KR20120023363A - A dryer - Google Patents

Abstract

PURPOSE: A dryer is provided to automatically remove a lint of a lint filter, thereby eliminating inconvenience in removing the lint every time after the dryer operates. CONSTITUTION: A drum rotates in a cabinet. The drum receives objects to be dried. Air in the drum is discharged by a discharging duct(20). The discharging duct includes a filter assembly. A collecting unit(300) collects a lint removed from the filter assembly. A lint compressor(200) moves the collected lint in one direction. The lint compressor compresses the lint.

Description

Dryer {A dryer}

The present invention relates to a dryer, and more particularly, to a dryer for automatically removing lint of a lint filter.

In general, a dryer (Laundry machine) is used as a device for drying the laundry to be washed. In addition, such a dryer may be classified into a top loading type and a front loading type according to a method of inputting laundry objects. In recent years, a front loading method, a so-called drum type dryer, which can load laundry objects from the front of the dryer, has been widely used.

In addition, the dryer can be broadly divided into an exhaust type for injecting air from outside to dry it and then discharge it, and a circulation type for circulating the introduced air. However, the air containing moisture by drying the laundry object in such a dryer contains foreign substances such as dust of the laundry object in the process of drying. Thus, the dryer generally includes a filter portion for filtering the air exhausted from the drum.

By the way, when the drier is continuously operated, dust continues to accumulate in the filter unit, whereby the filter unit is blocked and air is not circulated. Therefore, in the conventional dryer, in order to prevent the filter portion from being clogged, the user has to inconvenience the lint every time after using the dryer.

The present invention was devised to solve the above problems, and an object of the present invention is to provide a dryer having a lint remover for automatically removing the lint of the lint filter, which does not need to be removed every time after the dryer is operated.

In order to achieve the above object, the present invention provides a cabinet, a drum rotatably provided in the cabinet and accommodating dry matter, and the air inside the drum is discharged to the outside, and an exhaust duct having a filter assembly, and the filter. It provides a dryer comprising a collecting unit for collecting the lint removed from the assembly and a lint compressor for moving and compressing the lint collected in the collecting unit in one direction.

The lint compressor may include a driving unit for generating power, a compression member for moving and compressing the lint, and a power transmission unit for transmitting the power generated by the driving unit to the compression member.

The driving unit may be a rotating motor.

The compression member may be a plate.

The power transmission unit may convert the rotational movement of the drive unit to a linear movement and transmit it to the compression member.

The power transmission unit may include a pulley connected to the driving unit and a wire connecting the pulley and the compression member.

The power transmission unit may include a gear connected to the driving unit and a chain connecting the gear and the compression member.

The lint compressor may further include an elastic member for restoring the compression member moved to one side to its original position.

The elastic member may be a spring or rubber.

The lint compressor may further include a lint amount sensing unit configured to sense the movement of the compression member to sense the amount of lint collected in the collecting unit.

The lint amount detecting unit may be a micro switch.

The collecting part may include a main body that is open at one side and forms a predetermined space in which lint is collected, and is detachably provided in the cabinet.

One side of the main body may be formed with a slit through which the compression member can pass.

The main body may be provided with a handle for holding when removing the collection.

The lint compressor may further include the compressor frame on which a power transmission unit and / or a compression member are installed.

The present invention has the advantage that does not have to remove the lint every time after the dryer operation by having a lint remover for automatically removing the lint of the lint filter.

In addition, the present invention has the advantage that the user does not have to check the collection unit from time to time by detecting the lint amount of the collecting unit to inform the user when the lint is full.

1 is a view showing the appearance of the dryer.
2 is a view showing the overall internal configuration of the dryer.
3 is an exploded perspective view showing the configuration of the lint compressor and the collecting unit.
4 and 5 are views showing the operating state of the lint compressor.
6 and 7 are views showing the operating state of the lint detecting unit.
8 is a view showing a slit formed in the collecting portion.

Hereinafter, with reference to the drawings will be described a specific embodiment of the present invention.

1 is a perspective view of a dryer according to a preferred embodiment of the present invention. Referring to FIG. 1, the dryer 1 includes a drum 7 in which moisture-containing objects such as clothes are required to be dried, and a door for selectively opening and closing the front opening of the drum 7. 5) has The door 5 is provided with a transparent window 6, so that the user can check the inside of the drum 7 to determine whether the normal operation or the problem occurs. In addition, it has a cabinet 8 that forms the exterior and houses the respective components of the dryer therein.

The operation unit 3 serves as an interface between the user and the dryer, and the condensate water collecting unit 2 is a part where water condensed during the operation of the dryer is easy to be discarded later. The bottom cover 4 is a part for viewing the internal mechanical structure of the dryer, and the user can remove the foreign material contained in the collecting part (see 300 in FIG. 3) therein by removing the bottom cover 4. It may be.

2 is a view showing the internal structure of the dryer. The operation of the dryer will be described with reference to FIG. 2. The dryer shown in the embodiment is a condensation type dryer, and two flow paths are generated during operation of the dryer, one of which is a circulation flow path condensing it in the heat exchanger 13 after taking moisture from the drying object while circulating inside the dryer. (Dotted line display), and the other is a cooling channel (solid line display) applied for cooling the fluid flowing in the circulation passage in the heat exchanger (13).

First, the circulating flow path starts from the drum 7 and is indicated by a dotted line in FIG. 2. After the hot air inside the drum 7 contains moisture, the air is discharged, and then the foreign matter including lint is filtered while passing through the filter assembly 100. After passing through the filter assembly 100, passes through the circulation fan 11. Here, the circulation fan 11 is rotated by the motor 10 and serves to directly provide a sound pressure forming a circulation passage. The fluid passing through the circulation fan 11 is cooled while passing through the heat exchanger 13, and the moisture carried from the drum 7 is condensed due to the low relative humidity while being cooled. The condensed air is pumped by a pump (not shown) and conveyed to the condensate collection unit 2. The fluid from which moisture has been removed by the condensation action is heated by a heating unit (not shown), and then flows into the drum 7 again. In the drum 7, the fluid of the drying object is stirred again with the drying object. I take it away.

The cooling flow path flows in from the outside of the dryer by the cooling fan 12. The cooling fan 12 is rotated by the motor 10. The air introduced from the cooling fan 12 enters the heat exchanger 13, cools the fluid on the circulation passage as described above, and is then discharged out of the dryer.

The cooling fan 12 and the circulation fan 11 is rotated by the motor 10, the driving force may be intermittently transmitted. The motor 10 may be a bidirectional rotary motor for rotating the drum 7 in the forward / reverse direction.

On the circulation flow path, hot air discharged from the drum 7 and a large amount of foreign matter are discharged through the discharge duct 20. Then, the filter is filtered while passing through the filter assembly 100. The filter assembly 100 is provided in the discharge duct 20 disposed below the front part of the drum 7.

The filter assembly 100 includes a filter body 110, a filter unit 120 formed on at least one surface of the filter body 110, and a filter cleaning unit (not shown) that automatically cleans the filter unit 120. The filter cleaning unit is provided inside the filter unit 120 to remove foreign substances (lint) while rotating.

The filter body 110 has an air inlet 111a formed at one side thereof, and a lower portion thereof is opened. In addition, the filter body 110 is formed of a front side 112 and a rear side 114, a side 116 relatively narrower than these. In addition, the filter unit 120 is integrally formed on the front surface 112. (For convenience, the air exit side is defined as the front side of the filter body, the side opposite to the rear side, the air inlet side is the upper side, and the opposite side is defined as the lower side.)

The upper portion of the filter body 110 in which the air inlet 111a is formed is streamlined to prevent interference with the coupling portion. The air discharged from the drum 7 enters the filter body 110 through the air inlet 111a and exits through the filter unit 120 formed on the front surface 112 of the filter body 110.

The filter unit 120 may be integrally formed on the front surface 112 of the filter body 110, and may be integrally formed on the rear surface 114 of the filter body 110. When the filter unit 120 is formed on both sides, it is advantageous to secure the air volume than when the air escapes only into the Han group, which helps to improve the drying performance.

The filter unit 120 is a part in which lint contained in the air is filtered while the air introduced through the air inlet 111a is passed out. The filter unit 120 supports a thin and dense circular mesh 122 and a plurality of meshes 122. Rib 124. Since the mesh 122 is circular, the rib 124 is preferably formed in a combination of a circular and a straight line so as to support the circular mesh 122 evenly and reinforce the strength. When the air from which the lint is removed through the filter unit 120 is drawn out, the lint is gradually laminated in a state in which the lint is attached to the filter unit 120, and a filter cleaning unit is installed inside the filter body 110 to automatically clean the lint. do. The lint removed from the filter unit 120 by the filter cleaner falls down to the opened filter body 110. In addition, the front surface of the discharge duct 20 is provided with a cleaning motor 24 for driving the filter cleaner.

On the other hand, the lower portion of the discharge duct 20 is provided with a collector housing 30. The collector housing 30 accommodates a collector 300 for collecting lint. The collector housing 30 is provided below the discharge duct 20, and a portion of the upper surface of the collector housing 30, which is in contact with the discharge duct 20, is opened. Thus, the collector housing 30 is in communication with the lower surface of the filter assembly 100 coupled to the discharge duct 20. The lint removed by the filter cleaner of the filter assembly 100 passes through the open upper surface of the collector housing 30 and is collected by the collector 300. On the other hand, the driving unit coupling portion 31 to which the driving unit 210 is coupled is formed at one side of the upper surface of the collecting unit housing 30. In addition, a lint compressor 200 is provided on the upper inner surface of the collecting unit housing 30.

Hereinafter, the lint compressor 200 and the collecting unit 300 will be described in detail with reference to the accompanying drawings.

3 is an exploded perspective view showing the configuration of the lint compressor 200 and the collection unit 300, Figures 4 and 5 are plan views showing the combination of the collection unit 300 and the lint compressor 200. 4 and 5 are shown except for the driving unit 210 for convenience of description. In addition, the left and right directions will be described with reference to the drawings shown for convenience of description.

Referring to FIG. 3, a collector 300 is provided in the collector housing 30 to collect lint removed by a filter cleaner. That is, the collector 300 is inserted into the collector housing 30 and installed. In addition, when the user wants to remove the lint of the collector 300, the collector 300 is separated from the collector housing 300 to remove the lint.

The collection unit 300 is configured to include a main body 310 having a space in which lint is stacked therein and a handle 320 coupled to the main body 310.

The main body 310 may be formed in a box shape having an upper opening, and a handle coupling part 313 is provided on a front surface thereof. In addition, the handle 320 is coupled to the handle coupling portion 313 formed on the front surface of the main body 310. On the other hand, the rear side of the main body 310 is formed with a slit 311 is inserted into the plate 221 of the compression member 220 to be described later (see Fig. 8) when the lint compressor 200 is at rest. The plate 221 of the compression member 220 is located at the right end of the main body 310. At this time, when the main body 310 is pulled backward using the handle 320 of the collecting unit 300, the plate 221 is pulled out through the slit 311, and the collecting unit 300 and the collecting unit housing 30 are separated. do.

The lint compressor 200 moves and compresses the lint collected in the collecting unit 300 in one direction. The lint compressor 200 is composed of a compression member 220 for moving and compressing the lint, a power transmission unit 230 for transmitting power to the compression member 220, a driving unit for generating power, and a lint compressor 200. It is configured to include a compressor frame 250 is installed.

The driving unit may be composed of a rotary motor 210. The driving unit is coupled to the driving unit coupling part 31 provided on the collection unit housing 30. The drive unit generates rotational power, and the generated rotational power is transmitted to the compression member 220 through the power transmission unit 230. Therefore, the compression member 220 compresses the lint while performing a linear motion.

The compressor frame 250 is provided with a power transmission unit 230 and the compression member 220. The compressor frame 250 is provided on the upper inner surface of the collector housing 30. The compressor frame 250 has a lint hole 253 through which the lint removed by the filter cleaning unit passes. In addition, a pulley coupling part 251 is provided at one side of the compressor frame 250. In addition, a stopper 252 is formed to restrict the compression member 220 from traveling more than a predetermined distance. (See FIGS. 6 and 7) In addition, a spring accommodation guide for guiding the movement of the compression member 220 is provided. 254 is formed.

The power transmission unit 230 receives power from the driving unit and transmits the power to the compression member 220. More specifically, the power transmission unit 230 converts the rotational movement of the drive unit to a linear movement and transmits it to the compression member 220. That is, the power transmission unit 230 receives power from the driving unit and provides power to the compression member 220 so that the compression member 220 can perform a linear motion.

3 to 5, the power transmission unit 230 includes a pulley 231, a wire 233, and an elastic member. The pulley 231 is coupled to the rotation shaft to the driving unit, that is, the rotary motor 210 to rotate. The pulley 231 is coupled to the pulley coupling portion 251 provided on one side of the compressor frame 250 to rotate. The wire 233 is wound around the pulley 231 and serves to pull the compression member 220 as the pulley 231 rotates. That is, one side of the wire 233 is wound on the pulley 231, the other end is coupled to the compression member 220. Therefore, when the pulley 231 rotates, the wire 233 is gradually wound on the pulley 231 and pulls the compression member 220. The elastic member restores the compression member 220 moved to one side to its original position. The elastic member may be a coil spring 235. The spring 235 is provided in the spring receiving portion 223 of the compression member 220, the spring 235 is fixedly coupled to one side of the compressor frame 250, the other end is the compression member ( Fixed and coupled to 220). Therefore, when power is applied to the rotary motor 210 and the rotary motor 210 rotates, the wire 233 coupled to the pulley 231 moves the compression member 220 to the left side of the collection unit 300. . At this time, one end of the spring 235 coupled to the compression member 220 is also moved along the compression member 220 and the spring 235 is in a tensioned state. When the compression member 220 is no longer moved to the left by the stopper 252, when the power to the rotary motor 210 is cut off, the compression member 220 is returned to its original position by the restoring force of the spring 235 Will move. On the other hand, it is preferable that the spring ring 237 is further provided to fix the spring 235 to the compressor frame 250. The spring ring 237 may be fitted to one side of the compressor frame 250 or may be integrally formed on one side of the compressor frame 250. One end of the spring 235 is connected to and fixed to the spring ring 237. When connecting one end of the spring 235 to the spring ring 237 can be fixed by inserting one end of the spring 235 in the groove or hole formed in the spring ring 237.

Compression member 220 is a linear movement along the longitudinal direction of the collection unit 300 to move and compress the lint in one direction. That is, when the lint removed by the lint cleaner is collected in the collecting unit 300, the compression member 220 moves the lint in one direction while reciprocating from side to side. The compression member 220 includes a plate 221 for moving the lint and a spring receiving portion 223 provided in the plate 221. The plate 221 is composed of a thin plate as a member for moving the lint. In addition, one side of the spring receiving portion 223 is coupled to the upper portion of the plate 221, it is coupled perpendicularly to the plate 221. Referring to FIG. 4, the compression member 220 is coupled to the compressor frame 250. More specifically, the plate 221 is inserted into the plate 221 hole formed in the compressor frame 250. In addition, the spring receiving portion 223 is coupled between the guide formed in the compressor frame 250. In addition, a plate guide hole 255 is formed between the guides to allow the plate 221 to move. Therefore, when the pulley 231 is wound around the wire 233 by the rotation of the rotary motor 210, the spring receiving portion 223 is moved along the spring receiving guide 254 and the plate 221 Moves along the plate guide hole 255. On the other hand, the size of the plate 221 is preferably provided to correspond to the size of the inner cross-section of the main body 310. Therefore, when the compression member 220 compresses the lint, it is possible to prevent the lint from leaking backward in the traveling direction of the plate 221.

On the other hand, according to an embodiment of the present invention may further include a lint amount detecting unit 240 for detecting the lint amount of the collecting unit 300. The lint amount detecting unit 240 detects the amount of lint collected by the collecting unit 300, and when the collecting unit 300 is full of lint, the control unit detects that the lint is full. At this time, by using the alarm means to generate an alarm indicating that the lint is full to induce the user to empty the collector 300. According to an embodiment of the present invention, the lint amount detecting unit 240 may be a micro switch 240. The micro switch 240 is provided at one side of the compressor frame 250. In addition, the micro switch 240 is preferably provided at the end of the movement path of the compression member 220. Therefore, when the lint is not full in the collecting unit 300, the compression member 220 is in contact with the micro switch 240, and when the lint is full, the compression member 220 is in contact with the micro switch 240. No contact. 6 and 7, the micro switch 240 is provided at one side of the compressor frame 250 and is disposed at a position adjacent to the pulley 231. In addition, the sensing bar 241 of the micro switch 240 is disposed between the spring receiving guide 254. 7 is a view illustrating a case in which the lint is not full, and since the lint is not full in the collecting part 300, the spring receiving part 223 of the compression member 220 moves to the end of the spring receiving part guide 254. Done. At this time, the spring receiving portion 223 presses the sensing bar 241 and the micro switch 240 generates a predetermined signal. On the other hand, when the collection part 300 is filled with lint, the spring receiving portion 223 of the compression member 220 can not reach the end of the spring receiving portion guide 254 by the collected lint. Therefore, the sense bar 241 of the micro switch 240 is not pressed and the micro switch 240 generates no signal. Therefore, even if a predetermined voltage is applied to the rotary motor 210 for a predetermined time, if no signal is generated in the micro switch 240, the controller may recognize that the collection unit 300 is full of lint.

Meanwhile, in the above embodiment, the power transmission unit 230 converts the rotational motion of the rotary motor 210 into the linear motion by using the pulley 231 and the wire 233, but is not limited to the above embodiment. According to another embodiment of the present invention, the power transmission unit 230 may of course convert the rotational motion into a linear motion using a gear and a chain. In addition, although the spring 235 has been described as an embodiment of the elastic member, the elastic member may be made of rubber.

Hereinafter, the operation of the lint compressor 200 and the collecting unit 300 will be described in detail with reference to the accompanying drawings.

When the lint cleaner of the filter assembly removes the lint of the filter unit, the removed lint passes through the open lower surface of the filter assembly, the upper surface of the lint box housing, and the lint hole 253 of the compressor frame 250 of the collector 300. The collection unit 300 is collected by the main body 310.

Referring to FIG. 4, the plate 221 of the compression member 220 is positioned at the right end of the collecting part 300 in the state in which the rotary motor 210 is not driven. At this time, the spring 235 is not in tension. Subsequently, when power is applied to the rotating motor 210 of the driving unit and the rotating motor 210 operates and rotates, the pulley 231 connected to the rotating motor 210 also rotates. At this time, the wire 233 is wound around the pulley 231 as the pulley 231 rotates. Therefore, the spring receiving portion 223 connected to one end of the wire 233 gradually moves to the left side as the wire 233 is wound. Therefore, the plate 221 coupled to the spring receiving portion 223 is also moved to the left side to move the lint laminated on the left side of the plate 221 to the left. At this time, the spring receiving portion 223 is moved to the left along the guide formed on the compressor frame 250. In addition, the plate 221 moves to the left along the plate guide hole 255 formed between the guides of the compressor frame 250. On the other hand, the spring 235 accommodated in the spring receiving portion 223 is tensioned in accordance with the movement of the spring receiving portion 223 at this time. That is, one end of the spring 235 is coupled to the spring ring 237 fixed to the right end of the compressor frame 250 and the other end is coupled to the spring receiving portion 223 so that the spring receiving portion 223 is on the left side. As it moves, the spring 235 is tensioned. Referring to FIG. 5, when the spring accommodating part 223 moves to the right end of the compressor frame 250, the stopper 252 may prevent the spring accommodating part 223 from moving any further. Restrict movement At this time, the spring receiving portion 223 is in contact with the sensing bar 241 of the micro switch 240 provided between the spring receiving portion guide 254. Meanwhile, when the sensing bar 241 of the micro switch 240 contacts the spring receiving portion 223 and the micro switch 240 generates a predetermined signal, the power applied to the rotary motor 210 is cut off. In the state where the power of the rotary motor 210 is cut off, the restoring force of the spring 235 acts on the compression member 220. That is, the spring receiving portion 223 and the plate 221 are moved to the right by the restoring force of the spring 235 connected to one side of the spring receiving portion 223 and the compression member 220 returns to the initial position. While repeating the above process a predetermined number of times, the lint stacked on the collecting unit 300 is compressed while moving to the left side of the plate 221.

On the other hand, when the collection unit 300 is full of lint, the spring receiving unit 223 does not contact the sensing bar 241 even when the rotary motor 210 is operated by the lint. At this time, the control unit recognizes that the collection unit 300 is full of lint, the alarm means generates an alarm to induce the user to empty the collection unit 300.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It is to be understood that various modifications and changes may be made without departing from the scope of the appended claims.

100 Filter Assembly
200 Lint compressor 210 rotary motor
220 Compression member 221 Plate
223 Spring receptacle 230 Power train
231 pulley 233 wire
235 Spring 237 Spring Hook
240 lint detector
250 Compressor Frame 251 Pulley Joint
252 Stopper 253 Linthole
254 Spring Receptacle Guide 255 Plate Guide Hole
300 collector
310 body 311 slit
313 Handle Joint 320 Handle

Claims (16)

cabinet;
A drum rotatably provided in the cabinet and accommodating dry matter;
An air duct discharged to the outside and having a filter assembly;
A collecting unit collecting the lint removed from the filter assembly;
And a lint compressor for moving and compressing the lint collected in the collecting unit in one direction. The method of claim 1,
The lint compressor
A driving unit generating power;
Compression member for moving and compressing the lint;
And a power transmission unit configured to transfer power generated by the driving unit to the compression member. The method of claim 2,
The driving unit is a dryer, characterized in that the rotating motor. The method of claim 2,
Dryer characterized in that the compression member is a plate. The method of claim 2,
And the power transmission unit converts the rotational movement of the drive unit into a linear movement and transfers it to the compression member. The method of claim 5,
And the power transmission unit includes a pulley connected to the driving unit and a wire connecting the pulley and the compression member. The method of claim 5,
The power transmission unit includes a gear connected to the drive unit and a chain connecting the gear and the compression member. The method of claim 2,
The lint compressor further comprises an elastic member for restoring the compression member moved to one side to its original position. The method of claim 8,
Dryer, characterized in that the elastic member is a spring. The method of claim 8,
The elastic member is a dryer, characterized in that the rubber. The method of claim 2
The lint compressor further comprises a lint amount sensing unit for sensing the movement of the compression member to sense the amount of lint collected in the collecting unit. The method of claim 11,
And the lint amount detecting unit is a micro switch. The method of claim 2,
The collection unit
Dryer, characterized in that it comprises a main body which is opened on one side and forms a predetermined space in which lint is collected, and detachably provided in the cabinet. The method of claim 13,
Dryer, characterized in that the one side of the main body is formed with a slit through which the compression member can pass. The method of claim 12,
Dryer, characterized in that the main body is provided with a handle for holding when removing the collection. The method of claim 2,
The lint compressor further comprises a compressor frame in which the power transmission unit and the compression member are installed.

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