SU1590705A1 - Bench for service-life testing of pneumatic cylinders - Google Patents

Abstract

The invention can be used in stands for checking the established resource and time to failure of pneumatic cylinders (PC). The purpose of the invention is to save energy by reducing the drainage of the working fluid into the atmosphere. The pressure source is connected by two supply lines with regulating and distributing elements installed in them to the working cavities of the test and load PC. HRC rods are interconnected. The receiver is filled with the working fluid and is connected with the working cavities of one of the PC. The receiver is connected by an input to the source through a regulating element in the form of a check valve, an input to the cavities of the PC, to one of the cavities through the second element in the form of a pressure valve. A pair of additional PCs connected by rods is connected by the same cavities to a power source parallel to the first pair of PCs. 1 hp f-ly, 1 ill.

Description

The invention relates to mechanical engineering, in particular to test benches for checking the established resource and time to failure of pneumatic cylinders.

The purpose of the invention is to save energy by reducing the drainage of the working fluid into the atmosphere.

The drawing shows the scheme of the stand for endurance tests of pneumatic cylinders.

The test bench contains a pressure source 1 connected by two power lines 2 and 3 with control elements 4 and 5 installed in them to the working cavities 6-9 of the first pair 10, consisting of test 11 and 12 load pneumatic cylinders, rods 13 and 14 interconnected distribution bodies 15 and

16, by which the subject 11 and the load 12 pneumatic cylinders are respectively associated with the power source 1 and drain 17, the receiver 18 filled with the working fluid associated with the working cavities of one of the pneumatic cylinders 12, the measuring apparatus 19, while the stand is equipped with three additional the pairs 20-22 of the pneumatic motors 11 and 12 connected by the rods 13 and 14 are similar to the pneumatic pistons 11 and 12 of the first pair 10, and the pneumatic pistons 11 and 12 of one of the additional pairs 20 are connected by the corresponding working cavities 6, 7 and 8, 9 respectively but parallel to pneumatic cylinders pi 12 of the first pair 10, and the other two additional pairs 21 and 22 pneumatic cylinders 11 and 12 are installed in parallel

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and interconnected by the corresponding 0 cavities 6, 7 and 8, 9, with the corresponding cavities 6, 7 and 8p 9 of the two pairs 21 and 22 connected to the pressure source 1 through the distributor 16, communicating with each other, and The receiver 18 is installed in line 2 of each load pneumatic piston 12 pairs 10 and 20–22 and is connected by its input 23 to Hcfo4HHKy I pressure through regulating element 2A as a check valve 25, and its output 26 to both working cavities: 8 and 9 loading pneumo1; ilindra 12 in each of pairs 10 and 20–22 of pneumatic coupling motors 11 12, wherein one of the cavities. 8 or 9 through the regulating element 27 in the form of a pressure valve 28. In addition, each pair

10 and 20 - 22 pneumatic scrammers 11 and 12 have the ability to interact with limit switches 29-36 installed on the stand together with an electric pulse counter 37.

The stand works as follows. Compressed air from pressure source 1 via two LI1-SHNM 2 and 3 feeds goes through regulating elements 4 and 5 and distribution bodies 15 and 16 to working cavities, for example, cavity 6, and then to cavity 7-9. the test I1 and the loaded 12 pneumatic piston caps of each of the pairs GO and 20–22. At a pressure ratio in lines 2 and 3 of the feed 1: 2 the rod 13 of the tested pneumocygindra 11, extends forward, acts on the piston rod 14 of the load principle: dpa 12 of each pair 10 and 20 - 22, The air pressure in the piston cavity 9 of each pneumatic pedal 12 provides loading of the piece Eye 13 of each pneumocenter 11, at the same time from cavity 7 of the tested pneumocindra

11 each pair of 10 and 22 air with the help of the distributor: the new body 15 enters the air 17.

At the same time, to each of the cavities 8 or 9 of each loading cylinder-cylinder 12 (according to the drawing, for example, 9) compressed air is supplied through the regulating element 24 in the form of a check valve 25, inlet 23 and outlet 26 of the receiver 18 and the distributor 16 from where, then, during the reverse movement of rod 1, the 14

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In the receiver 18, a circular circuit in a closed circuit, in order to compensate for the vacuum created by pushing air into the receiver 18, a small portion of air through the regulating element 27 in the form of a pressure valve 28 enters another working cavity, for example 8, the pressure valve 28 is set to pressure, The heat less pressure in the other cavity 9, when switching, spreading, the separating body 16 releases only a small amount of air, previously under high pressure, to the drain 17 to the atmosphere according to its setting. Switching of distribution bodies 15 and 16 takes place via a signal from limit switches 29-36, one of which, for example 29, is connected to meter 37 electrically, the latter registering the number of double strokes of pneumocongders P and 12 of each pair 10, 20-22, providing control over the development of a resource 11 and 12 The test pressure is monitored with the help of measuring equipment 19. In order to obtain the greatest saving of the working fluid, and consequently, when testing energy, the volume of the receiver 18 is prescribed so that it exceeds the volume of each of the pneumatic chillers 11 and 12 at least 25 times.

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rmula of invention

1. Stand for life tests of an air cylinder containing a pressure source connected by two power lines with regulating and distributing elements installed in them to the working cavities of the test and loading pneumatic scrammers whose rods are interconnected, a receiver filled with the working fluid and connected to one of the pneumatic cylinders, measuring equipment, characterized in that, in order to save energy resources by reducing the drainage of the working fluid to the atmosphere, the stand is equipped with two additional With regulating elements, the receiver is connected by its input to a pressure source through one additional regulating element in the form of a check valve, and by its output to a working cavity

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Claims (2)

in the receiver 18, circulating in a closed circuit, while to compensate for the vacuum created when the air is pushed into the receiver 18, a small portion of air through the regulating element 27 in the form of a pressure valve 28 enters another working cavity, for example 8. Pressure valve 28, tuned to the pressure, much less than the pressure in another cavity 9, when switching, distributing, the dividing body 16 discharges to drain 17 into the atmosphere in accordance with its setting only a small amount of air, which was previously under high pressure. Switching of the distribution bodies 15 and 16 takes place according to the signal from the limit switches 29-36, one of which, for example 29, is connected electrically to the counter 37, while the latter registers the number of double strokes of the pneumatic cylinders 11 and 12 of each pair 10, 20 - 22, providing control for practicing pneumatic cylinders 11 and 12 of the resource. The test pressure is controlled using measuring equipment 19, to obtain the greatest savings in the working fluid, and consequently, the energy resources during the tests, the volume of the receiver 18 is assigned so that it exceeds the volume of each of the pneumatic cylinders 11 and 12 less than 25 times The claims 1. The stand for life tests a pneumatic cylinder containing a pressure source connected by two supply lines with control and distribution elements installed in them to the working cavities of the test and load pneumatic cylinders, the rods of which are connected to each other, a receiver filled with a working fluid and connected to the working cavities of one of the pneumatic cylinders, measuring equipment , characterized in that, in order to save energy by reducing drainage of the working fluid into the atmosphere, the stand is equipped with two additional regulatory elements and the receiver is connected with its input to the pressure source via one further control element in the form of a check valve, and its output - to the working load pnevmotsipindra cavities, wherein 'one of the cavities - through the second regulating member in the form of a pressure valve. 2, Stand according to π.1, characterized in that it is additionally equipped with at least one pair of test and load pneumatic cylinders connected by their rods and connected by the working cavities of the same name to a power source parallel to the first pair.