DE60111547T2 - DAMPER MECHANISM - Google Patents

Description

BACKGROUND THE INVENTION

AREA OF INVENTION

The The present invention relates to a damper mechanism incorporating the The features of the preamble of claim 1, and as an accessory to an opening and closing element, like a door or cover that rotates about a given axis of rotation, grown becomes. Such a damping mechanism is known from GB-A-650925.

DESCRIPTION OF THE KNOWN TECHNICAL STAND

If a door or cover or another opening and closing element, the hinges used in one direction, such as the closing direction, is rotated or moved and the element by such a torque automatic is closed, it is usual Practice, a damping mechanism which slowly rotates the element to increase the safety of the opening and closing movement to secure and to the impact at the time of closing reduce.

The simplest construction at for such a purpose used damping mechanisms of the known technical stand is a single-acting damper mechanism with a tubular closed cylinder and a piston, which is on a freely movable Way in the cylinder fits and the interior of the cylinder is divided into two chambers. The two Chambers are made to be provided by a piston provided in the piston Hole are connected. Within one of the two chambers becomes a pressure element, such as a coil spring provided with the Piston in a first sliding direction presses. Besides, inside the hole a pressure regulating valve is provided corresponding to the opening of the hole the sliding direction of the piston controls. The pressure control valve controls the one exercised Force resisting fluid pressure against the piston. The basis of Cylinder and the top of the piston rod are each with a fixed side (which has a structure for receiving an opening and closing element is) and a movable side (e.g., an opening and closing member like a door) connected. Generally, the coil spring acts to open and close the element closes wherein the pressure regulating valve in this state narrows the hole, whereby the element is slowly closed and the impact sound to Time of closing repressed becomes.

at damping mechanisms the known technical state leads the piston, which by the Cylinder slides out, a linear motion. As a result of that it is naturally impossible to be proportional Relationship between the oppressive (i.e. exerted) Force from the damping mechanism and the degree of rotation of the opening and closing element uphold when the damping mechanism immediately at an opening and closing element is attached. About that also allows it is such a damping mechanism not easy that that Element around a big one Angle is rotated, thus installing a kind of link mechanism requires to open and closing to facilitate.

damping mechanisms of the known technical state, therefore, have a large number of Share, resulting in high weight and high production costs leads. Furthermore is the maintenance (i.e., ease of maintenance) of damper mechanisms of the known technical stand due to the many moving Share a problem.

It is desirable a simple and convenient damping mechanism to reduce the number of parts to a minimum can and has good maintainability.

SUMMARY THE INVENTION

Short set forth and according to one aspect of the present invention a damping mechanism provided with a cylinder attached to a first end is open and closed at a second end and which describes an arc having a predetermined radius of curvature has an arcuate Plunger with the same radius of curvature as the cylinder, with a first end of the plunger on such Way inside the cylinder slides that it follows a curved path, the predetermined radius of curvature corresponds to a means to the plunger in a sliding direction in relation to To press cylinder (i.e., to move), a passage provided at the first end of the plunger, the passage being the inside of the cylinder passing through the first The end of the plunger is divided, connects to the outside, and one in the passage provided pressure control valve, wherein the valve is the cross-sectional area of the Passage reduced when the plunger in the one sliding direction moves, and the cross-sectional area passage increases when the plunger in the opposite Direction moves.

SHORT DESCRIPTION THE DRAWINGS

The invention will be more fully understood from the following description in conjunction with the accompanying drawings which form a part of this application and in which:

1 FIG. 4 is a perspective view showing an embodiment of the invention in which the damper mechanism has been attached to the cover of a housing; FIG.

2 is a perspective view showing the same damping mechanism alone,

3 is a sectional view showing the structure of the main features in the same damping mechanism,

4 a sectional view taken along the line IV-IV in 3 is

5 an enlarged view of the circled area in 3 is, wherein the passage has its largest cross-sectional area, and

6 an enlarged view of the circled area in 3 is, wherein the passage is tapered to its smallest cross-sectional area.

While the present invention in connection with a preferred embodiment the same is described, it will be understood that not it is intended to limit the invention to this embodiment. in the The opposite is intended, all alternatives, modifications and equivalents within the spirit and scope of the invention can be included as indicated by the attached claims To be defined.

DETAILED DESCRIPTION OF THE INVENTION

To The present invention is by attaching the damping mechanism so that the movement or rotation of the opening and closing element with the center of curvature of the cylinder and the plunger, the direction in which the opening and closing element rotates, essentially the same as the direction of the pressure medium exerted Force (i.e., the applied motion), which allows the applied force to be efficient on the opening and transferred closing element becomes. In this case, the cross-sectional area of the passage through the pressure regulating valve becomes reduces what causes the opening and closing element slowly turns. If, however, on the opening and closing element a force in a force exerted by the applied motion opposite direction acts, the passage cross-sectional area through the Increased pressure control valve, so that the opening and closing element moved according to the force acting on the same.

Of the damping mechanism This invention can use a torsion coil spring, whose Engage each end with a pair of notches, one with one Separate 180 degrees at one end of the cylinder and one end be formed of the piston. The 180 degrees occur between the two Notches on each other opposite each other on the cylinder surface to be ordered.

In In this case, it is preferable that the center of curvature of the cylinder and the plunger with the center of rotation of the torsion coil spring coincides.

Preferably the plunger has as well a pair of engagement grooves formed at the first end thereof; which are capable of the first end of the torsion coil spring to engage.

The casing (i.e., the body the cylinder) and the plunger can be made of a thermoplastic Synthetic resin can be produced.

The damping mechanism of the invention will be described in more detail below, in conjunction with the attached 1 to 6 , which illustrate an embodiment in which the damper mechanism is mounted to an opening and closing member for a shell. It should be understood, however, that the present invention is not limited solely to embodiments of this kind, and may also be applied to other fields encompassed by the concepts set forth in the appended claims.

1 FIG. 12 is a perspective view showing the damper mechanism of the present embodiment after being installed. FIG. 2 shows the same damping mechanism alone. A box-like case 11 has an open end 12 on which a cover 13 used to open and close the open end 12 is capable of and serves as an opening and closing element of the invention, via a plurality of hinges 14 is mounted pivotally. A lock (not shown) covering the cover 13 keeps closed when it is engaged, between the cover 13 and the housing 11 provided. A release of the lock from its engaged state allows the cover 13 is opened.

The damping mechanism 15 The present embodiment is between the housing 11 and the cover 13 attached and works so that the cover 13 slowly opens when the lock is released from its engaged state becomes.

The damping mechanism 15 includes: a cylinder 16 which has a circular cross-section and describes an arc having a predetermined radius of curvature, a mounting bracket 18 that integrates with the cylinder 16 is provided to the cylinder 16 so on the case 11 to attach that center of curvature of the cylinder concentric with the fulcrums 17 the hinges 14 is a plunger 19 which has a circular cross-section, an arc with the same radius of curvature as the cylinder 16 describes and its base end slidably in such a way with the cylinder 16 mating that it follows a curved path that corresponds to the specific radius of curvature, and as a means of movement of the invention, a torsion coil spring 20 that causes the plunger 19 from the cylinder 16 projects. This construction allows the cover 13 automatically moves or rotates from a closed state to an approximately 70 degrees open state. Preferably, the outer diameter of the plunger allows 19 in relation to the inside diameter of the cylinder 16 into which it is inserted, a matching gap of about 0.2 mm between them when mated. If necessary, it may be effective to have an O-ring in the gap between the cylinder 16 and the plunger 19 to install.

3 is a sectional view showing the construction of the mating surface between the cylinder 16 and the plunger 19 shows, and 4 is a sectional view taken along the line IV-IV in FIG 3 , One end of a torsion coil spring 20 gets stuck with the tip of the plunger 19 connected against the cover 13 suppressed. A second end of the spring 20 takes a pair of parallel notched grooves from both sides 21 engage or pinch the same, which are along the axis of curvature of the cylinder 16 and the plunger 19 opposite each other and each extending to the center axis of curvature. The middle sections of these notched grooves 21 open in the cylinder 16 , That is, the thickness of the notched grooves 21 is made slightly larger than the wall thickness of the cylinder 16 so that the plunger 19 inside the cylinder 16 slides, with the second end of the torsion coil spring 20 presses against a portion of the plunger circumference at the base end thereof. In addition, the base end of the plunger has 19 a pair of engagement grooves formed thereon 22 leading to the interior of the cylinder 16 show and are able to, the second end of the torsion coil spring 20 through the protruding notched grooves 21 to engage. Like the notched grooves 21 lie these engagement grooves 22 one another along the axis of curvature of the cylinder 16 and the plunger 19 opposite and extend in a manner parallel to the axis of curvature axis.

Consequently, the engagement of the second end prevents the torsion coil spring 20 with the engagement grooves 22 another outward movement of the plunger 19 though the through the torsion coil spring 20 applied force is capable of doing the plunger 19 to move it out of the cylinder 16 protrudes. Of course, the plunger 19 out of the cylinder 16 pulled out when a force on the plunger 19 which is greater than that with the clamping pressure by the second end of the torsion coil spring 20 against the engagement grooves 22 connected engaging force. A construction like this can be assembling the damping mechanism 15 by inserting the plunger 19 in the cylinder 16 very easy. In addition, shifts of the rotational position of the plunger 19 in relation to the cylinder 16 always corrected when the cover 13 opened and closed because the second end of the torsion coil spring 20 at the base end of the plunger 19 shaped engagement grooves 22 engages. This contributes to problems such as hollowing out by a small rotation of the plunger 19 in relation to the cylinder 16 To avoid and allow the plunger 19 slips smoothly at all times.

Referring again to 1 becomes the coil spring portion of the torsion coil spring 20 in notches 23 taken in the case 11 and the cover 13 be formed such that the center of the spring 20 concentric with the pivot points 17 the hinges 14 is.

In 3 has the base section of the plunger 19 that is inside the cylinder 16 has been taken and the inside of the cylinder 16 in a closed damper chamber 24 divided, a passage formed in the same 25 , the damper chamber 24 over the inside of the plunger 19 connects with the exterior. Within this passage 25 becomes a pressure control valve 26 built-in. The valve reduces the cross-sectional area of the passage 25 when the plunger is 19 out of the cylinder 16 moved out (ie, by the motive force of the coil spring 20 ), and increases the passage cross-sectional area when the plunger 19 moved in the opposite direction.

With reference to 5 is the pressure control valve 26 a type of poppet valve that is on the side of the plunger 19 a conical first valve body 27 has and on the side of the damper chamber 24 ( 6 ) a second valve body 29 with a raised area 28 who has one at any time Gap with the face on the base of the plunger 19 forms. In this embodiment of the present invention, the valve 26 of a thermoplastic resin such as Co., Ltd., polyester elastomer available Hytrel ^® or nylon resin available from EI DuPont de Nemours and Co. Zytel ^®, manufactured by the DuPont-Toray. The valve 26 is crushed and elastically deformed at one end, forcing it into the passage in this way 25 is used. Once inserted, the valve is 26 designed to be along the passage 25 move back and forth.

Therefore, the plunger dives 19 when handling the lock (not shown), so as to the engaged state between the cover 13 and the housing 11 to solve if the cover 13 is closed, under the pressure (ie, the force) of the torsion coil spring 20 out of the cylinder 16 on and acts on the cover 13 to open it. 5 shows the state of the pressure control valve 26 at this time. The pressure difference between the inside of the plunger 19 , which has been kept at atmospheric pressure, and the interior of the damper chamber 24 , which tends to be under reduced pressure, moves the pressure regulating valve 26 to the side of the damper chamber 24 out, so that the passage 25 through the first valve body 27 is placed in a narrowed state. This limits the entry of air into the damper chamber 24 as a result of which the plunger 19 slowly out of the cylinder 16 turns up and the cover 13 moving up. Sliding the cover 13 stops when the second end of the torsion coil spring 20 the engaging grooves 22 on the plunger 19 engages. Because the cover 13 only in resting contact with the tip of the plunger 19 is, she can hand up to which by the hinges 14 allow scope to be opened, if there is a need, the cover 13 continue to open.

Conversely, the interior of the damper chamber 24 compressed, and the pressure in the same tends to become higher than the atmospheric pressure, causing the pressure regulating valve 26 to the side of the plunger 19 is moved when the cover 13 against the force of the torsion coil spring 20 is closed from an open state, as it is in 6 showing the state of the pressure control valve 26 at this time. The passage 25 gets through the raised area 28 of the second valve body 29 kept open so that air inside the damper chamber 24 out of the passage 25 through the inside of the plunger 19 and vented out into the exterior, thereby allowing the cover to be easily replaced by an against the force of the torsion coil spring 20 applied force is to close.

The cylinder 16 and the plunger 19 As described above, due to inherent mechanical constraints inherent in machining mechanical processes, it is difficult to mass-produce. However, molds required for molding plastics can be accurately fabricated by numerically controlled machine tools and other suitable equipment. Accordingly, the cylinder can 16 and the plunger 19 , Are prepared as described above, by selecting an appropriate material such as an acetal resin (eg Delrin ^® 500 OP, available from EI DuPont de Nemours and Co.) exactly.

In the embodiment described above, the damping function becomes when opening the cover 13 used. However, it is also possible to do the reverse: namely, the damping function when closing the cover 13 to use. It should be understood that the design of the damping mechanism 15 may be appropriately modified within the scope of the appended claims according to the particular object to which it is to be used.

There the damping mechanism the invention has a cylinder and a suitable plunger, each with an arcuate Shape with the same specific radius of curvature, and the plunger an arcuate Path corresponding to the radius of curvature can be achieved by attaching the damping mechanism to an opening and closing element such that the Center of curvature of the damping mechanism with the rotation of the opening and closing element matches, the direction in which the opening and closing element turns, be made substantially the same with the direction of the damping mechanism generated drag. This arrangement allows the invention to be an efficient one damping mechanism which has a minimum number of parts.

The Pushing or moving means may be a torsion coil spring, a first end of which meshes with a pair of notches, those with a separation of 180 degrees at one end of the cylinder be formed, and a second end thereof to the other end the plunger is coupled. When the center of curvature of the cylinder and the plunger coincides with the center of rotation of the torsion coil spring, can the movement of a sliding end of the plunger relative to Cylinder so limited be that one complete Pulling the plunger out of the cylinder is prevented.

If the housing and the plunger made of a thermoplastic resin there is no need for lubrication, which makes it possible a maintenance-free, lightweight damping mechanism to reach.

Out the above shows that the damping mechanism of the present Invention fully complies with the objectives and advantages set out above.

Claims (5)

Damping mechanism comprising: a cylinder ( 16 ) having a circular cross-section which is open at a first end and closed at a second end and which describes an arc having a predetermined radius of curvature, said cylinder ( 16 ) within an arcuate plunger ( 19 ) with the same radius of curvature as the cylinder ( 16 ), wherein a first end of the plunger ( 19 ) in such a way within the cylinder ( 16 ) follows that it follows a curved path that corresponds to the predetermined radius of curvature, a means ( 20 ) to the plunger ( 19 ) in a sliding direction in relation to the cylinder ( 16 Pressing), characterized in that the plunger at the first end ( 29 ) a passage ( 25 ), the passage ( 25 ) the inside of the cylinder ( 16 ) passing through the first end of the plunger ( 19 ), connects with the exterior, and that in the passage ( 25 ) a pressure regulating valve ( 26 ), wherein the valve ( 26 ) a cross-sectional area of the passageway ( 25 ) when the plunger ( 19 ) moves in the one sliding direction, and the cross-sectional area of the passage ( 25 ) increases when the plunger ( 19 ) in the opposite direction, and in that the arcuate plunger ( 19 ) has a circular cross section, so that the plunger ( 19 ) and its first end sliding with the cylinder ( 16 ) and can be moved within the same. Damping mechanism according to claim 1, wherein the pressure means ( 20 ) a torsion coil spring ( 20 ), which has a first end, which has a pair of at the cylinder ( 16 ) shaped notched grooves ( 21 ), which have a separation of 180 degrees, at the first end of the cylinder ( 16 ), and a, at one end of the plunger ( 19 ) coupled, second end has. Damping mechanism according to claim 2, in which the center of curvature of the cylinder ( 16 ) and the plunger ( 19 ) with the center of rotation of the torsion coil spring ( 20 ) coincides. Damping mechanism according to claim 2 or 3, wherein the plunger ( 19 ) a pair of engagement grooves formed at the first end thereof ( 22 ), which are capable of, the first end of the torsion coil spring ( 20 ) to engage. Damping mechanism according to one of claims 1 to 4, wherein the body of the cylinder ( 16 ) and the plunger ( 19 ) are made of a thermoplastic resin.