KR101118280B1 - Filter cleaning apparatus of stable ventilation apparatus and control method thereof - Google Patents

Abstract

The present invention relates to a dedusting device for a livestock ventilator capable of removing dust and foreign matter accumulated in a filter for purifying the air discharged from the livestock ventilator, and a control method thereof, and an indoor unit having an air supply duct, an exhaust duct, and a purifying unit. In the barn ventilation apparatus having a main body having a pair of heat exchanger and a connecting duct connecting the interior and the main body, the case and cover installed on one side of the frame of the purification unit, a motor for generating a rotational power, the motor A configuration including a moving member linearly reciprocating along the guide groove formed in the cover using a rotary power, a collecting box for collecting dust and foreign substances scraped by the moving member, and a control unit for controlling the driving of the motor; do.

By using the above-mentioned exhaust device and the control method of the livestock ventilator as described above, the present invention drives the exhaust fan to purify the air sucked into the purification unit and discharged to the outside, scraping off dust and foreign matter accumulated in the filter to collect It is possible to keep the filter clean by the dust removal operation.

Barn Ventilator, Dust Collector, Motor, Brush

Description

FILTER CLEANING APPARATUS OF STABLE VENTILATION APPARATUS AND CONTROL METHOD THEREOF}

The present invention relates to a dedusting apparatus and a control method thereof of the livestock ventilator, and more particularly to purify the air discharged to the outside through the livestock ventilator, to remove dust and foreign matter accumulated in the filter provided for air purification. The present invention relates to a dust removal device for a livestock ventilation system and a control method thereof.

In addition to agricultural production, ordinary farmhouses use the barn to raise livestock such as cattle, pigs, chickens, and dogs to generate economic profits.

Of these livestock, the chicken breathes air for metabolism, feeds and waters, and releases poultry, carbon dioxide (CO ₂ ), and heat. Therefore, inside the cage, bad smell and ammonia (NH ₄ ) water vapor due to poultice and respiration are generated.

The results from the metabolism of chickens, if neglected, cause many illnesses, depending on climatic conditions, which lead to productivity and quality problems. For example, coliform disease in chickens is caused by the generation of ammonia gas and causes mortality, causing problems such as decreased feed efficiency and discolored eggs. In addition, most of the diseases causing quality deterioration such as chick umbilitis and navel inflammation are caused by moisture and harmful gases. In order to solve these problems, ventilation is essential for breeding flocks.

However, currently used cages are poor environment where both heating and cooling should be considered in terms of breeding conditions due to poor thermal insulation structure and distinct weather conditions in four seasons. In addition, the summer climate is hot and humid, and in winter, the temperature is low and low, which is expensive to maintain the temperature and humidity of the house in season.

Ventilation systems inside the cage include side venting, tunneling, tunnel cross-mixing, and roof exhaust and tunnel-mixing ventilation.

Among them, an example of a cage ventilation apparatus using a roof exhaust and tunnel mixed ventilation method is disclosed in Korean Patent Publication No. 10-0156292 (registered on July 21, 1998, hereinafter referred to as 'Document 1').

1 is a block diagram of a cage ventilation system according to the document 1 above.

As shown in FIG. 1, the ventilation system 1 of the cage 1 according to Document 1 has a side wall 2 of a movable member 4, part of which is a fixing member 3 and the other part of which can be opened and closed, this side wall 2. Flap (6) formed on the upper side of the ventilator (5) and the flap (6) installed in the ventilation path (5) so as to switch or open or close the inflow direction of the outside air, the roof part (7) Ventilation fan (8) formed in the exhaust window (8), the control panel (9) installed at the inlet of the interior side of the exhaust window (8) and the exhaust fan installed on one side wall or rear wall of the side wall (2) to discharge the indoor air to the outside (Not shown).

The cage ventilation system according to this document 1 performs the ventilation of the cage 1 to maintain the optimum temperature and ventilation amount by natural ventilation or forced ventilation according to the climate change and the state inside the cage.

The cage ventilation system according to this document 1 performs the ventilation of the cage 1 to maintain the optimal temperature and ventilation amount by natural or forced ventilation method according to the climate change and the state inside the cage 1.

However, the cage ventilation system according to the document 1 directly sends the polluted air containing dust or foreign matter to the outside by using an exhaust window 8 installed on the roof 7 or a fan installed on the side wall 2 or the rear wall. Discharged. Therefore, the cage ventilation system according to Document 1 has a problem of polluting the air due to polluted air discharge.

In addition, the technique disclosed in the following Document 2 is provided with a plurality of fans on the roof of the cage at regular intervals, and having a mouth window on the upper wall of the entrance to operate the fan according to the environment inside and outside the cage to open and close the mouth window by the internal pressure. It is only disclosed for only the problem that does not have the function to purify or remove the dust and foreign matter contained in the air discharged from the room.

[Document 1] Republic of Korea Patent Publication No. 10-0156292 (registered September 28, 1998)

[Document 2] Republic of Korea Patent Publication No. 10-0679508 (registered February 31, 2007)

The present invention is to solve the problems as described above, an object of the present invention is to remove the dust and foreign matter accumulated in the filter for purifying the air discharged from the livestock ventilation apparatus of the livestock ventilation apparatus and its control To provide a way.

Another object of the present invention is to provide a dust removal apparatus for a livestock ventilation apparatus and a control method thereof capable of selectively controlling a driving speed and a driving cycle of a motor for linearly reciprocating a brush according to the accumulated amount of dust and foreign matter accumulated in a filter of a purification unit. To provide.

According to a feature of the present invention for achieving the above object, the present invention provides an indoor unit having an air supply duct and an exhaust duct and a purification unit, a main body having a pair of heat exchangers and a connection duct connecting the indoor unit with the main body. In the livestock ventilator provided with a case and cover installed on one side of the frame of the purifying unit, a motor for generating a rotational power, the cover by using the rotational power of the motor to scrape dust and foreign matter accumulated in the filter of the purifying unit And a control unit for controlling the driving of the motor and a collecting box for collecting dust and foreign substances scraped by the moving member, a linear reciprocating linear motion along the guide groove formed in the.

The present invention further includes a detection sensor for detecting a rotation of a motor driving the exhaust fan and generating a detection signal, wherein the controller is configured according to a reference speed for controlling the driving of the exhaust fan and a detection signal of the detection sensor. The rotation speed is compared, and as a result of the comparison, the actual rotation speed is characterized by controlling to drive the motor.

The moving member may include a horizontal bar connected to the rotating shaft of the motor and a brush for scraping off dust and foreign matter accumulated in the filter.

The present invention is characterized in that it further comprises a cleaning member formed in the concave-convex shape to clean the dust and foreign matter on the brush at the position immediately before the bottom dead center of the moving path of the moving member.

According to another feature of the invention, the present invention is applied to a livestock ventilator having an indoor unit having an air supply duct and an exhaust duct and a purifying unit, a main body having a pair of heat exchangers, and a connection duct connecting the indoor unit and the main body. In the control method of the dust removal apparatus, (a) driving the exhaust fan and the intake fan of the livestock ventilation device to perform ventilation, (b) detecting the actual number of rotation of the exhaust fan, (c) the actual rotation Comparing the number with the reference speed set by the control of the controller and (d) if the actual speed is less than the reference speed as a result of the comparison of the step (c), the moving member is linearly reciprocated to filter the purifying unit. And driving the motor to scrape off the dust and foreign matter accumulated in the.

Step (d) is characterized in that for controlling the drive of the motor by changing the drive speed or drive cycle of the motor in accordance with the difference between the actual rotation speed and the reference rotation speed.

As described above, the present invention by purifying the air sucked into the purifying unit by driving the exhaust fan and discharged to the outside, by performing a dust removal operation to scrape and collect the dust and foreign matter accumulated in the filter to keep the filter clean, It is possible to prevent the air from being contaminated by the air discharged to the outside through the house ventilation system.

In addition, the present invention improves the purification efficiency of the filter by minimizing the dust and foreign matter accumulated in the filter by changing the drive speed or drive cycle of the dust removal device in accordance with the rotational speed of the exhaust fan, to maintain a constant ventilation amount of the stall ventilation system The ventilation performance of the ventilation system can be improved.

Accordingly, the present invention has the effect of removing the dust and foreign matter inside the barn to maintain the inside of the barn in the optimal growth environment, and to prevent air pollution and environmental destruction due to the ventilation of the barn.

DETAILED DESCRIPTION Hereinafter, a dust extraction apparatus and a control method thereof of a livestock ventilation system according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

In the present embodiment will be described using a cage for raising chickens in livestock. However, the present invention is not limited only to cages, but can be modified to be applied to various places requiring ventilation such as mushroom growers, horticultural farmers, flower farmers, homes, factories, offices, as well as barns such as pigs and barns.

FIG. 2 is a configuration diagram of an air purifying system to which a cage ventilation apparatus according to an exemplary embodiment of the present invention is applied, FIG. 3 is a perspective view of the cage ventilation apparatus shown in FIG. 2, and FIG. 4 is the cage ventilation illustrated in FIG. 3. 5 is an exploded perspective view showing the apparatus from another side, FIG. 5 is a schematic view showing the internal configuration of the main body shown in FIG. 3, FIG. 6 is an exploded perspective view of the dust removal device shown in FIG. 3, and FIG. Is a schematic block diagram of.

As shown in FIG. 2, the air purifying system to which the dedusting apparatus is applied according to an exemplary embodiment of the present invention discharges the internal air of the cage 10 to the outside, and supplies fresh air outside to the cage 10. A plurality of cage ventilation apparatuses 11, a detector 12 for detecting the temperature, humidity and smell inside the cage 10 and the detection signal of the detector 12 of the cage ventilation apparatus 11 The central control part 13 which controls a drive is provided.

The cage ventilation apparatus 11 may vary in number, size, and position according to the width of the cage 10.

For example, the cage ventilator 11 is positioned in accordance with the temperature distribution inside the cage 10 using a computational fluid dynamics analysis method, and 6 to 10 units in one cage 10. The cage ventilation system 11 may be spaced apart by a predetermined interval. The configuration of the cage ventilation apparatus 11 will be described in detail with reference to FIGS. 3 to 5.

The detection unit 12 is a temperature sensor for detecting the temperature inside the cage 10, a humidity sensor for detecting the humidity and harmful gases such as ammonia or ethanol contained in the air to measure the pollution of the air inside the cage 10 At least one or more of the odor sensor for outputting a detection signal according to the concentration.

The central control unit 13 calculates in real time the required ventilation amount inside the cage 10 using the detection signal output from the detector 12 to simultaneously control each cage ventilator 11 or each cage ventilator 11. Can be controlled individually through the ID given by each.

To this end, the sensing unit 12, the central control unit 13 and the cage ventilation apparatus 11 is configured to be connected to each other by a wireless or wired communication method.

Next, the configuration of the cage ventilation system will be described in detail with reference to FIGS. 3 to 5.

First, as shown in FIGS. 3 and 4, the cage ventilation device 11 is installed inside the cage 10 to supply the outside air to the cage 10 and the air supply duct 21 and the cage 10 inside. An exhaust duct 22 for discharging the air to the outside and a purifying part 23 provided at the front end of the exhaust duct 22 to purify the air in the cage 10 and deliver the air to the exhaust duct 22. A connecting duct connecting the indoor unit 20 and the main body 40 to be inserted into a mounting hole perforated in the wall of the indoor unit 20, the main body 40 installed outside the house 10, and the house 10. 30 and a dedusting device 50 for removing dust and foreign matter filtered by the filter 231 provided in the purifying part 23.

As shown in FIG. 3, the air supply duct 21 is ventilated with first and second louvers 211 and 212 which rotate in left and right directions and up and down directions so as to adjust the direction of the air supplied to the cage 10. A damper (not shown) is provided to open and close the air supply duct 21 to block outside air from flowing into the cage 10 through the air supply duct 21 when the operation is stopped.

Motors (not shown) for driving the first and second louvers 211 and 212 and the dampers to rotate the first and second louvers 211 and 212 and the dampers, respectively, are controlled by the central control unit 14. It is preferably driven according to, or under the control of the controller 47 provided in the main body 40.

Alternatively, instead of having a damper, the first louver 211 may be rotated perpendicular to the ground to block the air supply duct 21 to prevent the inflow of outside air.

The purifying unit 23 includes a filter 231 for primary purification of indoor air and a frame 232 for tightly fixing the periphery of the filter 231.

The filter 231 has a stable collection performance, easy to clean and replace, use a semi-permanent use of the chloride network filter, the aluminum frame 232 so that the filter 231 can maintain a tight state It is preferable to be manufactured integrally with the.

At this time, the filter 231 and the frame 232 is installed inclined obliquely to the upper portion projecting toward the inside of the cage than the lower portion as shown in FIG. Accordingly, the present invention increases the amount of air sucked through the purification unit 23 and discharged to the outside of the cage 10, thereby improving the ventilation efficiency.

The connection duct 30 has three air passages arranged side by side, as shown in FIG. 4, wherein a pair of flow passages located at both sides is connected to the air supply duct 21 and air is introduced into the cage. An air supply flow path 31 for supplying the air flow path, and the flow path between the pair of air supply flow paths 31 is an exhaust flow path 32 for delivering air transferred from the exhaust duct 22 to the main body 40.

The main body 40 supplies fresh air to the outside and discharges the indoor air to the outside, and at the same time recovers the waste heat of the indoor air discharged to the outside to approximate the temperature of the air supplied to the room to the indoor air temperature. Do it.

As shown in FIG. 5, the main body 40 is formed in a box shape having a space formed therein, and includes a discharge port 41 for discharging indoor air on both sides, and a suction port for sucking fresh air from the outside. It is provided with a 42, the upper portion is provided with a connector (43) connected to the connection duct (30).

The discharge port 41 is formed with an inclined surface in which the tip is inclined downward so that the discharge air is discharged downward, and the suction port 42 has a filter network having a mesh higher than or equal to a predetermined reference to remove dust contained in external air. It is desirable to install it.

And the connector 43 is a pair of air supply port 431 and the exhaust port 31 is located between and connected to the exhaust flow path 31 so as to correspond to the air supply flow path 31 and the exhaust flow path 32 of the connection duct ( 432.

At this time, as the main body 40 and the connecting duct 30 are connected in the vertical direction, the air supplied and exhausted between the main body 40 and the connecting duct 30 must move in the vertical direction, so that the main body 40 is heat exchanged. It is preferable to further include a curved flow path formed with a certain curvature so that the air can move smoothly between the group 44 and the connector 43.

As shown in FIG. 5, an inner space of the main body 40 includes a pair of heat exchangers 44 for recovering waste heat and an exhaust fan 45 provided at the discharge port 41 to smoothly discharge indoor air. And an intake fan 46 and a heat exchanger 44, an exhaust fan 45, and an intake fan 16 that are provided at the intake port 42 to drive outdoor fresh air into the cage 10. A control unit 47 for controlling is provided.

The heat exchanger 44 stacks and assembles a plurality of cells that exchange heat as air flows, and the assembled pair of heat exchangers 44 are arranged in parallel in a single space to ensure sufficient ventilation.

The heat exchanger 44 preferably includes an intake filter 441 and an exhaust filter 442 for removing contaminants contained in air sucked into and discharged from the intake side inlet and the exhaust side inlet, respectively. That is, in the present invention, since the air supplied from the outside to the cage 10 is fresh air, purification is performed once through the intake filter 441, and the air discharged to the outside from the cage 10 is polluted air. Secondary purification of the filter 231 and the exhaust filter 442 of the purification unit 23 is performed.

In addition, the heat exchanger 44 is manufactured by injection molding a plastic material so as to reduce the manufacturing cost compared to a conventional heat exchanger using an expensive aluminum material.

The exhaust fan 45 and the intake fan 46 are provided with a brushless direct current motor (hereinafter referred to as "BLDC motor") that generates rotational power (not shown). The BLDC motor is more durable than a DC motor by removing brushes, consumes less power and has higher efficiency than an AC motor, and controls pulse width modulation (hereinafter, referred to as 'PWM'). Through the rotation of the BLDC motor can be easily controlled.

In particular, the exhaust fan 45 is provided with a multi-wing fan having a plurality of wings, the dust and foreign matter accumulated in the filter 231 of the purifying unit 23 is increased, the exhaust volume is reduced and the fan load is increased as The rotation speed of the BLDC motor is reduced.

Thus, as shown in FIG. 7, the main body 40 includes a detection sensor 451 for detecting an actual rotational speed of the BLDC motor driving the exhaust fan 45. The detection sensor 451 generates a detection signal according to the detected rotation speed and transmits the detection signal to the control unit 56 of the dust removal apparatus 50. The sensor 451 is preferably provided inside the BLDC motor to use one or more, for example, three Hall sensors for detecting the number of revolutions of the rotating shaft.

The controller 47 controls the driving of the heat exchanger 44, the exhaust fan 45, and the intake fan 46 under the control of the central controller 13. However, when an abnormality occurs in the central control unit 13, or when the user operates the manual operation button to individually operate each cage ventilation apparatus 11, the control unit 47 individually controls the operation according to the user's operation. You can also do

In addition, as shown in FIG. 4, the main body 40 opens and closes to replace the heat exchanger 44, the suction filter 441, and the exhaust filter 442, or to manually operate the controller 47. The door 48 is provided.

The door 48 is coupled to the main body 40 using a torque hinge so that the user can open the door 48 by a predetermined angle and then hold it by the user or maintain the open state without a separate pedestal. Accordingly, the door 48 is closed by itself when a force is applied in the open direction in the open state at the time of closing.

5, the drain plate 491 is formed to have a predetermined gradient in the lower portion of the heat exchanger 40 to collect condensed water condensed by the temperature difference between the indoor air and the outdoor air. And a drain portion 49 including a drain pipe 492 for discharging the condensed water collected in the drain plate 491 to the outside.

6 and 7, the dust removing device 50 includes a case 51 and a cover 52 installed on one side of the frame 232 of the purification unit 23, and a motor 53 generating rotational power. By using the rotational power of the motor 53, the moving member 54 linearly reciprocating along the guide groove 521 formed in the cover 53, the dust and foreign substances scraped off by the moving member 54 And a control unit 56 for controlling the driving of the motor 53 based on the detection signal of the collecting box 55 to collect and the detection sensor 451 detecting the actual rotational speed of the exhaust fan 45. .

The case 51 is formed in a box shape having one side opened, and the cover 52 shields one opened side of the case 51. The cover 52 has a guide groove 541 formed therethrough so as to guide the movable member 54 which moves up and down linearly.

Upper and lower dead center of the guide groove 541 is preferably provided with a limit switch 522 for detecting the moving member 54 to linearly reciprocate to transfer the detection signal to the controller 56.

The motor 53 is installed at an upper side in parallel with the filter 231 and the frame 232 to protrude toward the inside of the cage 10 rather than at the bottom, and is connected to a rotating shaft having a thread formed on an outer circumferential surface thereof.

The moving member 54 is coupled to the rotary shaft to reciprocate vertically linearly as the rotary shaft rotates by driving the motor 53 to scrape dust and foreign matter accumulated in the filter 231.

To this end, the movable member 54 is a horizontal bar 541, one side is connected to the rotary shaft is installed on the horizontal bar 541 and the brush 542 scraping off the dust and foreign matter accumulated in the filter 231 It is provided.

The brush 542 is formed to have a length corresponding to the width of the filter 231, it is preferably formed of a soft synthetic fiber material such as nylon to prevent damage and damage to the filter 231.

In addition, the cleaning member 543 formed in the concave-convex shape so as to remove dust and foreign matter from the brush 542 may be provided in parallel with the brush 542 at a position immediately before the bottom dead center in the movement path of the brush 542. .

The collecting box 55 is formed larger than the width of the filter 231 to prevent dust and foreign matter scraped off by the brush 542 from being dispersed and falling on the ground outside the collecting box 55. And the collecting box 55 is preferably formed detachably at the bottom of the frame 232 to be fixed at a predetermined position.

The controller 56 compares the actual rotation speed according to the detection signal of the detection sensor 451 with the reference rotation speed according to the control of the control unit 47 or the central control unit 13 of the main body 40. As a result of the comparison, when the actual rotation speed is smaller than the reference rotation speed, the controller 56 controls the motor 53 to be turned on to drive the brush 542 of the moving member 54 up and down linearly. At this time, the controller 56 controls to change the driving direction of the motor 53 according to the detection signal of the limit switch 522.

In addition, the controller 56 may control by changing the driving speed of the motor 53 or the driving cycle according to the on / off time of the motor 53 according to the difference between the actual rotation speed and the reference rotation speed.

Next, the control method of the dust removal apparatus according to the preferred embodiment of the present invention will be described in detail with reference to FIG.

8 is a flowchart illustrating a step-by-step control method of the dust removal apparatus according to the preferred embodiment of the present invention.

As shown in FIG. 8, in the control method of the dust removal apparatus according to the preferred embodiment of the present invention, the cage ventilation apparatus 11 drives the exhaust fan 45 and the intake fan 46 to perform a ventilation operation and simultaneously performs a cage ( 10) to recover the waste heat of the air discharged from the outside to supply the air having a temperature close to the temperature inside the cage 10 into the cage 10 (S10).

During the ventilation operation as described above, the filter 231 of the purifying unit 23 purifies the air discharged from the inside of the cage 10 to the outside. As a result, the filter 231 is accumulated dust and foreign matter filtered from the discharged air.

Thus, the controller 56 removes dust and foreign matter accumulated in the filter 231 by linearly reciprocating the brush 542 of the moving member 54.

To this end, the detection sensor 451 detects the rotational speed of the BLDC motor driving the exhaust fan 5 and transmits the detection signal to the control unit 56 (S11). Then, the controller 56 compares the actual rotation speed according to the detection signal with the reference rotation speed set according to the control of the control unit 47 or the central control unit 13 of the main body 40 (S12).

As a result of the comparison in step S12, if the actual rotation speed is smaller than the reference rotation speed, the controller 56 controls to drive the motor 53 on to drive the brush 542 in a vertical reciprocating motion (S13). Accordingly, the brush 542 scrapes off dust and foreign matter accumulated in the filter 231. In this case, the controller 56 may control to change the driving speed or change the driving period of the motor 53 according to the actual rotation speed change.

For example, the controller 56 controls the driving of the motor 53 to move the brush 542 at 20 mm / s, which is a preset basic driving speed.

If the actual rotation speed is smaller than the reference rotation speed, the controller 56 controls the driving of the motor 53 to move the brush 542 at 25 mm / s. On the other hand, when the actual rotation speed is greater than the reference rotation speed, the controller 56 may control the driving of the motor 53 to move the brush 542 at 15 mm / s.

Alternatively, the controller 56 may control the driving of the motor 53 by setting a basic driving speed and a basic driving period of the brush 542.

For example, the controller 56 sets the basic driving speed of the brush 542 to 20 mm / s, and sets the basic driving cycle to an on time of five linear up and down linear reciprocations and an off time of about 10 minutes.

Subsequently, the controller 56 may control to reduce or increase the driving period by changing the on time and the off time according to the actual rotation speed detected by the sensor 451.

The controller 56 drives the motor 53 until the reference rotational speed and the actual rotational speed are the same through the exhaustion operation. When the reference rotational speed and the actual rotational speed are the same (S14), the controller 56 performs the up and down linear reciprocating motion of the brush 542. The driving of the motor 53 is stopped to stop (S15).

Subsequently, the control unit 56 repeatedly performs steps S11 to S16 until the operation of the cage ventilation apparatus 11 is stopped (S16).

Through the process as described above, the present invention can improve the purification efficiency of the filter by removing the dust and foreign matter accumulated in the filter by linearly reciprocating the brush in accordance with the actual rotational speed of the exhaust fan.

The scope of the present invention is not limited to the embodiments described above, but is defined by the claims, and various changes and modifications can be made by those skilled in the art within the scope of the claims. It is self evident.

In the above embodiment, but described using the cage 10, the present invention is not necessarily limited thereto. That is, the present invention may be modified to be applied to various places requiring ventilation such as mushroom farms, horticultural farms, flower farms, homes, factories, offices, as well as barns such as barns and pigs.

1 is a block diagram of a cage ventilation apparatus according to the prior art.

2 is a block diagram of an air purification system using a cage ventilation apparatus according to a preferred embodiment of the present invention.

Figure 3 is a perspective view of the cage ventilation apparatus shown in FIG.

Figure 4 is an exploded perspective view showing the cage ventilation device shown in Figure 3 from another side.

5 is a configuration diagram showing the internal configuration of the main body shown in FIG.

Figure 6 is an exploded perspective view showing a dedusting device of the cage ventilation system according to a preferred embodiment of the present invention.

Figure 7 is a schematic block diagram of the main body and the dust removal device.

8 is a flowchart illustrating a control method of the dust removal apparatus according to the preferred embodiment of the present invention.

`` Explanation of symbols for main parts of drawings ''

10: cage 11: cage ventilator

12: sensing unit 13: central control unit

20: Interior 30: Connection duct

40: main body 45: exhaust fan

451: detection sensor 50: dust removal device

51: case 52: cover

521: guide groove 522: limit switch

53: motor 54: moving member

541 horizontal bar 542 brush

543: cleaning member 55: collecting box

56: control unit

Claims (6)

A livestock ventilator comprising: an indoor unit having an air supply duct, an exhaust duct, and a purifying unit; a main body having a pair of heat exchangers; and a connection duct connecting the indoor unit and the main body; A case and a cover installed at one side of the frame of the purification unit, A motor that generates rotational power, Moving member for linear reciprocating motion along the guide groove formed in the cover by using the rotational power of the motor to scrape dust and foreign matter accumulated in the filter of the purification unit, A collecting box for collecting dust and foreign matter scraped off by the moving member A sensor for detecting a rotational speed of the motor driving the exhaust fan and generating a detection signal; And a controller configured to compare the reference rotational speed controlling the driving of the exhaust fan with the actual rotational speed according to the detection signal of the detection sensor, and to control the driving of the motor when the actual rotational speed is smaller than the reference rotational speed as a result of the comparison. A dust removal device for a livestock ventilator. delete The method of claim 1, wherein the moving member A horizontal bar connected to the rotating shaft of the motor And a brush for scraping off dust and foreign matter accumulated in the filter. The method of claim 3, And a cleaning member which is formed in an uneven shape to clean the dust and foreign matter from the brush at a position immediately before the bottom dead center of the moving path of the moving member. In the control method of the dust removal apparatus applied to the livestock ventilator having an indoor unit having an air supply duct, an exhaust duct and a purifying unit, a main body having a pair of heat exchangers and a connection duct connecting the indoor unit and the main body, (a) driving the exhaust fan and the intake fan of the barn ventilation system to perform ventilation; (b) detecting the actual rotation speed of the exhaust fan; (c) comparing the actual rotation speed with a reference rotation speed set by the control of the controller; and (d) when the actual rotation speed is less than the reference rotation speed as a result of the comparison of step (c), driving the motor to scrape dust and foreign matter accumulated in the filter of the purification unit by linearly reciprocating the moving member; Control method of the dust removal apparatus, characterized in that. The method of claim 5, wherein step (d) And controlling the driving of the motor by changing the driving speed or driving period of the motor according to the difference between the actual rotation speed and the reference rotation speed.

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