KR102287679B1 - Plant Planting Smart Air Purification Bench - Google Patents

Abstract

The present invention relates to a planting type smart air purification bench. According to the plant planting type smart air purification bench according to an aspect of the present invention, as it includes a base member, a module support member, an air purification member, and a plant planting member and a control member, it is sensed in its vicinity, or an external server By automatically operating according to the fine dust content information received from the outside to purify the outside air flowing in from the outside, it is possible to respond immediately to rapidly changing environmental changes, as well as efficiently operate the plant-planted smart air purification bench. There are advantages to being

Description

Plant Planting Smart Air Purification Bench {Plant Planting Smart Air Purification Bench}

The present invention relates to a planting type smart air purification bench.

The plant-planting-type air purification bench is formed in the form of a bench so that people can sit, and it is installed outdoors such as parks and bus stops with plants planted on the wall to sit on the plant-planting-type air purification bench or plant the plants It is a device that exhausts purified air to people located around the type air purification bench.

What can be presented as an example of such a planting type air purification bench is that of the patent literature presented below.

However, according to the conventional plant-planting-type air-purifying bench, the operation of the plant-planting-type air-purifying bench is manually performed by an operator, so that the plant-planting-type air purification bench is installed to immediately respond to a change in the external environmental condition. was difficult, and thus the practicality of the plant-planted air purification bench was reduced.

Registered Patent No. 10-1729395, Registration Date: 2017.04.17., Title of Invention: Eco-friendly air purification system using air purification plants and mineral filters

An object of the present invention is to provide a plant-planting smart air purification bench that is automatically operated according to the fine dust-containing information detected in its vicinity or received from an external server to purify external air flowing in from the outside.

A plant-planting smart air purification bench according to an aspect of the present invention is a plant-planted smart air purification bench formed in a bench shape and purifying air, comprising: a base member formed in a bench shape; a module support member connected to the base member and erected at a predetermined height from the base member; a plant planting member disposed on the outer surface of the module support member and capable of planting a plant; an air purifying member positioned inside the base member or the module supporting member to purify the air flowing into the base member; and a control member installed inside the base member or the module support member and controlling the operation of the air purification member according to the fine dust-containing information; The primary purification air is produced by being primarily purified by Air is generated, and the air purification member includes an air purification case having a predetermined space formed therein, and the primary purified air that is mounted on the air purification case and is primarily purified by the plant planting member to the air. A fan for introducing into the purification case, an air purification tank connected to the air purification case and spraying water into the primary purified air introduced by the fan, and disposed inside the air purification case , an ionizer that generates static electricity in the primary purified air from which the water is sprayed in the air purification tank so that the fine dust contained in the primary purified air is charged; and the air purification case a filter unit disposed inside of the ionizer to filter the fine dust from the primary purified air passing through the ionizer to generate the secondary purified air, and the secondary purified air generated while passing through the filter unit. a rising pipe that rises to a certain height, and a discharge pipe that communicates with the rising pipe and is bent from the rising pipe to discharge the secondary purified air to the outside of the module support member, wherein the plant planting type The smart air purification bench includes a flow accelerating unit installed inside the rising pipe and configured to relatively accelerate the flow rate of the secondary purified air when the secondary purified air is raised. The inner surface is formed with a certain curvature, and a plurality of pieces are arranged spaced apart from each other at different heights on the inner surface of the rising pipe. The first flow guide body and the second flow guide body are formed with a predetermined curvature on an inner surface thereof, and a plurality of second flow guide bodies are arranged at different heights apart from each other at a position facing the first flow guide body among the inner surfaces of the rising pipe. Including, wherein the first flow guide body is mounted on the inner surface of the rising pipe, a first flow guide body formed to be elongated by a predetermined length along the inner circumferential surface of the rising pipe, and a predetermined curvature on the inner surface of the first flow guide body is formed between a first flow guide curved surface formed with It is formed between a first lower communication pipe for communicating the lowermost and middle of the body, and three adjacent first flow guides among a plurality of first flow guides formed while being spaced apart from each other at different heights, and a first upper communication pipe for communicating the middle and uppermost ones of the first flow guide members, wherein the second flow guide body includes the second flow guide body on the inner side surface of the rising pipe facing the first flow guide body. A second flow guide body spaced apart from the first flow guide body by a predetermined distance and formed to have the same size as the first flow guide body, and a second flow guide curved surface formed with a predetermined curvature on the inner surface of the second flow guide body wherein the first flow guide body and the second flow guide body are respectively disposed to be shifted from each other in the rising pipe, and between the first flow guide body and the second flow guide body disposed to be shifted from each other. The flowing secondary purified air is rotated in one direction, and thus the speed of the rising secondary purified air can be relatively accelerated, and the lowest of the three first flow guides formed while being spaced apart from each other at different heights. A part of the secondary purified air flowing while being guided by the side passes through the first lower communication pipe. It is moved to push the secondary purified air flowing while being guided by the middle one of the three first flow guides formed while being spaced apart from each other to flow while being guided by the middle of the three first flow guides. It is possible to relatively increase the speed of the secondary purified air inside the rising pipe, and the middle of the three first flow guides formed while being spaced apart from each other at different heights is used in the flow of the primary purified air. A portion of the secondary purification air flowing while being guided by the uppermost one of the three first flow guides formed while being moved through the first upper communication pipe and spaced apart from each other at different heights can be relatively increased As a result, the speed of the secondary purification air gradually increases from the lowest to the top through the middle among the three first flow guides formed while being spaced apart from each other at different heights. do.

According to the plant planting type smart air purification bench according to an aspect of the present invention, as it includes a base member, a module support member, an air purification member, and a plant planting member and a control member, it is sensed in its vicinity, or an external server By automatically operating according to the fine dust content information received from the outside to purify the outside air flowing in from the outside, it is possible to respond immediately to rapidly changing environmental changes, as well as efficiently operate the plant-planted smart air purification bench. has the effect of being

1 is a perspective view from above of a plant-planted smart air purification bench according to a first embodiment of the present invention.
Figure 2 is a perspective view of the plant-planted smart air purification bench according to the first embodiment of the present invention from above from another angle.
3 is a vertical cross-sectional view of a plant-planted smart air purification bench according to the first embodiment of the present invention.
4 is an enlarged view of part A of FIG. 3 ;
5 is an enlarged view of a flow accelerator applied to an air purification member constituting a plant planting type smart air purification bench according to a second embodiment of the present invention.

Hereinafter, a plant-planting type smart air purification bench according to embodiments of the present invention will be described with reference to the drawings.

1 is a perspective view from above of a plant-planted smart air purification bench according to a first embodiment of the present invention, and FIG. 2 is a plant-planted smart air purification bench according to a first embodiment of the present invention. It is a perspective view viewed from above at an angle, FIG. 3 is a vertical cross-sectional view of a plant-planted smart air purification bench according to the first embodiment of the present invention, and FIG. 4 is an enlarged view of part A of FIG. 3 .

1 to 4 together, the plant-planting smart air purification bench 100 according to this embodiment is formed in a bench shape and purifies the air, and the base member 110 and the module support member 120. and a plant planting member 140 , an air purification member 130 and a control member 145 , and external air around the plant planting type smart air purification bench 100 is applied to the plant planting member 140 . The air purification member is primarily purified by the planted plant to generate primary purified air, and the primary purified air generated by the plant planting member 140 is operated by the control member 145 . While passing through 130, the secondary purified air is generated.

In this embodiment, the plant-planted smart air purification bench 100 further includes a fine dust detection unit 146 , a communication member 147 , and a flow accelerator 150 .

The base member 110 is formed in a bench shape so that people can sit.

In detail, the base member 110 is installed on the ground or the like, and the inside of the base member 110 is formed in an empty shape, so that the air purification member 130 can be installed therein.

The module support member 120 is connected to the base member 110 , and is erected at a predetermined height from the base member 110 , and is constant to be perpendicular to the base member 110 in the central portion of the base member 110 . It is erected at a height so that people seated on the base member 110 can support their backs.

The inside of the module support member 120 is formed to communicate with the inside of the base member 110 .

At least one ventilation grill 138 to be described later is mounted on the side surface of the module support member 120 , and the secondary purified air generated while passing through the air purification member 130 is externally passed through the blowing grill 138 . is emitted as

An upper support member 121 is installed on the upper portion of the module support member 120 so that the base member 110, the module support member 120, and the upper support member 121 are formed in an 'I' shape as a whole. is formed

In this embodiment, the module support member 120 has an image sensing unit 125 for detecting an image around the plant-planting type smart air purification bench 100, and the plant-planting type smart air purification bench 100 in the vicinity of the A base station 126 for allowing the terminal to communicate wirelessly, an environmental sensor 127 capable of detecting environmental data around the planting type smart air purification bench 100, and the planting type smart air purification bench 100 an interactive artificial intelligence (AI) unit 128 capable of interacting with a user using At least one of them is installed.

In this embodiment, the image detection unit 125, the base station 126, the environment sensor 127, the artificial intelligence unit 128 and the output unit 129 are taken together as an example. Explain.

The image detection unit 125 may detect an image around the plant-planting type smart air purification bench 100 in real time, and a CCTV, etc. may be presented as an example.

The base station 126 facilitates communication when the users who use the plant-planted smart air purification bench 100 use a terminal such as a mobile phone, and a 5G antenna or wireless Internet is presented as an example. can be

The environmental sensor 127 may sense at least one of environmental data around the planting type smart air purification bench 100, for example, air quality, temperature, humidity, and gas information.

The environmental sensor 127 is preferably installed at a height of 1.3 m to 1.7 m from the ground among the plant-planted smart air purification bench 100 so as to sense the environmental data that actually affects the human body.

The artificial intelligence unit 128 is capable of conversing with the users who use the planting type smart air purification bench 100 .

For example, the movie reservation ranking may be answered to the users' questions asking for the latest movie information, and movies may be recommended to the users after understanding the users' movie preferences through questions exchanged with the users. there is.

The output unit 129 outputs at least one of information detected or confirmed by the image sensing unit 125, the base station 126, the environmental sensor 127, and the artificial intelligence unit 128, etc. , an LED monitor, etc. may be presented as examples.

At least one of the image information detected by the image sensing unit 125 and the environmental data collected by the environmental sensor 127 is transmitted to an external server (not shown) installed outside through the communication member 147 . .

Also, the control member 145 may control the operation of the air purification member 130 based on the environmental data collected by the environmental sensor 127 .

Although not shown in the drawings of this embodiment, a fan capable of cooling the summer heat and a carbon heating mat that can relatively warm the base member 110 in winter are additionally installed in the module support member 120 . The operation of the fan and the carbon heating mat may also be controlled by the control member 145 .

The plant planting member 140 is disposed on the outer surface of the module support member 120, a plant can be planted.

In detail, the plant planting member 140 is arranged side by side in a plurality of rows on the outer surface of the module support member 120, and the plant planting type smart air by the plant planted in the plant planting member 140 The primary purified air may be generated by purifying the external air distributed around the purification bench 100 .

In this embodiment, the plant planting member 140 is installed in a direction opposite to the direction in which the ventilation grill 138 from which the secondary purification air is discharged is mounted, but this is only an example. Of course, it may be installed in the same direction as the mounting direction, and may be installed in both the same direction and the opposite direction to the mounting direction of the blower grill 138 .

The air purification member 130 is positioned inside the base member 110 or the module support member 120 and purifies the air introduced into the base member 110 or the module support member 120 , that is, the primary purified air.

In this embodiment, it will be described that the air purification member 130 is installed in an empty space inside the base member 110 .

In detail, the air purification member 130 includes an air purification case 131 , a fan 132 (fan), an air purification tank 133 , an ionizer 134 (ionizer), and a filter unit 135 . And, it includes a rising pipe 136 and a discharge pipe (137).

In the present embodiment, the air purification member 130 further includes a UV lamp 135a and a ventilation grill 138 .

The air purification case 131 has a predetermined space therein, and is installed inside the base member 110 .

The fan 132 is mounted on one of the inner surfaces of the air purification case 131 , and introduces the primary air into the air purification case 131 .

The air purification tank 133 is connected to the air purification case 131 and sprays water into the primary purified air introduced by the fan 132 .

The ionizer 134 is disposed inside the air purification case 131 and generates static electricity in the primary purified air to which the water of the air purification tank 133 is sprayed, and is included in the primary purified air. It is to make the fine dust charged.

The filter unit 135 is disposed inside the air purification case 131 and filters the fine dust from the primary purified air passing through the ionizer 134 to generate the secondary purified air. As such, a HEPA filter may be applied as an example.

The filter unit 135 is formed in the form of a non-woven fabric or the like.

As the primary purified air passes through the ionizer 134 , the fine dust in the primary purified air is charged, and in a state in which the fine dust in the primary purified air is charged, the primary purified air is transferred to the filter When passing through the unit 135 , the fine dust in the primary air may be efficiently filtered by the filter unit 135 .

The UV lamp 135a is a lamp that generates ultraviolet (Ultra Violet), and serves to sterilize the secondary purified air.

The rising pipe 136 raises the secondary purified air generated while passing through the filter unit 135 to a predetermined height.

The discharge pipe 137 communicates with the rising pipe 136 , and is connected to the module supporting member 120 while being bent from the rising pipe 136 to the outside of the module supporting member 120 . The secondary purified air is discharged.

The blower grill 138 connects the distal ends of the module support member 120 and the exhaust pipe 137 to each other, and the secondary purified air is discharged to the outside of the module support member 120 through a plurality of holes formed therethrough. to be expelled.

In this embodiment, the ventilation grill 138 is mounted on the side of the module support member 120 .

Reference numeral 139 denotes a battery unit in which electrical energy supplied from an external power source is accumulated, and elements using electricity such as the air purification member 130 , the control member 145 , and the communication member 147 are the battery unit. It can be operated using the electrical energy accumulated in (139).

Meanwhile, the flow accelerating unit 150 is installed inside the rising pipe 136 and causes the flow rate of the secondary purified air to be relatively accelerated when the secondary purified air rises. It includes a guide body 151 and a second flow guide body 152 .

The inner surface of the first flow guide 151 is formed to have a predetermined curvature, and a plurality of the first flow guides 151 are disposed to be spaced apart from each other at different heights on the inner surface of the rising pipe 136 .

In detail, the first flow guide body 151 includes a first flow guide body 152 that is formed along the inner circumferential surface of the rising pipe 136 while being mounted on the inner surface of the rising pipe 136 to be elongated by a predetermined length; and a first flow guide curved surface 153 formed while having a predetermined curvature on the inner surface of the first flow guide body 152 .

The inner surface of the second flow guide 152 is formed to have a predetermined curvature, and a plurality of the inner surfaces of the rising pipe 136 have different heights at a position facing the first flow guide 151 . are spaced apart.

In detail, the second flow guide body 152 is spaced apart from the first flow guide body 152 at a predetermined interval on the side facing the first flow guide body 152 among the inner surfaces of the rising pipe 136 . A second flow guide body 155 formed in the same size as the first flow guide body 152, and a second flow guide curved surface formed with a predetermined curvature on the inner surface of the second flow guide body 155 ( 156).

The first flow guide body 151 and the second flow guide body 152 are disposed at different heights to be shifted from each other inside the rising pipe 136, and the first flow guide body 151 and the second flow guide body 152 are disposed at different heights to be shifted from each other. The secondary purification air flowing between the first flow guide body 151 and the second flow guide body 152 rotates in one direction to form a vortex, and accordingly, the speed of the secondary purified air that rises is relatively can be accelerated to

In detail, the secondary purified air purified while passing through the filter unit 135 flows along the inner surface of the lowermost one of the first flow guide body 151 , that is, along the first flow guide curved surface 153 . , is moved to the lowermost one of the second flow guides 152 formed at a relatively higher position than those at the lowermost of the first flow guides 151 , and the second flow guides 152 . The secondary purified air moved to the lowermost of the second flow guides 152 flows along the inner surface of the lowermost one of the second flow guides 152 , that is, along the second flow guide curved surface 156 , and the second flow It is formed at a relatively high position compared to that at the lowermost side of the guide body 152 and is moved from the lowest side of the first flow guide body 151 to a position spaced upward by a certain height, and the first The primary purified air moved to a position spaced from the lowest side of the flow guide body 151 upward by a predetermined height is relative to that of the first flow guide body 151 spaced from the lowest side upward by a predetermined height. is formed at a high position and is moved from the lowest of the second flow guides 152 to the ones that are spaced apart by a certain height upwards, and as described above, the primary purified air flows through the first flow guides ( 151) and the second flow guide body 152 alternately flow in a zigzag manner so that the secondary purified air is rotated in one direction, and accordingly, the primary purified air flows from the air purification case 131 to the rising pipe. As it rises upward along the longitudinal direction of 136, the flow rate of the secondary purified air is relatively increased.

As the flow accelerator 150 is formed inside the rising pipe 136 as described above, the flow rate of the secondary purified air is relatively increased, and the secondary purified air having a relatively increased flow rate is converted into the second purified air. By being discharged to a relatively long distance from the planting-type smart air purification bench 100 , the secondary purified air can be widely distributed around the planting-type smart air purification bench 100 .

In this embodiment, a plurality of the rising pipe 136 and the exhaust pipe 137 are installed while being spaced apart from each other by a predetermined distance in the air purification case 131 .

Then, a plurality of the ventilation grills 138 connected to the distal end of each exhaust pipe 137 are also mounted on the module support member 120 while being spaced apart from each other, and the secondary air through the respective ventilation grills 138 . is discharged, so that the secondary purified air can be intensively discharged on the face of the users who use the plant-planted smart air purification bench 100, and accordingly, the plant-planted smart air purification bench 100 ), it becomes possible to relatively increase the air purification efficiency.

The control member 145 is installed inside the base member 110 or the module support member 120 , and controls the operation of the air purification member 130 according to the fine dust content information.

The fine dust-containing information may be generated by detecting the fine dust contained in the external air around the plant-planting smart air purification bench 100 by the fine dust detecting unit 146, and the plant-planting smart air purification bench 100 Fine dust information at a location spaced apart from the air purification bench 100 by a certain distance may be generated by being transmitted to the communication member 147 from the external server.

In detail, the fine dust detection unit 146 may generate the fine dust-containing information by detecting fine dust in the external air distributed around the plant-planted smart air purification bench 100 .

The fine dust detection unit 146 is connected to the control member 145 by wire or wirelessly to detect fine dust in the outside air distributed around the plant-planted smart air purification bench 100, and When the control member 145 determines that the value of the fine dust-containing information detected by the fine dust detection unit 146 is relatively larger than a reference value preset in the control member 145, the control member 145 is The air purification member 130 is operated.

The communication member 147 is installed inside the base member 110 or the module support member 120, and communicates wirelessly with an external server installed outside of the plant-planted smart air purification bench 100 to communicate the It is possible to generate information on the content of fine dust.

In detail, the communication member 147 transmits the fine dust-containing information transmitted from the external server to the control member 145 , and from the external server to the control member 145 through the communication member 147 . When the control member 145 determines that the value of the transmitted fine dust-containing information is relative to the reference value preset in the control member 145 , the control member 145 operates the air purification member 130 . will make it

Here, the preset reference value means a value stored in the control member 145 by the installer who installed the plant-planting type smart air purification bench 100 .

Since the fine dust detection unit 146 and the communication member 147 are installed, the air purification member 130 is operated only when necessary by the control member 145, so that the air purification member 130 is operated throughout the day. Compared to the operation, the consumption of the electric energy accumulated in the battery unit 139 can be relatively reduced, and the failure rate of the air purification member 130 can be relatively reduced.

Hereinafter, the operation of the plant-planting type smart air purification bench 100 according to this embodiment will be described with reference to the drawings.

First, the detection information sensed by the fine dust detection unit 146 is transmitted to the control member 145 , and the control member 145 compares the operation with a reference value preset in the control member 145 .

While the control member 145 is performing a calculation operation with the detected information of the fine dust detecting unit 146 , the value of the fine dust containing information detected by the fine dust detecting unit 146 is determined by the control member 145 . ) is relatively larger than the preset reference value, the control member 145 operates the air purification member 130 .

While the sensing information sensed by the fine dust detection unit 146 is transmitted to the control member 145 , the communication member 147 receives the fine dust-containing information generated by being transmitted from the external server to the control member 145 , and the control member 145 compares it with a reference value preset in the control member 145 while calculating.

While the control member 145 is performing a calculation operation with the fine dust-containing information transmitted to the communication member 147 , the data transmitted from the external server to the control member 145 through the communication member 147 is When it is determined that the value of the fine dust-containing information is relatively larger than a reference value preset in the control member 145 , the control member 145 operates the air purification member 130 .

Then, when the control member 145 determines that the value of the fine dust-containing information detected by the fine dust detection unit 146 is relatively small compared to a reference value preset in the control member 145, or the external server If it is determined that the value of the fine dust-containing information transmitted from the communication member 147 to the control member 145 is relatively smaller than a reference value preset in the control member 145, the control member 145 stops the operation of the air purification member 130 .

As described above, the plant planting type smart air purification bench 100 includes the base member 110, the module support member 120, the air purification member 130, the plant planting member 140 and By including the control member 145, it is automatically operated according to the fine dust-containing information sensed in its vicinity or received from an external server to purify the external air flowing in from the outside, so that it can respond immediately to rapidly changing environmental changes. Of course, it is possible to efficiently operate the planting type smart air purification bench 100 .

Hereinafter, a plant-planting type smart air purification bench according to other embodiments of the present invention will be described with reference to the drawings.

In carrying out this description, the description overlapping with the content already described in the above-described first embodiment of the present invention will be omitted here instead of it.

5 is an enlarged view of a flow accelerator applied to an air purification member constituting a plant-planted smart air purification bench according to a second embodiment of the present invention.

Referring to FIG. 5 together, in this embodiment, a plant-planted smart air purification bench is installed inside the rising pipe 236, and when the secondary purified air is raised, the secondary purified air is rotated in one direction, and a flow accelerating unit configured to relatively accelerate the flow rate of the secondary purified air.

In detail, the flow accelerator includes a first flow guide 251 and a second flow guide.

The first flow guide body 251 has an inner surface of a certain curvature, and a plurality of the first flow guide bodies 252 are disposed to be spaced apart from each other at different heights on the inner surface of the rising pipe 236 . and a first flow guide curved surface 253 , a first lower communicating pipe 258 , and a first upper communicating pipe 259 .

The first flow guide body 252 is formed to be elongated by a predetermined length along the inner circumferential surface of the rising pipe 236 while being mounted on the inner surface of the rising pipe 236 .

The first flow guide curved surface 253 is formed while having a predetermined curvature on the inner surface of the first flow guide body 252 .

The first lower communication pipe 258 is formed between three adjacent first flow guides 251 among a plurality of first flow guides 251 formed while being spaced apart from each other at different heights, and the three Among the first flow guides 251, the lowermost one and the middle one are communicated.

The first upper communication pipe 259 is formed between three adjacent first flow guides 251 among a plurality of first flow guides 251 formed while being spaced apart from each other at different heights, and the three Among the first flow guide members 251, the middle one and the uppermost one are communicated.

When the first flow guide 251 is formed as described above, a portion of the secondary purified air that flows while being guided by the lowermost one of the three first flow guides 251 formed while being spaced apart from each other at different heights is moved through the first lower communication pipe 258 and is formed while being spaced apart from each other at different heights to push the secondary purified air flowing while being guided by the middle one of the three first flow guides 251 to make the three It is possible to relatively increase the speed of the secondary purified air inside the rising pipe 236 that flows while being guided by the middle of the first flow guides 251 .

In addition, a portion of the primary purified air flowing while being guided by the middle one of the three first flow guide members 251 formed while being spaced apart from each other at different heights is moved through the first upper communication pipe 259 and is different from each other. It is possible to relatively increase the speed of the secondary purified air flowing while being guided by the uppermost one of the three first flow guides 251 formed while being spaced apart in height.

Then, the velocity of the secondary purification air gradually increases as it goes from the lowermost one to the uppermost one via the middle among the three first flow guides 251 formed while being spaced apart from each other at different heights.

In this embodiment, it has been described that the first lower communicating pipe 258 and the first upper communicating pipe 259 are formed in the first flow guide 251, but this is only an example and the first lower communicating pipe ( 258) and the first upper communication pipe 259 may be formed in the second flow guide body, or may be formed in both the first flow guide body 251 and the second flow guide body.

In the above, the present invention has been shown and described with respect to specific embodiments, but those of ordinary skill in the art can variously modify the present invention within the scope without departing from the spirit and scope of the present invention as set forth in the claims below. and can be changed. However, it is intended to clearly state that all such modifications and variations are included within the scope of the present invention.

According to the plant-planted smart air purification bench according to an aspect of the present invention, it is automatically operated according to the fine dust-containing information detected in its vicinity or received from an external server to purify the external air flowing in from the outside, thereby rapidly changing Since it is possible to immediately respond to environmental changes, as well as efficiently operate the plant-planting type smart air purification bench, its industrial applicability is high.

100: plant planting type smart air purification bench 110: base member
120: module support member 130: air purification member
140: plant planting member 145: control member
146: fine dust detection unit 147: communication absence
150: flow acceleration part

Claims (6)

As a plant-planted smart air purification bench that is formed in a bench shape and purifies the air,
a base member formed in the form of a bench;
a module support member connected to the base member and erected at a predetermined height from the base member;
a plant planting member disposed on the outer surface of the module support member and capable of planting a plant;
an air purifying member positioned inside the base member or the module supporting member to purify the air flowing into the base member; and
a control member installed inside the base member or the module support member and controlling the operation of the air purification member according to the fine dust content information;
The air in which outside air is primarily purified by the plant planted on the plant planting member to produce primary purified air, and the primary purified air generated by the plant planting member is actuated by the control member Secondary purification air is generated while passing through the purification member,
the air purifying member
an air purification case having a predetermined space therein;
a fan mounted on the air purification case and for introducing the primary purified air primarily purified by the plant planting member into the air purification case;
an air purification tank connected to the air purification case and spraying water into the primary purified air introduced by the fan;
An ionizer disposed inside the air purification case and generating static electricity in the primary purified air to which the water of the air purification tank is sprayed so that the fine dust contained in the primary purified air is charged. (ionizer) and
a filter unit disposed inside the air purification case and filtering the fine dust from the primary purified air passing through the ionizer to generate the secondary purified air;
a rising pipe for raising the secondary purified air generated while passing through the filter unit to a predetermined height;
and a discharge pipe communicating with the rising pipe and configured to be bent from the rising pipe to discharge the secondary purified air to the outside of the module support member,
The plant planting type smart air purification bench is
a flow accelerator installed inside the rising pipe and configured to relatively accelerate the flow rate of the secondary purified air when the secondary purified air is raised;
The flow accelerator
A first flow guide body whose inner surface is formed with a certain curvature, and a plurality of first flow guides are arranged to be spaced apart from each other at different heights on the inner surface of the rising pipe;
A plurality of second flow guides having an inner surface of a certain curvature and facing the first flow guide among the inner surfaces of the rising pipe are spaced apart from each other at different heights;
The first flow guide is
a first flow guide body mounted on the inner surface of the rising pipe and formed to be elongated by a predetermined length along the inner circumferential surface of the rising pipe;
a first flow guide curved surface formed while having a predetermined curvature on the inner surface of the first flow guide body;
a first flow guide formed between three adjacent first flow guides among a plurality of first flow guides formed while being spaced apart from each other at different heights, and connecting a lowermost one of the three first flow guides and a middle one of the first flow guides 1 the lower communicating pipe;
a first flow guide formed between three adjacent first flow guides among a plurality of first flow guides formed while being spaced apart from each other at different heights, and connecting the middle and uppermost ones of the three first flow guides 1 comprising an upper communicating pipe;
The second flow guide is
a second flow guide body formed in the same size as the first flow guide body while being spaced apart from the first flow guide body by a predetermined distance on a side of the inner surface of the rising pipe facing the first flow guide body;
and a second flow guide curved surface formed while having a certain curvature on the inner surface of the second flow guide body,
The first flow guide body and the second flow guide body are respectively disposed to be displaced from each other inside the riser pipe, and the flow guide body and the second flow guide body are disposed to be displaced from each other. The secondary purification air is rotated in one direction, and thus the speed of the secondary purification air rising can be relatively accelerated,
A portion of the secondary purified air flowing while being guided by the lowermost of the three first flow guides formed while being spaced apart from each other at different heights is moved through the first lower communication pipe and formed while being spaced apart at different heights. The velocity of the secondary purification air inside the rising pipe that is guided by the middle one of the three first flow guides by pushing the secondary purified air flowing while being guided by the middle of the first flow guides can be relatively increased,
Among the three first flow guides formed while being spaced apart at different heights, a portion of the primary purified air flowing while being guided by the middle of the three first flow guides is moved through the first upper communication pipe and formed while being spaced apart from each other at different heights. It is possible to relatively increase the velocity of the secondary purified air flowing while being guided by the uppermost one of the first flow guides,
Accordingly, the speed of the secondary purified air gradually increases from the lowest to the top via the middle among the three first flow guides formed while being spaced apart at different heights. Plantable smart air purification bench. The method of claim 1,
The plant planting type smart air purification bench is
A fine dust detection unit capable of generating the fine dust-containing information by detecting the fine dust in the external air distributed around the plant-planting type smart air purification bench;
When the control member determines that the value of the fine dust-containing information detected by the fine dust detection unit is relatively larger than a reference value preset in the control member, the control member operates the air purification member Plant-planted smart air purification bench. The method of claim 1,
The plant planting type smart air purification bench is
a communication member capable of generating the fine dust-containing information by communicating with an external server installed outside of the plant-planting type smart air purification bench;
The communication member transmits the fine dust-containing information transmitted from the external server to the control member, and the value of the fine dust-containing information transmitted from the external server to the control member through the communication member is transmitted to the control member. When the control member determines that it is relatively larger than a preset reference value, the control member operates the air purification member. 4. The method of claim 3,
The module support member has
And an image sensing unit for detecting an image around the planting-type smart air purification bench,
A base station for wireless communication of a terminal around the planting type smart air purification bench;
an environmental sensor capable of detecting environmental data around the planting-type smart air purification bench;
An interactive artificial intelligence (AI) unit that can talk to a user who uses the plant-planted smart air purification bench and
At least one of the output unit for outputting the fine dust-containing information and the operating state of the air purification member is installed,
At least one of the image information detected by the image sensing unit and the environmental data collected by the environmental sensor may be transmitted to the external server through the communication member. delete delete

Images