KR20140057482A - Apparatus & method for multistage in-room cultivation. - Google Patents

Abstract

The present invention provides a useful indoor cultivation apparatus capable of cultivating crops with long roots such as ginseng in multistages, which forms a pillar in the center of gravity of a cultivation bath, installs multiple cultivation baths and water tubs on one pillar in multistages, configures the lower part of the cultivation baths in a conical shape, and makes the surrounding height of the cultivation baths the lowest so as to reduce the sunlight blocking rate and to let the roots of the crops with long roots, such as ginseng, face the conical part as they grow. Furthermore, provided is an unmanned indoor cultivation apparatus which comprises a water tub which always stores a constant amount of water, formed at the upper part of the multiple cultivation baths, and which sets the stream velocity and flux of flowing water in each cultivation bath to automatically supply a constant amount of water to each type of cultivation container. Also, provided is a business model, which remotely controls multiple cultivation apparatuses with an external computer by configuring telecommunications networks capable of remote control between multiple flowerpots or cultivation baths installed in every home or office, and an external computer.

Description

[0001] The present invention relates to a multi-stage indoor cultivation method and apparatus.

The present invention relates to a multi-step cultivation method and apparatus for cultivating indoors plants such as roots of ginseng with long roots, and plants such as lettuce, kale, sesame leaf, gilthead,

More particularly, the present invention relates to a method for cultivating roasted ginseng roots, roots such as roots, bellflower roots, and lettuce, kale, sesame leaf, The roots of roots with long roots grow toward the cone, so that the height of the outer chamber of the tiller can be made low. Therefore, even if the tiller is constructed in a multi-stage structure, the sunlight blocking rate can be reduced and the roots such as ginseng can be cultivated, In addition, a tiller is formed at the center of gravity of the tillage vessel, so that a plurality of tilling tanks and a water tank can be vertically mounted on one tiller, thereby providing an economical tillage system that efficiently utilizes a relatively narrow indoor space.

In addition, a water pipe is connected to the water tank to constantly store a certain amount of water by the water level sensing, and the means for setting the water flow rate and the flow rate by adjusting the water flow rate and the flow rate between the water tank and each cultivation tank, Provides a fully automatic unmanned cultivation system

Ginseng leaves and stems contain large amounts of antioxidants such as ginseng roots. However, since conventional ginseng fields spray a large amount of pesticides, it is inappropriate to use them as edible plants. Hydroponic cultivation techniques have been developed. However, There is a problem that it can not be installed in a home.

In addition, kale contains most of beta-carolin, which has a large inhibitory effect on carcinogenic substances in edible oilseeds. When it is cultivated in a field or in a field containing a large amount of GABA ingredient which is effective for preventing dementia with sesame leaf, There is a problem that microorganisms are transferred to people through vegetables during organic cultivation.

Therefore, it is the safest way to grow vegetables and vegetables in each household. However, when cultivating in a house or an apartment room, it is necessary to have a relatively large area, the sunlight is not shined uniformly, There was a difficulty in supplying nutrients regularly and without manpower.

The existing multi-stage pot stand is merely a function of multi-stage loading of pollen, and the automatic watering system is only a method of forcibly supplying water by the power of the pump from the bottom surface. Therefore, There is a problem that it can not be set and there is a problem that the pump must be operated every time water is supplied.

In addition, the conventional multi-stage pot holders have a problem in that people have to give water in time, so there is a problem that the house can not be emptied for a long period of time due to vacation, and there is a problem in that the illumination can not be controlled differently according to the type of plant.

In addition, since the existing flowerpot rests on a separate flowerpot, there is a problem that a plurality of restraint layers can not be vertically constructed in a single post in a room.

Even though the cultivation tank is not a potted plant, the existing multistage cultivator must design the height of the container when the crop with long roots is cultivated. Therefore, due to the size and weight of the cultivation tank, There was a problem that it was not possible to construct a cultivation tank.

In order to solve the above problems, a rotary multi-level flowerpot pedestal is registered with the Korean Registered Utility Model No. 20-0453179. However, this is merely a structure in which the pollen is mounted in multiple layers, and the problem of not getting sunlight can not be solved, There is an inconvenience to give.

Korean Patent Laid-Open No. 10-2006-0060422 has also developed an automatic watering multistage hydroponic device. However, this is a method of supplying water to each pot with a pump constructed at the bottom, and since the height of each pot is different, There is a problem in that it is impossible to separately classify the amount of water according to the type of plant.

U.S. Patent Application Publication No. US 2002/0167460 A1 discloses a method of constructing a plurality of tillage tanks in a single strand shape and supplying water by a pump. However, since the size of the tiller is limited, There is a problem in that it is not suitable for the following, and a pump must be used.

In addition, US Pat. No. 5,097,626 discloses a method in which a humidity sensor is applied to the soil of each pot and water is automatically supplied to the pot according to the humidity of the pot, but this method has limitations in cultivating a large amount of plants , There is a problem that the construction cost of the apparatus per unit cultivation area is high.

In order to solve the above problems, the present invention provides a multi-layered structure of a plurality of tillage tanks in a single strut by constituting a strut at the center of gravity of the tillage, and the lower part is conically formed so that the roots grow in the direction of the cone, It is possible to cultivate long plants and reduce the height of the outside of the cultivation vessel, thus providing a useful configuration that reduces the rate of sunlight blocking.

The present invention constitutes a control means for controlling the flow rate and flow rate of water by supplying water to each regrowth tank by using a water level difference and gravity of water by constituting a reservoir at the upper part of each regrowth without constituting a pump, And to provide a fully automatic indoor tillage device that performs a certain amount of water supply function in accordance with the time by the device itself.

In addition, it is possible to reduce the energy by automatically adjusting the illumination required for the growth of the plants by LED artificial lighting by sensing the illuminance by the microprocessor in each cultivating room in the sunlight-poor indoor space, The present invention provides a fully automatic indoor cultivation apparatus for cultivating plants by unrestrained setting by arbitrarily adjusting each stage according to the type thereof.

In order to achieve the above object, the present invention provides a relatively shallow cultivation tank for cultivating plants such as ginseng having long roots by forming the bottom surface of the cultivation tank into a conical shape or a curved surface, Thereby increasing the efficiency of the floor area occupied by the device.

In particular, it is possible to cultivate ginseng in organic households in each household, thus providing a useful technique for making use of ginseng leaves as well as ginseng leaves having a high antioxidant effect.

In addition, since the existing indoor cultivation method which requires watering periodically is troublesome and can not be emptied for a long period of time, it provides a fully automatic unmanned indoor cultivation apparatus and a method that require no manpower once it is set.

In addition, when indoor cultivation equipment is multi-tiered, it is possible to detect the illuminance of each stage and calculate the most suitable illuminance required for growth of each plant type at each stage, thereby providing an indoor cultivation method for reducing energy by controlling the illuminance differentially do.

In addition, according to the present invention, water is automatically supplied by gravity difference and elevation difference of each stage, thereby reducing energy compared with the use of a pump and eliminating inconvenience caused by malfunction or failure of a pump or the like.

The present invention has the effect of increasing the utilization efficiency of the narrow indoor space because a plurality of cultivation tanks can be formed in one strut by forming the strut at the center of gravity of the cultivation tank.

In the present invention, the lower part of the breeding tank is formed by a cone or a curved surface, and the roots grow along the curved surface of the roots such as ginseng and roots, thereby reducing the height of the outer chamber of the tilling vessel, Has the effect of enabling the cultivation of long crops.

In addition, since the roots can be cultivated indoors as described above, it is possible to cultivate ginseng indoors in a multi-stage manner. As a result, it is possible to cultivate fresh ginseng leaves that do not use any pesticide by themselves, It provides a useful technique to utilize a large amount of antioxidant components contained in leaves.

In addition, the present invention provides a tilling device for automatically supplying water or nutrient solution without a pump, so that each household can cultivate tulip vegetable such as kale, lettuce, sesame leaf and the like directly by organic farming.

As a result, it is now possible to cultivate freshly pickled vegetables easily in each family. It is effective not only for the health promotion effect of the human body due to the pesticide-free beech, but also for supplying fresh oxygen to the room due to the cultivation of the crops and purifying the humidity and air and contributing to prevention of atopy have.

In addition, in order to cultivate a variety of landscaping plants and plants in indoor as well as edible vegetables, setting the amount of water or nutrients to be automatically supplied according to the kinds of plants provides a fully automatic device requiring no manpower, There is a useful unmanned tillage machine available.

1 is a system configuration diagram of the present invention.
2 is a perspective view of the present invention.
3 is a detailed view of the connection portion of the present invention of the present invention.
4 is an application perspective view of the present invention.
5 is a perspective view of the apparatus of the present invention connected laterally.

Best Mode for Carrying Out the Invention

The present invention relates to a method and apparatus for constructing a strut at the center of gravity of a hardened cultivation tank, thereby making it possible to construct a plurality of cultivation tanks and water storage tanks in a single strand in multiple stages, thereby optimizing the economic tillage area The apparatus and the lower part of the breeding tank are cone-shaped so as to minimize the height of the circumference of the breeding tank to reduce the sunlight blocking rate, while the roots such as ginseng grow longer and the roots are directed toward the cone part, The present invention provides a multi-stage indoor unmanned tillage apparatus capable of enabling a plurality of indoor unmanned tillers.

In addition, a water tank for automatically storing a certain amount of water at all times in the upper part of the plurality of cultivation tanks, and a water distribution control device configured to set the flow rate and flow rate of water flowing between the water tank and the respective tanks, The present invention provides a fully automatic indoor tilling apparatus that automatically supplies a predetermined amount of water at all times.

In addition, the development of a business model that provides systems and services to unmanned management of a large number of pots placed in each home or office by using the above automatic tillage tillage system eliminates the inconvenience of having to supply water by manpower, It provides a useful technique to remotely manage pollen safely even when the house is empty.

DETAILED DESCRIPTION OF THE INVENTION

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

As shown in Figs. 1 and 2, the present invention includes a water supply inlet 102 for supplying water from a water supply line, a water storage tank 103 for storing water supplied from the water supply, (Or a curved surface) so that roots of a long root can be grown by supplying water supplied from the water reservoir and cultivating the crop, and the lower part of the cone A plurality of regulating vessels 105, 106, 107 and 108 each having a channel groove so as to penetrate vertically through a column and a water supply pipe at the center of gravity; a water distribution control means (not shown) disposed at a lower portion of the water reservoir, for adjusting the flow rate and flow rate of water And a column 113 installed between the ceiling portion 101 and the floor surface 114 and interposed between the inner ceiling portion 101 and the floor surface 114 to house a plurality of regulating tanks and a water storage tank.

In addition to the above configuration, when the illuminance of the natural light projected from the indoor to the window is weak as shown in FIG. 3, the LED illumination device and the illuminance are sensed at the upper part of each cultivation tank, and depending on the type of plants planted by each cultivation group By configuring the microprocessor 121-124 to provide the most suitable illumination necessary for the growth of the plants, the most suitable illumination (for example, in the case of ginseng, the illuminance differs from the other plants) by the characteristics of the crops planted in each cultivation group And provides useful technology to save energy by not lighting unnecessary lights.

It is also possible to set the water distribution control means for controlling the water flow path between the water reservoir and the respective rears in the lower part of the water reservoir to be a mechanical valve or to configure the water flow amount to be supplied to each pipe by the program of the microprocessor, The flow rate, and the supply time.

In the above configuration, the sensor means for controlling the opening and closing of the inlet portion of the water supply so as to always store water at a certain level in the water storage tank can be constructed using various conventional mechanical or electronic water level sensor devices.

In addition, a configuration in which a constant amount of water is always supplied in the water tank according to the characteristics of crops in each cultivation tank is constituted by a manual or electric valve in the water distribution control unit (104) Or may be set to control the flow rate and the flow rate of a plurality of water supply tubes with one valve to the water distribution control device.

In addition, if the above-mentioned water tank is filled with the solid substance of the nutrient solution, or an additional nutrient solution is added, or a separate nutrient solution bottle is inserted into the tank, the amount of the nutrient solution flowing from the nutrient solution bottle is set.

In the present invention, even if the water and the nutrients necessary for the growth of water and plants are placed in a water bag and the water bag is detached and replaced at any time, Can be obtained.

In addition, a water reservoir for storing a predetermined amount of water at all times can be configured on the outside, and water can be supplied by a water level difference or a pump.

Further, if the nutrient solution feeding device for growing the plant is placed in a separate container or pouch for each cultivation bath by using the above-described technique of supplying water in the present invention, To provide a nutrient solution inexpensive to supply different nutrient solutions to each other, and provides a useful technique for cultivating a plurality of species of plants completely different in one inventive device.

In the present invention, the cultivating vessel (cultivating tank) may be formed in various forms such as round, oval, rectangular, square, or pentagonal to octagonal, and therefore the shape of the cultivating vessel is not limited.

In the above form, the lower part of the cultivation tank is formed into a curved surface (preferably in a conical shape) so that roots such as ginseng can grow long crops, and the roots themselves are directed toward the conical part. Thus, useful structures for cultivating long crops such as ginseng to provide.

As a result, a plurality of tilling vessels are mounted on one strut in a multi-tiered manner. As shown in Fig. 5, since the tillage area can be extended unlimitedly when the connecting means is formed laterally between the tiller- It provides a useful device for mass cultivating spicy vegetable of the species.

FIG. 4 is a configuration diagram of a tillage apparatus configured to cultivate a large amount of tangible vegetables in a room by applying the present invention.

As shown in FIG. 4, the apparatus for cultivating a large amount of plants according to the present invention comprises a water inlet unit for supplying water from the outside, a control sensor unit 202 for controlling the water level of the water tank to be maintained at a constant water level A plurality of cultivation units 205, 206, 207 and 208 configured to cultivate a plurality of kinds of crops by receiving water supplied from the water storage tank, a plurality of cultivation vessels 205, Water distribution control means 204-1 and 204-2 configured to control and set the flow rate and flow rate of the water, and at least one column 213-1 and 213-2 configured in the rearrangement .

In the above case, the same effect can be obtained even if the support is formed on the outer side of the plurality of the cultivation vessels by a separate stand depending on the size and weight of the cultivation vessel.

In addition, the bottom surface of the cultivation tank is not restricted by the size and weight of the cultivation tank, and the bottom surface of the cultivation tank can be configured as a flat surface, a slope surface, a curved surface or a V shape.

In addition, it is also possible to constitute one water distribution control means so as to set the flow rate and the flow rate of water to be supplied to a plurality of the remesters equally or to constitute a water distribution control means for each tube for supplying water to each resuscitation tank, Can be set.

When a microprocessor and LED means (221, 222, 223, 224) for sensing light on the upper part of each cultivation unit and controlling illumination for each cultivation unit are provided, illumination amount for saving energy is provided because the dose of sunlight differs depending on the location of each cultivation unit .

According to the technical idea of the present invention, there is provided an unmanned tillage method for achieving the object of the present invention, comprising at least one channel groove penetrating a plurality of breeding tanks in a vertical direction, A step of connecting a water inlet pipe to an outside of the water reservoir, sensing a water level difference in the water reservoir and automatically storing a predetermined amount of water at all times, constructing a water reservoir, And adjusting the flow rate and the flow rate of the water flowing from the lower part to each of the cultivation tanks to set the flow rate and the flow rate of the water to be supplied to each of the cultivation tanks. This is done by automatically supplying a certain amount of water to the tank.

In the above method, the same effect can be obtained even if the control means is constituted by a manual valve or an electric valve and a microprocessor, and the amount and flow rate of the water supplied to each of the regulating chambers are set by a microprocessor.

The same effect can be obtained even if the water tank and the nutrient solution are supplied by replacing the water tank and the water tank filled with the nutrient solution. In this case, if the water tank and the nutrient solution are applied to the pot, the upper detachable water tank is installed Provide a useful system for watering the flowerpot when controlling the flow rate and amount of the water supplied to the flowerpot at the lower end of the water tank, and it is convenient because it is waterless even if the house is vacated for a long time by vacation or business trip.

In addition, when a large capacity water tank is separately constructed and the means for controlling the flow rate and flow rate of water flowing in a plurality of pots or the cultivation tank is composed of a mechanical valve or an electric valve using a microprocessor, a plurality of pots Provides useful techniques for unmanned management of cultivation.

As described above, it is now possible to plant plants indoors or manage unmanned pollen. By programming microprocessor to remotely control the illumination and water condition of unmanned cultivating equipment, or installing a digital camera in the microprocessor, It is now possible to perform remote diagnosis up to operation.

Therefore, it is possible to construct a business model for managing a plurality of unmanned farming apparatuses from the outside using the above-described technology. The method includes a microprocessor having a wireless communication function set in the unmanned tillage system apparatus of the present invention, Configuring a camera; configuring a communication network between the upper microprocessor and an external system management computer; recognizing a plant growth state and a watering state of the target cultivation system periodically according to a protocol programmed in the system management computer; , It is possible to provide a service to remotely monitor and control the tillage equipment by a method including a step of generating an alarm signal to a system administrator computer or a mobile phone from a system management computer when an abnormal symptom set in the program is detected, After installing the device You can implement a business model that takes the cost of providing services as a source of revenue.

A plurality of fully automatic tillage system devices constituted by a reservoir for storing a predetermined amount of water at all times by using the above business model, and control means for setting the flow rate and flow rate of water flowing in the tillage vessel, Or by online management in the manner described above in the management subject, or periodically according to the protocol programmed in the system management computer, recognizing the status of the plant and the water supply status by the addressee of the target cultivation system, The system administrator can alert the system administrator computer to the mobile phone and build the business model by keeping the pollen or cultivation state in the best condition offline.

In addition, the system can be constructed by configuring the water tank to be detachable by mixing separate water and nutrient solution, periodically replacing it, or alternatively supplying water and nutrient solution according to the data sensed by the computer of the management subject have.

1. It can be applied to domestic indoor automatic tillage equipment manufacturing and rental industry by providing fully automatic unmanned cultivation equipment that can provide self-sufficiency of organic vegetables to the whole family in the desert area houses and narrow apartments.

2. The apparatus of the present invention also provides a useful structure for extending the cultivation area to infinity when the cultivation tank is laterally connected so that it can be used in the industrial indoor tillage apparatus industry using the same.

3. Furthermore, since the inventive concept of the present invention can enlarge the indoor cultivation facility, it can be used in a large-scale plant cultivation industry in which vegetables or flower plants are cultivated in buildings or factories.

4. In addition, the present invention provides a technique for automatically watering pollen and unmanned pollen management, so that it can be used in a fully automatic unmanned management pollen manufacturing industry by incorporating the concept of this technology.

Claims (24)

In a multi-stage fully automatic indoor tiller,
(1) a plurality of cultivation vessels constituted by a curved surface selected from semicircular, elliptic, and conical shapes at the lower part of the hardened cultivation vessel and constituting channel grooves so as to penetrate the upper and lower struts at the center of gravity of the vessel, and (2) (3) a water reservoir provided at the lower part of the water reservoir for supplying water to a plurality of the cultivation pools and supplying water to the water reservoir and a plurality of cultivation tanks A water distribution control means for setting the flow rate and the flow rate by adjusting the flow rate and the flow rate; (4) a column which is inserted into the channel grooves of the plurality of the rearrangement vessels and which houses the plurality of rearrangement vessels and the water storage tank,
Wherein a plurality of cultivation tanks are automatically supplied with a constant amount of water at all times due to a difference in water level, and a plurality of cultivation tanks and water supply tanks are formed in one strand, The method according to claim 1,
Wherein the water storage tank is constituted to constitute a water level sensing means for sensing the water level of the water storage tank and to connect the water storage tank to an external water supply pipe to always store a certain amount of water under the control of the water level sensing means. The method according to claim 1,
And a nutrient solution feeding means for selecting a nutrient solution feeding means for adjusting the flow rate and the amount of the nutrient solution to the water reservoir is constructed so that the concentrated solid matter necessary for the growth of the plant is detachably mounted in the water reservoir, The method according to claim 1,
A multi-stage indoor tilling machine characterized in that a water tank is detachably installed and a water tank or a water tank is filled with a nutrient solution necessary for growth of water and plants, The method according to claim 1,
Wherein the control means is constituted by a mechanical valve for setting the flow rate and flow rate in the water distribution control means or an electric valve for setting the flow rate and the flow rate in the microprocessor. The method according to claim 1,
LED lighting means on the upper part of each cultivation tank and a microprocessor for controlling the light emission pattern of the LED by sensing the light intensity are additionally provided and the microprocessor controls the microorganism according to the characteristics of the crop cultivated in each cultivation tank And a plurality of indoor tilling machines The method according to claim 1,
Characterized in that the upper part of the cultivation tank is constituted by an oval or rectangular shape and at least one channel groove is formed. The method according to claim 1,
Wherein the channel is not formed in the interior of the cultivation tank, and a separate multi-stage platform is formed on the exterior of the cultivation tank to receive the cultivation tank. The method according to claim 1 or 8,
Characterized in that the lower part of the breeding tank is constituted by a plane, an inclined plane, or a plane selected from a V-shape or a waveform. The method according to claim 1,
Wherein a connecting means between the rearing basins is provided on the side of the rearing tank to vary the culturing area by lateral connection between the rearing tanks. In a method of cultivating an unattended plant in a room,
(1) a step of constructing at least one channel groove extending vertically from the inner side of the regrowing vessel to construct a water reservoir at the upper part thereof by vertically mounting a plurality of regrowth pipes vertically on a support through the channel groove; and A step of connecting an external water inlet pipe to the water storage tank and sensing the water level difference in the water storage tank so as to automatically store a predetermined amount of water at all times; and (3) And setting a flow rate and a flow rate of water to be supplied to each of the regrowing vessels,
Characterized in that a constant amount of water is always automatically supplied to a plurality of cultivation tanks in a water tank by water level and gravity, The method of claim 11,
Characterized in that the control means is constituted by a mechanical valve for setting the flow rate and the flow rate to the control means or an electric valve for setting the flow rate and the flow rate by the microprocessor The method of claim 11,
Characterized in that the channel grooves are not formed on the inner side of the redistricting tank and a separate multi-stage rack is formed on the outside of the redistricting tank. The method according to claim 11,
Characterized in that a water tank is separately provided outside, and a fully automatic unmanned indoor cultivation method The method of claim 11,
A microprocessor having communication means with an external computer is additionally provided and a sensor controlled by the microprocessor detects the water level of the water tank and the state of the valve to alert the external computer when there is an abnormality based on the program set in the microprocessor A fully automated unmanned indoor cultivation method 16. The method of claim 15,
A digital camera is added to the microprocessor so that the state of the plant and the operation state of the system can be confirmed by an external computer. The method of claim 11,
A fully automatic unmanned indoor cultivation method characterized by replacing a detachable water tank filled with water or a nutrient solution necessary for growth of water and plants by constituting a water tank in a removable manner 1. A water supply device for supplying water to a flowerpot for growing plants or plants,
And a control means for setting the flow rate and the flow rate of water supplied from the water tank to the flowerpot in a detachable manner from the upper portion of the flowerpot and a control means for setting the flow amount and the flow rate of the water to be supplied to the flowerpot, Water supply device 19. The method of claim 18,
Characterized in that the control means is constituted by a mechanical valve for setting the flow rate and the flow rate to the control means or an electric valve for setting the flow rate and the flow rate by the microprocessor 19. The method of claim 18,
Wherein the water tank is configured to control the flow rate and the flow rate of the water supplied to the plurality of pots with the soft tube, In a method for establishing a business model for remotely managing a cultivated container of a plant including pots installed in each home or office,
(1) a water tank for storing a predetermined amount of water at all times by sensing the water level, and a control means for setting the flow rate and flow rate of the water flowing in the tilling container, which is constituted between the water storage tank and the tilling tank, (2) configuring a microprocessor having a wireless communication function in the fully automatic tillage system device, configuring a communication network between the microprocessor and an external system management computer, and (3) A step of periodically recognizing the state of the plant and the state of water supply according to the address of the target cultivation system according to the protocol programmed in the system management computer; and (4) when the abnormal symptom set in the program is detected, Alarm signal to mobile phone with selected device from computer or mobile phone Comprising the steps of:
How to build a business model that takes the cost of installing and operating a system that remotely manages pots and plants in each home or office. 23. The method of claim 21,
A digital camera is additionally provided in the microprocessor configured in the tilling device, and a function of remotely monitoring the tillage state of the plant and the operation state of the fully automatic tillage system device by an external computer program is further provided 23. The method of claim 21,
A water tank connected to an external water supply pipe and configured to store a predetermined amount of water at all times by a sensor, or a water tank replenished with water according to sensing data of a computer, 23. The method of claim 21,
A method of establishing a business model characterized in that a fully automated tilling system device is installed as a rental and selected and managed offline or online

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