DOLLY SYSTEM

Abstract

A dolly system is disclosed, which overcomes drawbacks related to unwanted noise and jerks of prior art dolly systems. The dolly system comprises wheel assemblies (130) that have independently rotating lateral support wheels (132, 133) in combination with a center wheel (131) that interact with a continuous resilient element (122) when rolling along a rail track, without encountering any gaps or bumps and without producing squeal noise due to so-called wheel-climbing that may occur in curves along the rail track.

Claims

1. A dolly system comprising: a dolly platform, a rail assembly comprising: at least one elongated rail section configured to be joined together to form a rail track, an elongated continuous resilient element configured to be attached to the at least one rail section along the rail track, at least one wheel assembly configured to be attached to the dolly platform and configured to roll along the rail track on top of the elongated continuous resilient element, said wheel assembly comprising: a center wheel configured to support the dolly platform in a vertical direction, z, a first lateral support wheel and a second lateral support wheel configured to support the dolly platform in a horizontal direction, x, where: the first lateral support wheel and the second lateral support wheel arranged concentrically and on either side with respect to the center wheel, and wherein: the first lateral support wheel and the second lateral support wheel have a respective radial extension, r.sub.1, r.sub.2, that are larger than a radial extension, r.sub.0, of the center wheel; and the first lateral support wheel and the second lateral support wheel are configured to rotate independent of each other and independent of the center wheel.

2. The dolly system of claim 1, where a profile of a cross section of the continuous resilient element, perpendicular to a direction of elongation of the continuous resilient element, matches a profile of a radial cross section of the wheel assembly.

3. The dolly system of claim 2, where the elongated continuous resilient element has a length that corresponds to a length, L, of the rail track.

4. The dolly system of claim 3, where a profile of a cross section of the continuous resilient element, perpendicular to a direction of elongation of the continuous resilient element is such that, when attached to the at least one rail section, an elongated cavity is formed between the at least one rail section and the resilient element.

5. The dolly system of any of claim 4, where the elongated continuous resilient element is made of a rubber.

6. A rail assembly for a dolly system, said rail assembly comprising: at least one elongated rail section configured to be joined together to form a rail track; and an elongated continuous resilient element configured to be attached to the at least one rail section along the rail track.

7. The rail assembly of claim 6, where a profile of a cross section of the continuous resilient element, perpendicular to a direction of elongation of the continuous resilient element, matches a profile of a radial cross section of a wheel assembly.

8. The rail assembly of claim 7, where the elongated continuous resilient element has a length that corresponds to a length, L, of the rail track.

9. The rail assembly of any of claim 8, where a profile of a cross section of the continuous resilient element, perpendicular to a direction of elongation of the continuous resilient element is such that, when attached to the at least one rail section, an elongated cavity is formed between the rail sections and the resilient element.

10. The rail assembly of any of claim 9, where the elongated continuous resilient element is made of a rubber.

11. A wheel assembly for a dolly system, said wheel assembly configured to be attached to a dolly platform and configured to roll along a rail track on top of an elongated continuous resilient element, said wheel assembly comprising: a center wheel configured to support the dolly platform in a vertical direction, z, a first lateral support wheel and a second lateral support wheel configured to support the dolly platform in a horizontal direction, x, where: the first lateral support wheel and the second lateral support wheel arranged concentrically and on either side with respect to the center wheel, and wherein: the first lateral support wheel and the second lateral support wheel have a respective radial extension, r.sub.1, r.sub.2, that are larger than a radial extension, r.sub.0, of the center wheel; and the first lateral support wheel and the second lateral support wheel are configured to rotate independent of each other and independent of the center wheel.

12. The wheel assembly of claim 11, where a profile of a radial cross section of the wheel assembly matches a profile of a cross section of the continuous resilient element, perpendicular to a direction of elongation of the continuous resilient element.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0021] A more complete understanding of the present invention, and the attendant advantages and features thereof, will be more readily understood by reference to the following detailed description when considered in conjunction with the accompanying drawings wherein:

[0022] FIGS. 1a and 1b are schematically illustrated perspective views of a dolly system;

[0023] FIG. 2 is a view from above schematically illustrated rail track;

[0024] FIG. 3 schematically illustrates, in cross-section, a continuous resilient element;

[0025] FIG. 4 schematically illustrates, in cross-section, a wheel assembly and a rail assembly; and

[0026] FIG. 5 schematically illustrates, in cross-section, a wheel assembly with an attached motor.

DETAILED DESCRIPTION

[0027] With reference to FIGS. 1a and 1b, the present disclosure relates to a dolly system 100. FIGS. 1a and 1b are perspective views of the dolly system 100. The dolly system 100 comprises a dolly platform 110, a rail assembly 120 and a plurality of wheel assemblies 130.

[0028] In the exemplifying embodiment of FIGS. 1a and 1b, the dolly platform 110 is trapezoid shaped with one wheel assembly 130 mounted on the short side 161 of the trapezoid shaped dolly platform 110 and two pairs of three parted wheel assemblies 130 mounted on the long side 162 of the trapezoid shaped dolly platform 110, respectively placed near each edge of the dolly platform 110.

[0029] The rail assembly 120 comprises a plurality of elongated rail sections 121, for example in the form of milled aluminum profiles. The elongated rail sections 121 are configured to be joined together to form a rail track 143. Needless to say, in FIGS. 1a and 1b, the elongated rail sections 121 are few in numbers and the rail track 143 is therefore relatively short. In fact, embodiments of a rail assembly 120 include those having only a single rail section 121. In such embodiments, the rail track 143 is realized by such a single rail section 121. However, in the following, the number of rail sections 121 is plural.

[0030] FIG. 2 illustrates, schematically, how a larger number of rail sections have been joined to form rail tracks 143 having a length L and on top of which rail tracks 143, the dolly platform 110 is located. Moreover, in FIG. 2 a curve 150 in the rail tracks 143 is also illustrated.

[0031] The rail assembly 120 further comprises an elongated continuous resilient element 122. The continuous resilient element 122 is configured to be attached to the rail sections 121 along the rail track 143 and it may have a length that corresponds to the length, L, of the rail track 143. The elongated continuous resilient element 122 may be made of a rubber, i.e. any appropriate synthetic or natural elastomeric polymer, which has been extruded in a suitable extrusion apparatus or manufactured in any other appropriate manner.

[0032] As illustrated in FIG. 2, long seamless tracks 143 are provided for camera dollies, the rail tracks 143 having no bumps. Moreover, the rail assembly 120 is very compact and thereby enables a less visible structure that does not form an obstacle on a floor on which it is arranged and, as discussed above, a camera mounted on the dolly platform creates no noise that may be disturbing when moving along the rail tracks 143.

[0033] As FIG. 3 and FIG. 4 illustrate, a profile 123 of a cross section of the continuous resilient element 122, perpendicular to a direction of elongation of the continuous resilient element 122 is such that, when attached to the rail sections 121, an elongated cavity 124, or slit, is formed between the rail sections 121 and the resilient element 122. Such a cavity 124 may provide a certain grade of flexibility when exposed to the weight of a camera and dolly platform 110 via the wheel assemblies 130.

[0034] Turning now to FIG. 4, a wheel assembly 130 will be described in some more detail. The wheel assembly 130 is configured to be attached to the dolly platform 110 and configured to roll along the rail track 143 on top of the elongated continuous resilient element 122. As FIG. 4 illustrates, the wheel assembly 130 comprises a center wheel 131 that is configured to support the dolly platform 110 in a vertical direction, z. The wheel assembly further comprises a first lateral support wheel 132 and a second lateral support wheel 133. These first and second lateral support wheels 132, 133 are configured to support the dolly platform 110 in a horizontal direction, x. The first lateral support wheel 132 and the second lateral support wheel 133 are arranged concentrically and on either side with respect to the center wheel 131. Moreover, the first lateral support wheel 132 and the second lateral support wheel 133 have a respective radial extension, r.sub.1, r.sub.2, that are larger than a radial extension, r.sub.0, of the center wheel 131 and the first lateral support wheel 132 and the second lateral support wheel 133 are configured to rotate independent of each other and independent of the center wheel 131.

[0035] In other words, the wheel assembly 130 may be seen as a three-parted construction having a weight bearing center wheel and two lateral wheels that perform a steering function. The center wheel 131, attached to or integrated with an axle 135, is formed as a bar with the gravity force of a camera and dolly platform 110 acting vertically towards the top of the elongated resilient, e.g. rubber, element 122. The two lateral support wheels 132, 133 are tightly but independently rotationally connected on each side of the center wheel 131, preferably by means of a respective ball bearing 136, 137.

[0036] As exemplified in FIG. 4, a profile 140 of a cross section of the continuous resilient element 122, perpendicular to a direction of elongation of the continuous resilient element 122, may match a profile 141 of a radial cross section of the wheel assembly 130. That is, in such an example, the combined cross section profile 141 of the center wheel 131 and the two lateral support wheels 132, 133 is such that it corresponds to the cross sectional profile 140 of the continuous resilient element 122. The two lateral support wheels 132, 133 provide support in the x-direction via surface sides of the continuous resilient element 122.

[0037] As exemplified in FIG. 2, when the dolly platform 110 (comprising wheel assembly 130) moves along the rail track 143 into a rail curve 150, an outer side 171 of the rail track 143 and a corresponding outer surface of the continuous resilient element 122 will be longer than an inner side 172 of the rail track 143 and a corresponding inner surface of the continuous resilient element 122, and since the two lateral support wheels 132, 133 are able to rotate independently, a lateral support wheel 132, 133 that is in contact with the outer side 171 will travel farther than a lateral support wheel 132, 133 that is in contact with the inner side 172, a distance corresponding to a difference in lengths of inner and outer surface sides of the continuous resilient element 122. Consequently, so-called wheel climbing on the rail track 143 in the curve 150 creating noise in the form of rail wheel squeal will then be avoided, and no such noise will be captured by a microphone during recording using the dolly system 100.

[0038] FIG. 5 illustrates an embodiment of a wheel assembly 530 that comprises a motor 501. The motor 501 is connected and adjusted to apply a moment of force on an axle 535 of a center wheel 531 for enabling movement of a camera mounted on a dolly platform, such as the dolly platform 110 illustrated in FIGS. 1 and 2, along a rail track such as the rail track 143 illustrated in FIGS. 1 and 2.

[0039] It must be emphasized that the terminology comprise/comprises as used in this specification is chosen to specify the presence of stated features, numbers, steps or components, but does not preclude the presence or addition of one or more other functions, numbers, steps, components or groups thereof. It should also be noted that the word a or an preceding an element does not exclude the presence of a plurality thereof.