Blanket Chest Soft Close Lid Supports. The Woodworking Mechanic.  Sugatsune Soft Down Lid Support. Preston Hoffman. Механизмы Sugatsune. HG-JHM9 Механизм плавного закрывания I. HG-JHM9 Механизм плавного закрывания II.  HG-PA Петли на открывание с доводчиком. HG-T70 Поворотная петля для мониторов. LIDS Люки с плавным закрыванием. DC Дэмпферная защелка. ST20 Торсионный фиксатор фасада. This stainless steel lid support hinge (Item No. HS) has a satin finish and measures × 19 × 40 mm. See more information at Sugatsune America today.  For nearly a century, Sugatsune has been proud to supply commercial and residential architectural projects with precision-engineered hardware in categories such as doors, cabinetry, furniture, and much more. Our stainless steel lid support hinges are only the beginning. We have over 6, unique hardware solutions to help you put just the right touches on your specific project. We also produce a large number of parts for marine, aerospace, and industrial applications. Contact Us Today. Tambour Lock. Finish Brass Plated. In some embodiments, a first and second hinge mechanism could be on respective sides of a device, but could also be offset from one another so as not to be mirrored. Thus, the first slider pin and the first slider grooveas assembled, form the first linkage mechanism shown in FIGS. This may help to ensure that the first linkage mechanism is properly situated in the closed and fully opened positions. The relative length of the long link sugatsune soft close lid support 8g the short link link, in this embodiment, may satisfy two conditions. The first link includes a first link back endan opposite first link front enda first link outer surface and an opposite first link inner surface not shown.

Add to cart. Lorem ipsum dolor sit amet, consectetur adipiscing elit, sed do eiusmod tempor incididunt ut labore et dolore magna aliqua. Refine products. Blumotion No Yes Bore 10 1 16 4 16mm 2 20 16 20mm 5 30 52 30mm Boxqty 0. Colour Graphite 7 Nickel 1 Warm White 39 cool white Depth 4mm 1 8mm 3 9mm 1 10mm 1 12mm 7 14mm 1 16mm 1 17mm 1 18mm 2 19mm 4 20mm 5 21mm 2 22mm 6 23mm 18 24mm 6 25mm 9 26mm 4 27mm 2 28mm 3 29mm 3 30mm 12 31mm 7 32mm 16 33mm 2 34 22 34mm 3 36mm 6 38mm 2 40 1 40mm 3 43mm 1 56mm 3.

Diameter 0. Extension Full 75 Single Gauge 1. Grit 1 2 10 1 39 3 55 1 G 1 36 49 2 4 2 11 24 1 34 G 1 1 3 1 1 23 36 1 1 4 2 40 32 18 1 50 1 6 60 36 5 60G 4 80 77 2 Coarse 3 Extra Fine 1 Fine 5 Medium 3 Micro Fine 1 Mixed 13 Super Fine 2 Ultra Fine 1.

Hole Centers 38mm 1 50mm 1 54mm 1 64mm 7 75mm 1 76mm 10 80mm 2 Sugatsune Soft Close Lid Support Update 89mm 1 96mm 11 mm 4 mm 27 mm 1 mm 17 mm 8 mm 1 mm 10 mm 2 mm 2 mm 3 mm 1 mm 2 mm 1 mm 2 mm 4 mm 2 mm 1 mm 2 mm 3 mm 1 mm 1 mm 1.

Lumens 2 2 4 4 1 1 3 2. The first link includes a first link back end , an opposite first link front end , a first link outer surface and an opposite first link inner surface not shown. A first link pivot hole is disposed near the first link back end and a first link pivot pin projects perpendicularly away Sugatsune Soft Close Lid Support 4g from the first link outer surface near the first link front end The second link includes a second link back end , an opposite second link front end , a second link outer surface and an opposite second link inner surface not shown.

A second link back pivot hole is disposed near the second link back end and a second link front pivot hole is disposed near the second link front end The third link includes a third link back end , an opposite third link front end , a third link outer surface and an opposite third link inner surface not shown. A third link back pivot hole is disposed near the third link back end and a third link front pivot hole is disposed near the third link front end The fourth link includes a fourth link back end , an opposite fourth link front end , a fourth link outer surface and an opposite fourth link inner surface not shown.

A fourth link pivot pin projects perpendicularly away from the fourth link inner surface near the fourth link back end and a fourth link pivot hole is disposed near the fourth link front end As can be seen in FIG. The base member includes a base member pivot pin which projects perpendicularly away from the approximate center of the first base member side surface Some embodiments may include at least one partially curved surface to facilitate initial movement of the device from the closed or fully opened positions although embodiments are not so limited.

In this embodiment, the top member has rounded corner edges at the first top member end and the second top member end Specifically, the intersections between each of the protective surface and the interface surface shown in FIGS.

The intersections between each of the protective surface and the interface surface of the top member with the second top member end surface shown in FIGS.

The corners of the top member may be more or less rounded than shown in the figures. In some embodiments, the entirety of the surfaces corresponding to the interface surface and the protective surface of the top member could be curved. In this embodiment, the base member similarly includes rounded corners including a first base member rounded corner and a second base member rounded corner at respective intersections of the upper base member surface shown in FIGS.

However, in some embodiments, the base member may not include rounded corner edges. The top member pivot pin , the third link back pivot hole and the second link front pivot hole have cooperating shapes to form a rotatable pin jointer connection or pivot hinge.

The base member pivot pin , the first link pivot hole and the fourth link pivot hole have cooperating shapes to form a rotatable pin jointer connection or pivot hinge. The first link pivot pin and the third link front pivot hole have cooperating shapes to form a rotatable pin jointer connection or pivot hinge.

The fourth link pivot pin and the second link back pivot hole have cooperating shapes to form a rotatable pin jointer connection or pivot hinge. As assembled, the top member pivot pin is received in the second link front pivot hole and the third link front pivot hole to form a first rotatable pin jointer connection hereinafter referred to as a top pivot shown in FIGS. The second link is located inward from the third link The top pivot rotatably couples the second link and the third link to the top member The base member pivot pin is received in the first link pivot hole and the fourth link pivot hole to form a second rotatable pin jointer connection hereinafter referred to as a base pivot shown in FIGS.

The base pivot rotatably couples the first link and the fourth link to the base member The first link pivot pin is received in the third link front pivot hole to form a rotatable pin jointer connection hereinafter referred to as a front pivot shown in FIGS.

The front pivot rotatably couples the first link and the third link The fourth link pivot pin is received in the second link back pivot hole to form a rotatable pin jointer connection hereinafter referred to as a back pivot shown in FIGS.

The back pivot rotatably couples the second link to the fourth link Thus, the first hinge mechanism interconnects the top member and the base member Specifically, the hinge mechanism is pivotably connected to the top member at a single point, the top pivot , and to the base member at a single point, the base pivot The first link and the third link form a first set of links connected in series between the top member and the second member The second link and the fourth link form a second set of links connected in series between the top member and the second member In this embodiment, the third link and the fourth link share a vertical plane parallel to the first device side The first link and the second link share an adjacent vertical plane also parallel to the first device side Embodiments are not limited to those having a first hinge mechanism including the particular first link , the third link , the second link and the fourth link described above.

For example, the first link , the third link , the second link and the fourth link may be shorter or longer or have other dimensional variances chosen for particular implementations. Some embodiments may comprise a biasing mechanism which may be used to drive a portion of movement of a device from a closed to an opened position. A biasing mechanism may also bias the top member to remain in contact with the base member during the movement between opened and closed positions.

Numerous biasing mechanisms, such as mechanical or magnetic biasing mechanisms could be implemented in various embodiments. In this embodiment, the device may comprise a mechanical biasing mechanism, such as a spring, to bias the top member toward the base member , thereby biasing the device to remain in either the closed position or the opened position.

In this embodiment, the first hinge mechanism may be spring loaded to bias the first hinge mechanism to remain folded as in the closed position shown in FIG. Alternatively, an extension spring may be connected between the top member and the base member near the top pivot and the base pivot The same bias force can serve the function of keeping the device opened or closed because the first hinge mechanism is in the same position when the device is both closed and fully opened.

It will be apparent to one skilled in the art that various means to provide a bias force to bias the top member toward the base member could be used. The interaction of the elements of the device will now be described with reference to FIGS. Opening and closing the device includes a similar movement of the top member In addition, either opening or closing the device may be accomplished with a similar or the same force applied by a user of the device Starting from the closed position shown in FIG.

Therefore, the protective surface is exposed, and the interface surface is not accessible and may be protected from being scratched or otherwise damaged. The first top member end is aligned with the front device end and the second top member end is aligned with the back device end The first hinge mechanism is vertically folded such that the top pivot and the base pivot are close to each other.

The front pivot and the back pivot are spaced apart near the respective front device end and back device end From the closed position, the top member may be moved relative to the base member to the fully opened position shown in FIG.

Alternatively, though not shown, the top member may be moved in the opposite direction to be moved to the opened position. In order to initiate movement of the device from the closed position shown in FIG. The force may be applied, for example, near the first top member rounded corner The force applied to the top member therefore has a backward component and a downward component.

The applied force is represented by a dot-dash arrow. The moment arm represents the equivalent portion of the applied force which is applied as pure rotation force about the top pivot Since some moment arm exists, that means that some of the applied force is acting on rotating the top pivot , and therefore the top member will begin to rotate. As mentioned above, springs or another biasing mechanism may also bias the top member toward the second member Thus, the top member may be biased to remain in continuous contact with the base member during the movement between the closed and fully opened positions.

For example, as seen in FIG. The moment arm drives initial rotation clockwise in FIGS. The initial rotation is also facilitated by the second top member rounded corner The curve of the second top member rounded corner allows the top member to roll against the upper base member surface as the top member begins to rotate, thereby reducing the required force to initially drive movement of the device from the closed position.

By reducing the Sugatsune Soft Close Lid Support Queue required applied force to initially move the top member , the friction between the top member and the base member will also be reduced. Therefore, the device may be more easily opened than a device with no curved surfaces on the top member As the top member rotates about the top pivot , the device moves from the closed position shown in FIG. Turning to FIG. The upward movement of the top pivot is allowed by upward expansion of the first hinge mechanism Specifically, the first link , the third link , the second link and the fourth link are free to rotate such that the front pivot and the back pivot move closer to each other while the top pivot moves upward away from the base pivot Thus, the first hinge mechanism moves from the vertically folded position towards an expanded position.

Once the top pivot has moved a slight distance upward, the user of the device may simply apply continued force in the backward direction approximately parallel to the upper base member surface For example, the force may be applied near the first top member end surface or the protective surface near the first top member rounded corner shown in FIGS.

Increasing the rounding of edges can more easily convert the initial force applied to the top member to a rotation of the top member by increasing the leverage on the top member Alternatively, providing a concave portion not shown of the base member near the front device end may perform a similar function.

Such a groove could be near the front device end Embodiments are not limited to the shape of the top member and the base member of the device shown in FIGS. For example, in some embodiments, as noted above, the entirety of the surfaces corresponding to the interface surface shown in FIGS.

However, it is to be understood that some embodiments may not include curved surfaces on either a top member or a base member, or other similar features, to facilitate initial movement between the opened and closed positions.

Some embodiments may include substantially flat surfaces which form sharp corners between the surfaces. As the continued force is applied by the user, the device continues to move from the partially opened position shown in FIG.

Specifically, the top member continues to rotate in the clockwise direction and first hinge mechanism continues to expand to a vertically expanded position to allow the top pivot to move in the upward direction.

When the top member has rotated such that it is aligned approximately perpendicularly with respect to the base member as shown in FIG. The length of the first link , the third link , the second link , and the fourth link is sufficient to allow the first hinge mechanism to expand sufficiently for the top to continue to rotate through the intermediately opened position shown in FIG.

Specifically, the top pivot may expand at least half the length of the first top member side surface With continued force applied to the top member , the top member will rotate past the intermediately opened position shown in FIG. Once the top member passes the intermediately opened position, the first hinge mechanism may begin to contract again.

Specifically, the top pivot may again move downward toward the base pivot and the front pivot and the back pivot may again move apart.

At this point, the biasing mechanism which provides a force to contract the hinge may provide sufficient biasing force to the top member to complete the movement to the fully opened position shown in FIG. Specifically, contracting the first hinge mechanism forces the top member and the top pivot to move closer to the base member As the top member moves closer to the base member , the top member continues to rotate until the top member and the base member are again parallel and adjacent.

Thus, by biasing the top member toward the base member , a biasing mechanism may drive a portion of the movement of the top member between opened and closed positions. In embodiments where the bias force is not present or not sufficient, the user can apply force to continue the rotation of the top member to the fully opened position. As shown in FIG. However, in the opened position, the interface surface , and, therefore, the touchscreen , are accessible.

The protective surface shown in FIGS. The top member has effectively been rotated degrees in the clockwise direction in the movement from the closed position shown in FIG. The second top member end is aligned with the front device end and the first top member end is aligned with the back device end The first hinge mechanism and the second hinge mechanism are in the same position as in the closed position of the device shown in FIG.

The top member can be again rotated degrees in the same clockwise direction or in the counter-clockwise direction to move the device from the fully opened position back to the closed position. When the device is moved from the fully opened position to the closed position, the first hinge mechanism will move in approximately the same manner as described with reference to opening the device. The user could, for example, apply a similar force to the top member as described above, except the force will be applied at the second top member end in order to close the device.

Therefore, the device can be moved from the closed position to the opened position, and from the opened position to the closed position by using the same movement of the user. The top member is free to rotate degrees about the top pivot of the top member where the degree movement consists of two half rotations using movements as described above. Also, as mentioned above, the top member can be moved to rotate in either the clockwise or counter-clockwise direction.

Therefore, the top member can essentially rotate continuously in either the clockwise, or counter clockwise direction. The touchscreen may be accessible in other positions between the closed and the fully opened positions. For example, a user may wish to use the touchscreen when the interface surface is at a variety of angles greater than 90 degrees with respect to the upper base member surface shown in FIGS.

Therefore, in some embodiments, the device may include means to lock the top member in one or more positions in addition to the closed position and the fully opened position. Alternatively, if no biasing means is present in the device to keep the device either closed or fully opened, a user can simply partially open the device and still access the touchscreen The device as described above may allow a user to open the device using a single continuous movement to apply force.

For example, it may be possible for a user to apply the necessary opening or closing force to the top member by pushing on the top member with one or more thumbs in a continuous motion. Force in the generally forward and downward direction may be applied to the top member , and at the beginning of the motion, and that force could be continuously applied by redirecting to a generally forward force only as the device is moved from the closed or fully opened positions.

The same simple continuous motion, applied with the users thumb or thumbs, for example, could be used to both open and close the device. This simple means for opening and closing the device may make the device convenient to use, while allowing protection of the touchscreen while it is not needed. It may also be possible, if desired, for a user to open and close the device by applying force to lift the top member , thereby extending the first hinge mechanism and the second hinge mechanism to allow rotation of the top member If no biasing force to return the top member to a position close to or next to the base member exists in an embodiment, the user could also apply force to lower the top member back adjacent to the base member A user may be able to hold, and move the device between opened and closed positions using a single one hand.

For example, the user could use their palm and fingers of a single hand to hold the device and then use their thumb to apply the necessary force to the top member to open or close the device.

Of course, a user is not restricted to single hand use of the device As mentioned above, the first hinge mechanism may bias the top member toward the base member , thereby biasing the device to drive a portion of the rotation between closed and opened positions. This may simplify the process of opening the device for a user, as the user may only need to drive a portion of the rotation, and allow the biasing mechanism to drive the rest.

In addition, biasing the top member toward the base member may bias the top member to remain in contact with the base member during movement between the closed position and the fully opened position. Thus, there may be substantially no separation between the top member and the base member during movement between the closed and fully opened positions. Such biased contact between the top member and the base member may help control the motion of the top member and ensure that the top member rotates properly and smoothly as the user applies force to the top member.

For example, by biasing the top member to maintain contact, the top member may be prevented from extending away from the base member and rotating too quickly thereby causing a user to lose control of the initial motion of the top member As can be seen in FIGS. The top member may house a large interface element, such as touchscreen , which covers approximately an entire face of the device in the fully opened position, and which is completely hidden in the closed position.

This may provide a desirable interface-element-size-to-device-size-ratio. Electrical connections between the top member and the base member could be made via a two point contact connection through the first hinge mechanism and the second hinge mechanism at the respective contact points of the top member and the base member In addition, wireless communication could be established between the top member and the base member It is also possible that inductive charging, such as wireless inductive charging, could be established for the device For example, the rotation of the top member could actuate the inductive charger.

In some embodiments, charging may not have to be actuated by rotating the top member. In some embodiments, the top member may be charged when the device is closed. In some embodiments, the top member may contain only the necessary electronics to operate the display and interface elements, and the base member may contain the bulk of electronics for the device as well as a battery.

As mentioned above, the device is only described as an example of an embodiment and other top member, base member, and hinge mechanism designs may be implemented.

Some embodiments may employ other types of hinge mechanisms that similarly may allow degrees of rotation about a pivot point. The first hinge mechanism described herein is only an example of a possible embodiment. One skilled in the art will appreciate that elements may be omitted or added without departing from aspects of the disclosure.

For example, more or less links could be employed. Hinge mechanisms could be rotatably connected to a base member at a different location on the base member. A second embodiment, in which a hinge mechanism comprises two bar linkages rotatably connected in series, will now be described with reference to FIGS. The device has a first device end , an opposite second device end , a first device side and a second device side These reference directions are for ease of description and do not require any particular orientation of the elements of the device including the top member and the base member In this embodiment, the top member is generally shaped as a flattened member with an elliptical cross-section.

The top member includes a first top member end , an opposite second top member end , a first top member side surface and an opposite second top member side surface not shown. The first top member end and the second top member end are rounded, while the first top member side surface and the opposite second top member side surface not shown are elliptical.

The top member includes a similarly shaped second or protective surface shown in FIGS. As mentioned above, it is to be understood that embodiments are not limited to top members having a touchscreen and, in some embodiments, the touchscreen may be omitted. Additional interface elements may also be present on at least one of the top member and the base member In this embodiment, the base member is shaped as a flattened member with a generally U-shaped cross-section.

The base member includes a front base member end , an opposite back base member end shown in FIGS. The front base member end and the back base member end are rounded, while the first base member side surface and the opposite second top member side surface are slightly U-shaped.

The base member also includes a concave upper base member surface shown in FIGS. The upper base member surface is shaped complimentary to both the top member interface surface and the protective surface In this embodiment, the first hinge mechanism is a type of two-bar linkage. Specifically, the first hinge mechanism includes a first or long link and a second or short link which is shorter than the long link The combined length of links and may be sufficiently long that when fully extended provide enough room for the rotation of the top member to fully rotate above the base member.

The device further includes a first extension spring on the first device side to act as a mechanical biasing mechanism to provide a bias force to bias the top member toward the base member In some embodiments, the device may further include a corresponding second extension spring not shown on the second device side The base member further includes a first base spring connecting means on the rear half of the first base member side surface and a corresponding opposite second base spring connecting means not shown on the second base member side surface.

The first base spring connecting means and the second base spring connecting means may be pins or any other suitable means of connecting an end of a spring to the base member Other biasing mechanisms could be used in other embodiments.

The first hinge mechanism is expandable and will now be described in more detail with reference to FIGS. The assembly of the device is then described with reference to FIG. The second hinge mechanism essentially mirrors the first hinge mechanism in form and function, but is disposed opposite to the first hinge mechanism at the second device side UK Lockdown Filters for Products. Style Bar Handle. Bow Handle. D Handle. Pull Handle. Square Knob.

T Bar Handle. With Backplate. With Rose. Curved Foot. Round Legs. Application Decking. Floor Boards. Cable Management. Cabinet Hinges Concealed Hinges. Cabinet Locks Cabinet Bolts. Cupboard Lock. Drawer Lock. Espagnolette Lock. Lever Lock. Lock Accessories. Pedestal Lock. Rim Locks. Tambour Lock. Door Handles Door Knobs. Lever Handles. Door Hinges Butt Hinges. CE Graded Hinges. Concealed Door Hinges.

Loose Pin. Parliament Hinges. Washered Hinges. Door Locks Bathroom Locks. Door Chains. Mortice Locks. Hinge Helpdesk: Half Overlay Hinges. Glass Door. Stainless Steel Slides. Filing Cradle Slide. Twin Wall Drawer Slides. Opening Angle Deg. Table Bases.

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