KR20070009064A - Mounting holder structure for fan motor at spiral type condenser - Google Patents

Abstract

A mounting holder structure of a fan motor adapted to a spiral type condenser is provided to improve installation and assembly properties of the fan motor, and reduce vibrations due to drive of the fan motor. A mounting holder structure for a fan motor adapted to a spiral type condenser includes a blower fan, a fan motor, a plurality of fixing brackets(70), and a holder(60). The blower fan and the fan motor are installed in the condenser to improve radiation conditions of the condenser. The plurality of fixing brackets are installed at an outer periphery of the condenser at predetermined intervals. The holder is fastened to an end of the fixing bracket to be mounted in a floated state, and mounts the blower fan and the fan motor. The holder includes a body, and a fastening part. The body has a pentagonal skeleton structure. The fastening part extends from both sides of the body and is fastened to the fixing bracket of the condenser.

Description

Mounting Holder Structure for Fan Motor at Spiral Type Condenser}

1 is a perspective view showing an embodiment of a conventional kimchi storage,

Figure 2 is a cross-sectional view showing the internal configuration of the kimchi storage according to an embodiment of the conventional kimchi storage,

3 is a view showing a configuration state of a spiral type condenser applied to the conventional kimchi storage,

4 is a perspective view showing a state in which a holder for mounting a fan motor is mounted on a spiral type condenser according to the present invention;

5 is an exemplary view showing a state before the blowing fan and the fan motor is mounted in the spiral type condenser mounting state for the fan motor mounting holder according to the present invention,

6 is an exemplary view showing a state in which a blowing fan and a fan motor are mounted in a spiral type condenser mounted with a fan motor mounting holder in accordance with the present invention.

Explanation of symbols on the main parts of the drawings

10: body 20: door

30: storage room 40: machine room

42: condenser 43: fan motor

43a: clip portion 44: blowing fan

49: support bracket 50: base panel

60 holder 61 fastener

62: fastening portion 63: body portion

63a: mounting portion 70: fixing bracket

The present invention relates to a holder structure for mounting a fan motor applied to a spiral type condenser, and more particularly, a holder capable of mounting a blower fan and a fan motor disposed on one side of the condenser to improve heat dissipation performance of the spiral type condenser. By changing and improving the structure of the fan motor, the fan motor mounting holder applied to the spiral type condenser, which not only improves the installation and assembly of the fan motor, but also has a dustproof structure that reduces vibration caused by the driving of the fan motor. It's about structure.

As is well known, the cooling system expands a compressor for making the refrigerant into a gas state of high temperature and high pressure, a condenser for liquefying and liquefying the high temperature and high pressure refrigerant sent from the compressor by a blowing fan, and liquefied refrigerant. It has a configuration consisting of an expansion valve, and an evaporator that cools by absorbing heat of the surrounding air in the process of evaporation after passing through the expansion valve.

Products using such a cooling system can be found in refrigerators and kimchi storage.

In particular, the kimchi storage by using a heater in conjunction with the cooling system, according to the change of the season and the user's preferences by ripening the kimchi through the operation of the cooling system and the heater, and then maintained at an appropriate temperature to taste the taste of ripe kimchi It is configured for long life.

As such, recently, Kimchi storage has been developed and marketed with specialized functions to allow only kimchi to be stored exclusively for aging and long-term storage of kimchi.

One embodiment of such a conventional kimchi storage is schematically illustrated in FIGS. 1 and 2.

Thus, the configuration of the kimchi storage with reference to Figures 1 and 2 schematically as follows.

In the conventional kimchi storage, at least one storage compartment 30 is provided inside the main body 10 having an appearance in a predetermined shape, and the upper surface of the main body 10 enters the upper side to open and close the storage compartment 30. A plurality of doors 20 are coupled to each other.

Here, the inside of the body 10 is provided with a storage room 30 for storing food and a machine room 40 for the operation of the kimchi storage at the bottom thereof on the base panel 50 at the bottom of the body 10.

In addition, a compressor 41 for compressing a refrigerant is disposed above the base panel 50 constituting the machine room 40, and a condenser 42 connected to the compressor 41 to circulate the refrigerant, A blowing fan 44 (see FIG. 3) and a fan motor 43 for cooling the condenser 42 are arranged.

In addition, the outer circumferential surface of the storage chamber 30 passes through the condenser 42, the solenoid valve 46, and the capillary tube 47, while evaporating the refrigerant under reduced pressure to a low temperature at a low pressure. An evaporator 44 provided for absorption cooling and a heater 51 for heating the storage chamber 30 are provided.

Thus, the compressor 41 and the condenser 42 constituting the cooling system are disposed on the base panel 50 in the machine room 40, and the blower fan 44 (see FIG. 3) and the fan motor 43 are By being installed on the side of the condenser 42 at an appropriate height, it is to increase the heat dissipation efficiency of the condenser 42 through the blowing in the process of driving the cooling system.

However, the performance of the kimchi storage having the configuration as described above will be determined by various factors.

Among them, how efficiently cooling the heat radiated from the condenser 42 also affects the improvement of the cooling efficiency in the cooling system, which acts as a factor that determines the performance of the kimchi storage.

Since cooling of heat from the condenser 42 and dissipating heat faster is one method of improving the cooling efficiency, the blower fan 44 installed in the machine room 40 is more suitable for the condenser 42. It would be highly desirable to design to provide a large amount of air flow and a smooth air flow path.

Accordingly, as part of improving the performance of the cooling system, a spiral type condenser 42 having a coil wound in a spiral shape to increase heat exchange efficiency has been manufactured and applied to kimchi storage. .

In the case of the spiral type condenser 42, the blowing fan 44 and the fan motor 43 itself are attached to the inner surface of the cone-shaped condenser 42 through a separate bracket 48, thereby improving heat dissipation performance It is configured to achieve more smooth heat exchange.

Of course, at this time, the spiral condenser 42 itself has a plurality of support brackets 49 are arranged on the left and right sides to be fixedly installed on the base panel 50 through the support bracket 49.

On the other hand, as shown in Figure 3, the bracket 48 is conventionally used to securely support the blowing fan 44 and the fan motor 43 is manufactured separately, such as screw assembly or welding on the base panel 50 It is installed through.

At this time, the bracket 48 was mainly used to manufacture a metal material such as iron plate through injection molding.

However, in the structure in which the blowing fan 44 and the fan motor 43 are directly installed on the base panel 50 by the brackets 48 as described above, it occurs when the fan motor 43 operates. The vibration is transmitted first through the bracket 48, and the vibration thus transmitted has a structure that is finally emitted in the form of vibration noise from the base panel 50.

In particular, the bracket 48 fixedly supporting the fan motor 43 receives a concentrated load due to the weight of the fan motor 43 and the blowing fan 44, and thus, due to the structural characteristics subjected to the concentrated load, the bracket 48 is very resistant to vibration. It becomes sensitive.

Therefore, the bracket 48 fixing the fan motor 43 as described above is directly contacted and fastened on the base panel 50, so that the vibration load generated by driving the fan motor 43 is maintained as it is. 50) the low-frequency noise generated by the metal hitting each other during the transmission to the bar), which is a problem that acts as a very disturbing noise to the user.

Of course, the vibration load of the fan motor 43 to the base panel 50 by interposing a separate dustproof member between the fan motor 43 and the bracket 48 or between the bracket 48 and the base panel 50. Although some measures are taken to block the transmission as it is, it was somewhat difficult to obtain a perfect dustproof effect.

The present invention has been made to provide a holder structure that can be fixed to the blower fan and fan motor integrally to the condenser while improving the conventional problems as described above, the object of the present invention can be equipped with a blower fan and fan motor By altering and improving the structure of the holder, the fan motor is mounted to the spiral type condenser, which not only improves the installation and assembly of the fan motor, but also has a dustproof structure that reduces vibration caused by the fan motor. To provide a holder structure for.

The present invention for achieving the above object, in the refrigeration system having a spiral type condenser, in order to improve the heat dissipation conditions of the condenser, when the blower fan and the fan motor is installed to be located inside the condenser, a constant on the outer peripheral surface of the condenser A plurality of fixing brackets installed at intervals of arrangement and the ends of the plurality of fixing brackets are fastened in a one-to-one correspondence form, respectively, to be mounted in a more airborne form, and at the same time, a holder for mounting the blower fan and the fan motor is provided. It is achieved by providing a holder structure for mounting a fan motor applied to a spiral type condenser.

Here, the holder is composed of a body portion having a pentagonal frame structure, and a support portion in the form of a support that extends from both sides of the lower end of the body portion to be fastened to the fixing bracket of the condenser; It is preferable to have a mounting portion protruding in a predetermined shape for fitting the fan motor on the body portion.

In addition, the body portion of the holder has a skeleton structure in which the upper center portion is opened in a triangular shape and at the same time has a skeleton structure in which the lower center portion is opened in a square shape, the fan motor is mounted to the rectangular opening portion, The triangular opening portion preferably has a vent function so that a more smooth air flow during the operation of the blow fan.

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

4 is a perspective view showing a state in which a holder for mounting a fan motor is mounted on a spiral type condenser according to the present invention, and FIG. 5 is a blower fan and a fan in a state in which a holder for mounting a fan motor is mounted on a spiral type condenser according to the present invention. FIG. 6 is a usage example showing a state before a motor is mounted, and FIG. 6 is a usage example showing a state in which a blowing fan and a fan motor are mounted in a state where a holder for mounting a fan motor is mounted on a spiral type condenser according to the present invention.

Here, the present invention relates to a blower fan (44) and a fan motor (43) mounting holder (60) applied to a spiral type condenser (42).

Therefore, in describing the preferred embodiment of the present invention, the general configuration of the kimchi storage to which the spiral type condenser is applied will be described with reference to the technical contents and accompanying drawings described in the prior art, but some detailed descriptions overlap Will be omitted.

In this case, the same parts and the same reference numerals are given to the same parts described in the prior art, and the specific configuration thereof will be omitted in some cases.

First, referring to Figures 1 and 2, the kimchi storage to which the present invention is applied, as described above, the main body 10 formed with a plurality of storage chamber 30 and the machine room 40 in the height direction therein, A door 20 is provided on the main body 10 to open and close the storage compartment 30.

Here, the blower fan 44 (see FIG. 5) and the fan motor for cooling the heat generated by the compressor 41, the condenser 42, and the condenser 42 on the base panel 50 of the machine room 40 ( The number of devices, including 43), is the same as in the related art, and constitutes a cooling system together with the evaporator 45 wound on the outer circumferential surface of the storage compartment 30.

In the kimchi storage having such a conventional configuration, the present invention is that the condenser 42 has a spiral type.

Here, the spiral type condenser, as described in the prior art, by winding the tubular coil in a spiral form to form a cone, condenser 42 can be expected to maximize the heat dissipation effect structurally to increase the heat exchange efficiency to be.

That is, in the present invention, the holder 60 capable of supporting and fixing the blower fan 44 and the fan motor 43 in the condenser 42 in order to cool the heat generated by the spiral type condenser 42 more effectively. It is about.

As shown in FIG. 4, the holder 60 according to the present invention has three fixing brackets 70 installed at regular intervals on the outer circumferential surface of the condenser 42 so as to maintain the shape of the condenser 42. Through the condenser 42 itself has a shape structure that can be mounted.

That is, the holder 60 extends from both sides of the lowermost side of the body portion 63 having a skeletal structure having a pentagonal shape and correspondingly to the fixing bracket 70 of the condenser 42. It is a structure consisting of a fastening portion 62 in the form of a support that can be.

Accordingly, the holder 60 is fitted in one-to-one correspondence with the three fixed brackets 70 provided at the top of the body portion 63 and the end of the fastening portion 62 at the ends of the three fixing brackets 70 provided at the condenser 42. It has a structure that is fastened and assembled through fasteners 61 such as screws in a state.

At this time, the body portion 63 of the holder 60 has a skeleton structure in which the upper center portion is opened in a triangular shape, and at the same time has a skeleton structure in which the lower center portion is opened in a square shape, thereby opening in the square. The fan motor 43 is mounted on the site, and the openings formed in the triangles have a vent function so that the air blowing fan 44 can be more smoothly blown.

In particular, the fan motor 43 is fitted to be installed in a portion of the body portion 63 of the holder 60 that is opened in a square at the lower end, and a blowing fan 44 in front of the fan motor 43 thus installed. ) Will be installed.

To this end, the holder 60 has a mounting portion 63a for inserting and fixing a non-magnetic clip portion 43a (see FIG. 5) provided in the fan motor 43 in a predetermined shape on the body portion 63. It has a protruding structure.

And, as shown in the accompanying drawings, the structure of the holder 60, the concentrated load due to the weight of the blowing fan 44 and the fan motor 43 can be dispersed and suppress the transmission of vibration noise As well as taking the structure, it extends in the shape of a rib that can reinforce the strength in terms of thickness relative to the surface of each of the opening and the four corner edges of the body portion 63 of the holder 60 is closed. It takes a structure that has become.

Thus, the holder 60 according to the present invention is provided in a single unit form that can be mounted in the form of floating in the air through the fixing bracket 70 provided in the condenser 42, the blowing fan 44 and The fan motor 43 is to provide a structure that can be easily installed in the condenser 42.

In particular, such a holder 60 structure is conventionally mounted directly on the base panel 50 by a bracket 48 to install the blowing fan 44 and the fan motor 43 adjacent to the condenser 42. By providing a structure that is different from the structure, the dust-proof structure can be performed in parallel.

In other words, since the holder 60 according to the present invention is mounted in the form of floating in the air through the fixing bracket 48 provided in the condenser 42 and does not come into direct contact with the base panel 50, The vibration generated when the fan motor 43 and the blowing fan 44 are operated is not directly transmitted to the base panel 50 by the holder 60.

Therefore, the vibration generated from the fan motor 43 and the blower fan 44 by the bracket 48 has a merit that a relatively improved dustproof effect can be expected as compared with that transmitted to the base panel 50. .

On the other hand, in the process of mounting the fan motor 43 on the holder 60 is fitted through the clip portion 43a made of a non-magnetic material is fixed so that the inside of the holder 60 and the fan motor 43 The electromagnets are not in contact with each other, thereby preventing the magnetic force loss from occurring in the electromagnets inside the fan motor 43.

In addition, due to the material characteristics of the clip 43a, the vibration generated when the fan motor 43 is operated is partially absorbed and extinguished to serve to reduce vibration noise.

Looking at the mounting process and the effect of the holder according to the present invention described above are as follows.

First, when the blowing fan 44 and the fan motor 43 are to be mounted to the inside of the condenser 42 through the holder 60 according to the present invention, the body portion 63 of the holder 60. The clip part 43a of the fan motor 43 is fitted and mounted on the mounting part 63a provided on the upper part, and in this state, the blower fan 44 is fitted onto the front rotation shaft of the fan motor 43. .

In such a state, the ends of the three fixing brackets 70 provided at the condenser 42, the vertices of the body portion 63 of the holder, and the end portions of the fastening portion 62 are engaged with each other in a one-to-one correspondence, and then screwed. By fastening and assembling with the fastener of, the mounting on the condenser 42 is completed.

Then, the condenser 42 is fixed on the base panel 50 on the fixing bracket 70 which is placed on the left and right sides of the condenser 42 except for the uppermost fixing bracket 70 among the three fixing brackets 70. Since the support bracket 49 is fastened, the condenser 42 is installed on the base panel 50 through the support bracket 49.

Therefore, when the blower fan 44 and the fan motor 43 are mounted by using the holder 60 according to the present invention as described above, the bracket 48 is conventionally installed on the base panel 50. The assembling work can be performed much more easily than when the blowing fan 44 and the fan motor 43 are assembled, and the assemblability thereof is greatly improved.

In particular, according to the present invention, even if the fan motor 43 and the blowing fan 44 is operated, vibration generated by the operation of the fan motor 43 is partially absorbed by the holder 60, and the base panel Since the vibration is not directly transmitted to 50, the vibration noise is greatly reduced.

As described above, according to the present invention, in order to improve the heat dissipation performance of the spiral type condenser, by changing and improving the structure of the blower fan disposed on one side of the condenser and the fan motor, the assembly of the fan motor can be assembled and assembled. In addition to improving the performance, there is an effect that can have a dustproof structure to reduce the vibration caused by the drive of the fan motor.

Claims (3)

In a refrigeration system having a spiral type condenser, When installing the blower fan and fan motor in the condenser to improve the heat dissipation conditions of the condenser, A plurality of fixing brackets installed at regular intervals on the outer circumferential surface of the condenser; The fan motor is applied to the spiral type condenser, characterized in that the holder is mounted to the end of the plurality of fixing brackets in a one-to-one correspondence form to be mounted in the air and at the same time the mounting fan and the fan motor are mounted. Holder structure. The method of claim 1, The holder, A body part having a pentagonal frame structure, and a support part in the form of a support that is extended from both sides of the lowermost end of the body part and corresponding to the fixing bracket of the condenser; Holder structure for a fan motor mounting applied to the spiral type condenser characterized in that it has a mounting portion protruding in a predetermined shape for fitting the fan motor on the body portion. The method of claim 2, The body portion of the holder has a skeleton structure in which the upper center portion is opened in a triangular shape and at the same time has a skeleton structure in which a lower portion of the lower center is opened in a rectangular shape, and a fan motor is mounted to the rectangular opening portion, and the triangle The opening part is a fan motor mounting holder structure applied to the spiral type condenser, characterized in that it has a vent function so that a more smooth air flow during the operation of the blower fan.

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