RU2119444C1 - Sling test stand - Google Patents

Abstract

FIELD: mechanical engineering; civil engineering; testing of slings used in erection and materials handling operations. SUBSTANCE: stand has spatial frame, power tensioning device in form of hydraulic cylinder mounted on one end of frame, hydraulic station installed inside frame, and sling fastening unit. Sling fastening unit is made fixed in form of two parallel plates rigidly secured on frame, and hollow cylinder placed between plates and rigidly connected with unit. Plates are provided with holes located over circumference with diameter larger than diameter of detachable king pin securing second end of sling. EFFECT: reduced metal usage owing to decrease of length and enhanced safety of operator in case of breakage of sling under load. 2 dwg

Description

 The invention relates to equipment for testing slings used in installation and handling operations.

 At the heart of the known methods and means for testing slings, one general scheme is practiced - the sling is stretched in a straight line, fixed at one end on a node that is movable relative to the frame of the stand, and the other end is fixed on a tensioning device (winch, jack or power hydraulic cylinder).

 The closest in technical essence is a test bench for slings and mounting belts (Magazine "Construction Mechanization", N 8, 1970, p. 11), containing a spatial frame, at one end of which there is a tension power device, and on the other a movable fastening unit sling.

 After locking the movable node, the sling with the help of a power device is tensioned to the calculated force and maintained in this state for 10 minutes, then the load is removed from the test line and the line is replaced by the following.

 The prototype has the following disadvantages.

 With a significant length of slings of the order of 10 m or more, the length of the stand is very large, which makes it very metal-intensive, and its placement in the workshop requires a significant production area. In addition, when testing on such a stand of long slings, there is an increased danger to the operator in the event of a break in the sling.

 The objective of the proposed device is to reduce the metal consumption of the stand by reducing the length of the stand and increasing the safety of the operator in case of breakage of the sling under load.

 The problem is solved as follows.

 In the known test bench for slings containing a spatial frame, a tension device made in the form of a hydraulic cylinder located at one end of the frame and connected to one end of the sling, a hydraulic station and a securing unit for the second end of the sling, the securing unit for the second sling contains rigidly mounted on the frame two plates parallel to each other and a hollow cylinder located between the plates and rigidly connected to them, and the plates are made with holes located in a circle whose diameter is b proc eed cylinder diameter and the diameter of each hole formed in the plates corresponding to the diameter of a removable pin fixing the second end of the cable. Thanks to the distinguishing features, it is possible to reduce the length of the stand, reduce its metal consumption and increase safety during testing of long slings.

 In FIG. 1 shows a stand for testing slings - a general view; in FIG. 2 is a section A-A in FIG. one.

 The stand contains a spatial frame 1 with a belt 2 rigidly fixed on the frame racks, to which a tensioning power device (hydraulic cylinder) 3 is pivotally fixed, fixed in the vertical plane by means of the suspension 4, two plates 5, rigidly fixed to the end of the frame 1, between which The hollow cylinder 6 is rigidly fixed to the central part, and in each plate around a circle with a diameter larger than the diameter of the hollow cylinder 6, holes 7 are formed corresponding to the diameter of the pin 8, and a hydraulic station 9 installed inside the frame 1.

 Slings are tested in the following order.

 The loop or hook 11 of the sling 10 is articulated with the rod of the hydraulic cylinder 3, then the other end of the sling 10 is wound on the cylinder 6 and the other loop or hook 12 is fixed on the plates 5 using the pin 8, which is inserted into the holes 7, the axes of which coincide with the axis of the loop or hook 12. During operation of the hydraulic cylinder 3, the sling is stretched to the required force, which is observed by the pressure gauge 13, and is held under a given load for 10 minutes. Another loop or hook 12 is tested in the same manner.

Claims (1)

 A test bench for slings containing a spatial frame, a tension device made in the form of a hydraulic cylinder located at one end of the frame and connected to one end of the sling, a hydraulic station and a securing unit for the second end of the sling, characterized in that the securing unit for the second end of the sling contains rigidly two parallel plates fixed to the frame and a hollow cylinder located between the plates and rigidly connected to them, the plates being made with holes located around the circle whose meter is larger than the diameter of the cylinder, and the diameter of each hole of the plates is made corresponding to the diameter of the removable kingpin fixing the second end of the sling.

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