Soothing swing

FIELD: medicine.

SUBSTANCE: present invention refers to soothing swings, particularly for the individual's sleep agitation soothing swings. The soothing swing comprising a base, the first and second profile track each of which limits a closed corrugated path; the profile tracks are mounted on the base and are rotatable about each other and about the base; what is also provided is at least one track former interacting with the profile track; a rotational mechanism of the profile tracks transmit a relative rotational motion between each of the profile tracks and the track former and generates the respective track former displacement in relation to the base; a support plate is carried by the track former.

EFFECT: invention provides rotating the tracks to generate the platform swinging in the wide amplitude range.

14 cl, 2 dwg

 

The present invention relates to a device for providing rocking motion and, in particular, to devices to help calm individuals and excitation sleep.

It is well known that children often calm down through a light swinging movements and may be more likely to fall asleep when exposed to such movements. Parents often shake their children in strollers and chairs on wheels to ensure that the sedative effect, and it was also found that the movement experienced when moving in a moving vehicle, is effective for these purposes. Many parents recognize the impact a calming effect when moving in the car, but not able to recreate this effect in the absence of movement.

Several devices have been developed in an attempt to provide a corresponding rocking movement that mimicked the motion experienced in a moving vehicle, and, therefore, would provide the ability to calm children at any time. One such device is described in patent W0030/79861, which describes a rotating turntable carrying a series of rollers that follow the lower side of the rollers, which, in turn, is fixed to the underside of the platform on which is placed a cot. During the rotation of the turntable rollers pressed Protistology and waviness provide swinging movement of the platform.

The object of the present invention is to provide an improved rocking device of this property.

Accordingly in one aspect the present invention provides a receiving rocking device containing a base; first and second profiled tracks, each of which delimits a closed undulating path, and paths associated with the base; at least one Cam track located for interaction with at least one of the profiled tracks;

the rotational mechanism for imparting relative rotational movement between each of the profiled tracks, copy path, creating in accordance with a relative displacement between the Cam track and the base; and a support element carried by the Cam track.

The support element preferably does not rotate relative to the base.

Each Cam track preferably comprises a pair of the following structures, each of which is adapted to interact with one of the profiled tracks.

Conveniently, when the inner one of the profiled tracks is concentric with the outer one of the profiled tracks, and is located in the outer one of the profiled tracks.

The inner and outer profiled tracks preferably are what I related to each other.

The device preferably includes a damper to modulate the relative displacement between the base and the support element.

Conveniently, when the rotational design managed to encourage each of the profiled tracks to rotate relative to the base.

One of the profiled tracks preferably can be operated to rotate the respective ground, while the other of the profiled tracks remains essentially stationary relative to the base.

The first and second profiled tracks preferably can be driven for rotation in one direction relative to the base.

Conveniently, when the first and second profiled tracks can be driven for rotation in opposite directions relative to the base.

The first and second profiled tracks can preferably be driven for rotation, essentially, with the same speed relative to the base.

The first and second profiled tracks can preferably be driven to rotate at different speeds relative to the base.

Conveniently, when the speed of rotation of one or both of the profiled tracks may change at the time when the device is in operation.

Waviness in the surface of the one of the profiled tracks are preferably in General, a larger amplitude than the waviness in the other of the profiled tracks.

Preferably, one of the tracks having a sinuosity greater amplitude as a relative low point of their cobbles, and in which, when the copier track combined with a relatively low point in the cobbles, and the other of the profiled tracks is rotated relative to the Cam track, the movement of the Cam track is driven by cobbles in the other of the profiled tracks.

Conveniently, when the device further comprises at least a third profiled track.

To provide a better understanding of the present invention, variants of implementation will be described by example with reference to the accompanying drawings, where

figure 1 - illustration of the components of the device corresponding to the present invention; and

figure 2 - section of the components of the device illustrated in figure 1.

Figure 1 illustrates some of the major components of the device, corresponding to a variant of implementation of the present invention.

The device comprises, in General, round base 1 having an embossed circular outer ledge that runs around the periphery of the base.

The outer track 3, which has a wavy essentially annular upper surface 4, is the bar is dstone in the rim 2 of the base, as described in more detail below. Directly in the outer lane 3 is the inner track 5, which in this case is facing up wavy annular top surface 6, which is approximately level with the top surface 4 in the inner track 5.

In the inner track 5 provides a Central hub 7, which rises with respect to the outer and inner tracks 3, 5. In the example illustrated in figure 1, the hub 7 is formed integrally with the inner track 5, although it is not necessarily so. The hub 7 provides, in General, flat, essentially annular upper surface 8 with the lower center pillar 9, protruding from its middle (center).

The lower base plate 10 is supported above the base 1. In the embodiment illustrated in figure 1, the lower base plate 10 is essentially a triangular plate shape and is supported by three support posts 11, which run down from the corners of the lower base plate 10 and may be based outside of the substrate 1 to the surface, where the base 1. The lower base plate 10 is also supported by the lower Central pillar 9.

Thus, it will be obvious that the upper base plate 10 is firmly supported in place on the base 1 and is essentially parallel to him.

Through h the life support plate 10 is provided with three holes 12. Holes 12 are located near the corners of the lower base plate 10 inward to locations where the rack 11 meet with the lower support plate 10. In General, a cylindrical drive the pushers 13 are passed through each of the holes and are located essentially at right angles to the lower support plate 10. The lower end of each of the drive of the pusher 13 which is located below the lower support plate 10, ends in roller unit 14, having an axis 15, which runs essentially transversely supporting the pusher 13. The axle 15 is essentially parallel to the plane of the base 1 and protrudes inward relative to the pivot of the plunger 13, so that the axis 15 is located essentially directly above the outer and inner tracks 3, 5.

The outer and inner rollers 16, 17 are moved with the possibility of rotation on the axis 15.

Roller blocks 14 are based on external and internal rollers 16, 17, and the outer roller 16 rests on the upper surface 4 of the outer track 3, and

the inner roller 17 rests on the upper surface 6 of the inner race 5. The spring 18 is located around the anchor of the follower roller 13 between the block 14 and the lower side of the lower support plate 10, ensuring that the roller unit 14 is shifted down on the top surfaces 4, 6 of the outer and inner tracks 3, 5. Since the outer and inner rollers 16, 17 are mounted on the ne axis 15, it will be obvious that the roller unit 14 will be supported on whichever of the top surfaces 4, 6 above the point where the rollers 16, 17 are found with upper surfaces 4, 6.

In preferred embodiments, the implementation of the rollers 16, 17 have the same or essentially the same size. In other embodiments, implementation of the rollers 16, 17 can have different sizes. The rollers 16, 17 is preferably supported near one another as a single fixed axis 15, but may alternatively be supported on separate shafts. This individual axes may be permitted to move relative to one another, for example, they can separately be supported by elastic elements relative to the corresponding reference of the pusher 13.

An alternative may be provided in a single relatively wide roller, which covers the two top surfaces 4, 6.

The upper base plate 19 is transferred to the upper ends of the three support pushers 13. The upper base plate 19 is essentially flat, and is formed from a rigid material such as steel. The upper base plate 19 is a plate of essentially triangular in shape, having a similar configuration to that of the lower base plate 10, and is supported by three bearing pushers 13 at its corners.

The upper support 20 is, in fact, directly is upward from the upper surface of the upper support plate 19. The upper support 20 has, in General, a cylindrical shape.

It should be obvious that while the lower base plate 10 is supported rigidly relative to the surface on which rests the device through three racks 11 and the lower support legs 9, the upper base plate 19 is not rigidly supported relative to the surface on which rests the device. The upper base plate 19 is supported only by the support of the pushers 13, which is supported by roller units 14 on the upper surfaces 4, 6 of the outer and inner tracks 3, 5. Supporting the plungers 13 is free to slide up and down relative to the base 1 and the lower support plate 10. To help maintain the support of the lifters in the correct orientation by the guide structure (not shown) may be provided in the holes 12 or around the holes 12 in the lower support plate 10. The guide structure may contain one or more rollers.

As the outer track 3, and the inner track 5 are rotatable relative to the base 1. Figure 2 illustrates the section of certain components of the device, which allowed this rotation.

In the external tab 2 base 1 base 1 provides a flat bearing surface 21, in General, round shape. The Central axis 22, which does not rotate relative to the basis of the Oia 1, passes upwards from the center of the support surface 21. Two-way bearing 23 is provided near the base axis 22, based on the supporting surface 21. Two-way bearing 23 with the rotatably supports the outer track 3, which is made in the form of a circular plate having a peripheral protruding ledge, with the upper surface of the protrusion forms the upper surface 4 of the outer track 3.

The outer track 3 can be driven to rotate relative to the base 1 in any direction by a motor (not shown). Qualified professionals in this area of technology will be obvious that there are several different ways, which can be controlled rotational movement of the outer track 3 relative to the base 1.

Above the outer tracks 3 around the axis 22 provides the one-way bearing 24. The inner track 5, which (in this embodiment, is integral with the hub 7, is mounted on a one-way bearing 24. The one-way bearing 24 allows rotation of the inner race 5 in one direction relative to the Central axis 22, but not in the other direction.

The lower surface of the inner race 5 rests on the upper surface of the outer track 3, which lies in its ledge, which provides wavy surface is 4 external track 3. The upper surface of the outer track 3 and the lower surface of the inner race 5 is formed from suitable materials or have the appropriate coverage, so that these surfaces can be relatively easy to slide one relative to another. However, between these surfaces will be some friction.

Above the inner race 5 is the lower leg 9 is formed not with the possibility of rotation around an axis 22, which, as described above, provides a support for the lower support plate 10 (not shown in Fig.2).

In General, the waviness of the inner track 5 is provided at a higher elevation above the base 1 than the waviness of the outer track 3, and are also the cobbles of greater amplitude. However, in the cobbles to the inner race 5 is formed of a relatively low point, with these low points were obtained with equally spaced intervals around the inner track 5.

Waviness provided in the outer lane 3, in General, are cobbles smaller amplitude, and provided at a somewhat lower level,

than the waviness of the inner track is formed so as to be above the level of the inner race 5 in its three relatively low points.

Next will be described the operation of the device.

In the first mode, the external plate 3 is driven into rotation the first direction. The one-way bearing 24 but prevents rotation of the inner plate 5 in the first direction so that the inner plate 5 remains stationary while rotating the outer track 3.

The inner lane 5 is positioned so that each of the inner rollers 17 lying above respectively, relative to the lowest point of the inner race 5.

It will thus be apparent that when the outer track 3 rotates, the outer rollers 16 will rise and fall in accordance with cobbles provided on the surface 4 of the outer track 3. This movement of the rise and fall will be transmitted via the supporting plungers 13 to the upper support plate 19, which will cause the movement of the upper support plate 19. It is obvious that the movement up and down the support pushers 13 will not, in General, in unison. More likely that the reference pushers 13 will rise and fall at different times and it will thus inform (give) relative to the unpredictable movement of rise/fall and swing the upper support plate 19.

The speed of these movements can be adjusted by increasing or decreasing the speed of rotation of the outer track 3. The speed can be set in any one of a number of pre-set speeds, or may be continuously variable between upper and lower limits.

In this case, the device can be enabled so that to the outer track 3 was rotated in the second direction that is opposite the first direction. This is the direction in which the inner lane 5 can rotate when it is not interfered by the one-way bearing 24. When the outer track 3 rotates in the second direction, the friction force between the outer track 5 and the inner track 3 will also cause rotation of the inner race 5 in the second direction. As described above waviness in the surface 6 of the inner race, in General, a greater height above the base 1 than the waviness of the outer track 3, and thus the movement up and down the support pushers 13 are, in General, follow the cobbles in the inner track 5.

Switching the direction of rotation, which is driven into rotation of the outer track 3, thus enables the user to select between the two modes of the device. The behavior of the device in these modes will depend on the nature of the cobbles in the surfaces 4, 6 of the outer and inner tracks of 3.5. However, in preferred embodiments, the implementation of waviness are, in General, of greater amplitude on one of the tracks than on other tracks, and

this case waviness provided on the inner track 5, are, in General, of greater amplitude than the waviness provided outwardly on the track 3. Thus, switching of the direction of rotation enables the user to choose between a relatively slight movement of the upper support plate 19 (when the outer track 3 is rotated in the first direction) and in a more pronounced movement of the upper support plate 19 (if the outer track 3 rotates in the second direction).

If the user wishes to switch the rotation of the outer track 3 in the second direction to rotate the outer tracks 3 in the first direction, then, in General, it will be necessary to combine the abutment tappets 13 with a relatively low point in the inner track 5. In preferred embodiments, the implementation is controlled by a processor (not shown), which rotates the outer tracks 3 in the second direction up until this alignment is not achieved, before reversal of direction of rotation so that the outer track 3 is rotated in the first direction.

In alternative embodiments, the implementation of the one-way bearing 24 is replaced by a more standard two-sided standard bearing, so that, in General, the inner track 5 will follow the rotation of the outer track 3 regardless of the direction of rotation. However, in these embodiments implement to stop the rotational movement of the inner track 5 at the position where the abutment tappets 13,) the Wu, combined with a relatively lower points in the inner track 5, is provided by the locking device. In one embodiment, the locking element (not shown) provided on the lower side of the lower support plate 10, which interacts with a locking element (not shown)that is associated with the inner plate 5 and, for example, can be located on the upper surface 8 of the hub 7. The locking element can pass the locking element in one direction, but cannot pass the locking element in the other direction. For example, the locking element can contain Shorty, which is down from the lower end of the lower support plate 10 at an angle, and the locking element may include a rod, which acts directly upwards from the upper surface 8 of the hub 7. When the locking element is a locking element in the first direction, the locking element may reject the locking element up to the underside of the lower support plate 10 and thus can move past the locking element. However, in the opposite direction the locking element will not be able to cause this deviation and, therefore, will not be able to move past the locking element.

In these embodiments, the implementation of the locking element and the locking cell battery (included) the t will be positioned so that so that when the locking element is held locking element, a relatively low point in the inner track 5 is combined with the supporting plungers 13. Thus, it will be obvious that when the device switches from rotation in the second direction during rotation in the first direction, after a short period of rotation in the first direction of the inner lane will reduce the rotation supporting tappets 13, combined with the lower points in the inner track, and in this case, the movement up and down the support pushers 13 will, in General, follow the cobbles in the outer track 3.

A child seat can be attached to the upper support plate 19 and/or the upper base so that the seat should be swinging movement of the upper support plate 19.

The present invention is not limited to the structures described above, and there are many different ways that the device can manage internal and external wavy paths. For example, the tracks may both rotate with different angular velocities, so that the upper support plate 19 is attached to (reportedly) more unpredictable movement. The speed of rotation of one or both of the inner and outer tracks can be changed while the device is in operation, so that the speed of swinging movement of the upper support plate 19 is changed to the to change the phase difference between the inner and outer tracks.

It is also assumed that the inner and outer tracks can rotate in opposite directions one relative to another, and in this case, in these embodiments, the implementation of the angular velocity of each track can be independently resist the change.

It is obvious that the inner and outer tracks thus enables far less predictable and/or cyclically repetitive movements than in the case of a device that includes only one track.

In preferred embodiments, the implementation of internal and external paths, or at least their surfaces, which provide a wavy surface may be removable so that the user can replace alternative paths to change the swinging movement provided by this device.

Qualified specialists will be obvious that can be provided by a third or even more wavy paths.

Although the devices described above include a triangular top and bottom of base plate 10, 19, of course, obvious that the device is not limited to this configuration, and can be used in many other forms and supporting structures.

Used in this description and the claims the terms "contains" and "contain" and variations thereof mean that enabled the characteristic elements, the stages or components. These terms should not be interpreted to exclude the presence of other elements, steps or components.

The elements described in the above description or following claims, or the accompanying drawings, expressed in their specific forms or in terms of values to perform the described function or method or process to achieve the described result can thus separately or in any combination of such elements be used to implement the present invention in its various forms.

1. Rocking device containing a base (1);
the first and second profiled tracks (3, 5), each of which delimits a closed undulating path, and shaped track mounted on the base (1) with the possibility of rotational movement relative to each other and base;
at least one copy (14) of the tracks, interacting with profiled tracks;
the rotational mechanism of the profiled tracks (3, 5), indicating the relative rotational movement between each of the profiled tracks (3, 5), copy (14) of the tracks and creating in accordance with this offset copier (14) tracks relative to the base (1);
and the support plate (19)supported by the copier (14) tracks.

2. The device according to claim 1, in which the reference place is in (19) does not rotate relative to the base (1).

3. The device according to claim 1, in which each copy (14) of the tracks comprises a pair of such structures as (16, 17), each of which is adapted to interact with one of the profiled tracks (3, 5).

4. Device according to any one of the preceding paragraphs, in which the inner one of the profiled tracks (5) is concentric with the outer one of the profiled tracks, and is located in the outer one of the profiled tracks (3).

5. The device according to claim 1, in which the inner and outer profiled tracks (3, 5) are essentially adjacent to each other.

6. The device according to claim 1, additionally containing a damper to modulate the relative displacement between the substrate (1) and support plate (19).

7. The device according to claim 1, in which one of the profiled tracks (3, 5) can be driven for rotation of the Foundation (1), while the other of the profiled tracks remains essentially stationary relative to the base.

8. The device according to claim 1, in which the first and second profiled tracks (3, 5) can be driven for rotation in one direction relative to the base (1).

9. The device according to claim 1, where the first and second profiled tracks (3, 5) can be driven in rotation in opposite directions relative to the base (1).

10. The device according to claim 1, in which the PR with the first and second profiled tracks (3, 5) can be driven for rotation, essentially the same speed relative to the base (1).

11. The device according to claim 1, where the first and second profiled tracks (3, 5) can be set in rotation at different speeds relative to the base (1).

12. The device according to claim 1, in which the speed of rotation of one or both of the profiled tracks (3, 5) may change at the time when the device is in operation.

13. The device according to claim 1, in which the waviness in the surface of one of the profiled tracks (5) are, in General, of greater amplitude than the waviness in the other of the profiled tracks (3).

14. The device according to item 13, in which one of the tracks (5), with a sinuosity greater amplitude, has a relatively low point in their cobbles, and in which, when the copier (14) tracks combined with a relatively low point in the cobbles, and the other of the profiled tracks (3) is rotated relative to the copier (14) tracks the movement of the copy (14) of the track is driven by cobbles in the other of the profiled tracks (3).



 

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