SU1650550A1 - Device for accumulating and delivering elongated material - Google Patents

Abstract

The invention relates to the manufacture of film photographic materials, magnetic tapes, and the like, and in particular to devices for transporting tape substrates in irrigation machines, and improves the operational reliability and productivity by increasing the storage capacity. This is achieved in that the carrier elements of the device are made in the form of perforated chambers connected to a source for supplying compressed air. The cross section of each chamber is formed by concentric circles, which makes it possible to reduce the distance between them, increasing the storage capacity. In this case, the supporting elements are fixed on the frames so that they form concentric circles, which also significantly increases the capacity of the device. 4 il.

Description

The invention relates to devices for transporting tape substrates and can be used in irrigation machines for the production of cinema photographs, magnetic tapes, non-silver materials.

The aim of the invention is to increase the reliability of work and productivity by increasing the capacity.

Figure 1 shows the device, a general view; figure 2 - bearing elements and their installation; on fig.Z - section aa in figure 2; figure 4 - bearing element in the form of a hollow chamber.

The device consists of two frames: fixed 1 and movable frame 3 installed by means of carriage 2, which can

move relative to the fixed frame 1 in the reciprocal-horizontal plane of the device, adjusting the capacity of the device. On frames 1 and 3, carrier elements 4 are mounted in rows, made in the form of hollow chambers 5, each of which is connected to a source of compressed air (not shown) by valve 6. The shape of the chambers is chosen so that the carrier elements can be placed compactly on the frames to increase device capacity. The compact installation of the supporting elements 4 requires the provision of air slide supports to ensure reliable transportation of the lengthy material 7 through the devices. On the working side of the carrier element 4 is perforated.

ABOUT

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The device works as follows.

The material is loaded between the carrier elements 4 (Fig. 1), compressed air is fed through the valves b into the chambers 5. The frames 1 and 3 are separated by a given distance I. One end of the material is fixed, the other is pulled at a given speed. Here, the relative frame rate is V / n, where n is the number of loops of the material. Bearing elements 4 have a thickness of 0.5-20 mm, the distance between them (0.1 + pNY + l) mm, where h is the thickness of the material. Therefore, the number of loops of material per unit length of the device is

 0.1L + fi (1Q + h, which is tiny more than in known devices. Compressed air is supplied through openings 2 in the carrier element, which provides low friction during material transportation. Equal radius of the supporting elements ensures smooth tension of the material on all loops of the device.

Thus, the device allows reducing the distance between adjacent loops of the material, i.e. allows you to increase its capacity and reduce its dimensions, since, while ensuring the reliability of material transportation, it ensures a reduction in friction during material transportation, as well as equal tension on the material on all loops of the web in the device. These advantages provide improved performance of irrigation machines.

Claims (1)

Invention Formula A device for accumulating and delivering a lengthy material mainly in processing a photographic material, comprising a fixed frame, a movable frame mounted for reciprocating relative to it, and supporting elements fixed on the frames to hold the material, characterized in that, in order to increase reliability of operation and performance by increasing the capacity, each carrier element is designed in the form of a chamber, the cross section of each of which has a shape formed by two concentric circumferences, bounded by two radii, and has a source of compressed air connected to the chamber, and the working surface of each carrier element with a radius of a larger concentric circle is perforated, and the carrier elements of both frames are at least two rows, and their working surfaces form between them are concentric circles, the center of which is located on a vertical axis drawn between the frames, and two central opposite bearing elements are offset relative to the vertical axis in opposite directions so that the horizontal axis drawn through the center of concentric circles passes through the ends of the central elements facing each other. figure 1 Fi.Z