WO2022085849A1

WO2022085849A1 - Air conditioner having perforated plate

Info

Publication number: WO2022085849A1
Application number: PCT/KR2020/016726
Authority: WO
Inventors: 이휘동
Original assignee: 주식회사 센추리산업
Priority date: 2020-10-20
Filing date: 2020-11-24
Publication date: 2022-04-28
Also published as: KR102421753B1; KR20220052167A

Abstract

The present invention relates to an air conditioner capable of improving the suction efficiency of suctioned air and, more specifically, disclosed is a technical field related to an air conditioner having a perforated plate, the air conditioner suctioning air through suction holes formed in a grill-type perforated plate provided on the side surface thereof, when the internal air of a control space is suctioned so that the temperature and humidity of the internal air of the control space are adjusted, having a diffusion part at the rear of the suction holes formed in the perforated plate so that the suction efficiency of the suctioned air per unit area can be increased and, simultaneously, diffusing the suctioned air by means of the diffusion part so that same is uniformly filtered through the surface of the filter, and thus purification efficiency can be increased.

Description

Air conditioner equipped with perforated plate

The present invention relates to an air conditioner capable of improving the suction efficiency of sucked air. More specifically, it is installed on the side when controlling the temperature and humidity of the air inside the control space by sucking the air inside the control space. To be sucked through a suction hole formed in a perforated plate in the form of a grill, and a diffusion portion is formed at the rear of the intake hole formed in the perforated plate to increase the suction efficiency of the air sucked per unit area, and at the same time, the air sucked by the diffusion portion This is a technical field related to an air conditioner equipped with a perforated plate that can increase the purification efficiency by diffusing the filter so that it can be filtered evenly on the surface of the filter.

BACKGROUND ART In general, an air conditioner is a device for reducing the temperature and humidity of air in a control space, and in a narrow sense, refers to a device that sets the temperature of indoor air to a state desired by a user and keeps the indoor air clean.

Such an air conditioner may use a refrigerant cycle for temperature or humidity control. In this case, the air conditioner may include a compressor, a condenser, an expansion mechanism, and an evaporator through which the refrigerant is circulated, and the air in the room is the air of the air conditioner. After being sucked into the inside of the air conditioner through the inlet, it may exchange heat with the condenser or evaporator, and may be discharged through the air outlet of the air conditioner.

In addition, the air conditioner as described above may include a purification mechanism such as a filter or an electric dust collector to control the cleanliness of indoor air, and after air is sucked into the inside of the air conditioner through the air intake port, the It is purified and can be discharged into the room through the air outlet.

At this time, a conventional air conditioner sucks outside air through a blower installed therein, and a grill-type perforated plate having a plurality of air intakes is installed on the side through which external air is sucked through the blower, and through the air intake External air is sucked in, and the sucked air is purified by a filter installed close to the air inlet to improve purification efficiency, prevent contamination of the inside of the air conditioner, and discharge the purified air again. are doing

That is, in the air conditioner as described above, air is sucked through an air inlet formed in a perforated plate in the form of a grill, and the suction efficiency of the sucked air is determined according to the size of the air inlet, and accordingly, in order to improve the suction efficiency, When the size of the air inlet is formed to be large, foreign substances are easily introduced through the air inlet, thereby causing a malfunction or reducing the service life.

In addition, in the air conditioner as described above, in order to solve the above problems, the air intake ports of the perforated plate are formed smaller and the number of air intakes is larger.

In addition, in the air conditioner as described above, the air that has passed through the air inlet has linear mobility by the air inlet, so that foreign substances are accumulated only at a specific location on the filter surface corresponding to the air inlet, thereby reducing the service life of the filter and reducing the purification efficiency. There was a problem with lowering.

The present invention is a technology devised to solve the problems according to the prior art, and the conventional air conditioner is difficult to improve the suction efficiency of the air sucked through the air inlet of the perforated plate, and only a specific position of the filter by the sucked air A problem occurs in that foreign matter is accumulated to reduce the service life of the filter and to lower the purification efficiency;

As a solution to this, by perforating the suction hole formed in the perforated plate and then bending the circumference of the suction hole backward to form a diffusion part, so that the suction efficiency of the air sucked by the diffusion part is improved and the sucked air is diffused at the same time The main purpose is to provide through an air conditioner equipped with a perforated plate that can improve the purification efficiency.

In the present invention, in order to realize the desired object as described above, a perforated plate formed by perforating a plurality of suction holes is installed on the side surface, a blower is installed inside, and external air is sucked through the suction hole of the perforated plate by the blower. In the air conditioner provided with a perforated plate constituted of a filtering purification filter, the air conditioner provided with a perforated plate is characterized in that the suction hole is bent backward and includes a protruding diffusion part.

In addition, the diffusion portion of the present invention is characterized in that it is bent so that the angle (θ) formed with the rear surface of the perforated plate is formed at an acute angle.

In addition, the diffusion unit of the present invention is a perforating step of forming a plurality of suction holes by perforating the perforated plate, a first bending step of forming a diffusion portion by bending a part of the circumference of the suction hole rearward, and the rear surface of the diffusion portion and the perforated plate It is characterized in that it is manufactured by a manufacturing method comprising a second bending step of bending the diffusion portion so that the formed angle θ is formed at an acute angle.

In addition, the perforated plate of the present invention is characterized in that it is configured to include any one suction hole and a plurality of micro-holes that are formed penetrating between the one suction hole and the adjacent suction hole.

In addition, the diffusion portion of the present invention is cut in the longitudinal direction, characterized in that it is configured to include a plurality of vortex prevention wings bent so as to be close to the rear surface of the perforated plate.

In addition, the diffusion part of the present invention is formed around the perforating step of forming a plurality of suction holes by perforating the perforated plate, and forming a plurality of incision lines in the outer direction of the suction hole to prevent a plurality of vortex The first bending step of bending the vortex prevention wing to the rear and the cutting step of forming a wing and the first bending step of bending a part of the circumference of the suction hole backward to form a diffusion part, and the vortex prevention wing to be in close contact with the rear surface of the perforated plate It is characterized in that it is manufactured by a manufacturing method comprising a second bending step and a third bending step of bending the diffusion portion so that the angle θ between the diffusion portion and the rear surface of the perforated plate is formed at an acute angle.

In addition, the perforated plate of the present invention includes an inlet member in which a coupling portion is formed protruding at the rear, the coupling portion is inserted into the suction hole and coupled thereto, and a suction hole having an inclined surface such that the diameter or width becomes smaller toward the rear is formed. It is characterized in that it is configured.

In addition, the inlet member of the present invention is characterized in that it comprises an installation space formed between the inclined surface and the outer peripheral surface and a heating coil installed around the lower surface of the installation space.

The air conditioner provided with the perforated plate according to the present invention presented as described above forms a diffusion part by perforating a plurality of suction holes in the perforated plate and then bending the circumference of the suction hole rearward, and the diffusion part is formed at an acute angle with the rear surface of the perforated plate. The effect of improving the suction efficiency of the air sucked through the suction hole by forming it to achieve; and

By allowing the air sucked in through the suction hole to be diffused through the diffusion unit and evenly filtered over the entire surface of the filter, it is possible to obtain an effect of improving the purification efficiency.

1 is a perspective view showing an air conditioner according to an example;

Figure 2 is a schematic view showing an air conditioner according to a preferred embodiment of the present invention.

Figure 3a is a front perspective view showing a perforated plate according to a preferred embodiment of the present invention.

Figure 3b is a rear perspective view showing a perforated plate according to a preferred embodiment of the present invention.

Figure 4 is a side cross-sectional view showing a perforated plate according to a preferred embodiment of the present invention.

Figure 5 is a partial enlarged side cross-sectional view showing a perforated plate for the flow of air according to a preferred embodiment of the present invention.

Figure 6 is a schematic view showing a method of forming an extension in the suction hole of the perforated plate according to a preferred embodiment of the present invention.

Figure 7a is a partial enlarged front cross-sectional view showing a perforated plate according to another embodiment of the present invention.

Figure 7b is a partially enlarged side cross-sectional view showing a perforated plate according to another embodiment of the present invention.

Figure 8 is a partially enlarged plan view showing a perforated plate according to another embodiment of the present invention.

9 is a partially enlarged plan sectional view showing a perforated plate according to another embodiment of the present invention.

Figure 10 is a schematic view showing a method of forming an extension in the suction hole of the perforated plate according to another embodiment of the present invention.

11 is a front perspective view showing a perforated plate on which an inlet member is installed according to a preferred embodiment of the present invention.

12 is a partially enlarged side cross-sectional view showing a perforated plate with an inlet member installed in the suction hole according to a preferred embodiment of the present invention.

*Detailed explanation of the main symbols in the drawing*

10: air conditioner 100: perforated plate

110: suction hole 112: extension

112a: vortex prevention wing 120: fine hole

130: inlet member 132: coupling part

134: suction hole 134a: inclined surface

136: installation space 138: heating coil

200: blower 300: purification filter

The present invention relates to an air conditioner (10) capable of improving the suction efficiency of sucked air. More specifically, when controlling the temperature and humidity of the air inside the control space by sucking the air inside the control space It is to be sucked through the suction hole 110 formed in the perforated plate 100 installed on the side, and the diffusion part 112 is formed in the rear of the suction hole 110 formed in the perforated plate 100 to reduce the amount of air sucked per unit area. A perforated plate capable of improving the purification efficiency by spreading the air sucked in by the diffusion unit 112 while improving the suction efficiency so that it can be evenly filtered through the entire surface of the purification filter 200 is provided It is a technology related to the air conditioning system.

In the configuration for achieving the present invention as described above, a perforated plate 100 formed by perforating a plurality of suction holes 110 on the side is installed, a blower 200 is installed inside, and the blower 200 is provided to the outside. In the air conditioner 10 provided with a perforated plate comprising a purification filter 300 for filtering when air is sucked in through the suction hole 110 of the perforated plate 100, the suction hole 110 is bent backward, It characterized in that it is configured to include;

In addition, the diffusion portion 112 of the present invention is characterized in that it is bent so that an angle θ formed with the rear surface of the perforated plate 100 is formed at an acute angle.

In addition, the diffusion unit 112 of the present invention is a perforating step (S10) of perforating the perforated plate 110 to form a plurality of suction holes 110; and bending a part of the circumference of the suction hole 110 backward a first bending step (S20) of forming the diffusion unit 112; and a second bending step (S30) of bending the diffusion portion 112 so that the angle θ between the diffusion portion 112 and the rear surface of the perforated plate 100 is formed at an acute angle. characterized in that it is manufactured.

In addition, the perforated plate 100 of the present invention includes any one of the suction holes 110 and a plurality of micro-holes 120 that are formed between the one suction hole 110 and the adjacent suction hole 110; It is characterized in that it comprises a.

In addition, the diffusion portion 112 of the present invention is cut in the longitudinal direction and a plurality of vortex prevention wings (112a) bent to be close to the rear surface of the perforated plate 100; characterized in that it is configured to include.

In addition, the diffusion part 112 of the present invention is a perforating step (S100) of perforating the perforated plate 100 to form a plurality of suction holes 110; and forming around the suction holes 110, the A cutting step (S200) of forming a plurality of vortex prevention blades 112a by forming a plurality of incision lines in the outer direction of the suction hole 110; and a first bending step of bending the vortex prevention blades 112a backward (S300); and a second bending step of forming a diffusion portion 112 by bending a portion of the circumference of the suction hole 110 to the rear, and bringing the vortex prevention wing 112a into close contact with the rear surface of the perforated plate 100 (S400); and a third bending step (S500) of bending the diffusion portion 112 so that the angle θ between the diffusion portion 112 and the rear surface of the perforated plate 100 is formed at an acute angle. characterized in that it is manufactured.

In addition, in the perforated plate 100 of the present invention, a coupling part 132 is protruded to the rear, and the coupling part 132 is inserted into and coupled to the suction hole 110, and the diameter or width becomes smaller toward the rear. and an inlet member 130 having a suction hole 134 having an inclined surface 134a to be lowered.

In addition, the inlet member 130 of the present invention has an installation space 136 formed between the inclined surface 134a and an outer peripheral surface; and a heating coil 138 installed around the lower surface of the installation space 136 . It is characterized in that it is composed of;

Hereinafter, the present invention will be described in detail with reference to drawings 1 to 12 showing an embodiment of the present invention, and the diffusion part 112 of the present invention is shown differently in a perspective view, a side view, and a cross-sectional view. is to be emphasized in a perspective view, and is shown in a side view and a cross-sectional view as a preferred embodiment.

First, the air conditioner 10 of the present invention is installed inside the housing and the housing, like the general air conditioner shown in FIG. 1 and the schematic structure shown in FIG. It is configured to include a blower 200 capable of sucking and discharging air, and is installed on the side of the housing, that is, on the side sucked by the blower 200 , a perforated plate formed by perforating a plurality of suction holes 110 . It is configured to include ( 100 ), and it is configured to include a purification filter ( 300 ) for purifying air sucked in through the suction hole ( 110 ) of the perforated plate ( 100 ).

That is, in the air conditioner 10 of the present invention, air is sucked into the suction hole 110 of the perforated plate 100 by the operation of the blower 200 , and the sucked air is located at the rear of the perforated plate 100 . It is purified by the purification filter 300 installed so as to be possible, and the air purified to the outside of the control space, that is, the housing, is purified through discharge holes (not shown) formed on the side or upper and lower surfaces of other housings where the perforated plate 100 is not installed. is emitted

At this time, the perforated plate 100 may be generally formed in the form of a grill, but in the present invention, unlike a general grill, the suction hole 110 is formed to pass through, and the rear of the suction hole 110 will be described in detail later. A diffusion portion 112 to be formed is formed.

Next, the diffusion unit 112, which is a main component for achieving the present invention, is

As being bent and protruding to the rear of the suction hole 110 of the perforated plate 100, it is bent at a right angle or more to form a diffusion space (not shown) communicating with the suction hole 110, so that air sucked through the diffusion space is diffused It is characterized in that the suction efficiency is improved by allowing air to be sucked at a high flow rate through the suction hole 110 at the same time.

At this time, the diffusion part 112 is characterized in that it is bent so that the angle θ formed with the rear surface of the perforated plate 100 is formed at an acute angle. It realizes the effect of maximizing the effect, and minimizes the vortex phenomenon of the air moving along the inner surface of the diffusion unit 112 so that the sucked air is efficiently filtered by the purification filter 300 .

In addition, it is preferable that the angle θ formed between the diffusion part 112 and the perforated plate 110 is in an angle range of about 15 to 20°, which is the diffusion part when the angle range is less than 15°. Since the diffusion space formed by 112 is not smoothly formed, diffusion and suction efficiency improvement by the diffusion unit 112 is insignificant, and when the angle range exceeds 20°, the diffusion Since the diameter or width of the formed diffusion space is not significantly different from the diameter or width of the suction hole 110, it is difficult to expect improvement in diffusion and suction efficiency.

As shown in FIG. 6 , the diffusion unit 112 as described above includes a perforating step (S10) of forming a plurality of suction holes 110 by perforating the perforated plate 110 through a perforator, and the perforating step (S10). ) After that, the outside of the suction hole 110, that is, a first bending step of forming a diffusion part 112 by bending a portion of the circumference of the suction hole 110 to the rear of the perforated plate 100 using a press machine by 90° ( S20) and after the first bending step (S20), the diffusion portion 112 toward the front of the perforated plate 100 so that the angle θ formed between the diffusion portion 112 and the rear surface of the perforated plate 100 is formed at an acute angle. It is characterized in that it is manufactured by a manufacturing method comprising a second bending step (S30) of bending using a press machine.

At this time, a portion of the circumference of the suction hole is not particularly limited, but may be in the range of about 1 to 3 mm around the circumference of the suction hole, and when bent by a press machine, it stretches according to the elongation of the material, as shown in the drawings of the present invention. can be formed.

That is, the diffusion unit 112 of the present invention is formed by bending the outside of the suction hole 110 punched through the above method, that is, the outside in which the suction hole 110, which is a part of the perforated plate, is formed, so that the suction hole ( 110) and it is possible to form a diffusion space in communication with it.

In connection with the above, the perforated plate 100 of the present invention has a plurality of microholes 120 that are formed through any one suction hole 110 and between the one suction hole 110 and the adjacent suction hole 110 . ), the micro-hole 120 allows air to be sucked by the blower 200 together with the suction hole 110, and is sucked and diffused along the inner surface of the diffusion unit 112. It realizes the effect of minimizing the phenomenon of the air being vortexed to the rear of the diffusion unit 112 .

That is, when the air sucked through the suction hole 110 is sucked along the inner surface of the diffusion unit 112 as shown in FIG. 7 , the microhole 120 is formed in the diffusion unit 110 . A phenomenon (air flow shown in the upper part of FIG. 7 ) may occur in which air closely sucked into the inside of the diffusion unit 110 is vortexed in the space (not shown) between the rear surfaces of the perforated plate 100 formed in front of the diffusion unit 110 . However, it is possible to obtain the effect of allowing the air to be smoothly sucked by minimizing the phenomenon of vortex induced by the air passing through the micro-holes 120 in the rear, that is, in the inner direction of the air conditioner 10 .

In addition, as shown in FIGS. 8 and 9, the diffusion part 112 is cut in the longitudinal direction and further includes a plurality of vortex prevention blades 112a that are bent to be close to the rear surface of the perforated plate 100. When the air sucked through the suction hole 110 is sucked along the inner surface of the diffusion unit 112, the vortex prevention wing 112a not only allows the air to be further spread but also the diffusion portion ( 112) and the perforated plate 100 to realize the effect of minimizing the vortex of the air in the space between the rear surface to realize the effect of allowing the air to be smoothly sucked.

The diffusion part 112 in which the vortex prevention wing 112a is formed is a perforating step (S100) of perforating the perforated plate 100 through a perforator to form a plurality of suction holes 110, and the perforating step (S100) Thereafter, a cutting step of forming a plurality of vortex prevention blades 112a by cutting and forming an incision line (not shown) in the outer direction of the suction hole 110 through a cutter to form around the suction hole 110 . (S200) and the first bending step (S300) of bending the vortex prevention wing 112a to the rear of the perforated plate 100 using a press machine after the cutting step (S200) and the first bending step (S300) after the A second part of the circumference of the suction hole 110 is bent to the rear of the perforated plate 100 through a press machine to form a diffusion part 112 , and the vortex prevention wing 112a is closely attached to the rear surface of the perforated plate 100 . After the bending step (S400) and the second bending step (S400), the diffusion portion 112 is pressed through a press so that the angle θ formed between the diffusion portion 112 and the rear surface of the perforated plate 100 is formed at an acute angle. It is characterized in that it is manufactured by a manufacturing method comprising a third bending step (S500) of bending the front of the perforated plate 100, that is, in the rear direction of the perforated plate 100.

That is, the diffusion part 112 in which the vortex prevention wing 112a is formed performs the cutting step (S200) of forming a plurality of incision lines so that the vortex prevention wing 112a is formed, and then the vortex prevention wing ( By first bending 112a) through the first bending step (S300), in the second bending step (S400), the front surface of the vortex prevention wing 112a is close to the rear surface of the perforated plate 100 and the diffusion part 112 ) and the space between the rear surface of the perforated plate 100 is minimized to realize the effect of minimizing the vortex phenomenon as described above.

At this time, in the third bending step (S500), the vortex prevention wing 112a is bent to the rear of the perforated plate 100 again when the diffusion part 112 is bent in the rear direction of the perforated plate 100, that is, forward. However, it will be apparent that the state in close contact with the rear surface of the perforated plate 100 is maintained.

In relation to the above, in the perforated plate 100 of the present invention, a coupling part 132 is protruded to the rear, and the coupling part 132 is inserted into and coupled to the suction hole 110, and the diameter or width toward the rear It may be configured to further include an inlet member 130 having a suction hole 134 having an inclined surface 134a to become smaller, and the inlet member 130 is the suction hole communicating with the suction hole 110 ( 134), the air inside the control space, that is, the air outside the housing, can be sucked more smoothly, and at the same time, the flow rate of the sucked air can be stably increased in the suction hole 110 to increase the suction efficiency. to realize the effect that can be further improved.

That is, the inlet member 130 is installed on the front surface of the perforated plate 100 and protrudes into the control space, thereby minimizing the vortex phenomenon that is generated in the air sucked by colliding with the front of the perforated plate 100 so that the air inside the control space is more and more It realizes the effect of smoothly inhaling.

At this time, as shown in FIG. 12 , the inlet member 130 includes an installation space 136 formed between the inclined surface 134a and an outer peripheral surface (not shown), and a perimeter of a lower surface of the installation space 136 . It may be configured to include a heating coil 138 installed in the heating coil 138, by raising the temperature of the air sucked by the heating coil 138 to further increase the flow rate, the effect of obtaining more improved suction efficiency is realized do it

In addition, the supply of power to the heating coil 138 may be difficult because the inlet member 130 is configured in plurality and is not large in size, but each UI member 130 is organically electrically connected to supply power. This can be done.

As a result, the air conditioner provided with the perforated plate of the present invention increases the flow rate by allowing the suction hole 110 and the diffusion space to communicate through the diffusion unit 112 formed at the rear of the suction hole 110 of the perforated plate 100 . It is possible to obtain the effect of improving the suction efficiency per unit area by increasing it, and since the air diffused through the diffusion unit 112 is evenly filtered on the surface of the purification filter 300, the service life of the purification filter 300 is shortened. can be increased, and thus the effect of improving the purification efficiency can be obtained.

The above has been described with reference to a preferred embodiment of the present invention, and is not limited to the above embodiment, and a person of ordinary skill in the art through the above embodiment does not deviate from the gist of the present invention It can be implemented with various changes in

Claims

A perforated plate 100 formed by perforating a plurality of suction holes 110 on the side is installed, a blower 200 is installed inside, and external air is sucked in by the blower 200 through the suction hole of the perforated plate 100 ( In the air conditioner (10) provided with a perforated plate composed of a purification filter (300) that filters when suctioned through (110),

The suction hole 110 is

The air conditioner provided with a perforated plate, characterized in that it comprises;
According to claim 1,

The diffusion unit 112 is

An air conditioner provided with a perforated plate, characterized in that it is bent so that an angle θ formed with the rear surface of the perforated plate 100 is formed at an acute angle.
3. The method of claim 2,

The diffusion unit 112 is

A perforating step (S10) of perforating the perforated plate 110 to form a plurality of suction holes 110; and

a first bending step (S20) of forming a diffusion part 112 by bending a portion of the circumference of the suction hole 110 backward; and

A second bending step (S30) of bending the diffusion portion 112 so that the angle θ between the diffusion portion 112 and the rear surface of the perforated plate 100 is formed at an acute angle (S30). An air conditioner provided with a perforated plate, characterized in that
3. The method of claim 2,

The perforated plate 100 is

A perforated plate comprising any one of the suction holes 110 and the one of the suction holes 110 and a plurality of micro-holes 120 that are formed to penetrate between the adjacent suction holes 110; Equipped with air conditioning.
3. The method of claim 2,

The diffusion unit 112 is

An air conditioner provided with a perforated plate, characterized in that it comprises; a plurality of vortex prevention blades (112a) that are cut in the longitudinal direction and bent so as to be close to the rear surface of the perforated plate (100).
6. The method of claim 5,

The diffusion unit 112 is

A perforating step (S100) of perforating the perforated plate 100 to form a plurality of suction holes 110; and

A cutting step (S200) of forming a plurality of vortex prevention blades 112a by forming a plurality of incision lines in an outer direction of the suction hole 110, but forming around the suction hole 110; and

A first bending step (S300) of bending the vortex prevention wing (112a) to the rear; and

A second bending step (S400) of forming a diffusion portion 112 by bending a portion of the circumference of the suction hole 110 to the rear, and making the vortex prevention wing 112a close to the rear surface of the perforated plate 100; and

A third bending step (S500) of bending the diffusion portion 112 so that the angle θ between the diffusion portion 112 and the rear surface of the perforated plate 100 is formed at an acute angle (S500) An air conditioner provided with a perforated plate, characterized in that
6. The method of claim 2 or 4 or 5,

The perforated plate 100 is

Suction hole ( 134) an inlet member 130 on which is formed; Factory equipment provided with a perforated plate, characterized in that it is configured to include.
8. The method of claim 7,

The inlet member 130 is

An installation space 136 formed between the inclined surface 134a and the outer peripheral surface; and

Heating coil (138) installed on the periphery of the lower surface of the installation space (136); Air conditioner provided with a perforated plate, characterized in that it is configured to include.