RESILIENT AXIS DAMPER

KNOW ALL MEN BY THESE PRESENTS:

OOlThat the undersigned, whose name, post office address and citizenship is set out below, has invented a new and useful improvement in. a

RESILIENT AXIS DAMPER

for which the following constitutes his Provisional Application for United. States Letters Patent disclosing his said invention, as follow:

RESILIENT AXIS DAMPER

Background and Summary of the Invention

002 This invention relates to axis dampers for dampening the closure of doors and similar devices

which are closed into a frame or cabinet, and is more particularly related to such an axis damper

which has a resilient sleeve arranged over a plastic axis damper skeletal member, and which

simplifies the structure of the device and yet provided suitable controlled dampening of the closing

action of the device. Such a plastic and resilient axis damper device may be co-molded and

fabricated in one piece,

003 Conventional axis dampers are frequently fairly complex devices, usually requiring internal

springs and cylinders or discs that move through silicone grease or similar materials or structure to

accomplish consistent closing and softening and spring-like opening action to accomplish the desired

result.

004 In the present invention, there are no internal springs or cylinders and there is no structure

requiring discs or other elements to move though a dampening agent, and the desired dampening is

provided by a resilient sleeve over the dampening device in such a way that torque forces absorb

the closing action to suitably move the door or other component home against its frame or cabinet

and provide ease of re-opening. Such a simple system is particularly suitable to slow the opening

and closing speed of such devices as automobile ashtrays, front panels of television sets, covers for

laptop computers and like applications.

005 By providing a resilient sleeve on an axis damper, suitable dampening and spring action is

achieved using molded rubber and plastic, and the rubber or similar resilient cylinder on the device

provides torque and return characteristics for closing and opening action at a substantially lower cost

than existing axis dampers. The resilient axis damper disclosed i this application can be co-molded

in one operation and requires only means for mounting it in place, but no other substantial

installation or operational elements.

006 The resilient axis damper embodying the present invention consists of a plastic skeletal

member, which includes structure for mounting the axis damper on a door, panel or cover to be

closed or on a frame against which the door, panel or cover is to be closed. The skeletal member

includes an axle device for mounting on the door, panel, cover or frame. This axle device has means

for receiving a resilient sleeve secured thereover, and this resilient sleeve can be co-molded with the

plastic skeletal member.

Objects and Advantages of the Invention

007 It is the object of the invention to provide a resilient axis damper of the character described.

008 Another object is to provide an axis damper having a resilient sleeve which absorbs torque

and is spring-like for use to dampen the closing or opening of a door, panel or cover against a frame.

009 Another object is to provide a resilient member for a axis damper which can be co-molded

with the axis damper.

010 Another object is to provide an axis damper which does not require internal springs,

cylinders, discs or similar structure to accomplish consistent closing and softening action to open or

close a door, panel or cover.

011 Another object is to provide an axis damper which can be secured on a frame or door without

special members to enhance its dampening action.

012 Another object is to provide an axis damper which can be fabricated in one piece.

013 Another object is to provide an axis damper which is simple and efficient to manufacture and

use and which can accomplish suitable dampening efficiently and at low cost.

014 These and other objects and advantages will become more apparent as this description

proceeds, taken in conjunction with the accompany drawings and description.

Brief Description of the Drawings

015 In the drawings :

016 Figure 1 is a perspective view of a container having an axis damper secured on it hinge and

cover.

017 Figure 2 is a perspective view of the formed skeleton for an axis damper embodying the

present invention.

018 Figure 3 is a perspective view of a complete axis damper having a resilient sleeve arranged

over the skeleton as seen from its right side, as shown in Figure 2.

019 Figure 4 is a perspective view similar to Figure 3 except shown from its left side.

020 Figure 5 is an elevational view of the axis damper embodying the present invention.

021 Figure 6 is an elevational view of the axis damper shown in Figure 5, viewing the device

from its top side.

022 Figure 7 is a side elevational view of the axis damper shown in Figure 5.

Detailed Description of a Preferred Embodiment

023 With reference to the accompanying drawing, and particularly to Figure 1 , an axis damper

device 10 may be secured in a container have a cover C which may be closed against a body or frame

F. One portion of this device may be restrained in a hinge guide H connected to the frame F and its

other end can be secured in the container cover C or the like, so that the cover may be swung away

from the frame in a dampened fashion, so that it will not be opened too fast or too slow, with only

moderating force.

024 The axis damper device 10 embodying the present invention has a skeleton 11 , as shown in

Figure 3. This skeleton 11 consists of a hinge member 12 and a damper restraining member 13. The

hinge member 12 may consist of two pins 14 and 15, which are disposed at opposite ends of the

skeleton 11 , and are adapted to be connected into the hinge guide H for axial movement transverse

to the opening and closing of the structure to which the axis damper member is attached.

025 The damper restraining member 13 on the skeleton 11 may comprise a pair of fork tines 16

and 17 remote and extending from the hinge member 12. These tines 16 are connected together at

abase 18 extending from a shaft 19 preferably secured to the hinge member 12, and the remote ends

of the tines 16 may form barbs 20 having locking tabs 21 for snap-in connection to structure in the

cover C.

026 Secured to the hinge member 12 of the device 10 is a resilient sleeve 25, which is secured

to the hinge member by means of an upstanding brace 26 connected to the shaft 19 and a to a sleeve

securing member 27, so that the area of the sleeve between the brace and securing member can

absorb torque when the axis damper device is connected to the cover C and body F as the cover is

moved toward the frame and release torsion forces as the cover is moved away from the frame. .This

resilient sleeve 25 may be co-molded with the skeleton member in a single molding operation.

027 The resilient sleeve maybe made fromrubber or other flexible torque absorbing or elastomer

material. Skeleton and sleeve arrangements other than as shown and described may be made to

similarly lock into a suitable cover and frame so long as these parts are suitable for holding the hinge

member 12 and damper restraining member 13 in a position to absorb and release torsion forces

while the cover C is moved into closed or open position against the body or fame F.

028 While a preferred embodiment of the invention has been shown and described in considerable

detail, it should be understood that many changes and modifications may be made in the device

without departing from the spirit or scope of the invention Accordingly, it should be understood

that the invention should not be limited to the exact structure disclosed.