SU1224662A1 - Installation for material cyclic compression - Google Patents

Abstract

The invention relates to a testing technique, namely, devices for cyclic compression of materials. The purpose of the invention is to improve the accuracy by automatically maintaining the predetermined loading law of the image. The installation comprises a slider table for placing the sample and a pressure plate, which, when testing a material, receive a counter movement from a single drive, made in the form of a symmetrical conical differential, driven by a motor. Movement from the sun drive wheels is transmitted to the hub wheel and the nut wheel located on the lead screw, at the end of which the table is fixed. The sun wheel of the drive through the gearbox and crank mechanism is kinematically connected with the pressure plate and informs it of the forward movement. The counter movement of the table and plate provides compression of the sample. The loading law provides with a braking element associated with the sun wheel drive. The maximum value of the compressive force of the sample is reached when the magnitude of the braking torque at the wheel and the magnitude of the drag torque coming from the compressible specimen to the wheel are compared. 1 3.p. f-ly. 1 il. ND SD 4i ed and fs5

Description

The invention relates to a testing technique, namely, devices for cyclic compression of materials.

The purpose of the invention is to improve accuracy by automatically maintaining a given sample loading law.

The drawing shows a diagram of a hedged installation.

The installation contains a thermostatically controlled working chamber (not shown) installed in the chamber and made in the form of a slider table 1 for placing a sample 2 of material on it, a movement of the table 1, made in the form of a lead screw 3, having the possibility of axial movement along the key A, and hub-5 wheels and hub-nuts 6 placed on it, one end of which is connected to the table, a device for registering compression force and strain variation of sample 2, laminated in the form of indicator 7 and lever 8, which connects indicator 7 to another end m spindle 3, the pressure plate 9 to act on the sample 2, the counter 10 and along curved shipno-crank mechanism, the crank 11 is coupled with a counter W ,, and

connecting rod 2 - with pressure plate 9. I

The installation also contains the drive

crank mechanism, made in the form of a symmetric conical differential, the sun wheels 13 and 14 of which receive movement from the carrier 15 connected to the electric motor 16, the bevel gear 17, connecting the drive with the crank mechanism, and the brake element 18 cyclic, e.g., phreaking action, which is associated with the sun wheel 14, which is engaged with the nut wheel 6, and the sun wheel 13 is associated with the hub wheel 5.

The braking element 18 is made with the possibility of implementing any law of friction force variation by pressure gauging between the rubbing parts of the pneumatic, hydraulic or electromagnetic method /; y

The installation works as follows.

On the table 1 place the sample 2 material. An electric motor 16 is turned on, which a carrier drove 15 and rotates the sun wheels 13 and 14 of a symmetric conical differential. On sol

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The required brake torque is applied to the dead wheel 14 by means of the brake element 18. The law of changing the brake moment is realized by changing the pressure force between the working parts of the brake element according to the corresponding law, one of which is connected to the sun wheel 14.

A change in the loading law of sample 2 is provided by changing the braking moment applied to the sun wheel 14 .. At the same time, on the other sun wheel 13j, kinematically connected with the pressure plate 9 by means of gear 17, crank P and connecting rod 12, there is no load 15 rotates the sun wheel 3 at a faster speed than the sun wheel 14, the sun wheels 13 and 14 transmit motion respectively to the wheel hub 5 and the wheel nut 6 mounted on the lead screw 3, due to the difference in the wheel rotation speeds ulki wheel 5 and nuts 6 spindle 3 receives the axial movement of the chassis 4 and the spline table 1 moves towards the pressure plate 9, which, being associated with the same drive table 1 is moved forward.

As a result of the oncoming movement of the table 1 and the pressure plate 9, the sample is subjected to an increasing compressive force. This increases the moment of resistance to rotation of the crank shaft 1i. The rotation of it and the sun wheel 13 slows down. When the braking moment and the moment of resistance are compared, the rotational speeds of the sun wheels 13 and 4 become the same, being connected with the hub wheel 5 and the nut wheel 6 and giving them rotational movement in different directions with the same speed the sun wheels 13 and 14, rotating, xChE cause axial movement of the lead screw 3 "

 is carried out, and then in the next active area of the next sample loading cycle, the loading law of the sample is maintained with the maximum force required for it to be compressed. The process of unloading the sample in the installation is similar and begins with a decrease in the magnitude of the braking moment at the sun wheel 14,

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Then, after removing the load from sample 2, the cycle ends. When testing materials, the cycles will be repeated. When the maximum compressive force of the sample is reached, it is possible for it to stand up under the maximum load, which ensures that the maximum braking torque is reached. When unloading, the boom is realized without putting the braking moment on the sun wheel 14 for some time.

The magnitude of the compressive force of sample 2 is recorded by the indicator 7 in the process of testing it. At the same time, the same indicator 7 makes it possible to establish also the change in the magnitude of the deformation of the sample after many loading cycles while maintaining the law of its loading unchanged.

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Claims (2)

1. An installation for cyclic compression of materials, containing a thermostatically controlled working chamber, a table for accommodating the chamber installed in the chamber material sample, crankshaft-crank drive mechanism for loading the sample, an indicator for registering the compressive force and deformation of the sample and 5 loading cycle counter, characterized in order to improve the accuracy by automatically maintaining the specified sample loading law, the table is made the form of a polus with a drive of its translational movement, kinematically connected with the drive of a crank-connecting rod mechanism. 15 2. Installation according to claim 1, characterized in that the drive for moving the slide is made in the form of a lead screw with a wheel hub and a wheel, a nut, a KpiniiomHnHo-maTyHHoro drive 0 mechanism is made in the form of a symmetric conic yes (a differential, the sun wheels of which are kinematically connected with the help of a hub wheel and a nut wheel, and the installation is equipped 5 a cyclic braking element associated with one of the solar wheels. % Editor I. Casard Compiled by Y. Vinogradov Techred. M.Morgental Proofreader I.Musk Order 1942/41 Circulation 778 Subscription VNISh State Committee of the USSR on affairs of inventions and discoveries 113035, Moscow, Zh-35, Raushsk on "., d. 4/5 Production and printing works; forge, Uzhgorod, st. Project, 4