KR101079972B1 - Air inlet structure of dryer - Google Patents

Abstract

The present invention relates to a dryer, and more particularly, to an indoor air suction structure for heat exchange with circulating air in a high temperature and high humidity state passing through a condenser, the indoor air suction structure of a dryer for facilitating assembly of a blower cover and an air guide. It is about.

Indoor air suction structure of the dryer according to the invention the base; An indoor air intake formed on one side of the base; A blower serving as a movement passage of the air sucked through the indoor air intake; An air guide seated at an approximately end of the blower; And a blower cover covering an upper portion of the blower and the air guide. Is included, the blower cover is characterized in that it comprises an air guide support groove which is inserted into a portion of the outer peripheral surface of the air guide on the bottom.

By the indoor air suction structure of the dryer according to the present invention, there is an effect of improving the assembly of the blower cover and the air guide.

Blower, blower cover, air guide

Description

Air inlet structure of dryer

1 is a cross-sectional view schematically showing a condensation drum dryer.

Figure 2 is a perspective view showing the base of the dryer provided with an indoor air intake in accordance with the spirit of the present invention.

3 is an enlarged perspective view of a base provided with an indoor air suction structure according to the spirit of the present invention;

Figure 4 is an internal perspective view of the indoor air intake structure.

5 is an external perspective view of a blower cover according to the spirit of the present invention.

6 is a perspective view of the inside of the blower cover.

7 is a perspective view of the air guide according to the spirit of the present invention.

<Description of the symbols for the main parts of the drawings>

100: base 110: circulating air lowering portion 120: indoor air intake

130: cooling fan seating groove 140: motor heat dissipation groove 150: condensate storage unit

160: motor shaft insertion port 170: circulating air flow path 200: condenser

300: blower 310: blower cover 400: air guide

410: shroud 420: indoor air through hole 430: seating rib

The present invention relates to a dryer, and more particularly, to an indoor air suction structure for heat exchange with circulating air in a high temperature and high humidity state passing through a condenser, the indoor air suction structure of a dryer for facilitating assembly of a blower cover and an air guide. It is about.

 It relates to a condenser assembly structure of a dryer for improving the indentation state of the condenser so that the indoor air in the low temperature state sucked by the circulating air in the state and / or the cooling fan does not leak to the outside of the condenser.

In general, a washing machine, a dryer or a combined washing machine provided with a drum device is a device using a rotational motion of a drum. That is, as the drum rotates, the laundry inside the drum also rotates, and the laundry rises and falls by the rotation.

For example, in the drum washing machine, a collision with the washing water occurs due to the rising and falling of the laundry, and the dirt on the laundry is removed by the collision.

In the case of a drum type dryer, a hot air generated by an electric heater or a gas combustion device is blown into a drum to absorb moisture remaining in a drying object and to dry the drying object.

The present invention relates to a dryer for drying laundry by the rotation of the drum, hereinafter will be described taking a drum device used in the dryer as an example.

1 is a cross-sectional view schematically showing a condensing drum dryer.                         

Referring to Figure 1, the condensation-type drum dryer is configured to control the opening and closing of the cabinet 10, the cylindrical drum 12 formed inside the cabinet 10, and the drum 12 to form an appearance A door 13 and a belt 11 surrounding the outer circumferential surface of the drum 12 are included.

In addition, the motor shaft 21 is connected to the belt 11, the motor 17 is connected to the motor shaft to provide a rotational force, and the rotational force of the motor 17 is connected to the motor shaft 21 A cooling fan 16 that sucks and rotates the indoor air is included.

In addition, a drying fan 18 connected to the motor shaft 21 opposite the cooling fan 16 to circulate air inside the drum, and air sucked by the drying fan 18 may be connected to the drum ( As a passage to be moved to 12, the drying duct 19 is provided with a heat generating unit 20 therein.

In addition, a lint filter 14 formed below the opening through which the door 13 is inserted to filter foreign substances such as lint and the like contained in the wet air discharged from the drum, and air entering the lint filter 14 are condensers (not shown). It further includes a circulation duct 15 which is a passage to be moved to).

Hereinafter, the operation of the dryer will be described.

First, when power is applied to the dryer, the motor 17 rotates, and the heater 20 attached to the drying duct 19 is heated. In addition, the belt 11 connected to the motor shaft 21 rotates to rotate the drum 12. Then, as the drum 12 rotates, the object to be dried in the drum rotates along the inner wall of the drum and falls by its own weight when it reaches the uppermost side. Here, the object to be dried is lifted by a lift (not shown) attached to the inner wall of the drum.

On the other hand, the drying fan 18 connected to the motor shaft 21 is operated with the rotation of the motor 17, the circulating air passing through the lint filter 14 is sucked. The sucked air rises along the drying duct 19 and becomes a high temperature dry state through the heater. Then, the hot dry air absorbs the moisture present in the object to be dried while passing through the drum, resulting in a high temperature and high humidity.

In addition, the air of the high temperature and high humidity is again filtered by the lint filter 14 and then moved to a capacitor (not shown) along the circulation duct 15.

In addition, the cooling fan 16 connected to the motor shaft 21 is rotated to suck the indoor air outside the dryer. The sucked indoor air is then passed through a cooling fan 16 to the condenser.

Here, the hot and humid air moved to the capacitor along the circulation duct 15 and the indoor air sucked by the cooling fan 16 and moved to the capacitor pass through the capacitor. In addition, the hot and humid air and the indoor air are not mixed with each other by the shape of the capacitor, and only heat exchange occurs.

Therefore, the high temperature and high humidity air is changed to low temperature and high humidity air while losing heat to the indoor air while passing through the condenser. Then, as the temperature decreases, moisture contained in the air condenses and falls to the bottom of the condenser, and is moved to a sump (not shown) in which condensate is collected.                         

In addition, the water moved to the sump is moved to a condensate reservoir (not shown) located at the top of the dryer by a condensation pump.

On the other hand, the indoor air passing through the capacitor takes the heat of the high temperature and high humidity air and converts it into low temperature and high humidity air, and the temperature becomes high.

Here, the indoor air, which takes away the heat of the high temperature and high humidity air and the temperature becomes high, is sucked through the indoor air intake port installed at the front side of the base.

The indoor air intake port forms a flow path by a blower cover, and an air guide having a shroud is formed to guide the sucked air to the cooling fan.

Therefore, there is a need for a structure for easily mounting the blower cover to the upper end of the base, and for easily mounting the air guide in a fixed position in the blower cover.

The present invention has been proposed to solve the above technical problem, and an object of the present invention is to provide an indoor air intake structure of a dryer that can easily be equipped with a blower cover forming a flow path of the indoor air to be sucked.

In addition, an object of the present invention is to provide an indoor air suction structure of a dryer for allowing the air guide mounted vertically in the blower cover to be easily positioned at a proper position.

Indoor air suction structure of the dryer according to the present invention for achieving the above object is a base; An indoor air intake formed on one side of the base; A blower serving as a movement passage of the air sucked through the indoor air intake; An air guide seated at an approximately end of the blower; And a blower cover covering an upper portion of the blower and the air guide. Is included, the blower cover is characterized in that it comprises an air guide support groove which is inserted into a portion of the outer peripheral surface of the air guide on the bottom.

According to the above configuration, there is an effect of facilitating the assembly of the blower cover forming the indoor air suction flow path and the air guide mounted in the blower cover.

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the drawings. However, the spirit of the present invention is not limited to the embodiments presented, and other embodiments included within the scope of other inventive inventions or the scope of the present invention can be easily made by adding, changing, or deleting other elements. I can suggest.

Figure 2 is a perspective view showing the base of the dryer provided with the indoor air intake in accordance with the spirit of the present invention.

Referring to FIG. 2, the base 100 of the dryer provided with an indoor air inlet includes a circulating air lowering part 110 through which the internal air passing through the dryer drum and the door lint filter descends, and the circulating air lowering part ( An inlet is formed at the lower side of the 110, a condenser 200 long inserted into the rear side of the base, and a circulating air flow path 170 formed at the rear side of the condenser 200 to move air passing through the condenser. Included.

In addition, the right side of the front surface of the base 100 is provided with the indoor air suction inlet 120 is sucked indoor air, the cooling fan seating groove 130 for mounting the cooling fan for sucking the indoor air is provided.

In addition, the rear side of the cooling fan seating groove 130 is provided with a motor for providing a motive force for rotating the dryer drum, the motor heat dissipation groove 140 for cooling the heat generated by the motor is provided.

In addition, a condensate storage unit 150, in which condensate generated in the condenser 200 is collected, is provided at a central portion of the base 100.

Hereinafter, a brief description of the circulation of the fluid occurring inside the base 100.

As described above, the internal air passing through the inside of the drum is in a state of high temperature and high humidity and passes through the lint filter formed on the door side and the tub cover side, and passes through the condenser 200 via the circulating air lowering part 110. do. In addition, the indoor air sucked through the indoor air inlet 120 passes through the condenser 200 through a cooling fan.

Here, since the indoor air is lower in temperature than the circulating air, heat exchange occurs while passing through the capacitor.

In detail, in order to allow only heat exchange without the circulating air and the indoor air passing through the condenser 200, the circulating air flow path and the indoor air flow path are manufactured to intersect with each other inside the condenser 200.

On the other hand, the circulating air passing through the condenser 200 is moved along the circulating air flow path 170 to a drying duct (not shown) provided on the rear wall of the dryer. Then, the indoor air passing through the capacitor 200 is discharged to the room again.

3 is an enlarged perspective view of a base provided with an indoor air suction structure according to the spirit of the present invention, and FIG. 4 is an internal perspective view of the indoor air suction structure.

3 and 4, the indoor air suction structure according to the present invention includes a blower 300 corresponding to an air flow path through which air sucked through the indoor air suction port 120 moves to a cooling fan, and the blower 300. Blower cover 310 is formed to form an upper portion of the cover, and covers the cooling fan.

In addition, the inner bottom of the blower 300 is provided with an air guide lower support groove 330 for seating the air guide (to be described later) for guiding the sucked air to the cooling fan. In addition, a cooling fan seating groove 130 in which the cooling fan is seated is formed at the rear side of the air guide lower support groove 330, and a blower cover is fixed to the upper side of the base on which the blower cover 310 is seated. The fixed rib insertion end 340 into which the rib 311 is inserted is formed.

In detail, the fixed rib insertion end 340 is formed to protrude upward by a predetermined length, and a groove having a size corresponding to the width of the fixed rib 311 is formed at the center thereof, and the fixed rib 311 is inserted into the fixed rib insertion end 340. It is formed to be.

In addition, at least one blower cover seating rib insertion groove 350 for inserting the blower cover seating rib provided in the blower cover 310 is provided at a position opposite to the fixed rib insertion end 340.                     

In addition, a blower fastening groove 360 for fastening the blower cover 310 to the base is formed inside the blower cover seating rib insertion groove 350.

In detail, since the air guide lower support groove 330 is formed, the air guide to be described later serves to hold the correct position of the air guide when it is seated in the blower.

5 is an external perspective view of the blower cover according to the spirit of the present invention, and FIG. 6 is an internal perspective view of the blower cover.

5 and 6, the body of the blower cover 310 in accordance with the spirit of the present invention to form a blower which is a flow path of the indoor air sucked, and to secure a space for accommodating the cooling fan, A cylindrical shape having a diameter is formed.

In addition, a blower curve fixing rib 311 is formed at one side edge of the blower cover 310 so as to protrude to the upper portion by a predetermined length so that the blower cover 310 is fixed to the upper portion of the base.

In addition, a base seating rib 318 extending from the edge of the blower curve fixing rib 311 to allow the blower cover 310 to be seated on the upper surface of the base 100. In addition, a blower cover fastening groove 312 for inserting a fastening member to be fixed to the blower cover 310 and the base part is included on the base seating rib 318. In addition, a side guide rib 314 is formed at an end of the base seating rib 318 extending vertically downward. The side guide rib 314 prevents the blower cover 310 from swinging in the left and right directions after being seated on the base 100, and serves to allow the blower cover 310 to be positioned in a proper position. . In addition, a groove having a depth corresponding to the same shape and thickness as that of the side guide ribs 314 in order to accurately seat the side guide ribs 314 on the side of the base contacting the side guide ribs 314. Not shown) may be formed.

In addition, a sealing member 317 is attached to an inner circumferential edge of the blower cover 310 to prevent the indoor air sucked through the blower 300 from leaking to the outside. In addition, an air guide upper support groove 316 is formed on an inner circumferential surface of the blower cover 310 that contacts the outer circumferential surface of the air guide guiding indoor air toward the cooling fan. In detail, the air guide upper support groove 316 is installed not only to allow the air guide to be described later to be inserted in place, but also to prevent the air guide from swinging back and forth by the indoor air being sucked.

In addition, the blower cover 310 has a motor shaft through-groove 315 through which a motor shaft connecting the motor and the cooling fan passes through the front portion of the upper portion of the cooling fan.

In addition, the bottom surface of the base seating rib 318 is provided with a blower cover seating rib 313 protruding by a predetermined length in the vertical direction. The blower cover seating rib 313 is installed to accurately match the blower cover fastening groove 312 and the blower fastening groove 360.

In addition, the blower cover seating rib 313 is inserted into the blower cover seating rib insertion groove 350 formed in the base, so that the blower cover 310 is seated in the correct position and swings back and forth and / or from side to side. This phenomenon is eliminated.

7 is a perspective view of an air guide according to the spirit of the present invention.

Referring to FIG. 7, the air guide 400 according to the present invention has an outer diameter equal to the inner diameter of the blower 300, and a shroud 410 protruding toward the cooling fan to guide the suctioned indoor air to the cooling fan. Is formed. In addition, the shroud 410 inside the indoor air communication hole 420 for communicating the sucked indoor air is formed.

In addition, the groove 330 is inserted into the air guide lower support groove 330 formed in the base and the air guide upper support groove 316 formed on the inner circumferential surface of the blower cover 310. A fastening rib 430 having a thickness equal to the width of the 316 and a width equal to the depth of the grooves 330 and 316 is formed along the outer circumferential surface of the air guide 400.

Hereinafter, the assembly procedure of the blower cover 310 and the air guide 400 will be described.

First, the air guide 400 is inserted into the air guide lower support groove 330. Then, the blower cover fixing rib 311 formed on the side of the blower cover 310 is inserted into the fixing rib insertion end 340, and then the blower cover 310 is lowered.

When the blower cover 310 is lowered, the upper outer peripheral surface of the air guide 400 is inserted into the air guide upper support groove 316 formed on the inner circumferential surface of the blower cover 310.

The blower cover seating rib 313 formed on the bottom surface of the base seating rib 318 is inserted into the blower cover seating rib insertion groove 350.

Finally, inserting the fastening member into the blower cover fastening groove 312 and the blower fastening groove 360 formed on the base mounting rib 318 so that the blower cover 310 is completely engaged with the base 100. do.

By the indoor air suction structure of the dryer according to the present invention constituting the above configuration, there is an effect of improving the assembly of the blower cover and the air guide.

Claims (7)

Base; An indoor air intake formed on one side of the base; A blower serving as a movement passage of the air sucked through the indoor air intake; An air guide seated at an approximately end of the blower; And A blower cover covering an upper portion of the blower and the air guide; Is included, The blower cover is an indoor air suction structure of a dryer including an air guide support groove into which a portion of the outer circumferential surface of the air guide is inserted. The method of claim 1, And the blower formed on the base includes an air guide support groove into which a portion of an outer circumferential surface of the air guide is inserted into a bottom of the blower. The method of claim 1, The air guide support groove is the indoor air suction structure of the dryer, characterized in that formed by two air guide support ribs of semi-circular shape protruding to a predetermined height. The method of claim 2, The air guide support groove is the indoor air suction structure of the dryer, characterized in that formed by two air guide support ribs of semi-circular shape protruding to a predetermined height. The method of claim 1, And an outer circumferential surface of the air guide includes a seating rib formed in the same shape as the width and depth of the air guide support groove. The method of claim 1, The air guide center portion has a predetermined diameter in the central axis direction, the indoor air suction structure of the dryer, characterized in that the shroud is formed to protrude to a predetermined height to guide the suctioned indoor air. The method of claim 1, The bottom edge of the blower cover is the indoor air suction structure of the dryer, characterized in that the sealing member is attached to prevent the suctioned indoor air from leaking to the outside.

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