Windows conduction heat shut-off devices
Technology areas
[0001] 　Invention Windows conduction heat shut-off devices, especially shut off heat conducting from outside through a window of the computer room in the summer, and in winter from indoor to outdoor heat efficiently transfer technology.
His innovations.
[0002] 　If you usually have a window in the computer room, data center, summer is vulnerable affected by heat conduction from the outdoors. Therefore, to curb the effect of heat conduction from the outdoor in summer, for example as shown in Figure 7 on the Interior side of Windows 3 provide blackout drapes / curtains 51, upholstered in light shielding film on the window glass is tinted (1 documents), or double glazing provide for measures being taken.
Prior art documents
Patent documents
[0003] Patent literature 1: open 2010-265622 of public information

Summary of the invention
Inventors are trying to solve a problem
[0004] 　Air flows through 51 blackout curtains and Windows 3 conduction heat 52, however, by the black-out curtains, shading effects, widely used, but there is a problem.
[0005] 　The restrictions on use, etc. are on the other hand, measures light shielding film, glass window wired glass, wired glass may be broken.
[0006] 　There is challenge measures due to double-glazed Windows, higher installation costs. Therefore, not all cases, fundamental measures.
[0007] 　Furthermore, requests that they want to reduce the air-conditioning load by indoor heat transfer outdoors in the winter, the reverse is the aforementioned traditional technologies by the request even in that.
[0008] 　Where the invention was made to solve the problems described above and in, are intended to provide Windows conduction heat shut-off devices can reduce the load in the air can heat conduction from the outdoor and winter indoor outdoor efficiency better conduct heat to summer in the computer room window.
Means for resolving problems
[0009] 　Invention invention in claim 1 is the Windows conduction heat shut-off devices to block the heat from the outside of the computer room window to conduct on the indoor surface, provided with support bar located on both sides of the insulated unit with a fixed base on the interior surface was formed wherein Windows to fit insulation and the insulation and fixing base wherein, wherein Windows on both sides of the Wherein clipping through wherein such insulated units from the compartment under the Windows on interior side of Windows or with with guide grooves directs wherein compartment Interior in terms of previous Windows-based guide that has characterized.
[0010] 　Have a mechanism to adjust the speed when invention in claim 2, wherein said base guide wherein clipping along the above-mentioned Guide Groove wherein insulation room in terms of the above Windows said compartment moving on features.
[0011] 　Claim 3 invention has characteristics and attitude wherein insulation unit is attached to the indoor surface above Windows, above the lockers.
[0012] 　Invention in claim 4 has characterized wherein insulation unit is split into multiple wherein compartment height to fit it.
[0013] 　Invention in claim 5 wherein from storage above insulation unit said coordination mechanism on interior side of Windows or have a regulator to control the speed and direction of movement to move above compartment room in terms of the above Windows and the moving mechanism and has characterized.
Advantageous effects of invention
[0014] 　In the computer room window during the summer to provide Windows conduction heat shut-off devices can reduce air-conditioning load can be in winter indoor outdoor efficiency better conduct heat to heat conduction from outside that you can according to the present invention;
A brief description of the drawings
[0015] That indicates the condition 1 embodiments of the invention [Figure 1] Windows conduction heat shut-off devices in longitudinal section.
In the illustration to explain the installation process [Fig. 2] Windows conduction heat insulation top insulation unit and lower heat unit.
Illustrating [Fig. 3]-upper heat unit in, (a), (b), on the left side in the rear view.
In retreat along the guiding groove of the side insulation cover [Figure 4] Windows conduction heat shut-off device status section.
In the cross section insulation cover [Figure 5] Windows conduction heat shut-off devices along the vertical guide Groove we descend into the storage space, indicating the status.
In [Fig. 6] adjust mechanism shown schematically.
Be shown [Fig. 7] art under black-out curtains for an embodiment.

For carrying out the invention
[0016] 　The full embodiment of the present invention, Figure 1 to explain in detail, refer to figure 6.
[0017] 　Figure 1 or Figure 2 in 1 computer room, data center, and Windows 3 has been installed in the building to form the computer room 1 wall 2. Windows 3 are configured primarily and mounted in the provided openings of 4 were formed on the wall 2 and the opening of 4 frame 5 and the window frames in the 5 window 6.
[0018] 　And to prevent the heat from the outside of the window 3 panes 6 to conduct on the indoor surface, window conduction heat shut-off device 7 is provided in Windows 3. Windows conduction heat shut-off device 7 is on the interior surface of insulating material 8 was formed according to the size of the Windows 3 and heat insulating material 8 fixing base insulation unit 17 with 9, and for fixed-based clipping down provided each on both sides of the 9-to-1 10A, 10B with 3 Windows on both sides of the set, clipping 10A, through 10 b's down below the Windows i.e. Windows 3 compartment insulated unit 17 from 11 (also referred to as the compartment or stowed position) window 3 or guide slot 12 Windows 3 Guide to storage of 11-has left with 15-to-1-based guide 16.
[0019] 　Insulation unit 17 housing section 11 under the window to fit the height from the floor 20 vertical multiple is divided into (Division 2 up and down in the illustrated example). That is, for example heat insulation unit 17 is divided top heat insulation unit 17A, and lower heat unit 17B.
[0020] 　Because the top heat insulation unit 17A and bottom insulation unit 17B is a vertical symmetrical shape, on the other hand describes for example top heat insulation unit 17A. Top heat insulation unit 17A, shown in Figure 3 (a) or (b) insulating material 8 and fixing base consists of 9. For securing and insulating material 8 base 9 different thickness is viewed from the front, almost the same rectangle and size. Top heat insulation unit 17A from storage, 11 in frame 5 or fixing to ease when navigating from frame 5 to housing section 11 operation, are provided with protruding left and right on both sides of the base 9 horizontal clipping down 1 to 10A, 10B.
[0021] 　8 insulating material consists the styrofoam for example. Fixing base 9 multiple books (illustrated in example 3) next frame 9A and is formed by framework and several books (illustrated in example four) vertical 9 b. Next frame 9A and vertical frame 6B are having a rigid frame material. Frame material, e.g. metal, wood or plastic is preferable. Insulating material 8 is the base for fixing insulation materials by means of fixing such glue is sticking to the exterior part of the 9.
[0022] 　As shown in Figure 1, Windows 3, top heat insulation unit 17A and bottom insulation unit 17B is the sealed. In this case, recess 18 engages (engage) as on the perimeter of the insulating material 8 top heat insulation unit 17A and bottom insulation unit 17B as into window frame 5 in order to prevent the gap for Windows 5 and the top insulation unit 17A and bottom insulation unit 17B into window frame 5 in insulating material 8 is formed. Formed recess 18 top heat insulation unit 17A insulating material 8 upper and left and right sides of the recess 18 is formed at the bottom of the lower insulation unit 17 b insulating material 8 and the left and right sides of the This top heat insulation unit 17A and bottom insulation unit 17 b on the inside of the window frame 5 fitting the convex letter, 19 have been formed.
[0023] 　Being 11 compartment insulated units (storage space) and space on the floor 20 lower window 3 in the computer room 1 room (also referred to as the Windows down), shown in Figure 5. Top heat insulation unit 17A and bottom insulation unit 17B is housed on top of back and forth in the thickness direction in the housing section 11 under the Windows, space saving storage, 11 have been achieved. In this case, placed the bottom insulation unit 17B is placed near the two-wall under the window, behind the bottom insulation unit 17B near top heat insulation unit 17A, piled up state.
[0024] 　Also top heat insulation unit 17A and bottom insulation unit 17 b, shown in Figure 5 as clipping 10A, 10B via guide Groove 12-floating floor 20, are supported at the bottom of the 15 State support (with cable), and directly to floor 20 mounted is able to maintain a clean environment in the computer room 1 can be easier to clean the floor 20 not so. May be to prevent wavering due to vibration, top heat insulation unit 17A and bottom insulation unit 17B floated from the 20th floor is supported by over 20 floors on support and cushioning. Or top heat insulation unit 17A and bottom insulation unit 17 b mounted on floors 20 to be even better.
[0025] 　Clipping 10A, 10B is the axis of pipe-shaped or cylinder-shaped and its projected length is 2-3 cm and has been. Clipping 10A, as 10 b material, e.g. metal, plastic, etc preferred. To facilitate clipping 10A, 10B move for clipping 10 a, 10 b installed wheels or rollers are also good.
[0026] 　Vertical support bar 10 a, 10 b is shown in Figure 3 (a) to shown for symmetrically placed on the centerline of the side of the base 9 (diagram omitted). On the front side was established specifically to the right of the centre line is the top support bar 10 indoor side, lower support bar 10 b on the left of the center line (external side) are provided. As shown in Figure 1, Figure 4, Figure 5 this vertical clipping 10A, 10 b a separate track guide Groove 12-can be guided by 15.
[0027] 　Mounted on either side of the window 3 in the computer room 1 room left and right 1 pair-based guide 16, 16 (as shown in Figure 2), both based guide 16, counter surface of 16 top heat insulation unit 17A and bottom insulation unit 17 b fixing support bar protruding horizontally from each side of the base 9 down 1-to-10 a, 10 b guide guide Groove 12-15 are provided (as shown in Figure 1). 16-based guide is that for example made of metal, wood or plastic. Compared to the base guide 16 Guide to soft material to prevent deformation, grooves 12-15 is preferable is formed by having stiffness for example made of metal materials.
[0028] 　Guide Groove 12-15 bottom insulation unit 17B for upper guide Groove 12 and bottom Guide Channel 13 and the top insulation unit for the from 17 a top Guide Channel 14 and bottom Guide Channel 15. Bottom insulation unit 17B for upper guide Groove 12 turn 5 side window from the top edge of the vertical fluted 12 a and 12 a fluted, contiguous rooms are from internal and external orientation by 12 b. Bottom insulation unit 17 b for bottom Guide Channel 13 will turn 5 side window from the top edge of the vertical fluted 13A and 13A fluted and contiguous rooms are from both inside and outside direction by 13 b.
[0029] 　Top heat insulation unit 17A for upper guide Groove 14, down bent window 5-side from the top of fluted direction 14A and 14A fluted and contiguous rooms are from internal and external orientation by 14 b. Down at the bottom Guide Channel 15 for the top heat insulation unit 17A bent window 5-side from the direction longitudinal Groove 15 a and 15 a fluted edge, running room from becoming a radially by 15 b.
[0030] 　Clipping 10A, 10B move to limit the range, vertical grooves on the bottom edge of the 13A, 14A, 15A and yokomizo 13B, 14b, 15B tip has been closed. Also top heat insulation unit 17A, lower heat unit 17B and not buffer during the move to the top heat insulation unit 17A for guide Groove 14, 15 on the outside of the bottom insulation unit 17B for Guide Channel 12, 13 place intervals has been placed the top heat insulation unit 17A for guide Groove 14, 15 length have been almost 2 times the length of the bottom insulation unit 17B for Guide Channel 12, 13.
[0031] 　By preferably toward the external side down slope forming from the inside to prevent 12B, 13B, 14b, 15B, moving away from the window top heat insulation unit 17A and bottom insulation unit 17B in vibrational and earthquake.
[0032] 　Base Guide for fixing insulation materials enhance durability and safety window conduction heat shut-off device 7 is provided when moving along the Guide Groove 14 guides for clipping a 10 to 16 as shown in Figure 6, to drop the window 5-storage of 21 top heat insulation unit 17A and bottom insulation unit 17 b adjust to slow the descent rate adjustment mechanism 22 the preferred. Also in this case, coordination mechanism 22 holds top heat insulation unit 17A or lower heat unit 17 b, 11-in frame 5 or in automatic control of 24 control to move from frame 5 to housing section 11 movement mechanisms 23 and the moving mechanism 23 and have preferred.
[0033] 　Moving mechanism 23 drive conveyor belt across the Guide Groove 14 guide Groove 14 1 side (the left side of Figure 6, IE window side) placed along the Guide Groove 14 for accessibility guide guide slot 14 with 25 other side (right side of Figure 6) placed along the guide grooves 14 in longitudinal direction and horizontal direction for of subject for conveyor belt is configured with 30, 31 and. This drive for conveyor belt 25 corner for assistance are placed inside of the corners follow wheel 27 located at the tip of the drive wheels 26 was placed at the bottom of 1 lateral guide grooves 14 fluted 14 a and 14 b by and the fluted 14 a and 14 b of wheel 28 and these corners for drive wheels 26, secondary wheel 27, passed to the auxiliary wheel 28-seat endless belt 29 and has. Accordance with reciprocating conveyor belts do not have a means of driving 30, 31. Instead of subject motion conveyor belt 30, 31, may be used for horizontal and vertical guides.
[0034] 　Drive for the conveyor belt 25 drive wheels 26 motor 32 connects via a decelerating mechanism 33. For the driven conveyor belt 25 motor 32 is configured will be controlled by the control of 24. Built-in switch circuits in the control of 24 Windows conduction heat shut-off device 7 is opened and closed. This switch operation to the control of the 24 top heat insulation unit 17A and bottom insulation unit 17B undock automatically on frame 5, reverse remove sash 5-automatic storage or storage of the 11 to be may.
[0035] 　How Windows conduction heat shut-off device, consisting of more than. Running Windows conduction heat shut-off device 7 switch operation as shown in Figure 6, control of 24 Motors 32 are driven by conveyor belt 25 is driven via a decelerating mechanism 33 and drive wheels 26, which is housed in the housing section 11 under the window as shown in Figure 5-driven conveyor belt 25 top heat insulation unit 17A and bottom insulation unit 17B first shown in Figure 4, guide Groove 12-15 fluted 12A-15A along rise vertically and As shown in the figure 1 followed by 12 b-15 b 3 window almost horizontally translates, mounted on the Interior side of the window frame 5.
[0036] 　In this case, if the top heat insulation unit 17A and bottom insulation unit 17 b moves at the same speed, top insulation unit Guide for bottom insulation unit 17 b 17 a ditch 12-15 lengths should be short and then first bottom insulation unit 17B is attached at the bottom half of the window 3, followed by upper insulation unit 17A is seated at the half on Windows 3.
[0037] 　Things like this for Windows 3 first bottom insulation unit 17B and smoothly without having to buffer each other for mounting the top heat insulation unit 17A, top heat insulation unit 17A and bottom insulation unit 17 b, the following Windows 3 Installing a becomes possible. And for covered Windows conduction heat shut-off device 7 thus consisting top heat insulation unit 17A and bottom insulation unit 17B computer room 1 window 3 room in room 1 window 3 summer can heat conduction from outside.
[0038] 　In this case, you can insulate heat conduction from outside, but that gap may occur due to penetrate the insulation materials 8 to frame 5 on the perimeter of the insulating material 8 top heat insulation unit 17A and bottom insulation unit 17B recess 18, by earthquake shaking from frame 5 zuretari insulation materials 8. Preferably, eliminate the gap in the recess 18 cant be installed.
[0039] 　Uninstalled from Windows conduction heat shut-off device 7 is installed in the Windows on the other hand, top heat insulation unit and lower heat unit, storing (storing) the switch operation Windows conduction heat shut-off System 7 running in the opposite direction in Figure 6 enables control of the 24 motor 32 is driven in the opposite direction, deceleration mechanisms 33 and drive wheels 26 via conveyor belt 25 is driven in the opposite direction, As shown in Figure 4 first upper insulation unit 17A seated in window 3 conveyor belt 25 drive as shown in Figure 1 and the bottom insulation unit 17B guide Groove 12-15 by 12 b-15B along almost horizontal to move on the Interior side as shown in Figure 5 and fluted 12A-15A along vertically to the housing section 11 under the Windows parallel move, rack storage, 11.
[0040] 　Can this winter in outdoor heat efficiently transfer can reduce air-conditioning loads. You can suppress engine brake as well as the rate of descent of the folded top heat insulation unit 17A and bottom insulation unit 17B for conveyor belt 25 driving wheel 26 motor 32 is connected via a decelerating mechanism 33. Also, allowing top heat insulation unit 17A thus installed in Windows 3 and bottom insulation unit 17B housing section 11 under the Windows quick easy to move to Windows 3 inspection and cleaning easier.
[0041] 　Not to mention do not deviate the gist of various changes in the invention is not limited to such embodiments. For example, the endless conveyor belt 25 desirable unevenness have to curb the clipping 10A, 10B slip as a belt 29.
Industrial applicability
[0042] Companies, as well as data center computer room window, window manufacturers and specifications can be applied regardless of installation possible in the afterthought. In addition, energy-saving effects by using conduction heat by controlling the automatic Windows and conduction heat is expected.
Sign description
[0043] 1 computer room
3 Windows
7 Windows conduction heat shut-off devices
8 insulation
9 fixing base
10A, 10B clipping.
11 compartment
12-15 guide Groove
16-based guide
17 heat insulation unit
22 adjustment mechanism
23 moving mechanism
24 control unit
Of the claims
[Paragraph 1] 　Provided with support bar located on both sides of the insulated unit with a fixed base on the indoor surface of Windows conduction heat shut-off devices to block the heat from the outside of the computer room window to conduct on the indoor surface that formed above window to fit insulation and the insulation and fixing base wherein, wherein Windows on both sides of the Wherein clipping through wherein such insulated units from the compartment under the Windows on interior side of Windows Windows conduction heat shut-off devices to feature with guide grooves directs wherein compartment Interior in terms of previous Windows-based guide and that's or.
[Paragraph 2] Of claim 1 to have a coordination mechanism that adjusts transfer speed wherein based guide above clipping along the above-mentioned Guide Groove insulation above wherein Windows interior surface wherein compartment to move from Windows conduction heat shut-off device.
[Invoice section 3] 　Of claim 1 attitude wherein insulation unit is attached to the indoor surface above Windows, lockers are said to feature Windows conduction heat shut-off device.
[Paragraph 4] 　Of claim 1 wherein insulation unit is split into multiple wherein compartment fit to feature Windows conduction heat shut-off device.
[Bill 5] 　Said adjustment mechanism wherein such insulated units from storage on interior side of Windows or is the Windows of claim 2 has a regulator to control the speed and direction of movement to move above compartment room in terms of the above Windows and the moving mechanism and conduction heat shut-off devices.