CN206176770U - Pottery heat accumulation solar energy air heat collector - Google Patents
Pottery heat accumulation solar energy air heat collector Download PDFInfo
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- CN206176770U CN206176770U CN201621267659.4U CN201621267659U CN206176770U CN 206176770 U CN206176770 U CN 206176770U CN 201621267659 U CN201621267659 U CN 201621267659U CN 206176770 U CN206176770 U CN 206176770U
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E10/00—Energy generation through renewable energy sources
- Y02E10/40—Solar thermal energy, e.g. solar towers
- Y02E10/44—Heat exchange systems
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E60/00—Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
- Y02E60/14—Thermal energy storage
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E70/00—Other energy conversion or management systems reducing GHG emissions
- Y02E70/30—Systems combining energy storage with energy generation of non-fossil origin
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Abstract
The utility model discloses a pottery heat accumulation solar energy air heat collector, including the framework, thermal -arrest board, ceramic honey comb board and heat preservation are established between the two after to installation printing opacity front panel and backplate in the framework in the past, the ceramic honey comb intralamellar part is equipped with at its top and bottom and external communicating honeycomb holes, and the wind -guiding chamber is established on the inside top of framework, and ceramic honey comb board top communicates with each other with the wind -guiding chamber, indoor supply -air outlet is established on backplate upper portion, sets up outdoor air outlet on the frame wall on framework upper portion, establishes the wind -guiding mouth on the frame wall of framework bottom, and ceramic honey comb board bottom communicates with each other with this wind -guiding mouth, bellows are connected to wind -guiding mouth below, establish the fan in the bellows, the top have with the wind -guiding mouth opening that communicates with each other, there is outdoor air inlet the bottom, the rear side has indoor air return port, indoor supply -air outlet, indoor air return port, outdoor air inlet and the punishment of outdoor air outlet do not are equipped with open closed wind deflector element. The utility model discloses the thermal -arrest with keep warm effectually, receive that weather effect is little in short -term, energy loss is few, the noise jamming is little.
Description
Technical field
The utility model is related to application of solar, more particularly to a kind of ceramic heat-storing solar air heat collection
Device.
Background technology
With the development of heliotechnics and material technology, occur in that much utilized heliotechnics in the market
For the solar energy air heat collector that architecture indoor provides heating.The patent document of publication number CN102322695A describes " photovoltaic
Drive solar energy air heat collector ", this is environmental protection, the solar energy air heat collector of energy-conservation that a kind of utilization photovoltaic drives, its profit
Solar energy is absorbed with solar energy photovoltaic panel and heat its inner air, while providing electricity for DC fan using solar energy photovoltaic panel
Power, then DC fan the hot-air in heat collector cavity is sent into it is indoor, so conventional energy resource will not be expended completely, with making
With the high advantage of low cost, economy.Above-mentioned solar energy air heat collector is the Related product developed in advance of applicant, with entering
The further investigation of one step, the solar energy air heat collector yet suffers from the weak point of following several respects in practical application:(1)
Lighttight solar energy photovoltaic panel have impact on the glazed area of front panel, occupy the heat collector surface of larger area, affect collection thermal effect
Rate.(2) isolate upper rear portion cavity further through dividing plate after wind deflector and be used as Heat buffered layer, complex structure, and be incubated
Performance is bad, and heat loss is larger.(3) collecting plate for increase collector area, using concavo-convex press-formed plate material, but with thermal-arrest cavity
Laminating degree is poor, causes part hot-air roundabout without air channel, directly rises to indoor air outlet, the hot air time compared with
It is short.(4) air channel, without heat accumulation function, is affected larger using the roundabout form of S types by weather in short-term.(5) indoor air outlet and interior
Noise problem can be indoors caused after the assembling of return air inlet.Therefore, applicant has been carried out further again for problem above
Ground is improved, and creates a kind of new ceramic heat-storing solar energy air heat collector.
Utility model content
The purpose of this utility model is to provide a kind of ceramic heat-storing solar energy air heat collector so as to thermal-arrest and heat insulation effect
Good, heat utilization efficiency is high, is affected little by weather in short-term, and noise jamming is little, so as to overcome existing solar energy air heat collector structure
Complexity, collecting efficiency is low, and heat insulation effect is poor, and heat-energy losses are high, affected larger by weather in short-term, and interior easily causes noise not
Foot.
For achieving the above object, the utility model is adopted the following technical scheme that:
A kind of ceramic heat-storing solar energy air heat collector, including the framework surrounded by frame wall, in the framework position is provided with
Set successively from front to back between positive printing opacity front panel and the backboard positioned at the back side, the printing opacity front panel and the backboard
It is equipped with collecting plate, honeycomb ceramic plate and the heat-insulation layer being close to mutually;The ceramic honey comb intralamellar part is provided with honeycomb hole, the honeycomb
Hole communicates at the top and bottom of the honeycomb ceramic plate with the external world, and the framework inner tip is provided with wind guide chamber, the honeycomb
The top of ceramic wafer communicates with the wind guide chamber;The backboard top is provided with indoor air outlet, the indoor air outlet and institute
State wind guide chamber to communicate;Outdoor air outlet, the outdoor air outlet and the wind guide chamber are offered on the frame wall on the framework top
Communicate;The frame wall of the framework bottom is provided with air guide hole, and the bottom of the honeycomb ceramic plate communicates with the air guide hole;It is described to lead
Air port lower section is connected with bellows, and the inner bellows are provided with blower fan, and bellows top is provided with the opening communicated with the air guide hole,
Its bottom is provided with outdoor air inlet, and rear side is provided with indoor return air mouth;The indoor air outlet, indoor return air mouth, outdoor air intake
Mouth and outdoor air outlet are respectively equipped with weatherseal to be opened/closed.
Photovoltaic module is provided with front side of the bellows, the photovoltaic module is connected with the blower fan and powers for it.
The blower fan is crossflow fan.
The printing opacity front panel is face glass.
The weatherseal is louvre blade or baffle plate.
The concentrator projected towards indoor direction is additionally provided with the indoor air outlet and indoor return air mouth.
Weatherseal at the indoor air outlet and indoor return air mouth is arranged at the opening of the concentrator.
The top surface of the bellows is identical with the bed-plate dimension size of the framework and both pairings connect.
A diaphragm plate is additionally provided with inside the framework, the diaphragm plate is located at the wind guide chamber bottom, and offers thereon
Led with described by the through hole at the through hole corresponding with the top end face of the honeycomb ceramic plate, the top of the honeycomb ceramic plate
Wind chamber communicates;The honeycomb ceramic plate and heat-insulation layer are arranged between the diaphragm plate and the frame wall of the framework bottom.
The heat-insulation layer is close to the backboard.
At least there is advantages below due to adopting above-mentioned technical proposal, the utility model:
(1) photovoltaic module is provided separately within bellows as power source, on the one hand can provide electric energy for blower fan, is realized dynamic
Power is self-supporting, the glazed area of printing opacity front panel is not on the other hand affected, so as to not affect the collection thermal process of collecting plate, collecting efficiency
It is high.
(2) original collection hot-flow flue instead of using the honeycomb ceramic plate with heat accumulation function, there is heat collector certain
Heat storage capacity, reduce impact of the Changes in weather to indoor air outlet temperature in short-term.
(3) high-performance heat-insulation layer is compared to the original cavity insulation insulation for adopting, simple structure, high insulating effect, heat waste
Lose less, and heat-insulation layer takes small volume.
(4) external bellows are set and crossflow fan is adopted, noise is reduced to indoor interference.
(5) to sum up, the utility model thermal-arrest and high insulating effect, heat utilization efficiency is high, is affected little by weather in short-term, and noise is done
Disturb little, improve the overall performance of heat collector.
Description of the drawings
Above-mentioned is only the general introduction of technical solutions of the utility model, in order to better understand technology hand of the present utility model
Section, below in conjunction with accompanying drawing, the utility model is described in further detail with specific embodiment.
Fig. 1 is the structural decomposition diagram of the utility model ceramic heat-storing solar energy air heat collector.
Fig. 2,3 be respectively the utility model ceramic heat-storing solar energy air heat collector different visual angles stereogram.
In figure:1- printing opacity front panels;2- collecting plates;3- honeycomb ceramic plates;4- heat-insulation layers;5- frameworks;Air outlet outside 6- rooms;
7- air guide holes;8- baffle plates;9- backboards;Air outlet in 10- rooms;11- indoor return air mouths;12- bellows;13- blower fans;14- photovoltaic groups
Part;15- outdoor air inlets;16- is adjustable louvre blade.
Specific embodiment
Refer to shown in Fig. 1,2,3, the utility model provides a kind of ceramic heat-storing solar energy air heat collector, including by frame
It is provided with positioned at positive printing opacity front panel 1 and the backboard 9 positioned at the back side in the framework 5 that wall is surrounded, the framework 5, it is described
It is disposed with collecting plate 2, honeycomb ceramic plate 3 and the insulation being close to mutually between light front panel 1 and the backboard 9 from front to back
Layer 4;Be provided with honeycomb hole inside the honeycomb ceramic plate 3, the honeycomb hole the top and bottom of the honeycomb ceramic plate 3 with it is outer
Boundary communicates, and the inner tip of the framework 5 is provided with wind guide chamber, and the top of the honeycomb ceramic plate 3 communicates with the wind guide chamber;It is described
The top of backboard 9 is provided with indoor air outlet 10, and the indoor air outlet 10 is communicated with the wind guide chamber;The top of the framework 5
Outdoor air outlet 6 is offered on frame wall, the outdoor air outlet 6 is communicated with the wind guide chamber;On the frame wall of the bottom of the framework 5
Air guide hole 7 is provided with, the bottom of the honeycomb ceramic plate 3 communicates with the air guide hole 7;The lower section of the air guide hole 7 is connected with bellows 12,
Blower fan 13 is provided with inside the bellows 12, and the top of bellows 12 is provided with the opening communicated with the air guide hole 7, its bottom is provided with room
External air inlet port 15, rear side is provided with indoor return air mouth 11;The indoor air outlet 10, indoor return air mouth 11, outdoor air inlet 15
And it is respectively equipped with weatherseal to be opened/closed at outdoor air outlet 6.
Wherein, the printing opacity front panel 1 can adopt the face glass of high printing opacity, the rear of printing opacity front panel 1 to arrange
Collecting plate 2, collecting plate 2 can efficiently utilize solar energy.
The front side of the bellows 12 is provided with photovoltaic module 14, and the photovoltaic module 14 is connected and for it with the blower fan 13
Power supply, realizes that power is self-supporting.It is preferred that the blower fan 13 is set to crossflow fan.Because photovoltaic module 14 is arranged on bellows 12
Front side, does not interfere with the glazed area of printing opacity front panel 1, and then does not affect the collector area of collecting plate 3, collecting plate 3 to arrange
It is and printing opacity front panel comparable size specification, it is ensured that maximum collector area.
The honeycomb ceramic plate 3 is provided with the platy structure of honeycomb hole for inside, because it has certain heat storage capacity, phase
For traditional collection hot-flow flue, have the advantages that to be affected little by Changes in weather in short-term, so as to ensure sending to indoor air outlet 10
Air temperature.As shown in fig. 1, the honeycomb hole inside the honeycomb ceramic plate 3 is in the top and bottom of honeycomb ceramic plate 3 and the external world
Communicate, the air-flow Jing air guide holes 7 entered from indoor return air mouth 11 are entered inside honeycomb ceramic plate 3 from the bottom of honeycomb ceramic plate 3,
And heat exchange is carried out in honeycomb hole, heated airflow can rise to the top of honeycomb ceramic plate 3 along honeycomb hole, and by wind-guiding
Deliver to indoor air outlet 10 in chamber.Air, through the sufficiently long heat time, is heated fully in honeycomb ceramic plate 3.
The rear of the honeycomb ceramic plate 3 arranges high-performance heat-insulation layer 4, for reducing the heat loss of heat collector, heat-insulation layer 4
For lamina, high insulating effect, heat loss is few, and simple structure, takes small volume.
A diaphragm plate is additionally provided with inside the framework 5, the diaphragm plate is located at the wind guide chamber bottom, can be connected by screw
Connect or be welded in framework 5.As shown in fig. 1, the diaphragm plate inner side is solid slab, and outside offers and the honeycomb ceramic plate
The corresponding through hole of 3 top end face, the top of the honeycomb ceramic plate 3 is communicated by the through hole with the wind guide chamber;Institute
State honeycomb ceramic plate 3 and heat-insulation layer 4 is arranged between the diaphragm plate and the frame wall of the bottom of the framework 5.The bottom of the framework 5
Frame wall be provided with air guide hole 7, the bottom of the honeycomb ceramic plate 3 communicates with the air guide hole 7;The connection of the lower section of the air guide hole 7
There are bellows 12, blower fan 13 is provided with inside the bellows 12, and the top of bellows 12 is provided with the opening communicated with the air guide hole 7, wind
The bottom of case 12 is provided with outdoor air inlet 15, and the rear side of bellows 12 is provided with indoor return air mouth 11.In order that heat collector holding structure entirety
Property it is strong and elegant in appearance, the top surface of the bellows 12 is identical with the bed-plate dimension size of the framework 5 and both pairings connections.
The backboard 9 is arranged on the rear of heat-insulation layer 4, and heat-insulation layer 4 is close to the backboard 9.As shown in fig. 1, thermal-arrest
The top of device backboard 9 arranges indoor air outlet 10.
Further, it is additionally provided with the collection wind projected towards indoor direction at the indoor air outlet 10 and indoor return air mouth 11
Mouth, is respectively equipped with weatherseal to be opened/closed at the opening of the concentrator.As shown in Figure 2, distinguish at the opening of concentrator
Adjustable louvre blade 16 is provided with, interior air outlet 10, the open and close controlling of indoor return air mouth 11 is capable of achieving.Additionally, outdoor air outlet 6 with
And weatherseal to be opened/closed is also respectively equipped with outdoor air inlet 15 to realize open and close controlling, and as shown in fig. 1, the top of framework 5
Open up outdoor air outlet 6 on the frame wall of both sides respectively, be respectively provided with rotatable opening on two outdoor air outlets 6 or horizontal sliding is opened
Baffle plate 8;As shown in Figure 2, the bottom of bellows 12 arranges outdoor air inlet 15, and adjustable louvre blade is arranged at outdoor air inlet 15
16。
Above-mentioned printing opacity front panel 1, collecting plate 2, honeycomb ceramic plate 3, heat-insulation layer 4, backboard 9 are embedded in framework 5, framework
5 house above-mentioned all parts, form ceramic heat-storing solar energy air heat collector of the present utility model.As shown in Fig. 1,2,3, frame
Body 7 is the vertical rectangular shaped rim that four surface frame walls are surrounded, and printing opacity front panel 1 is embedded in the front of framework 5, and backboard 9 is embedded in framework 5 and carries on the back
Face, collecting plate 2 is located at the rear of printing opacity front panel 1, and there may be a determining deviation between the two can also be arranged without spacing, in order to save
About space and cause plus man-hour it is convenient fix, here preferably both are close in position, and are drawn in by framework 5.Thermal-arrest
Plate 2 is close to mutually with honeycomb ceramic plate 3, it is to avoid heat conduction loss, and heat-insulation layer 4 is clamped between honeycomb ceramic plate 3 and backboard 9,
Avoid heat-energy losses.
When Heating Season carries out thermal-arrest work, sunlight passes through glass to ceramic heat-storing solar energy air heat collector of the present utility model
Glass panel 1 is radiated on collecting plate 2, the honeycomb ceramic plate 3 of the temperature of collecting plate 2 rising heating behind, and, by heat storage wherein
Air heats rise indoor air outlet 10 of the Jing wind guide chambers from the top of heat collector and get in, cold air inside Jing heat collectors bottom
Indoor return air mouth 11 enter honeycomb ceramic plate 3, continue heat, formed circulation.
When non-heating season section enters maintenance state, by the way that louvre blade 16 is adjusted to into closure state close chamber inner wind outlet
10 and indoor return air mouth 11, heat collector is made with indoor isolation.Outdoor air inlet 15 and outdoor air outlet 6 are opened, inside heat collector
Temperature is raised, and promotes hot-air to discharge outdoor from outdoor air outlet 6, while filling into cold air from outdoor air inlet 15, forms outer
Circulate as heat collector cooling.
Additionally, in order to the air for ensureing interior is fresh, making interior reach certain comfort level, it is also possible to indoor by closing
Return air inlet 11 and outdoor air outlet 6, opening chamber's inner wind outlet 10 and outdoor air inlet 15 so that outdoor fresh air is delivered to room
It is interior.
As a result of above technical scheme, ceramic heat-storing solar energy air heat collector of the present utility model, thermal-arrest and guarantor
Temp effect is good, and heat utilization efficiency is high, is affected little by weather in short-term, and noise jamming is little, improves the whole efficiency of heat collector.
The above, is only preferred embodiment of the present utility model, not makees any formal to the utility model
Restriction, those skilled in the art make a little simple modification, equivalent variations or modification using the technology contents of the disclosure above,
Fall in protection domain of the present utility model.
Claims (10)
1. a kind of ceramic heat-storing solar energy air heat collector, it is characterised in that include the framework surrounded by frame wall, in the framework
It is provided between positive printing opacity front panel and the backboard positioned at the back side, the printing opacity front panel and the backboard in the past extremely
Collecting plate, honeycomb ceramic plate and the heat-insulation layer being close to mutually is disposed with afterwards;
The ceramic honey comb intralamellar part is provided with honeycomb hole, and the honeycomb hole is in the top and bottom of the honeycomb ceramic plate and the external world
Communicate, the framework inner tip is provided with wind guide chamber, the top of the honeycomb ceramic plate communicates with the wind guide chamber;The backboard
Top is provided with indoor air outlet, and the indoor air outlet is communicated with the wind guide chamber;Open up on the frame wall on the framework top
Have family outgoing tuyere, the outdoor air outlet is communicated with the wind guide chamber;
The frame wall of the framework bottom is provided with air guide hole, and the bottom of the honeycomb ceramic plate communicates with the air guide hole;It is described to lead
Air port lower section is connected with bellows, and the inner bellows are provided with blower fan, and bellows top is provided with the opening communicated with the air guide hole,
Its bottom is provided with outdoor air inlet, and rear side is provided with indoor return air mouth;
The indoor air outlet, indoor return air mouth, outdoor air inlet and outdoor air outlet are respectively equipped with weatherseal to be opened/closed.
2. a kind of ceramic heat-storing solar energy air heat collector according to claim 1, it is characterised in that before the bellows
Side is provided with photovoltaic module, and the photovoltaic module is connected with the blower fan and powers for it.
3. a kind of ceramic heat-storing solar energy air heat collector according to claim 1, it is characterised in that the blower fan is horizontal stroke
Flow fan.
4. a kind of ceramic heat-storing solar energy air heat collector according to claim 1, it is characterised in that before the printing opacity
Plate is face glass.
5. a kind of ceramic heat-storing solar energy air heat collector according to claim 1, it is characterised in that the weatherseal is
Louvre blade or baffle plate.
6. a kind of ceramic heat-storing solar energy air heat collector according to claim 1, it is characterised in that the indoor air-supply
The concentrator projected towards indoor direction is additionally provided with mouth and indoor return air mouth.
7. a kind of ceramic heat-storing solar energy air heat collector according to claim 6, it is characterised in that the indoor air-supply
Weatherseal at mouth and indoor return air mouth is arranged at the opening of the concentrator.
8. a kind of ceramic heat-storing solar energy air heat collector according to claim 1, it is characterised in that the top of the bellows
Face is identical with the bed-plate dimension size of the framework and both pairings connect.
9. a kind of ceramic heat-storing solar energy air heat collector according to any one of claim 1-8, it is characterised in that described
A diaphragm plate is additionally provided with inside framework, the diaphragm plate is located at the wind guide chamber bottom, and offers thereon and honeycomb pottery
The corresponding through hole of the top end face of porcelain plate, the top of the honeycomb ceramic plate is communicated by the through hole with the wind guide chamber;Institute
State honeycomb ceramic plate and heat-insulation layer is arranged between the diaphragm plate and the frame wall of the framework bottom.
10. a kind of ceramic heat-storing solar energy air heat collector according to claim 9, it is characterised in that the heat-insulation layer
It is close to the backboard.
Priority Applications (1)
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CN201621267659.4U CN206176770U (en) | 2016-11-23 | 2016-11-23 | Pottery heat accumulation solar energy air heat collector |
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CN201621267659.4U CN206176770U (en) | 2016-11-23 | 2016-11-23 | Pottery heat accumulation solar energy air heat collector |
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CN206176770U true CN206176770U (en) | 2017-05-17 |
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ID=58686691
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109386973A (en) * | 2018-10-31 | 2019-02-26 | 山东建筑大学 | Roll over the new air -return duct partition type solar energy air heat collector of shape spoiler and heating system |
-
2016
- 2016-11-23 CN CN201621267659.4U patent/CN206176770U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109386973A (en) * | 2018-10-31 | 2019-02-26 | 山东建筑大学 | Roll over the new air -return duct partition type solar energy air heat collector of shape spoiler and heating system |
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Address after: 100044, No. 19 Che Zhuang Street, Beijing, Xicheng District Patentee after: China Architectural Design & Research Institute Co Ltd Address before: 100000 19 Che Kung Chuang street, Xicheng District, Beijing Patentee before: CHINA ARCHITECTURE DESIGN INSTITUTE CO., LTD. |