RU2089868C1 - Device determining bending angles of links of bushing-roller chain - Google Patents

Abstract

FIELD: measurement technology, determination of bending angles of links of bushing- roller chain in plane passing through axes of rollers. SUBSTANCE: proposed device has pair of restoring plates with L-shaped cross-section and strain- gauge transducers placed on their surfaces. Restoring plates are anchored with the aid of supports on outer surface of internal link. Free ends of plates interact with ends of roller protruding beyond limits of outer link of chain. EFFECT: enhanced functional characteristics of device. 2 dwg

Description

 The invention relates to measuring technique and can be used to determine the angles of fracture of the elements of the sleeve-roller chain.

 It is known that in the presence of installation errors in a working chain gear with a roller-chain, including external and internal plate links articulated between bushes mounted on the internal link plates and rollers fixed on the external link plates, a chain link breaks in a plane passing through the axis of the rollers.

 The objective of the invention is to determine the angles of fracture of the links of the sleeve-roller chain in a plane passing through the axis of the rollers in a working gear.

 The problem is solved in a device for determining the angles of kink of the links of the sleeve-roller chain, including external and internal plate links, articulated between each other by bushings mounted on the plates of the internal link, and rollers mounted on the plates of the external link, in a plane passing through the axis of the rollers , which contains pairs of elastic plates with a L-shaped cross section, equipped with strain gauges located on their surface, while the elastic plate of each pair is fixed by means of yoke on the corresponding outer surface of the inner link in contact with the other end in the plane passing through the axis of the rollers, with the nearest end of the roller protruding beyond the outer link of the chain associated with the above inner link.

 In Fig 1 shows a device for determining the angles of kink of chain links; figure 2 is the same, view a in figure 1.

 The device contains a pair of elastic plates 1 with strain gauges 2 glued to them, fixed with screws 3 on the posts 4. The posts 4, in turn, are mounted on the outer surfaces of the inner link 5. The elastic plates have an L-shaped cross section and are located in contact with the free end with the nearest end of the roller 6, protruding beyond the outer link 7.

 The device operates as follows. In a working chain transmission, in the presence of mounting errors, the chain links break in a plane passing through the axis of the rollers. In the device installed in the circuit, in the presence of a flat rotation of the outer link 7 relative to the inner link 5, the deformation of the elastic plates 1, which are supported by the free ends on the surface of the roller.

 The deformation of the plates 1 is recorded by amplification and recording equipment using strain gauges 2.

To register the angle of fracture, a device was created for the chain with a pitch of t = 19.05 mm. It is an elastic plate 1 with glued strain gauges 2, attached with screws 3 to the uprights 4, parallel to the axis of the chain roller. Racks 4 are soldered outside to the inner link 5 of the chain. The free ends of the plates 1 are bent at an angle of 90 ^o to the axis of the chain roller to interface with the side surface of the roller. The width of the plate is selected so that when the axis of the chain is twisted, the coupling of the chain roller with the plates is not disturbed. The length of the plates was chosen depending on the length of the strain gauge (base 5 mm, resistance 100 Ohms) and the required sensitivity. Plate material - 65G spring steel. The roller of the outer link 6 of the chain is replaced by a grinding roller of the same size. Its length is chosen such that at maximum displacements of the external and internal chain link, the conjugation of the side surface of the roller with elastic plates is not disturbed. The signals from the strain gauges were amplified by the TA-5 strain gauge station. Recordings of the oscillograms were made by the X-115 oscilloscope.

 As a result of the tests, the angles of fracture of the chain links were determined at different end beats of the sprockets, different speeds of the chain, different loads, different errors of the chain transmission.

For transmission with parameters: chain pitch t = 19.05 mm; the number of teeth of the driving and driven sprockets Z ₁ = Z ₂ = 18; center distance a _n = 600 mm; transmitted net force P = 2000 H; chain speed V = 2.0 m / s; axial displacement of sprockets C _cm = 6.0 mm; the non-parallelism of the shaft axes Φ _n 1,0 ^o ; the maximum kink angle of adjacent links was 60-70% of the theoretical kink angle and was distributed between 2.4 pairs of adjacent chain links.

 It was established by experiments that the kink angle of adjacent chain links is directly dependent on the installation errors, slightly depends on the chain speed and significantly depends on the transmitted load, and the smaller the transferred load, the more pairs of adjacent chain links are involved in its kink.

Claims (1)

 A device for determining the angles of kink of the links of the sleeve-roller chain, including the outer and inner plate links, articulated to each other by bushings mounted on the plates of the inner link, and rollers mounted on the plates of the outer link, in a plane passing through the axis of the rollers containing pairs elastic plates with an L-shaped cross section, equipped with strain gauges located on their surface, while the elastic plate of each pair is fixed by means of a stand to the corresponding aruzhnoy inner link surface in contact at the other end in a plane passing through the axis of the rollers, with the closest end of the roller protruding beyond the outer link of the chain, conjugated with said inner link.

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