SU1178193A1 - Installation for temperature resistance testing of hollow articles - Google Patents

Abstract

1. INSTALLATION FOR TESTING HOLLOW PRODUCTS FOR THERMAL RESISTANCE, containing hot and cold pressure lines for supplying the working medium to the test product, heater and refrigerator, each of which is installed on a corresponding line, a circulation pump, the pressure pipe of which is connected to the pressure line A mixing chamber with three inlets and one discharge nozzle, the latter of which is connected to the pump suction nozzle, is a cold channel that communicates a cold pressure head. a line with the first inlet, a hot channel that connects the hot pressure line with the second inlet, a suction line designed to drain the working medium from the test article and connected to the third inlet, and e-manifold control valves, characterized in that the purpose of increasing reliability, it is provided with a cylindrical dividing screen placed with a gap in the chamber concentric to its inner side surface, with an internal cavity that expands to its inner side The slab with the discharge port (L and the transition channel entering tightly into the first inlet and with clearance C into the cavity of the dividing screen prior to its expansion), through the dividing screen in the region of the transition of the transition channel are through openings, with the second inlet. 2. Installation according to claim 1, in which it is equipped with a sleeve placed in the gap between the transition channel and the separation screen opposite the through-holes.

Description

The invention relates to a test apparatus, in particular to installations for testing products for heat resistance.

The purpose of the invention is to increase the reliability of the installation.

Fig. 1 is a schematic of the proposed apparatus for testing hollow articles for heat resistance; Fig. 2 is a diagram of a chamber for mixing the working medium J in Fig. 3, an embodiment of the chamber for mixing the working medium.

The installation contains a hot pressure line 1 with heaters 2 installed on it, designed to heat the working medium, and a shut-off valve 3 and a cold pressure line 4 with a refrigerator 5 mounted on it to cool the working medium and shut-off valves 6. Both pressure lines through the pipeline 7 are connected to the hollow test article 8 and are intended to supply the working medium into it. The cold channel 9 with the regulating valve 10 installed on it communicates the cold discharge line 4 with the first inlet nozzle 11 m chambers for mixing the working medium. Hot channel 13 with a control valve installed on it

14 communicates a hot pressure line 1 with a second inlet

15 chambers 12. The suction line 16 communicates the test article 8 with a third inlet 17 of the chamber 12, the pressure port 18 of which is connected to the suction nozzle (not shown) of the circulation pump 19. The pipe 20 connects the pressure nozzle 21 of the circulating pump with a hot and cold pressure lines.

The chamber 12 for displacing the working medium is made in the form of a hollow body 22 with a lid 23, in which the cylindrical separation screen 24 is installed concentrically with its inner side surface and extends to the narrowing internal cavity A, where the working medium at different temperatures is mixed. A separating screen connects the third inlet 17 to the discharge port 18 of the chamber. The transition channel 25 tightly enters the first inlet 11 and simultaneously with the gap 26 into the inner

cavity A of the separation screen prior to its expansion. The gap between the transition channel and the separation screen is communicated with the second input

pipe 15. In the dividing screen 24 in the area of the transition channel 25 there are through holes 27, indicating a gap 26 4t; cut the third pipe 17 with a suction

line 16.

Between the transition channel 25 and the separation screen 24 opposite the through holes 27 is placed a sleeve 28. To the pipeline 20 pins

5 dinene compensator 29 of volume, connected to gas cylinder 30.

The installation works as follows. one

Q The hollow article 8 to be tested, for example large-sized fittings, is connected to the pipeline 7 and the suction line 16. Shut-off valves 3 and 6 before starting

5, the tests are closed, and the control valves 10 and 14 are opened. The circulation pump 19 is turned on, as well as the heater 2 and the cooler 5, as a result of which the working medium, for example water, is heated in a hot pressure vessel and heated to a predetermined temperature, for example, to 300 ° C. before . The pressure in both pressure lines is raised to a predetermined value, for example, to 17.5 MPa. Opening the shut-off valve 3 and partially closing the control valve 14, is fed through the pipe 7 working medium with a maximum temperature in the test product and heat it to a predetermined temperature. The working medium passes through the products 8 and the suction line 16 and enters the third inlet 17, then a passage in the gap 26 between the transition channel 25 and the separation screen 24 is fed into its expanding cavity A, where it is mixed with the cold medium supplied here the transition channel 25 and the cold channel 9 from the cold pressure line 4. In the chamber 12 intensive mixing of different temperature environments occurs due to the mixing of working medium flows with different temperatures, and the separation screen 24 prevents the influence of x The fluid flow of the working fluid on the walls of the chamber and cooling of the fluid before entering the circulation pump 19, also helps prevent the cold working fluid from affecting the walls of the chamber 12 by partially closing the control valve 14, through which the hot working fluid flows into the gap between the housing 22. chamber 12 and separation screen 24. After heating the test product 8 to a predetermined temperature, close the stop valve 3, partially close the control valve 10 and open the stop valve 6, serve From pipe 7, the working medium cooled to a predetermined temperature. The passage through the product, the suction line 16 and the third inlet 17, the cold working medium is first mixed with the hot medium coming to it through the holes 27 from OO 934 of the second inlet 15, cold working medium coming out of the transition channel 25. Good mixing of working media having different temperatures is ensured due to the ejection effect enhanced by the sleeve 28. The separation screen 24 prevents the cold environment from affecting orpus 22 both during heating and cooling the test article 8 that excludes the appearance on the body temperature stresses and povsh1aet reliable installation. Alternately opening and closing the gate valves 3 and 6 ,. The test product is subjected to cyclic heating and cooling, which leads to the appearance of thermal stresses in it. The thermal resistance of the material of the product is judged by the number of thermal cycles required before the appearance of microcracks in it.

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Claims (2)

1. INSTALLATION FOR TESTING · HOLLOW-UP PRODUCTS FOR HEAT RESISTANCE, containing hot and cold pressure lines, intended for supplying the working medium to the tested product, heater and refrigerator, each of which is installed on the corresponding line, a circulation pump, the pressure pipe of which is in communication with pressure pipes, a chamber for mixing the working medium, having three inlet and one discharge nozzles, the last of which is connected to the suction nozzle of the pump, a cold channel communicating the cold discharge head a valve with a first inlet pipe, a hot channel communicating a hot pressure line with a second inlet pipe, a suction line designed to divert the working medium from the test product and connected to the third inlet pipe, and shut-off and control valves, characterized in that, for the purpose of improve reliability, it is provided with a gap placed in the chamber concentrically with the inner side surface of the cylindrical separation screen with an expanding inner cavity communicated to third _input-β with hydrochloric nozzle head through the nozzle, ® and the transition channel, which fits tightly into the first inlet pipe and with a gap in the cavity of the separation screen before it begins to expand, through holes are made in the separation screen in the area of the transition channel, and the gap between the housing and the screen is in communication with the second inlet pipe . 2. The apparatus of claim 1, wherein it is provided with a sleeve located in the gap between the transition channel and the separation screen opposite the through holes. SU,. „1178193