KR102159714B1 - No Power Fixed type Ventilator for Improving Ventilation Performance - Google Patents

Abstract

The present invention relates to a non-powered fixed type ventilator with improved suction and discharge performance, and more specifically, to a non-powered fixed type ventilator including a fixed die (B1) installed in a ventilation port (V1), airflow inducing members (111, 112) installed on the fixed die (B1) and having through holes (111a, 112a) to induce the air discharged from the ventilation port (V1) to be exhausted upward, a cover (120) provided above the airflow inducing member (112), and spacers (131,132) provided between the airflow inducing members (111, 112) and the cover (120). The non-powered fixed type ventilator further includes: a vertical rotating rod (140) provided with one side rotatably provided on the cover (120) and the other side rotatably provided on the fixed die (B1) inside the airflow inducing members (111, 112); a rotating body that is fixed to the vertical rotating rod (140) and rotates by the wind blowing from the outside to rotate the vertical rotating rod (140); and a discharge impeller (181) fixedly provided on the vertical rotating rod (140) and rotating as the vertical rotating rod (140) rotates to discharge contaminated air in the ventilation port (V1) upward. According to the present invention, the suction and discharge performance is improved in a non-powered manner.

Description

No Power Fixed type Ventilator for Improving Ventilation Performance}

The present invention relates to a non-powered stationary ventureta, and in particular, to a non-powered stationary ventureta with improved intake and discharge performance so as to be suitable for improving the intake and discharge performance by non-power.

In general, a ventureta is installed in a ventilation opening of a chimney or roof of structures including factories, buildings, houses, green houses, and toilets to smoothly discharge contaminated air from the inside that is discharged through the ventilation openings.

Among these venturetas, there is known a non-powered stationary ventureta that discharges contaminated air inside as non-powered without using power such as a motor, and discharges contaminated air inside by a flow of air in a fixed type rather than a rotary type.

As a prior art related to such a non-powered fixed venturator, there are disclosed a ventureta according to Registration Patent No. 10-0479390 and a non-powered fixed ventureta having improved exhaust performance according to Registration Patent No. 10-1447658.

However, the ventureta according to the prior art as described above has the following problems.

Conventional non-powered fixed venturetas are all equipped with airflow guide plates to draw air into the sideways, so they are operated to inhale air to the side to create and discharge an upward airflow.

However, the structure of discharging contaminated air upwards by the formation of such a rising airflow has a technical problem in that there is a limit to the exhaustion.

Document 1: Registered Patent Publication No. 10-0479390 (announcement date: 2005.03.28) Document 2: Registered Patent Publication No. 10-1447658 (announcement date: 2014.10.08)

The present invention was created to solve the problems of the prior art as described above, and the object of the non-powered fixed ventureta with improved suction and discharge performance according to the present invention is,

First, the rotating body is configured to rotate by the wind blowing from the outside of the ventureta, and by rotating the discharge impeller by the rotation of the rotating body, the polluted air inside can be discharged more quickly and smoothly, and thus the suction and discharge performance is superior. So that it can be improved,

Second, unlike the prior art, the discharged impeller is not rotated by a power such as a motor, but by natural wind blowing from the outside, thereby enabling an eco-friendly ventureta that does not require the use of power.

Third, by installing the rotating body on the outside of the ventureta, which is above the cover, external wind can be transmitted as it is, so that the rotation of the vertical rotating rod can be rotated more quickly, and the suction and discharge performance can be further improved. It is to provide a non-powered stationary ventureta with improved intake and discharge performance suitable for making it possible.

A non-powered fixed ventureta with improved intake and discharge performance according to the present invention for achieving the above object is installed in the ventilation opening of the chimney or roof of structures including factories, buildings, houses, green houses, and toilets to remove air discharged from the ventilation openings. For smooth discharge, a fixed die installed on the upper side of the ventilation port and penetrating in the axial direction so as to communicate with the ventilation port, and a through hole formed at the center of the fixed die, and going inward toward the center through hole And a plurality of airflow guiding members that are curved upwardly to induce the air discharged from the ventilation ports to be exhausted upward, and the airflow guiding members at the uppermost end of the plurality of airflow guiding members are provided to be spaced upward from the airflow guiding member, and rainwater is ventilated. Non-powered, comprising a cover for preventing entry into the furnace, and a spacer provided between the plurality of airflow guiding members and the cover, and spaced apart while maintaining the gap between the airflow guiding members and between the airflow guiding member and the cover In the fixed ventureta, provided to pass through the inside of the through hole of the plurality of airflow guide members, one side is rotatably provided in the cover and the other side is provided to be rotatable inside the fixed die, A rotating body fixed to the vertical rotating rod and rotating by the wind blowing from the outside to rotate the vertical rotating rod, and fixedly provided on the vertical rotating rod, rotating as the vertical rotating rod rotates by rotation of the rotating body , It is characterized in that it is configured to further include a discharge impeller that blows out the polluted air in the ventilation port upward.

The non-powered fixed ventureta with improved suction and discharge performance according to the present invention having the above configuration has the following effects.

First, the rotating body is configured to rotate by the wind blowing from the outside of the ventureta, and by rotating the discharge impeller by the rotation of the rotating body, the polluted air inside can be discharged more quickly and smoothly, and as a result, the suction and discharge performance is superior. There is an effect that can be improved.

Second, unlike the prior art, the discharge impeller is not rotated by a power such as a motor, but is rotated by natural wind blowing from the outside, so that power is not required and as a result, there is an effect of implementing an eco-friendly ventureta. .

Third, by installing the rotating body on the outside of the ventureta, which is above the cover, the rotation of the vertical rotating rod can be rotated more rapidly by allowing external wind to be transmitted as rotating force, and as a result, suction and discharge performance can be further improved. There is an effect.

1 is a schematic configuration diagram of a non-powered fixed ventureta with improved suction and discharge performance according to an embodiment of the present invention.
FIG. 2 is a perspective view of essential parts for expressing the shapes of the rotating member 161 and the upper rotating member 162 in FIG. 1.
3 is a perspective view of a main part of an example in which the rotating member 163 is deformed in shape in the non-powered fixed ventureta with improved suction and discharge performance according to an embodiment of the present invention.
4 is an operation diagram of a main part of a non-powered stationary ventureta with improved suction and discharge performance according to another embodiment of the present invention, and FIG. 4A is an operation diagram before the prime mover is coupled to the shaft gear, and FIG. 4B ) Is the operation diagram when the prime mover is coupled to the shaft gear.
5 is a block diagram of a main part of a non-powered fixed ventureta with improved suction and discharge performance according to another embodiment of the present invention.

The following will be described in detail with reference to the accompanying drawings a preferred embodiment of a non-powered fixed ventureta with improved intake and discharge performance of the present invention.

The non-powered fixed ventureta with improved intake and discharge performance according to an embodiment of the present invention is a ventilation hole (V1) of a chimney or a roof of a structure including a factory, a building, a house such as an apartment, a green house, and a toilet (such as a public toilet) A fixed die (B1) installed on the ventilator (V1) to smoothly discharge the air discharged from the ventilator (V1), installed on the upper side of the ventilator (V1), and penetrated in the axial direction so as to communicate with the ventilator (V1), and It is installed on the upper side of the fixed die (B1), has through holes (111a, 112a) in the center, and is curved inwardly and upwardly toward the through holes (111a, 112a) in the center. A plurality of airflow guiding members 111 and 112 for guiding discharged air to be exhausted upward, and the airflow guiding member 112 at the top of the plurality of airflow guiding members 111 are provided to be spaced upward from the uppermost airflow guiding member 112, and rainwater is provided at a ventilation port ( V1) between the cover 120 and the air flow guide member (111, 112) and the cover (120) and the air flow guide member (111, 112) and cover provided between the air flow guide member (111, 112) (120) In the non-powered fixed ventureta comprising spacers (131, 132) that are spaced apart while maintaining the space between them, pass through the inside of the through holes (111a, 112a) of the plurality of airflow guide members (111, 112) It is provided so that one side [the upper side based on the figure shown] is provided to be rotatable on the cover 120, and the other side [the lower side based on the figure shown] is rotatable inside the fixed die (B1) A vertical rotating rod 140 provided to rotate, and a rotating body 151,161, 152,162, 153,163 fixed to the vertical rotating rod 140 and rotating horizontally by wind blowing from the outside to rotate the vertical rotating rod 140 ), and fixed to the vertical rotating rod 140, and the vertical rotating rod 140 by rotation of the rotating body 151,161, 152,162, 153,163 As it rotates, it rotates integrally with the vertical rotating rod 140, and a discharge impeller 181 that sucks contaminated air in the ventilation port V1 by this rotation and blows it upward forcibly discharging it is further included. It features.

As described above, the rotors 151,161, 152,162, and 153,163 are rotated by the wind blowing from the outside of the ventureta, and the discharge impeller 181 is rotated by the rotation of the rotors 151,161, 152,162, and 153,163. In this way, the contaminated air inside can be discharged, so there is an advantage that the suction and discharge performance is remarkably improved.

In particular, unlike the prior art, the discharge impeller 181 is not rotated by power such as a motor, but is rotated by natural wind blowing from the outside, so it is not only distinguished from the power impeller of the prior art, but also power It is eco-friendly because it is not used.

In addition, the discharge impeller 181 is preferably fixed to the vertical rotating rod 140 at a position below the airflow induction member 111 at the lowest end of the plurality of airflow induction members 111 and 112.

According to this, the air intake and discharge performance is further improved by forcibly blowing air upward from the lower side of the airflow inducing member 111.

The rotating bodies 151, 161, 152, 162, 153, 163 may be installed anywhere inside or outside the ventureta, and all belong to the technical scope of the present invention, regardless of the position installed on the vertical rotating rod 140.

For example, the rotating bodies 151 and 161 are provided on the vertical rotating rod 140 between the airflow guide members 111 and 112 and the cover 120, and rotated by the wind outside the ventureta so that the vertical rotating rod 140 Can be rotated, this case is an example installed on the vertical rotating rod 140 inside the ventureta.

Likewise, the rotating bodies 152 and 162 are fixed to the vertical rotating rod 140 above the cover 120 and rotated horizontally by the wind blowing from the outside (especially the wind blowing in the horizontal direction), and the vertical rotating rod 140 ) Can be rotated, in this case it is installed on the vertical rotating rod 140 from the outside of the ventureta.

When the rotating bodies 152 and 162 are installed on the vertical rotating rod 140 from the outside of the ventureta, the external wind can be transmitted as rotational force as compared to the case where it is installed inside, so that the rotational efficiency is higher.

In the non-powered fixed ventureta with improved suction and discharge performance according to an embodiment of the present invention, the rotating body (151, 152, 152, 162, 153, 163) is one or more horizontally provided on one side of the vertical rotating rod (140). The vertical rotating rod 140 by rotating horizontally by the wind outside the ventureta ([the wind outside the ventureta (airflow))] provided in one or more on one side of the rotating arm (151,152,153) and the rotating arm (151,152,153) It characterized in that it comprises a rotating member (161, 162, 163) for rotating.

The rotary arms 151, 152, and 153 may be formed in a bar shape.

The rotary arm (151, 152, 153) is a vertical rotating rod between the airflow guide member (111, 112) (specifically, the airflow guide member (111) located at the bottom of the plurality of airflow guide members (111, 112)) and the cover (120). 140), or may be fixed to the vertical rotating rod 140 above the cover 120 is as described above.

However, in the case where the rotating arms 152 and 153 are fixed to the vertical rotating rod 140 from the upper side of the cover 120, the vertical rotating rod 140 between the airflow guide members 111 and 112 and the cover 120 Compared to that, the resistance is small, so the rotation could be faster.

In the non-powered fixed ventureta with improved intake and discharge performance according to an embodiment of the present invention, in order to rapidly rotate the vertical rotating rod 140, the rotating members 161 and 162 are provided by wind outside the ventureta. It is characterized in that hemispherical surfaces 161a and 162a are formed so as to rotate quickly.

In this way, the shape of the hemispherical surfaces 161a and 162a has the advantage of being able to rotate regardless of the direction in which the external wind blows.

And, in the non-powered fixed ventureta with improved intake and discharge performance according to an embodiment of the present invention, the rotating members 161 and 162 have inner spaces 161b and 162b, and the outer circumferential surfaces are hemispherical surfaces 161a and 162a. It is characterized in that it is a half sphere shell (161,162).

According to this, there is an advantage that the weight of the rotating members 161 and 162 is lightened, so that the rotation in the horizontal direction becomes even faster.

In the non-powered fixed ventureta with improved suction and discharge performance according to an embodiment of the present invention, the hemispherical angles 161 and 162 are formed on the rotating arms 151 and 152 so that the hemispherical surfaces 161a and 162a face toward the rotational direction. It is characterized by having. According to this, there is an advantage that the rotation in the horizontal direction becomes even faster.

In the non-powered fixed ventureta with improved suction and discharge performance according to an embodiment of the present invention, when the rotating member 161 is installed inside the ventureta, that is, between the airflow guide members 111 and 112 and the cover 120 In the case of being fixed to the vertical rotating rod 140, it is characterized in that it is formed on the rotating arm 151 so as to be spaced outward by a set distance d1 from the through holes 111a and 112a.

Accordingly, it is possible to rotate by the external airflow of the ventureta without being affected by the rising exhaust air inside the airflow inducing members 111 and 112.

On the other hand, in the non-powered fixed ventureta with improved suction and discharge performance according to an embodiment of the present invention, the rotating members 161 and 162 are not limited to the configuration of the hemispherical angles 161 and 162 described above, for example, In any case, as long as it can be rotated by wind (airflow), it falls within the technical scope of the present invention, as well as a modified example thereof is shown in FIG. 3.

3 is a perspective view of the main portions of the rotating member 163 according to a modified embodiment of the rotating members 161 and 162 shown in FIGS. 1 and 2. The rotation member 163 shown in FIG. 3 is an embodiment in which the rotation members 161 and 162 are modified in shape. That is, the rotating member 163 shown in FIG. 3 is a modified embodiment of the hemisphere angles 161 and 162 of FIGS. 1 and 2.

The rotating member 163 shown in FIG. 3 includes a first thin plate 163a formed on the rotating arm 153 and a second thin plate 163b spaced apart from the first thin plate 163a and formed on the rotating arm 153 It characterized in that it is composed of, and the rotating member 163 shown in FIG. 3 is characterized in that it is formed in a thin plate shape.

In the non-powered fixed ventureta with improved suction and discharge performance according to an embodiment of the present invention, the plurality of airflow guide members 111 and 112 include installation portions 111b and 112b formed on the outside to install spacers 131 and 132 and , The installation part (111b, 112b) is formed inwardly curved upward and the through hole (111a, 112a) is formed in the center of the air flow guide portion (111c, 112c) is formed, the rotating members (161, 163) is a ventureta When installed inside of the rotating members (161, 163) is characterized in that it is formed on the rotating arms (151, 153) to be located outside the airflow guide (111c, 112c).

Accordingly, it is possible to rotate by the external airflow of the ventureta without being affected by the rising exhaust air inside the airflow inducing members 111 and 112.

In the non-powered fixed ventureta with improved suction and discharge performance according to an embodiment of the present invention, a first bearing 182 that is built under the vertical rotating rod 140, and one end is on the inner peripheral surface of the fixed die (B1). A fixed frame 184 that is fixed and the other end is fixed to the outer ring of the first bearing 182, and a second bearing in which the inner ring is installed on the upper side of the vertical rotating rod 140 and the outer ring is fixed to the cover 120 ( 183) is characterized in that the configuration is further included. Accordingly, it is possible to rotate the vertical rotating rod 140 by a simple structure.

On the other hand, in the non-powered fixed ventureta with improved intake and discharge performance according to an embodiment of the present invention, the airflow guide members 111 and 112 are, for example, a first airflow guide member 111 provided directly under the cover 120 And, it has been described by way of example that the configuration of the second air flow inducing member 112 provided on the first air flow inducing member 111, but is not limited thereto, for example, as in the case of three or four It goes without saying that the number is not limited and in any case falls within the technical scope of the present invention.

In the non-powered fixed ventureta with improved intake and discharge performance according to an embodiment of the present invention, the number of the rotating arms 151, 152, 153 is exemplarily disclosed as two or four in the illustrated figure, but is not limited thereto. The number of rotating arms 151, 152, 153 may be provided as one or a plurality, and the number of rotating members 161, 162, 163 provided in the rotating arms 151, 152, 153 can also be provided in at least two or more. Of course, is not limited.

In the non-powered fixed ventureta with improved suction and discharge performance according to another embodiment of the present invention, a shaft gear 191 installed on the vertical rotating rod 140 under the discharge impeller 181, and the shaft gear 191 ), a motor 193 mounted on the actuator 194 and installed on the actuator 194, and a drive control signal from the control unit 196. In this case, an actuator 194 that linearly moves the motor 193 by performing linear motion, a dust measurement sensor 195 that measures fine dust in the exhausted air, and receives a detection signal from the dust measurement sensor 195 When the received detection signal is greater than or equal to the set reference value [in this case, it means that the concentration of fine dust is high.] It is characterized in that it further includes a control unit 196 that outputs a driving control signal to the actuator. .

The actuator 194 may be composed of, for example, a cylinder and a cylinder driving unit (not shown) for driving the cylinder, and the actuator itself for linearly moving a certain configuration is a known configuration prior to filing, so a detailed description thereof will be omitted.

4(a) shows an operation diagram before the prime mover 192 is coupled to the shaft gear 191. In this case, the concentration of dust is not high, so the vertical rotating rod is rotated very quickly by the motor 193. Since there is no need to do so, the motor 193 and the prime mover 192 are in a state in which the connection with the shaft gear 191 is released.

In addition, (b) of FIG. 4 shows an operation diagram of a state in which the prime mover 192 is shaft-connected to the shaft gear 191 and is connected, but the concentration of dust is greater than the set value, so the forced rotation by the motor 193 This is the case. In this case, the actuator 194 linearly moves so that the motor 193 linearly moves upward, and when the motor 193 rises upward, the prime mover 192 is axially connected to the shaft gear 191. At this time, the motor 193 ) Is rotated, the vertical rotating rod 140 is forcibly rotated so that the contaminated air inside the ventilation port V1 is forcibly discharged more and more quickly.

In the embodiment in which the motor 193 is driven as described above, when the concentration of fine dust in the exhausted air is very large beyond the set value, it is an exemplary embodiment that operates exceptionally because rapid discharge is required.

In the non-powered stationary ventureta with improved suction and discharge performance according to another embodiment of the present invention, a solar cell 197 which is a solar cell and a current supplied by the solar cell 197 are stored, and the motor 193 And a storage battery 198 for supplying the driving current to the actuator 194 is further included.

The following describes the operation of a non-powered fixed ventureta with improved suction and discharge performance according to another embodiment of the present invention having the above configuration.

When the wind blows from the outside of the ventureta, that is, when an external airflow is formed, the rotating members 161, 162, 163 rotate horizontally by the external wind, and when the rotating rotating members 161, 162, 163 rotate, the vertical rotating rod 140 This rotation, and when the vertical rotating rod 140 rotates, the discharge impeller 181 is rotated.

By the rotation of the discharge impeller 181, the intake and discharge of the contaminated internal air inside the ventilation port V1 is made more smoothly, so that suction and discharge are performed better at the same time, and as a result, the suction and discharge performance of the ventureta is further improved. do.

As described above, preferred embodiments according to the present invention have been examined, and it is common knowledge in the relevant technical field that the present invention can be implemented in other specific forms without changing the technical spirit or essential features other than the above-described embodiments. It is self-evident to those who have. Therefore, the above-described embodiments should be understood as illustrative rather than restrictive.

The scope of the present invention is indicated by the claims to be described later rather than the detailed description, and all changes or modified forms derived from the meaning and scope of the claims and their equivalent concepts should be interpreted as being included in the scope of the present invention.

V1: Ventilation port B1: Fixed die
111,112: airflow guiding member 111a,112a: through hole of airflow guiding member
111b, 112b: installation part of the airflow guide member
111c, 112c: airflow guide part of airflow guide member
120: cover 131,132: spacer
140: vertical rotating rod
151,152,153: rotating arm 161,162,163: rotating member
161a,162a: hemispherical surface of the rotating member 161b,162b: internal space of the rotating member
163a: first thin plate 163b: second thin plate
181: discharge impeller
182: first bearing 183: second bearing
184: fixed frame 191: shaft gear
192: prime gear 193: motor
194: actuator 195: dust measuring sensor
196: control unit 197: solar cell
198: storage battery

Claims (4)

It is installed in the ventilation opening (V1) of the chimney or roof of structures including factories, buildings, houses, plastic houses, and toilets to smoothly discharge the air discharged from the ventilation opening (V1),
A fixed die (B1) installed above the ventilation opening (V1) and penetrating in the axial direction to communicate with the ventilation opening (V1),
A plurality of airflow inducing members 111 and 112 installed on the upper side of the fixed die B1 and having through holes 111a and 112a formed in the center thereof, and guiding the air discharged from the ventilation port V1 to be exhausted upward, and ,
A cover 120 for preventing rainwater from entering the ventilation port V1 and provided to be spaced upward from the uppermost airflow guide member 112 among the plurality of airflow guide members 111 and 112,
A spacer that is provided between the plurality of airflow guide members 111 and 112 and the cover 120 and is spaced apart while maintaining the gap between the airflow guide members 111 and 112 and between the airflow guide members 111 and 112 and the cover 120 In the non-powered fixed ventureta comprising (131,132),
It is provided to pass through the inside of the through hole (111a, 112a) of the plurality of airflow inducing members (111, 112), one side is provided to be rotatable in the cover 120, and the other side rotates inside the fixed die (B1) A vertical rotating rod 140 provided to enable,
A rotating body fixedly provided at at least one place of the vertical rotating rod 140 and rotating by the wind blowing from the outside to rotate the vertical rotating rod 140;
A discharge impeller fixedly provided on the vertical rotating rod 140, rotated as the vertical rotating rod 140 rotates by the rotation of the rotating body, and blown up contaminated air in the ventilation opening V1 to discharge it ( 181) is further included,
The rotating body is provided on the vertical rotating rod 140 between the airflow guide members 111 and 112 and the cover 120, and rotates the vertical rotating rod 140 by rotating by wind outside the ventureta,
In addition, the rotating body is fixed to the vertical rotating rod 140 above the cover 120 and rotated by the wind blowing from the outside to rotate the vertical rotating rod 140,
The rotating body,
One or a plurality of rotating arms 153 provided on the vertical rotating rod 140,
It is configured to include a rotating member 163 that is provided in one or a plurality of the rotating arm 153 to rotate the vertical rotating rod 140 by rotating by the wind outside the ventureta,
The discharge impeller 181 is fixed to the vertical rotating rod 140 at a position below the lowermost air flow inducing member 111 among the plurality of air flow inducing members 111 and 112,
The rotary arm 153 is formed in a bar shape,
When the rotating member 163 is fixed to the vertical rotating rod 140 between the airflow inducing members 111 and 112 and the cover 120, it is spaced outward by a set distance d1 from the through holes 111a and 112a. It is formed on the rotating arm 153 so that
The rotating member 163 is composed of a first thin plate 163a formed on the rotary arm 153 and a second thin plate 163a separated from the first thin plate 163a and formed on the rotary arm 153, and ,
The plurality of airflow guide members 111 and 112 are formed to be curved inward from the installation portions 111b and 112b and the installation portions 111b and 112b formed on the outside to install the spacers 131 and 132, and the center has the It is composed of the airflow guide portion (111c, 112c) in which the through hole (111a, 112a) is formed,
A first bearing 182 installed under the vertical rotating rod 140,
A fixed frame 184 having one end fixed to the inner circumferential surface of the fixed die B1 and the other end fixed to the outer ring of the first bearing 182,
A second bearing 183 in which an inner ring is installed on the upper side of the vertical rotating rod 140 and an outer ring is fixed to the cover 120,
A shaft gear 191 installed on the vertical rotating rod 140 under the discharge impeller 181,
A prime mover 192 selectively engaged with the shaft gear 191,
A motor 193 mounted on the actuator 194 and having a motor shaft installed on the prime gear 192,
In the case of receiving a drive control signal from the control unit 196, the actuator 194 performs linear motion to linearly move the motor 193, and
A dust measurement sensor 195 that measures fine dust in the exhausted air,
When the detection signal is received from the dust measurement sensor 195 and the received detection signal is greater than or equal to a set reference value, a control unit 196 for outputting a driving control signal to the actuator is further included. Advanced non-powered stationary ventureta.
The method according to claim 1,
When the rotating member is installed inside the ventureta, the rotating member is formed on the rotating arm so as to be located outside the airflow guide unit.
The method according to claim 2,
The solar cell 197, which is a solar cell,
A storage battery 198 that stores the current supplied by the solar cell 197 and supplies a driving current to the motor 193 and the actuator 194 is further included. Non-powered fixed ventureta.
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