KR20140077365A - An damper in a refrigerator - Google Patents

Abstract

The present invention has a structure for minifying a motor and a coupling unit for the motor included in a damper in order to minify the damper used for a cooling cabinet such as a refrigerator. A refrigerator damper according to the present invention comprises a housing; the motor; and a motor fixating cover on the top of the motor. The motor fixating cover is shaped into a plate and has multiple protruding grooves which are partially opened. A motor support for fixing the motor fixating cover to a sidewall of the housing is vertically disposed inside the housing.

Description

An damper in a refrigerator}

The present invention relates to a damper, and more particularly to a damper for a refrigerator used in a low-temperature storage such as a refrigerator.

The damper is located in a low temperature reservoir or the like, and discharges cool air to each chamber of the refrigerator compartment. 1 is a front view of a refrigerator to which a general damper can be applied. As shown in FIG. 1, a refrigerator to which a conventional damper can be applied includes a main body 100 having a storage room 110 formed with an opening at a front thereof and storing a predetermined article therein, A door 120 for pivotally opening and closing an opening of the storage chamber 110 and a cool air passage between the cool air generating unit and the storage chamber 110 and at least one discharge port 170 being formed in the middle thereof And a damper 200 installed in the middle of the duct 150 and the duct 150 (the inlet of the duct 150 in FIG. 1) to allow or block the supply of cool air to the storage chamber 110.

In the above-described configuration, the cool air generating unit may generate cool air by a refrigeration cycle using a coolant, or may generate cool air by using a thermoelectric cooler. And a blowing fan (not shown) for forcibly discharging the cold air generated from the cold air generating unit to the storage room 110 is provided in the middle of the duct 150.

Meanwhile, it is preferable that the storage room 110 in which the damper 200 is installed is a refrigerator room in which a predetermined temperature range should be maintained to freeze the received article, but it may be a freezer.

FIG. 2 is an exploded perspective view showing the structure of a conventional damper and its driving device, and FIG. 3 is a front view of the damper and the damper driving device shown in FIG. 2 combined. As shown in FIGS. 2 and 3, the conventional damper includes a frame 210 installed in close contact with an inner circumferential surface of a duct (150 in FIG. 1) with an opening 212 formed in the center thereof, And a blocking plate 220 that opens or closes the opening 212.

In the above-described configuration, the hinge shaft 240 on one side of the blocking plate 220 is axially coupled to the prismatic shaft of the damper driving device 300. A buffer plate 230 such as a styrofoam plate or the like may be provided on the inner side of the blocking plate 220 to prevent the blocking plate 220 from being damaged or generating noise when the blocking plate 220 contacts the frame 210. [ . In the drawing, reference numeral 250 denotes a film-type heater for preventing the blocking plate 220 from being opened due to adherence of the blocking plate 220 to the frame 210 by the cold air in the closed state of the blocking plate 220. And numeral 260 denotes four coupling protrusions for fixing the damper to the damper driving device 200 and coupling them.

Fig. 4 is an exploded perspective view of a conventional damper drive apparatus, and Fig. 5 is a plan view of Fig. 4 and 5, in the conventional damper driving apparatus 200, the casing 310 may be made of a hard synthetic resin material, and a pair of vertical supports (not shown) The upper surface of each of the vertical supports 350 is fitted in and inserted into an insertion hole 334a or a cutting insert hole 334b formed at the edge of the fixing bracket (upper plate) 334 of the driving motor 330, A fixing protrusion 352 for fixing the motor 330 to the left and right without shaking is vertically formed. The length (height) of the fixing protrusion 352 is preferably larger than the thickness of the fixing bracket 334.

Next, the reduction gear train is again driven by a drive gear 360 coupled to the rotation shaft 332 of the drive motor 330, one or more idle gears 362 ) 364, 366 and an idle gear 366 at the end, and a driven gear 368 rotated at a predetermined reduction ratio. In this structure, the driven gear 368 is formed of a partial gear, for example, a fan-shaped spur gear whose internal angle is set in the range of 90 ° -180 °, and the driven shaft 368 is provided with a rectangular shaft 369, (240 in Fig. 3) of the damper blocking plate (220 in Fig. 3). The lid 320 is protruded from the casing 320 at a position corresponding to the fixing protrusion 352 of the lid 320 so as to protrude from the casing 320 The insertion groove 324 is inserted into the fixing protrusion 352 so that the lower end of the lid protrusion 322 presses and fixes the fixing bracket 334. In the drawing, reference numeral 321 denotes a through hole of a rectangular shaft 369.

However, since the driving motor 330 is fixed only by the fixing protrusions 352 and the fixing bracket 334 in the above-described configuration, the fixing protrusions 352 are inevitably thick and the insertion holes 334a corresponding to the fixing protrusions 352 are thick. The size of the fixing bracket 334 formed thereon can not be increased.

Further, conventionally, the drive motor 330 is positioned away from the side wall of the casing 310 as shown in Fig.

Thus, there is a problem that a large amount of surplus space is formed in the casing 310, and as a result, it is difficult to reduce the size of the damper driving apparatus 200 by more than a predetermined size.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a damper for a refrigerator having a structure for miniaturizing a fastening means for a motor fixing lid and a motor.

The damper for a refrigerator according to the present invention is devised to solve the above-described problems, and the damper includes a housing, a motor, and a motor fixing cover positioned on the upper surface of the motor, Wherein a plurality of protruding grooves are formed in a part of the housing, and a motor support member for fixing the motor fixing cover to the side wall of the housing is vertically formed in the housing.

In addition, a fitting protrusion to be inserted into one of the protrusion grooves protrudes on the inner wall of the housing, and an insertion protrusion inserted into the other one of the protrusion grooves is formed on the bottom of the housing, And is tightly fixed to the inner side wall.

Further, in the housing, electric wires for supplying power to the motor are spaced apart from gears that are rotated by the motor.

In addition, a plurality of grooves may be formed in the side wall of the housing so that the electric wire is drawn in.

According to the damper for a refrigerator of the present invention, the motor and the motor fixing lid are brought into close contact with one side edge of the inside of the case by projecting the fastening protrusion and the insertion protrusion from the side wall and bottom of the case and fastening and fixing the motor fixing lid, There is an effect that the damper can be downsized by reducing the surplus space.

1 is a front view of a refrigerator to which a general damper can be applied;
2 is an exploded perspective view showing the structure of a conventional damper and its driving device.
3 is a front view of the damper and damper driving device shown in Fig.
4 is an exploded perspective view of a conventional damper drive apparatus.
Fig. 5 is a plan view of Fig. 4; Fig.
6 is a view illustrating a state in which a portion of the interior of a refrigerator damper according to an embodiment of the present invention is partially shown.
7 is a front view of a housing of a damper for a refrigerator according to an embodiment of the present invention, viewed from above.
FIG. 8 is a perspective view of a damper for a refrigerator according to an embodiment of the present invention, in which a housing, a motor, and a motor fixing lid are disassembled. FIG.

Hereinafter, a preferred embodiment of a damper for a refrigerator of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 7 is a front view of a housing of a damper for a refrigerator according to an embodiment of the present invention. FIG. 8 is a front view of the damper for a refrigerator according to an embodiment of the present invention. 1 is a perspective view of a damper for a refrigerator according to an embodiment of the present invention, in which a housing, a motor, and a motor fixing cover are disassembled.

6 to 8, the damper 400 for a refrigerator according to the present invention includes a housing 410 formed in a box shape forming an outer shape of a damper 400, a motor 410 inserted in the housing 410, 450 and a motor fixing lid 500 in the form of a plate located above the motor 450.

The motor 450 is formed of a brushless direct current (BLDC) motor. A cylindrical rod 455 is formed on the upper surface of the motor 450. The rod 455 is inserted into the hole formed in the motor fixing lid 500 And are fixed together. Thus, the motor 450 and the motor fixing cover 500 will be integrated.

The motor fixing lid 500 is in the form of a plate and closely fitted to one side edge of the inside of the housing 410. The motor fixing lid 500 is formed with a plurality of protruding grooves 580 partially open to be fixed to the motor fixing lid 500 by being inserted into the protrusion of the housing 410 described later.

The protruding groove 580 is partially opened, and the opened hole does not exceed half of the protruding groove 580. Thus, the motor fixing lid 500 is fitted in the protrusion of the housing 410 in the vertical direction, but will not move in the horizontal direction.

Thus, the motor 450 and the motor fixing lid 500 are prevented from being displaced by the vibration generated when the motor 450 is driven.

On the inner wall of the housing 410, a fitting protrusion 480 inserted into the protrusion groove 580 is formed in a cylindrical shape. Also, an insertion protrusion 490 is formed on the bottom surface of the housing 410 to be inserted into the protrusion groove 580. When the motor fixing cover 500 is coupled to the fitting protrusion 480 and the insertion protrusion 490, the motor 450 is positioned on the inner edge side of the housing 410.

The motor support 440 is vertically protruded from the bottom of the housing 410 so that the motor 450 is detached from the housing 410 or fixed to the side wall of the housing 410. The motor support 440 The outer periphery of the motor 450 comes into line contact with the outer periphery of the motor 450 so that the motor 450 is caught at one side of the housing 410.

Thereby, it is possible to prevent the motor 450 from being pushed or deviated to one side of the housing 410.

Next, an electric wire (not shown) for receiving power from the outside is connected to the motor 450 located inside the housing 410.

When the housing 410 is closed by a cover or the like, the electric wire connected to the motor 450 located inside the electric wire 450 is connected to the external power supply means. A plurality of wire grooves 510 into which electric wires are inserted are formed.

A locking protrusion 460 may be formed on the outer side of the housing 410 to interfere with the lid.

In order to prevent the problem that the electric wire comes into contact with the output gear which is located inside and is rotated by the motor when the electric wire penetrates through the electric wire groove 510, A spacing portion 470 is formed to surround the gear so that the electric wire and the gear do not come into contact with each other.

The spacing portion 470 is formed to be rounded at the same angle as the outer periphery of the gear so as to minimize the internal space without interfering with the rotational movement of the gear.

As described above, according to the refrigerator damper of the present invention, the motor fixing lid is fastened and fixed by protruding the fastening protrusion and the insertion protrusion from the side wall and bottom of the case, thereby bringing the motor into close contact with one side edge of the case, The space can be reduced and the damper can be downsized.

Further, even if the damper is miniaturized, the internal wire and the gear do not come into contact with each other, so that the rotation motion of the gear is not disturbed when the motor is driven.

The damper for a refrigerator of the present invention is not limited to the above-described embodiments but can be variously modified and embodied within the scope of the technical idea of the present invention.

100: main body 110: storage room
120: Door 150: Duct
170: discharge port 200, 200 ': damper
210: frame 212: opening
220: blocking plate 230: buffer plate
240: hinge shaft 260, 260 ': engaging projection
300: damper drive device 310, 310 ': casing,
312, 325: projecting engagement hole 314: casing side wall
317: protrusion engaging portion 318:
318a: bolt through hole 320, 320 ': cover
321: Square shaft through hole 322: Vertical support for cover
324: insertion groove 330: drive motor
328: projection engaging portion 332:
334: Fixing bracket 334a: Insertion hole
334b: incision insertion hole 350: vertical support
352: Fixing projection 360: Drive gear
362, 364, 366: idle gear 368: driven gear
369: Square Shaft
400: damper 410: housing
440: Rod 450: Motor
455: Fixing rod 470:
480: insertion projection 500: motor fixing cover
510: wire groove 580: projection groove
590: insertion hole

Claims (4)

In a damper used in a refrigerator,
Wherein the damper includes a housing, a motor closely contacted with one side edge of the housing, and a motor fixing lid positioned on an upper surface of the motor,
The motor fixing lid is formed in a plate shape and has a plurality of protruding grooves, the protruding grooves protruding from the upper surface of the motor,
Wherein a motor support member for fixing the motor to a side wall of the housing is vertically formed in the housing.
The method according to claim 1,
Wherein an inner wall of the housing is provided with a fitting protrusion that is fitted in one of the protrusion grooves,
An insertion protrusion inserted into the other one of the protrusion grooves is formed on the bottom of the housing,
Wherein the motor fixing lid is fixedly secured to an inner wall of the housing.
The method according to claim 1,
Wherein a power line for supplying power to the motor is spaced apart from a gear that rotates by the motor.
The method according to claim 1,
And a plurality of grooves are formed on the side wall of the housing to allow the electric wire to be drawn in.

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