the evaporator 31 and is heated and dried while passing through the condenser 32. [ .

The condensed water that has been phase-converted into the liquid state while the moisture separated from the air while passing through the evaporator 31 is liquefied flows along the drain channel 621 formed in the horizontal portion 620 of the frame 600, So that it can be collected in the water tank 800.

The lower part of the condenser 32 may be inserted into the horizontal part 620, and the condensed water may pass through a region where the condenser is installed. When at least a part of the lower end of the condenser 32 is positioned to be received in the inner space of the drain passage 621, the condenser 32 is cooled by the condensed water flowing along the drain passage 621, 32 can be improved.

8 is an exploded perspective view showing a coupling structure of a control box which is a constitution of the dehumidifier. 9 is an exploded perspective view of the control box. 10 is an exploded perspective view showing a state in which the case of the control box is opened. 11 is a partial perspective view showing a connection state between the control box and the capacitor.

As shown in the drawing, the housing assembly 500 is provided with a control box mounting portion 580, and the control box mounting portion 580 is equipped with a control box 900. The control box mounting portion 580 is located behind the louver 130 mounted on the housing assembly 500 and forms a rearwardly extending seating surface 581.

A pair of ribs 582 protruding upward is formed on the seating surface 581. The ribs 582 are for supporting the control box 900 in a downward direction and extend in the longitudinal direction.

The control box 900 can be separated from the seating surface 581 by the ribs 582 so that the heat radiation of the control box 900 can be more effectively performed.

A box guide 584 is formed on one side of the seating surface 581. The box guide 584 is elongated in the front-rear direction, and the guide portions 921 and 935 of the control box 900 can be slidably inserted.

That is, when the control box 900 is mounted, the guide portions 921 and 935 of the control box 900 are moved backward to be inserted into the box guide 584, and when the control box 900 is completely moved The control box 900 can be fixedly mounted on the control box mounting portion 580 using a coupling member such as the screw S.

On the contrary, in a situation where the service of the control box 900 is required, the control box 900 can be easily separated by sliding the control box 900 rearward after the screw S is released.

The control box 900 includes a printed circuit board 910 on which various electrical products for controlling the driving of the dehumidifier 1 are mounted and a plastic base substrate 910 on which the printed circuit board 910 is accommodated 920 and a control box case 930, 940 for covering the substrate base 920 from above and below.

The board base 920 forms a space for accommodating the printed circuit board 910. At one end of the board base 920, the guide portion 921 protrudes outside the control box cases 930 and 940 and is exposed to the outside Respectively. The guide portion 921 is slidably inserted into the box guide 584 so that the control box 900 can be fixedly mounted in a predetermined position.

A pair of guide ribs 922 extending upward is formed around the substrate base 920. The guide ribs 922 are positioned such that a pair of the guide ribs 922 face each other and form a space through which the electric wire L passes. The guide ribs 922 may be formed at positions corresponding to the wire holes 936 described below.

The control box case 930 and 940 may include an upper case 930 and a lower case 940. The control box case 930 and 940 may be formed in the space between the upper case 930 and the lower case 940, The base 920 can be mounted.

The control box cases 930 and 940 are formed of a non-burnable material and may be formed of a metal material such as stainless steel or aluminum. Therefore, even if a fire occurs due to overheating of the printed circuit board 910, combustion is generated only in the control box cases 930 and 940, thereby protecting the other components of the dehumidifier 1.

The upper case 930 may further include a molding part 931 protruding upward from the upper surface of the upper case 930 to provide a mounting space for electrical parts mounted on the printed circuit board 910 have. The forming portion 931 has a shape protruding upward by forming, and allows the electric parts to be positioned below.

A guide opening 932 may be formed on the upper surface of the upper case 930. The guide opening 932 is a hole communicating with the heat sink guide 950 to be described below, and is formed to be opened so that external air can be introduced.

The guide opening 932 is formed in a shape corresponding to the upper end of the heat sink guide 950. When the upper case 930 and the lower case 940 are coupled to each other, (950).

An engaging projection 933 may be formed on the inner surface of the upper case 930 to be engaged with the upper end of the heat sink guide 950. A screw hole 951 at the upper end of the heat sink guide 950 may be formed, Another screw hole 934 is formed at a position corresponding to the upper case 930 so that the screw S is fastened to the upper case 930 so that the heat sink guide 950 can be maintained in a state of being engaged with the upper case 930

The circumference of the upper case 930 is bent downward to form a side surface of the upper case 930, and a plurality of wire holes 936 are formed around the upper case 930. The electric wire hole 936 is formed to allow the electric wire L connecting the printed circuit board 910 and the electric devices constituting the dehumidifier 1 to pass therethrough.

The electric wire 936 is formed at a position corresponding to the guide rib 922 formed in the substrate base 920. The electric wire L is electrically connected to the electric wire hole 936 and the guide rib 936, 922 are formed in the space

A case guide portion 935 is further formed at the lower end of the upper case 930. The case guide portion 935 is formed at a position overlapping the guide portion 921 when the upper case 930 and the lower case 940 are coupled and the control box case 930 and 940 are coupled to the control box mounting portion 580 And is inserted into the case guide 584 together with the guide portion 921. [

Further, a case fixing part 937 may be further formed on one side of the upper case 930. The case S is inserted into the case fixing portion 937 through the case fixing portion 937 so that the control box mounting portion 580 So that the control box 900 can be fixed.

The lower case 940 provides a space for accommodating the substrate base 920 and is coupled with the upper case 930 to form an appearance of the control box 900.

A plurality of electrical parts for controlling the driving of the dehumidifier are mounted on the printed circuit board 910 and a heat sink 911 for dissipating the heat generated during the driving of the dehumidifier is mounted. The heat sink 911 may be a heat sink 911 for cooling a printed circuit board or an electrical component mounted on the heat sink 911. The heat sink 911 may have various structures for heat dissipation.

However, the heat sink 911 may have a shape corresponding to the guide opening 932 and the heat sink guide 950. A heat sink guide 950 is formed at an upper end of the heat sink 911. The heat sink guide 950 may be formed in a shape which can open the upper and lower surfaces and guide the movement of air.

The heat sink guide 950 may be formed by bending a plate-like material, and may be formed to correspond to a cross-sectional shape of the guide opening 932. The upper end of the heat sink guide 950 is formed to have a higher rear surface than the front surface and is in contact with the upper surface of the upper case 930.

The upper end of the heat sink guide 950 has a shape corresponding to the inner surface of the upper surface of the upper case 930. When the upper case 930 and the lower case 940 are engaged, As shown in FIG.

Therefore, when the heat sink guide 950 is in contact with the upper case 930, the air is shielded along the guide opening 932 so that air can be taken in and out through the guide opening 932.

At one side of the heat sink guide 950, an engaging groove 952 is formed to be engaged with the engaging projection 933. The coupling groove 952 may be formed at a position corresponding to the coupling protrusion 933. A screw hole 951 is formed on one side of the upper end of the heat sink guide 950 so as to be coupled to the upper case 930 by a screw S. [

In addition, a capacitor mounting portion 560 is further formed in front of the control box mounting portion 580. The capacitor mounting portion 560 is disposed adjacent to the control box mounting portion 580. The capacitor 591 is accommodated inside a capacitor cover 592 which forms a space to be accommodated therein and the capacitor cover 592 is configured to be coupled to the capacitor mounting portion 560.

The capacitor 591 formed of a metal material such as stainless steel completely covers the capacitor 591 so that the capacitor 591 can be fixed to the capacitor 591 by the capacitor 591, .

The capacitor 591 has a relatively high height, and when the capacitance is large, the size of the capacitor 591 becomes larger. Therefore, by separating the capacitor 591 and the capacitor cover 592 from the control box, the mounting space of the control box 900 can be more utilized, and the internal space of the dehumidifier can be efficiently used.

The electric wires L connecting the capacitor 591 and the control box 900 are connected to each other through the housing assembly 500 by the wire guides 512 and 522 formed in the housing assembly 500 .

The wire guiding portions 512 and 522 are formed by overlapping the case wire guide portion 512 and the cover wire guide portion 522 when the housing case 510 and the housing cover 520 are coupled to each other. To be passed.

At this time, since the wire guiding parts 512 and 522 are formed in an annular shape, the electric wire L can be inserted through the opened part of the wire guiding parts 512 and 522. [ The wire guiding portions 512 and 522 are located at the same height as the capacitor mounting portion 560 and the control box mounting portion 580 so that the distance that the wire guiding portions 512 and 522 are connected by the wire L can be the shortest distance.

The electric wire guides 512 and 522 may be formed on both sides of the housing assembly 500. Although not shown, electric wires connected to the motor, the compressor 20, various valves, So as to be connected to the control box 900.

Hereinafter, the operation of the dehumidifier having the above structure will be described.

In order to operate the dehumidifier, the user places the dehumidifier 1 in a space for dehumidification. The dehumidifier (1) is provided with a wheel (12) on a lower surface thereof, and a handle (40) is formed on both sides of the upper surface of the dehumidifier (1).

The user can put his / her hand into the handle hole 111 on the upper surface of the cover plate 110 to hold the handle 40 through a space formed on the side deco 400 side, Can be stably moved.

The user operates the dehumidifier 1 to drive the dehumidifier 1 in a state where the dehumidifier 1 is positioned at a specific position. The compressor 20 and the motor 530 are driven by the driving operation of the dehumidifier 1 and the louver 130 is rotated to expose the discharge port 131 to the outside.

The refrigerant circulates in the refrigeration cycle by driving the compressor 20, and the compressor discharges refrigerant in a liquid state at a high temperature and a high pressure. The refrigerant passes through the expansion means to the low-temperature cold air introduced into the evaporator 31 So that the evaporator 31 can be cooled. The phase-change refrigerant heat-exchanged with the outside air in the evaporator 31 is directed to the condenser 32 and is returned to the compressor 20 after heat-exchanged again in the condenser 32. By this cycle circulation, the evaporator 31 is continuously cooled and the condenser 32 is heated.

The fan 540 is rotated by the driving of the motor 530 and air in the room in which the dehumidifier 1 is placed is rotated by the rotation of the blowing fan 540 through the inlet 331, And is forcibly sucked into the dehumidifier (1).

The cold air sucked first passes through the evaporator 31 and the moisture in the air while passing through the evaporator 31 is condensed during the heat exchange process with the evaporator 31 and flows along the evaporator 31. The air having passed through the evaporator 31 continuously passes through the condenser 32 and is heated by the condenser 32 to be dried air to be introduced into the orifice 521.

The air introduced into the orifice 521 flows along the inner wall surface of the housing case 510 by the blowing fan 540 and is discharged into the indoor space again through the upper louver 130.

In this process, the humidity of the room reaches the set humidity or is continuously repeated according to the setting of the user, and the condensed water of the evaporator 31 generated at this time flows into the inside of the water tank 800. The condensed water flowing into the water tank 800 is collected inside the water collecting part 810 and is continuously collected until the water level reaches a set water level.

When the condensed water in the water tank 800 reaches the full water level, the user removes the water tank 800 from the tank drawer 710 to empty the water tank 800, mounts the water again, .

Meanwhile, the electrical parts mounted on the printed circuit board 910 during the operation of the dehumidifier 1 may generate heat. At this time, the air for radiating the electric components can be easily introduced through the inclined guide opening 932, and an effective heat radiation and cooling can be performed by contacting the heat sink 911 along the heat sink guide 950 . Therefore, when the compressor 20 is rotated at a high speed and the other components are operated, efficient cooling is performed and stable operation is possible.

Claims (11)

Inverter compressors;
A heat exchanger for adsorbing moisture of the intake air;
A blowing fan for forcing the suction of air;
A housing assembly for accommodating the blowing fan and guiding the discharge of air passing through the heat exchanger;
And a control box electrically connected to the inverter compressor to control driving of the inverter compressor,
The control box includes:
A printed circuit board on which an electrical component for operation control of the dehumidifier is disposed, and a heat sink for cooling the electrical component;
A control box case formed of a metal material, the control box case being received so that the entirety of the printed circuit board is not exposed to the outside, and having a guide opening at a position corresponding to the heat sink;
The control box case is formed to surround the heat sink from the inside of the control box case and extends from the periphery of the heat sink to the periphery of the guide opening to form an arrangement space of the heat sink partitioned from the inside of the control box case A dehumidifier comprising a heat sink guide.
The method according to claim 1,
The control box case includes:
A lower case on which the printed circuit board is mounted;
And an upper case coupled to the lower case to form an upper shape of the control box case and having the guide opening formed on an upper surface thereof.
The method according to claim 1,
The heat sink guide is formed to have different heights of the front surface and the rear surface,
Wherein the guide opening is formed to have an inclination or a round corresponding to the opening of the upper end of the heat sink guide.
The method according to claim 1,
At the upper end of the control box case and the heat sink guide,
An engaging projection and an engaging groove are formed to be engaged with each other,
And a screw hole for fastening a screw is formed at a position opposite to the coupling protrusion and the coupling groove.
The method according to claim 1,
Wherein an open bottom surface of the heat sink guide corresponds to a shape of an upper surface of the heat sink, and an upper end of the heat sink is accommodated inside the heat sink guide.
The method according to claim 1,
And the heat sink opening is formed so that the inflow side of the outside air is lower.
The method according to claim 1,
And a substrate base on which the printed circuit board is mounted is housed inside the control box case.
8. The method of claim 7,
And a guide part extending from the control box case to extend outward from the control box case and slidably inserted into one side of the housing assembly to fix the control box.
9. The method of claim 8,
Wherein the control box case further includes a case guide part extended to overlap the guide part and slidably inserted into one side of the housing assembly.
8. The method of claim 7,
Wherein the control box case is formed around the substrate base at a position corresponding to a wire hole that is opened around the control box case,
And a pair of guide ribs spaced apart from each other by a predetermined distance to allow the wire to pass therethrough.

The method according to claim 1,
Further comprising a housing assembly for accommodating the blowing fan and guiding the discharge of air passing through the heat exchanger,
Wherein the housing assembly is formed with a control box mounting portion extending into a space in which the heat exchanger is disposed so that the control box can be seated thereon.

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