RU175377U1 - Device for assembling a cable vibration isolator - Google Patents

Abstract

The invention relates to the field of mechanical engineering and can be used to assemble means of vibration protection of machines, instruments and equipment. The essence of the invention is a device for assembling a cable vibration isolator, including a cable crimping device, characterized in that it consists of a base with milled grooves made with the possibility of installing a lower mandrel of a vibration isolator in them, and protrusions with threaded holes on which the component parts of the tool tray are installed with the possibility of installing an upper the mandrel of the vibration isolator, and guide rods are screwed into the threaded holes, the base is also equipped with two strips installed with the possibility of fixing the opposite ends of the vibration isolator cable, and in the center of the base there is a hole in which a step axis is installed with the possibility of installing the lower mandrel of the vibration isolator, components lodgement, the upper mandrel of the vibration isolator, the clamping cup and nut, while the device for crimping the cable consists of a removable punch with a flat working part and a die, as well as a removable punch with a castellated working part with a segmented ring stamp.

Description

The utility model relates to the field of mechanical engineering and can be used to assemble vibration protection tools for machines, devices and equipment.

A device is known for securing a rope (cable) with a crimp (see copyright certificate SU 1278527 A1, IPC F16G 11/00). The disadvantage of this device is the high complexity of manufacturing a vibration absorber due to the low level of automation of the assembly process.

The closest analogue to the proposed utility model is a device that includes a device for crimping cables (see RF patent No. 2371533 C1, IPC D07B 7/02). The disadvantage of this device is the complexity of the alignment process of the vibration isolator during the assembly process (cable compression).

The purpose of this device is to reduce the complexity of manufacturing and adjusting the vibration isolator by increasing the level of automation of the assembly process, as well as improving the operating conditions of the vibration protection system by increasing the accuracy of manufacturing the vibration isolator. This goal is achieved by the fact that the known device for assembling a cable vibration isolator, including a device for crimping a cable, consists of a base with milled grooves made with the possibility of installing the lower mandrel of the vibration isolator, and protrusions with threaded holes on which the components of the lodgement are installed with the possibility installation of the upper mandrel of the vibration isolator on them, and guide rods screwed into the threaded holes, the base is also equipped with two strips installed with fixing the opposite ends of the cable of the vibration isolator, and in the center of the base there is a hole in which a step axis is installed with the possibility of installing a lower mandrel of the vibration isolator, components of the tool tray, the upper mandrel of the vibration isolator, clamping cup and nut, while the cable crimping device consists of a removable a punch with a flat working part and an annular stamp, as well as a removable punch with a castellated working part with a segmented annular stamp.

The specified disadvantage of the prototype is solved by pre-fixing the ends of the cable on the basis of the device and the subsequent synchronous jamming of the cable inside the mounting holes of the mandrels of the vibration isolator using removable punches.

The essence of the proposed utility model is illustrated by drawings:

FIG. 1 - General view of the device for assembling a cable vibration isolator.

FIG. 2 - The configuration of the device for assembling the cable vibration isolator when fixing the cable in the upper mandrel.

FIG. 3 - The configuration of the device for assembling the cable vibration isolator when fixing the cable in the lower mandrel.

FIG. 4 - The base of the device

FIG. 5 - Lodge

FIG. 6 - Step axis

FIG. 7 - Glass

A device for assembling a cable vibration isolator consists of a base 1 with four protrusions 2, each with two blind threaded holes for accommodating the guide rods 3 and fastening the components of the tool tray 4, on which the upper mandrel 5 of the vibration isolator is mounted (Fig. 1).

On the basis of 1 there are milled grooves 6 for accommodating the lower mandrel 7 of the vibration isolator and two trims 8 with screws for attaching the ends of the cable (Figs. 1, 4). The detachable planes of the component parts of the tool tray 4 correspond to the longitudinal symmetry axes of the milled grooves 6 of the base 1. The upper part of the tool tray 4 has the shape of a flat groove, which prevents the rotation of the upper mandrel 5 relative to the lower mandrel 7 during the assembly of the vibration isolator (Figs. 1, 4, 5).

To prevent lateral displacements of the vibration isolator mandrels during the assembly process, the device has a step axis 9, which is inserted from below into the base 1 through the central through hole, passes through the lower 7 and upper 5 of the vibration isolator mandrel and holds the entire package of parts from vertical movements with the help of a glass 10 and nuts 11 (Figs. 1, 6, 7).

For mounting the cable inside the mandrels of the vibration isolator, the device has two removable punches - for the upper and lower mandrels of the vibration isolator, respectively, driven by a hydraulic press.

To press in the cable in the upper mandrel 5 of the vibration isolator, a punch 12 is used, having guide through holes 13 for installation on the guide rods 3 of the base 1. The lower — working — surface of the punch 12 is made in the form of a stamp 16 in the form of a ring concentric with the axis of the punch (Fig. 2) .

To press the cable into the lower mandrel 7 of the vibration isolator, a castellated punch 14 is used, having guide through holes 15 for installation on the base guide rods 3. The lower — working — surface of the castellated punch 14 is made in the form of a stamp 17 in the form of ring segments located on the protruding parts of the surface punch, concentric with its axis (Fig. 3).

The principle of operation of the proposed utility model is as follows (Fig. 1-7). A step axis 9 is inserted from the bottom of the base 1 through the through central hole. From the top, concentric to the step axis 9, the lower mandrel 7 of the vibration isolator is placed in the milled grooves 6 of the base 1. Guide rods 3 are mounted in four threaded holes in the protrusions 2 of the base 1 with a threaded end. Then, a collapsible lodgement piece 4 is laid on each of the guide rods 3 of the lugs 2 of the base 1. Each part of the lodgement 4 is fixed on its protrusion 2 of the base 1 with a screw. Next, on the lodgement 4, concentric with the stepped axis 9, the upper mandrel 5 of the vibration isolator is installed. Lodgement 4 provides a predetermined distance between the mandrels of the vibration isolator and the angle between the axes of fastening the cable in them. Then, a cup 10 is mounted on top of the stepped axis 9, which is fixed with a nut 11. The stepped axis 9, mounted concentrically with respect to the mandrels of the vibration isolator, prevents lateral displacements of the mandrels during the assembly process. The nut 11 through the glass 10 prevents vertical movement of the mandrels of the vibration isolator during the assembly process.

Next, the end of the cable from the bay is threaded under one of the straps 8 on the basis of 1 with the possibility of free slipping of the cable under the strap. Then the free end of the cable is threaded into one of two through holes at the end of the first mounting protrusion A of the lower mandrel 7 of the vibration isolator (Fig. 1). Further, the free end of the cable is sequentially stretched through the through holes at the ends of the mounting protrusions of the upper and lower mandrels of the vibration isolator. To close the contour of the elastic line of the cable and give the final shape to the elastic element, the free end of the cable is threaded into the free hole at the end of the first mounting protrusion A of the lower mandrel 7 of the vibration isolator (Fig. 1). The free end of the cable is threaded under the second strap 8 of the base 1 with the possibility of free sliding of the cable under the strap. At the same time, the opposite end of the cable is rigidly fixed with the screws of the first strap 8, and the cable inside the holes of the mandrels of the vibration isolator is pre-tensioned with the free end of the cable, which is then also rigidly fixed with screws of the second strap 8 on the base 1 (Fig. 1).

The jamming of the cable inside the holes of the mandrels of the vibration isolator occurs in series in two stages. First, the cable is pressed into the upper mandrel 5 of the vibration isolator. To do this, on top of the outer surface of the upper mandrel 5 of the vibration isolator along the guide rods 3 of the base 1, the punch 12 is installed with the working surface. When the upper surface of the punch 12 is exposed to external pressure from the press, due to the introduction of the ring die 16 into the surface of the mandrel of the vibration isolator, the metal of the upper the mandrel 5 of the vibration isolator in the area of the through holes of the mounting protrusions to a depth of the stamp height. The result is a synchronous jamming of the cable inside the through holes of the upper mandrel 5 of the vibration isolator (Fig. 1, 2). Then the cable is pressed into the lower mandrel 7 of the vibration isolator. For this, the punch 12 is removed from the guide rods 3. A crown punch 14 is installed in its place, the working surface of which is combined with the inner surface of the lower mandrel 7 of the vibration isolator. When exposed to the upper plane of the crown punch 14 of the external load from the press, due to the introduction of the stamp 17 into the surface of the mandrel of the vibration isolator, the metal of the lower mandrel 7 of the vibration isolator is simultaneously crushed in the zone of through holes of the mounting protrusions to the depth of the stamp height. The result is a synchronous jamming of the cable inside the through holes of the lower mandrel 7 of the vibration isolator. Next, the castellated punch 14 is removed from the guide rods 3 (Fig. 1, 3). The cable, rigidly fixed with screws using the straps 8 on the base 1, is cut at the ends of the holes of the first mounting protrusion A of the lower mandrel 7 of the vibration isolator. Next, a nut 11, a cup 10, guide rods 3, four component parts of the tool tray 4, and a complete vibration isolator assembly are successively dismantled (Fig. 1).

The analysis of the prior art by the applicant, including a search by patent and scientific and technical sources of information, and the identification of sources containing information about analogues of the claimed utility model, allowed to establish that the applicant did not find an analogue characterized by the signs identical (identical) to all essential features of the claimed utility model .

The definition from the list of identified analogues of the prototype allowed us to identify a set of essential, in relation to the perceived technical result, distinctive features in the claimed "Device for assembling a cable vibration isolation", set out in the formula of the utility model.

The search results showed that the claimed design of the utility model does not follow explicitly from the prior art determined by the applicant for the specialist, the influence of the transformations provided for by the essential features of the claimed utility model on the achievement of the technical result is not revealed.

The proposed utility model can be used in mechanical engineering and other branches of technology and implemented using known means. A study by the authors showed that the device for assembling a cable vibration isolator can reduce the complexity of manufacturing and adjusting the vibration isolator while maintaining a given level of its operational characteristics. This proves the achievement of the technical result perceived by the applicant - reducing the complexity of manufacturing and adjusting the vibration isolator by increasing the level of automation of the assembly process, as well as improving the operating conditions of the vibration protection system by increasing the accuracy of manufacturing the vibration isolator.

Claims (1)

A device for assembling a cable vibration isolator, including a cable crimping device, characterized in that it consists of a base with milled grooves made with the possibility of installing the lower mandrel of the vibration isolator and protrusions with threaded holes on which the components of the tool tray are installed with the possibility of installation on them the upper mandrel of the vibration isolator, and guide rods are screwed into the threaded holes, the base is also equipped with two strips installed with the possibility of fixing of the opposite ends of the vibration isolator cable, and a hole is made in the center of the base, in which a step axis is installed with the possibility of installing a lower mandrel of the vibration isolator, component parts of the tool tray, the upper mandrel of the vibration isolator, pressure cup and nut, and the cable crimping device consists of a removable punch with a flat working part and an annular stamp, as well as a removable punch with a castellated working part with a segmented annular stamp.

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