UA66188U - Absorbing device - Google Patents

Abstract

An absorbing device comprises a steel casing in the form of a rectangular cup and following elements located symmetrically to its inner walls: a pressure wedge, two friction wedges with a base plate, two fixed friction, with metal plates, and two movable plates, a spring swivel-retaining device pulled along longitudinal axis of the bolt through the existing central hole therein. The spring swivel-retaining device is made in the form of one or two parallel cylindrical helical compression springs.

Description

compression springs with a total stiffness greater than the main parallel ones (outer - 9 and inner - 10) than 1250 kN/m, located together with the support additional - 11 and auxiliary - 12, and together with the support plate and friction wedges between the bottom body plate 4, by a thrust wedge 2 and friction su Y by a thrust wedge and wedges pulled along the longitudinal axis With a bolt 13 pulled along the longitudinal axis, a bolt wound through the central holes in the bottom of the body, wound through the central holes in the boss 14, the support plate and the thrust wedge, the central drains of the body 1, base plate 4 and in the pressure plate. wedges 2. Additional spring 11 stiffness

The disadvantage of this technical solution is that 2000...2500 kN/m, relatively short length g, there is an unsatisfactory combination of the values of the coefficient with the support washer 15, the remote bushing, the friction of the movement applied as a material for the linings 16 of the stepped section and the auxiliary spring fixed K-23 metal-ceramic plates on steel and 12 of low stiffness are located directly to the total stiffness of the two springs on the turnbuckle 13 between the boss 14 of the bottom of the co-support device does not allow to increase the power rpus and the support plate 4, while the value of the characteristics of the absorption apparatus to the level , the length of the additional spring 11-22 and the remote bushing corresponding to the energy intensity of 16-Iv are accepted under the condition that when reaching a higher class than TO. with a stroke device of 0.85...0.95 from a full working xHp

The technical result, for the achievement of which the auxiliary spring 12 is embedded in the remote directed useful model, is the increase of the sleeve 16, which at this moment comes into contact with the energy capacity indicators of the absorbing apparatus with the support plate 4 and includes the operation of the accessory to the level, corresponding to classes T1-12. to spring 11.

The specified technical result is achieved in the case of application in a rotary support system, which in the absorption device, containing the device of one main spring with a stiffness of 9, the left body in the form of a rectangular cup, expanded 880...900 kN/m, length in the compressed state placed in the housing symmetrically to its inner walls - I-350...360 mm and pre-pressurized by 20...25 cm steel pressure wedge, two friction wedges with mm force characteristic of the friction device with a base plate, two fixed friction wedges, with me- friction coefficient of movement in friction pairs with metal-ceramic linings and moving plates, and lo-ceramics - steel from 0.42 to 0.48, complete robot, as well as a spring rotary support device, with a stroke of xp-120 mm, an angle o-47" between the surface is located together with the base plate and the friction contact of the pressure wedge 2 with the friction wedge between the bottom of the housing and the pressure З and the transverse plane Г, as without an additional wedge and tightened with a bolt through the available centers weight 11, as well as with it according to the made slitting holes, for metal-ceramic linings with hunkas, according to the values of the energy intensity indicators, the applied material with a friction coefficient corresponds to class T1. The use in rotary steel is not less than 0.4, and the spring rotary support device of the additional spring 11 allows the support device is one or two parallels to acquire an even greater value of the maximum lenal (external and internal) cylinder screw energy capacity. compression springs with a stiffness of no more than 920 Preliminary tests of prototypes

KN/m and pre-pressurization is not less than 15 95 of the friction device of the proposed design, which is from the full working stroke. are currently being carried out, with one main purpose

The rotary support device is supplemented with a pivot 9 in the rotary support device, supported by an internal cylinder located along the axis of the bolt, which ensures the stability of the specified devices and a compression spring with a stiffness of 2000...2500, their compliance in terms of energy intensity indicators

KN/m, which is included in the operation before closing the mogs presented to the T1 class devices. of the device at a speed of 0.85...0.95 from a full-time worker. In the case of use in a rotary support

The essence of the useful model is explained by the drawing of the device of two main springs (outer 9 and yum, on which the absorbing device in the inner 10 is depicted) with a total stiffness of 600...630 in the longitudinal section. KN/m, length in compressed state I-350...360

The absorption apparatus contains a steel body of 1 mm and pre-pressurized 70...100 mm of power in the form of a rectangular cup, placed in the body of the friction apparatus with the same pressure symmetrically to its inner walls, pressure of other initial characteristics, without additional wedge 2 , which is in contact with the friction wedges 3, which is of the tax spring 11, according to the performed calculations, rests on the base plate 4. With its side edges, according to the values of the nominal energy capacity surfaces A, the wedges Z contact with the friction corresponds to class T2, and the maximum - close to metal-ceramic overlays 5 immovable swims up to class T2. The application of the turning points 6, which rest on the ledges B in the walls of the body-supporting device of the additional spring 11 of the suspension 1 and provided with protrusions 7, inserted into the windows, makes it possible to achieve full compliance with the T2 class device

In the walls of the case 1 in order to limit the movements according to the values of both nominal and maximum plates 6 from the case. Between the outer surfaces of the energy storage. of metal-ceramic linings 5 and the inner walls of the body 1. The use of absorbing devices is installed in the hollows of the body 1 by moving steel fricked constructions in self-coupling devices vantion plates 8. Between the bottom of the body 1 and the support of the carriages, it will be possible to reduce the shock effects on the plate 4, a rotary support placed trailers and increase their operational reliability. swarm, which in the general case contains four parallel cylindrical helical compression springs: two are d) a YUL and I Ge KE that VOK, - r Y /

Yi ey shi ; uh se VOLO VET v bu Ks KKZ z. a wa i NN niya Y

She; kih i M U i ry r shSH- AK.

FO M ECO and s/v dir iv iv This

And Ha i ; and and and ; and I drank | let's live and LY, aa PISHNY!

Computer typesetting by M. Lomalov Signature Circulation 23 approx.

State Intellectual Property Service of Ukraine, st. Urytskogo, 45, Kyiv, MSP, 03680, Ukraine

SE "Ukrainian Institute of Industrial Property", str. Glazunova, 1, Kyiv - 42, 01601