KR101917326B1 - Fan module assembly and food waste treatment apparatus having the same - Google Patents

Abstract

A fan module assembly according to the present invention includes a housing, a fan cover coupled to one side of the housing, a fan rotatably received within the housing, and a motor assembly for providing power to the fan in a state coupled to the fan cover A fan module; And a stationary magnetic force interlocking with the motor assembly, wherein the motor assembly includes a rotating magnetic force body magnetically interlocked with the stationary magnetic force body, a motor cover separated from and connected to one side of the rotating magnetic force body, And a rotary shaft rotatably coupled to the rotary magnetic force body and the fan, wherein the fan cover is sealed with the motor cover.
The present invention relates to a food processor in which a fan cover and a motor cover are sealed while a rotary shaft is not sealed, so that even when the rotary shaft is driven at low torque and high speed rotation, Operation is possible without worrying about leakage.

Description

≪ Desc / Clms Page number 1 > Fan module assembly and food waste disposer comprising same

The present invention relates to a fan module assembly and a food processor including the fan module. More particularly, the present invention relates to a fan module assembly and a food processor, A fan module assembly for preventing external leakage of the exhaust gas through the module and preventing inflow of a fluid that can be introduced into the rotary magnetic force body connected to the rotary shaft and a rotary shaft receiving a relatively large internal pressure, Processor.

Generally, a certain amount of food waste is discharged every day from households or restaurants, and such food waste is disposed of only after the water has been filtered through a simple screen. Such a conventional food garbage disposal method causes unpleasant odors to pollute the surrounding air if garbage is not frequently discarded. Due to recent improvements in eating habits and increase in restaurants, many food waste has been discharged from households or catering establishments. In addition, most of the food waste has been abandoned in a state containing a large amount of water, thereby causing pollution of the environment.

Generally, the food waste treatment system is capable of hygienic treatment by powder drying through the steps of stirring, crushing, and drying the foodstuffs that have been introduced, and has been widely recognized as an eco-friendly product by reducing the volume thereof .

BACKGROUND ART [0002] In recent years, a circulating type food processor has been used as an example of a food processor. The circulation type food processor has cooled and condensed exhaust gas of high temperature and high humidity generated in a drying furnace and discharged the exhaust gas. So that the process is completed.

In the recirculating food processor, hot and humid exhaust gases are recirculated without being discharged to the outside, so that they must be recirculated continuously through a circulating fan that is linked to a motor with a relatively high power. Further, since the exhaust gas is not discharged to the outside, a large amount of moisture of the exhaust gas must be recycled after being condensed and removed. To this end, a high-performance heat exchanger must be used. Thus, a dual fan module driving system for circulating fan module and cooling fan module is required for recirculation and cooling of exhaust gas discharged from the drying furnace.

The circulating fan module and the cooling fan module each have a fan blade, a rotating shaft, and a rotating magnetic force body. There may be a problem that fluid may flow along the rotating shaft due to pressure and vibration generated when the motor rotates at a high speed in the course of using the dual fan module driving system and adversely affect the rotating magnetic force body. Particularly, in a dual fan module assembly having a plurality of rotating magnetic force bodies, etc., there is a problem in that the built-in sealing member is easily broken due to biased pressure acting on the side of the one fan module, resulting in low durability of the device.

On the other hand, in order to facilitate the re-introduction of the exhaust gas in the circulating type food processor, high speed rotation of the circulating fan disposed on the pipe connected to the drying furnace can be supported. That is, the high-speed rotation of the circulating fan is an essential factor in discharging the high-temperature exhaust gas generated in the drying furnace or injecting the purified exhaust gas into the drying furnace again.

A rotary shaft connecting a circulation fan disposed in a duct connected to a drying furnace and a motor disposed outside the duct is opened to the outside, and odor and steam flowing through the duct are connected to the rotary shaft of the motor There is a problem that it is uncomfortable due to leakage. Therefore, when the rotary shaft is sealed in the process of solving such a problem, there is a problem that it is difficult to rotate the circulating fan at high speed.

In addition, even in the case of a structure in which leakage of the exhaust gas from the pipeline is prevented by using a sealing cover for sealing the rotating shaft and the motor integrally, due to friction and wear of the sealing member fastened on the rotating shaft at the time of rotating the rotating shaft, Which is disadvantageous for high-speed rotation of the exhaust gas recirculation system.

In order to solve the above problems, the present invention provides a fan module assembly for preventing leakage or inflow of fluid by reinforcing the sealing to seal all the components constituting one of the circulating fan module and the cooling fan module, And a food processor including the same.

It is another object of the present invention to provide a fan module assembly including a separate motor cover for preventing external leakage of exhaust gas flowing through a duct without employing a structure for sealing the rotating shaft so as to enable high- The purpose.

Further, according to the present invention, the motor cover is sealed with a pipe through which the exhaust gas circulates, so that the exhaust gas on the pipe flows into a region of the front surface of the motor along the rotation axis of the motor, And to provide a module assembly.

In addition, the present invention provides a structure in which sealing is not performed with respect to the rotating shaft portion of the motor, and as a result, high-speed rotation of the fan connected to the rotating shaft is enabled.

According to an aspect of the present invention, there is provided a fan module assembly including a housing, a fan cover coupled to one side of the housing, a fan rotatably received in the housing, A fan module including a motor assembly that provides power to the fan in a state that the fan module is in a state of being closed; And a stationary magnetic force interlocking with the motor assembly, wherein the motor assembly includes a rotating magnetic force body magnetically interlocked with the stationary magnetic force body, a motor cover separated from and connected to one side of the rotating magnetic force body, And a rotary shaft rotatably coupled to the rotary magnetic force body and the fan, wherein the fan cover is sealed with the motor cover.

The motor cover may include a first protrusion protruding from a central portion of the motor cover, and the first protrusion may be sealed with the fan cover.

It is preferable that the exhaust gas of the housing can flow into the buffer space formed between the motor cover and the rotating magnetic force body.

The buffer space may preferably be sealed with outside air.

The motor cover may include a second protrusion which is formed in a ring shape at a predetermined distance from the first protrusion, and the second protrusion may be sealed with the stationary magnetic force body.

And a gap may be formed between the inner circumferential surface of the first projection and the rotation axis.

The fan module assembly may further include at least one sealing member coupled to the motor cover.

The sealing member may include a first sealing member coupled to the first projection and a second sealing member coupled to the second projection, wherein the sealing members are preferably ring-shaped.

The first sealing member seals between the first protrusion and the fan cover, and the second sealing member seals between the motor protrusion extending from the motor and the motor cover.

It is preferable that the stationary magnetic force member is disposed between the plurality of fan modules, and one of the fan modules is in a state of being hermetically sealed with the surrounding.

Wherein the first fan module includes a first fan module and a second fan module disposed to face the first fan module with respect to the stationary magnetic force body, And may be arranged in a direction different from the second rotation axis constituting the module.

According to another aspect of the present invention, there is provided a food processor including a fan module assembly.

It is preferable that the exhaust gas generated in the food processor is circulated through the housing and the buffer space.

The fan module may include a circulating fan module and a cooling fan module, and the circulating fan module may be connected to an exhaust gas channel.

The cooling fan module may preferably communicate with the outside air.

The food processor includes a drying furnace; And an intake and exhaust module communicating with the drying furnace, wherein the circulation fan module is preferably communicated with the intake and exhaust module.

The food processor may further include: a heat exchanger communicating with the intake and exhaust module; And a buffer tank communicating with the heat exchanger, wherein the cooling fan module may be in communication with the heat exchanger.

As described above, the fan module assembly and the food processor including the fan module according to the present invention are characterized in that all the components of the fan module of the circulation fan module and the cooling fan module each having a blade, a rotating shaft, So as to prevent leakage or inflow of the fluid, thereby enabling smooth cooling and circulation of the exhaust gas generated in the drying furnace.

The present invention has the advantage that the efficiency of food processing can be kept high by reducing fluid leakage and power loss in the circulating fan module.

The fan module assembly and the food processor including the fan module assembly seal the fan cover and the motor cover without sealing the rotary shaft to maintain the rotation performance of the rotary shaft even when the rotary shaft is driven at low torque and high speed It is possible to operate without worrying about leakage of the exhaust gas to the outside.

According to the present invention, the motor cover is sealed with a pipe through which the exhaust gas circulates, so that the exhaust gas on the pipe flows into a region of the front surface of the motor along the rotation axis of the motor and returns to the pipe.

Further, the present invention constitutes a double sealing structure on both sides with respect to the motor cover, thereby effectively preventing external leakage of gas flowing through the pipeline.

The fan module assembly according to the present invention has a buffer space that is connected to the housing through a gap, thereby achieving a dual effect of preventing the exhaust gas from leaking while maintaining the rotating performance of the rotating shaft.

1 is a conceptual diagram of a food processor including a fan module assembly according to the present invention;
2 is a perspective view of a food processor according to the present invention,
3 is a perspective view of a fan module assembly according to one embodiment of the present invention,
4 is a cross-sectional view taken along line AA of Fig. 1, and Fig.
5 is a view showing the motor assembly of the present invention.

These and other objects, features and other advantages of the present invention will become more apparent by describing in detail preferred embodiments of the present invention with reference to the accompanying drawings. The embodiments described are provided by way of illustration for the purposes of illustration and are not intended to limit the scope of the invention.

The components of the fan module assembly and the food processor including the fan module assembly of the present invention can be integrally manufactured or separately manufactured as needed. In addition, some components may be omitted depending on the usage pattern.

Hereinafter, a fan module assembly and a food processor including the same according to embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Overall configuration of the food processor

1 and 2, a general configuration of a food processor according to the present invention will be described.

In the food processor according to the present invention, the first fan module 310 of the fan module assembly 300 may be used as a circulating fan module, and the second fan module 370 may be used as a cooling fan module. In the following description, circulating fan modules and cooling fan modules will be described as reference numerals of "310" and "370", respectively.

The food processor according to the present invention includes a drying furnace 100, an intake and exhaust module 200, a fan module assembly 300, a buffer tank 400, a heat exchanger 500 and a door 600.

The door 600 is located above the drying furnace 100. The user can open the door 600 and insert the food waste to be processed into the drying furnace 100. [

The drying furnace (100) is charged with food waste. A heater (not shown) and a crushing / agitating machine (not shown) are located, and the food waste is dried, crushed, and agitated to be crushed and discharged to the outside, thereby producing exhaust gas having high temperature and high humidity and odor.

Drying, grinding and agitation are performed to treat food waste. Hereinafter, such processes are referred to as "treatment" of food waste.

The intake and exhaust module 200 communicates with the drying furnace 100. One side of the intake and exhaust module 200 communicates with the drying furnace 100 and the exhaust gas generated in the drying furnace 100 flows into the intake and exhaust module 200. The recycle gas, (100).

The other side of the intake and exhaust module 200 communicates with the exhaust gas passage 210 and the recycle gas passage 270 so that the exhaust gas flowing into the intake and exhaust module 200 flows into the exhaust gas passage 210, Recirculation gas flows from the flow path 270.

The fan module assembly 300 includes a circulating fan module 310 and a cooling fan module 370.

The circulating fan module 310 communicates with the exhaust gas flow path 210 to allow the hot and humid exhaust gas to flow from the intake and exhaust module 200 to the heat exchanger 500.

One side of the cooling fan module 370 communicates with the outside air and the other side communicates with the heat exchanger 500 to supply the outside air to the heat exchanger 500 to perform air cooling type heat exchange. Preferably, the circulating fan module 310 assists in the flow of hot and humid exhaust gases, and the cooling fan module 370 is preferably sealed to each other to assist in the flow of cold outside air.

The heat exchanger 500 communicates with the exhaust gas passage 210 and the recycle gas passage 270.

The hot and humid exhaust gas supplied through the exhaust gas passage 210 is heat-exchanged inside the heat exchanger 500 to generate condensed water and convert the exhaust gas into a low-temperature recycle gas. For this, external air is introduced by the cooling fan module 370.

The buffer tank 400 collects and discharges the condensed water generated by the heat exchange of the exhaust gas in the heat exchanger 500 to the outside.

As described above, the circulation type food and beverage processing unit using the intake and exhaustion module 200 does not require the filter to be discharged because the exhaust gas having odor is not discharged to the outside, so the manufacturing cost is reduced and the filter replacement is not necessary. . Therefore, the manufacturing cost can be further reduced by adding the fan module assembly according to the present invention, and the total volume of the food processor is reduced, so that it is convenient to be installed at home.

Description of the structure of the fan module assembly 300, 300 '

3 to 6, the structure of the fan module assembly 300 or 300 'according to the present invention will be described in detail.

First, the fan module assembly 300 includes a circulation fan module 310 that communicates with a gas discharge pipe on a food processor, a cooling fan module 370 that supplies external air to the heat exchanger to perform air-cooled heat exchange, And a single stationary magnetic force body (350).

The present invention can be applied to the circulating fan module 310 which may leak to the outside from the gas discharge pipe, but the present invention is not limited to this and is also applicable to the cooling fan module 370. The circulating fan module 310 and the cooling fan module 370 are referred to as a first fan module 310 and a second fan module 370, respectively. The first fan module 310 and the second fan module 370 are disposed symmetrically with respect to the stationary magnetic force body 350. In FIG. 4, the first fan module 310 and the second fan module 370 disposed on the left side of the stationary magnetic force body 350 310 will be described in detail. The second fan module 370 has the same structure as that of the first fan module 310, so that description thereof will be omitted.

In the present invention, when the rotary shafts constituting the first fan module 310 and the second fan module 370 are located in the same direction, the fan blades can interfere with each other. Therefore, It is preferable that they are directed in different directions.

It is also desirable that the fluid flow by the two fan modules 310, 370 does not interfere with each other. For example, if the hot exhaust gas flows by the first fan module 310 and the cold outside air flows by the second fan module 370, the flow by the first fan module 310 and the flow by the second fan < RTI ID = The flow by the module 370 should be differentiated. To this end, the first fan 310 module and the second fan module 370 are preferably sealed to each other.

The second embodiment 300 'of the fan module assembly shown in FIG. 6 includes a circulation fan module 310 communicating with the gas discharge pipe on the food processor, and a stationary magnetic force body (not shown) interlocked with the circulation fan module 310 350). In the second embodiment, only the single fan module 310 is driven through the stationary magnetic force body 350. In the first embodiment, the fan modules 310 and 370 are arranged symmetrically with respect to the stationary magnetic force body 350 The driving principle is the same.

Circulating fan  Structure description of module 310

Hereinafter, the structure of the circulating fan module 310 will be described.

The circulating fan module 310 includes a housing 311 having an exhaust gas inlet 210 connected to a gas discharge line, a fan cover 312 coupled to an open side of the housing 311, And a motor assembly 340 that provides power to the fan 315 in a state coupled to the fan cover 312. The fan assembly 315 includes a fan assembly 316,

The cooling fan module 370 may have the same symmetrical structure as the circulating fan module 310 with reference to the stationary magnetic force member 350.

The exhaust gas discharged from the drying furnace of the food processor is introduced into the housing 311 through the exhaust gas inlet 210 and then circulated at a high speed in the housing 311 by rotation of the fan 315, And moves to the connection portion 380.

The fan cover 312 includes a main plate 313 in the shape of a flat plate, a central engaging portion 314 protruding from the center of the main plate 313 to one side, and a central engaging portion 314 extending from the edge of the main plate 313 to the other side And includes an extension 320.

The fan 315 includes a hollow cylindrical fan shaft 317 and a blade 316 disposed at a radially constant distance from the fan shaft 317.

Description of the structure of the motor assembly 340

Next, the structure of the motor assembly 340 as an embodiment of the present invention will be described with reference to Figs. 4 and 5. Fig.

The motor assembly 340 includes a motor cover 345 formed to surround one side of the stationary magnetic force body 350, a rotating shaft 346 that is rotatably coupled to the stationary magnetic force body 350 through a central portion of the motor cover 345, And a rotating magnetic force body 341 disposed so as to surround the rotating shaft 346 in the cushion space 394 composed of the motor cover 345 and the stationary magnetic force body 350. One end of the rotating shaft 346 is coupled to a bearing 349 fixed to the inside of the stationary magnetic force body 350. The bearing 349 may be installed at a plurality of locations to facilitate the driving of the rotating shaft 346. The rotating magnetic force body 341 is a magnetic force material and can rotate in conjunction with the magnetic force material embedded in the stationary magnetic force body 350.

The motor cover 345 includes a first protrusion 347 formed at a central portion thereof and a second protrusion 348 formed at a predetermined distance from the first protrusion 347. The protrusions 347 and 348 may be cylindrical or ring-shaped, respectively. A gap 360 having a predetermined width is formed between the outer circumferential surface of the rotating shaft 346 and the inner surface of the first protruding portion 347.

The rotating magnetic force body 341 has an inner portion 342 directly attached to the rotating shaft 346, an outer portion 344 spaced apart from the inner portion 342 by a predetermined distance, and an inner portion 342 bonded to the outer portion 344 (Not shown).

The motor assembly 340 further includes a plurality of sealing members 362, 364 coupled onto the motor cover 345. The sealing members 362 and 364 include a first sealing member 362 that engages the first protrusion 347 and a second sealing member 364 that engages the second protrusion 348. Specifically, the first sealing member 362 may be of a ring type sandwiched in a groove formed on the outer peripheral surface of the first projection 347. [ On the other hand, the second sealing member 364 simultaneously contacts the motor protrusion 352 extending from the stationary magnetic force body 350 as a ring-type structure fitted to the inner surface of the second projection 348. [

The sealing structure and function of the fan cover 312 and the motor cover 345

The present invention is to prevent the exhaust gas flowing inside the housing 311 from leaking to the outside by engaging the motor cover 345 with the fan cover 312, The first projecting portion 347 of the motor cover 345 is engaged with the portion 314 to prevent the exhaust gas from leaking through the center portion of the fan cover 312. The first sealing member 362 is disposed between the first protrusion 347 and the central coupling portion 314 to seal the space between the fan cover 312 and the motor cover 345.

The second sealing member 364 prevents the exhaust gas flowing into the buffer space of the motor cover 345 and the stationary magnetic force body 350 from leaking to the outside through the gap 360.

4 and 5, the exhaust gas flowing into the housing 311 through the exhaust gas inlet 210 flows into the gap 360 to perform a free movement in the space, and thereafter passes through the gap 360 again And returns to the housing 311 (reference numeral 392 denotes the exhaust gas flow).

As described above, according to the present invention, since the buffer space is connected to the housing 311 through the gap 360, even when the rotating shaft 346 is driven at low torque and high speed rotation, This is possible.

As described above, the present invention is required to install a fan module assembly rotating at a high speed for a circulating food processing system for condensing, deodorizing, and re-supplying exhaust gas generated in a drying furnace of a food processor, Provides a motor cover sealing structure composed of a double sealing member structure in order to prevent the odor or moisture from the gas discharge pipe from being discharged to the outside as much as possible.

Although the preferred embodiments of the present invention have been described, the present invention is not limited to the specific embodiments described above. It will be apparent to those skilled in the art that numerous modifications and variations can be made in the present invention without departing from the spirit or scope of the appended claims. And equivalents should also be considered to be within the scope of the present invention.

100: drying furnace
200: Intake and Exhaust Module
210: Exhaust gas flow
270: Recirculating gas channel
300, 300 ': fan module assembly
310: first fan module
311: Housing
312: Fan cover
313: Main plate
314: Central fastening portion
315: Fan
316: Blade
317: Fan shaft
320: Extension
340: Motor assembly
341: Rotor force body
342: medial side
343: Connection
344:
345: Motor cover
346:
347: first protrusion
348: second projection
349: Bearings
350: Fixed magnet body
352: Motor protrusion
360: clearance
362: first sealing member
364: second sealing member
370: second fan module
380: buffer connection
392: Exhaust gas flow
394: Buffer space
400: Buffer tank
500: heat exchanger
600: Door

Claims (17)

A fan assembly comprising: a housing; a fan cover coupled to one side of the housing; a fan rotatably received in the housing; and a motor assembly for providing power to the fan in a state coupled to the fan cover, And a fan module,
The motor assembly comprising:
A rotating magnetic force body magnetically interlocked with the stationary magnetic force body,
A first protrusion that is spaced apart from the first protrusion and that is spaced apart from the first protrusion by a ring shape to be spaced apart from the first protrusion, A motor cover including a first protrusion and a second protrusion to be sealed,
And a rotating shaft penetrating through the motor cover to be rotatably coupled to the rotating magnetic force body and the fan,
Characterized in that the fan cover is sealed with the motor cover.
Fan module assembly.
A fan assembly comprising: a housing; a fan cover coupled to one side of the housing; a fan rotatably received in the housing; and a motor assembly for providing power to the fan in a state coupled to the fan cover, And a fan module,
The motor assembly comprising:
A rotating magnetic force body magnetically interlocked with the stationary magnetic force body,
A motor cover which is spaced apart from one side of the rotator and has a cylindrical protrusion formed at a central portion of the motor cover and sealed with the fan cover,
A rotating shaft passing through the motor cover to be rotatably coupled to the rotating magnetic force body and the fan,
And a gap located between the inner circumferential surface of the first projection and the rotation axis,
Wherein the fan cover is sealed with the motor cover and the exhaust gas of the housing is able to flow into the buffer space formed between the motor cover and the rotating magnetic force body through the gap.
Fan module assembly.
The method according to claim 1,
And the exhaust gas of the housing is allowed to flow into the buffer space formed between the motor cover and the rotating magnetic force body.
Fan module assembly.
The method according to claim 2 or 3,
Characterized in that the buffer space is sealed with outside air.
Fan module assembly.
delete delete 3. The method according to claim 1 or 2,
The fan module assembly comprising:
And at least one sealing member coupled to the motor cover.
Fan module assembly.
8. The method of claim 7,
Wherein the sealing member includes a first sealing member coupled to the first projection and a second sealing member coupled to the second projection, wherein the sealing members are ring-
Fan module assembly.
9. The method of claim 8,
Characterized in that the first sealing member seals between the first projection and the fan cover and the second sealing member seals between the motor projection extending from the motor and the motor cover.
Fan module assembly.
3. The method according to claim 1 or 2,
Wherein the stationary magnetic force member is disposed between the plurality of fan modules, and wherein one of the fan modules is in a state of being hermetically closed with respect to the periphery thereof.
Fan module assembly.
11. The method of claim 10,
Wherein the first fan module includes a first fan module and a second fan module disposed to face the first fan module with respect to the stationary magnetic force body, And the second rotation axis is arranged in a direction different from the second rotation axis constituting the module.
Fan module assembly.
A food processor comprising a fan module assembly according to claim 2 or 3,
And the exhaust gas generated in the food processor circulates through the housing and the buffer space.
Food processor.
A fan module assembly according to claim 1 or 2,
Food processor.
14. The method of claim 13,
Wherein the fan module includes a circulating fan module and a cooling fan module, and the circulating fan module is connected to an exhaust gas passage.
Food processor.
15. The method of claim 14,
Wherein the cooling fan module communicates with the outside air.
Food processor.
15. The method of claim 14,
The food processor may further comprise:
Drying furnace; And
Further comprising an intake and exhaust module communicating with the drying furnace,
And the circulation fan module communicates with the intake and exhaust module.
Food processor.
17. The method of claim 16,
The food processor may further comprise:
A heat exchanger communicating with the intake and exhaust module; And
A buffer tank in communication with the heat exchanger;
Further comprising:
And the cooling fan module communicates with the heat exchanger.
Food processor.

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