SU1622683A1

SU1622683A1 - Bench for testing contact seal simulator

Info

Publication number: SU1622683A1
Application number: SU884360362A
Authority: SU
Inventors: Сергей Константинович Королев; Вадим Валентинович Макаренко; Людмила Федоровна Евтушенко; Владимир Степанович Гусак; Юрий Леонидович Рухлов
Priority date: 1988-01-11
Filing date: 1988-01-11
Publication date: 1991-01-23

Abstract

Изобретение позвол ет повысить точность и информативность модельных исследований путем пр мого определени контактного давлени в исследуемых точках поверхности стыка. Пресс состоит из двух параллельных плит (П) 1 и 2 П 1 неподвижно установлена на опорах 3, закрепленных на основании 4 и вл ющихс направл ющими дл П 2 П 2 соединена с механизмом нагру- жени . Между П 1 и 2 расположена модель уплотнени , включающа образующие между собой поверхность стыка узел уплотн ющего элемента закрепленный на П 2, и узел элемента на П 2, имеющий жесткую ответную деталь 5 со сквозным отверстием 6. Отверстие 6 перпендикул рно плоскости стыка соединено с источником давлени и манометром и выполнено с диаметром, меньшим минимального рассто ни между исследуемыми точками. Кажда точка расположена непосредственно под точкой окружности отверсти 6, максимально приближенной к границе поверхности стыка . На П 2 с уплотнителем 9 установлен механизм его перемещени с датчиком 10 перемещени относительно детали 5 в плоскости поперечного сечени уплотнител 9. 6 з.п ф-лы, 5 ил. ЁThe invention makes it possible to increase the accuracy and informativeness of model studies by directly determining the contact pressure at the studied points of the interface surface. The press consists of two parallel plates (P) 1 and 2 P 1 is fixedly mounted on supports 3, fixed on base 4 and being guides for P 2 P 2 connected to the loading mechanism. Between P 1 and 2 there is a seal model that includes the joint between the joint surface and the sealing element assembly fixed on P 2 and the element assembly on P 2 having a rigid counterpart 5 with a through hole 6. Hole 6 is perpendicular to the joint plane and connected to the source pressure and pressure gauge and is made with a diameter less than the minimum distance between the studied points. Each point is located directly below the point of the circumference of the hole 6, as close as possible to the interface surface of the joint. On P 2 with a seal 9, a mechanism for its movement with a displacement sensor 10 relative to a part 5 in the plane of the cross section of the seal 9 is installed. 6 Cp. Yo

Description

А-АAa

Фиг. 2FIG. 2

Редактор Е.ПаппEditor E. Papp

Составитель И Салькова Техред М МоргенталCompiled by And Salkov Tehred M. Morgenthal

ФигЗFigz

Фиг. 5FIG. five

Корректор Л.БескидProofreader L. Beskid

Claims

Claim

1. A stand for studying a contact seal model, comprising a press consisting of two parallel plates, one of which is fixedly mounted on supports fixed to the base and guiding the other movable plate connected to the loading mechanism, and a contact seal model is located between the plates, including a sealing element assembly forming between themselves a sealing element assembly fixed on one plate and a sealing element assembly fixed on another plate and having a rigid reciprocal part with a through hole perpendicular to the joint plane, connected to a pressure source and a pressure gauge, wherein. that, in order to improve the accuracy and informativeness of model studies by directly determining the contact pressure at the studied points of the joint surface, the hole in the reciprocal part is located directly above the joint surface and made with a diameter smaller than the minimum distance between the studied points, each of the studied points located directly below the hole circumference point, as close as possible to the interface surface boundary, a mechanism for its movement is installed on the plate with a sealant moving the sensor relative to the counterpart in the cross-sectional plane of the seal.

2. The stand according to claim 1, from kicking so that. in order to improve the test performance, a number of holes are made in the counterpart in the plane of the cross section,

3. The stand according to claim 2, characterized in that in the reciprocal part several rows of holes are made with their staggered arrangement.

4. The stand on PP. 1-3, on the condition that, in order to expand the functional capabilities of the stand and increase the level of reliability of research, the response part is fixed to the plate by means of a spherical hinge with angle position fixators.

5. The stand according to paragraphs 1-4, characterized in that the seal assembly is made of interconnected parts forming a detachable socket for sealing the elastic seal, the plane of the cross section of the seal being perpendicular to the joint plane.

6. The stand on PP. 1-5, characterized in that the movement mechanism is made in the form of two guides mounted on a plate on both sides of the seal assembly, parallel to the plane of the cross section of the seal, a remote screw located also in the plane of the cross section of the seal and in contact with it. and displacement sensor.

7. The stand on PP. 1-6, which includes the fact that the loading mechanism of the seal model 5 is made in the form of an additional parallel movable plate on the support-rails, a plate with a clamping screw installed under the loading plate and connected to it by a dynamo of 10 meters.

FIG. 2 3 *

FIG. 5

Compiled by I. Salkov Editor E. Papp Tehred M. Morgenthal Corrector L. Beskid

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