RU76688U1 - STAND FOR TESTING HYDRAULIC DEVICES OF LUBRICATION AND MANAGEMENT SYSTEMS OF THE TANK TANK - Google Patents

Abstract

The utility model relates to the field of bench hydraulic equipment and is intended for diagnosing and adjusting the operational parameters of hydraulic devices for lubrication and transmission control of a tank, in particular, domestic tanks with a planetary final drive gearbox. The essence of the utility model is that in the stand on the desktop are installed simulators of transmission controls. Simulators are made with the possibility of influencing hydraulic devices to change their operating modes. The surface of the desktop, with the exception of the area in which the control simulators are installed, is closed by a protective casing made in the form of a rigid frame with windows made of heat-resistant glass. A heater with an automatic regulator is integrated in the hydraulic tank, which ensures that the temperature of the working fluid is maintained at a level corresponding to its maximum temperatures that arise in severe operating conditions. The stand injection line has a high-pressure and a low-pressure branch, the first of which is used to test hydraulic devices using high pressure and contains a high-pressure pressure reducing valve and a two-stage high-pressure distributor, and the second is used to test low-pressure hydraulic devices and contains a low-pressure pressure reducing valve and a low-pressure valve . Parallel to the indicated discharge line in the stand hydraulic system, a hydraulic line with a manual discharge pump is built in to the pump suction line to check the tightness of the housings and seals. The stand is equipped with instrumentation, information converters in electronic digital form for its registration and subsequent analysis and automatic blocking of the heater and pump drive motor when the oil level is below the minimum or open windows of the protective casing, 3 zpf, 9 il .

Description

This utility model relates to the field of bench hydraulic equipment and is intended for diagnosing and adjusting the operational parameters of hydraulic devices for lubrication and transmission control systems, in particular, transmission of domestic tanks with a planetary final drive gearbox, for example, transmissions, see [1], pp. 394-479 tank of the T-80 family.

For normal operation of the transmission, tuning and periodic checking of the developed characteristics and parameter monitoring of transmission hydraulic devices, for example, such as pressure, see [1], p. 421, 431, 442 or flow rate, see [1], p. 422 (flow rate in the source) is required [1] expressed by an implicit function in the form of time of filling the booster of the onboard gearbox) In addition, tanks, being combat vehicles, must be capable of continuous long-term operation in extremely difficult terrain and climatic conditions, for example, strongly crossed, marshy, etc. At this time, tank transmissions, due to the use of low gears to transmit maximum torques, and also due to frequent gear changes, turns and braking, experience high thermal loading and high heating of the working fluid in the lubrication and control system. Therefore, high requirements are set for the operation of hydraulic devices and their adjustment, which are necessary, but rather difficult to ensure, especially in the conditions of repair enterprises.

It is known that to set up and check the developed characteristics, control parameters, determine the level of hydraulic device leaks, which form the hydraulic systems of the products, they are tested on special tuning or diagnostic stands. Such stands have their own hydraulic system and are made with the possibility of connecting diagnosed hydraulic devices to it.

For example, a stand is known, see the invention for A.S. No. 1652687 [2] for testing hydraulic units, configured to connect the tested hydraulic equipment to determine the forces developed in the hydraulic unit (hydraulic steering wheel) and the flow rate of the working fluid when paired with the attached hydraulic pump. However, the absence of its own pump makes such a stand unsuitable for testing hydraulic equipment operating from an external power source.

Known stands with their own power source for testing hydraulic equipment, for example, a universal stand described in the invention by AS No. 1707304 [3]. The stand allows you to test pumps, hydraulic motors, valve devices and found application in the conditions of repair production. This stand contains a hydraulic plate for installing the tested hydraulic devices and their connection to the stand hydraulic system. Actually, the stand’s hydraulic system includes a hydraulic tank, a pump with a pressure line, a pressure reducing valve, a three-position valve connected to the pressure line, a pump motor, on the output shaft of which a connecting hydraulic coupling is installed to connect the tested hydraulic machine (in the invention [3] the general term “hydraulic machine” is called pump or hydraulic motor), a load reactor and working lines with fittings for connecting the equipment under test and instrumentation, which are the flow measures and gauges. The aforementioned distributor provides the connection of the pressure line with the pump motor, or with other tested hydraulic devices, making it possible to determine (control) in the normal operating mode the flow of the pump under test (or the torque of the hydraulic motor), or the flow and pressure parameters in the valve devices.

As you can see, the advantage of this stand is the multifunctionality necessary for testing hydraulic systems of construction, engineering and road equipment. However, the well-known stand [3], adopted by most of the essential features as a prototype for the present utility model, has a number of significant application limitations associated with its design features.

Firstly, the test bench does not have the ability to test hydraulic devices under high thermal loading, which corresponds to the heavy operating conditions of the transmission, secondly, the test bench, which is a rather complicated design for comprehensive testing of hydraulic machines, does not have the functionality to simulate the operational loading of other hydraulic equipment under test in particular such as servo mechanisms, filters, multi-channel spool gear control devices used in t nkovoy transmission, thirdly, the presence of a reducing valve set to maintain a certain pressure in the pressure line does not allow reconfiguration without the pressure reducing valve testing gidroustroystv with different pressure settings or conduct simultaneous testing of such devices.

In addition, this stand does not meet modern requirements for the possibility of recording test results and presenting it in a form convenient for storage and subsequent analysis

Thus, the disadvantage of the known prototype stand is its limited capabilities in the diagnosis and testing of lubrication and transmission control systems.

The objective of this utility model is to create a stand with enhanced diagnostic and testing capabilities for hydraulic systems of the tank lubrication and transmission control systems.

The technical result achieved by the utility model is to expand the range of tested hydraulic devices while providing the ability to conduct tests under high thermal loading without additional adjustment of the hydraulic system to the parameters of the tested equipment.

The problem is solved in that in the test bench for hydraulic devices of the tank’s lubrication and transmission systems containing a hydraulic system, including a tank with a working fluid, a pump and suction and discharge hydraulic lines with distributors, a hydraulic plate for fixing and connecting the diagnosed hydraulic devices to the stand hydraulic system and control and measurement equipment, according to the utility model, simulators of transmission control elements are installed on the desktop, made with the possibility of influencing hydraulic devices To change their operating modes, the surface of the working table, with the exception of the area in which the control simulators are installed, is closed by a protective casing made in the form of a rigid frame with windows made of heat-resistant glass, a heater with an automatic regulator is provided in the hydraulic tank, ensuring the temperature of the working fluid is maintained at the level corresponding to its maximum temperatures arising in severe operating conditions, while the discharge hydraulic line is divided into high-pressure and low-pressure branches, the first of which The second one is used to test hydraulic devices using high pressure and contains a high pressure reduction valve and a two-stage high pressure distributor, and the second one is used to test hydraulic devices of low regulated pressure and contains a low pressure reduction valve and a low pressure distributor, while parallel to the main discharge line to the suction line The pump has a built-in hydraulic line with a manual pressure pump to check the tightness of the housings and seals.

Moreover, the greatest ease of use is achieved if:

- test bench equipment will be made with the possibility of visual reflection of the current test parameters and equipped with information converters in electronic digital form for its registration and subsequent analysis;

- in the control drive simulating the transmission selector of the transmission, the clutch of the limit torque will be built in;

- in the stand, an automatic blocking of turning on the heater and the pump drive electric motor will be built in when the level of the working fluid in the tank is lower than the installed and open windows of the protective casing.

An analysis of the hallmarks of the stand showed that:

- installation on the desktop of simulators of the tank’s transmission controls, made with the possibility of influencing hydraulic devices to change their operating modes, as well as installing a heater in the hydraulic tank with an automatic regulator that maintains the temperature of the working fluid at a level corresponding to its maximum temperatures that arise in severe conditions operation, provide the appropriate connection of hydraulic devices and the creation of the required conditions for accelerated testing;

- installation on the surface of the working table, with the exception of the area in which the control simulators are installed, a protective casing made in the form of a rigid frame with windows made of heat-resistant glass and the presence of a lock on the heater and the pump motor when the oil level is below the minimum and open windows of the protective casing , ensures the safety of testing;

- separation of the injection hydraulic line into high-pressure and low-pressure branches, the first of which is used to test hydraulic devices using high pressure and contains a high-pressure pressure reducing valve and a two-stage high-pressure distributor, and the second - to test low-pressure hydraulic devices and contains a low-pressure pressure reducing valve and a distributor low pressure serves to accelerate testing, excluding the reconfiguration of the hydraulic equipment of the stand;

- execution in the stand on the pump suction line parallel to the main discharge line of an additional hydraulic line with a manual pressure pump to check the tightness of the housings and seals provides the opportunity to test hydraulic housing and seals with high pressures at low flow rates, eliminating significant leaks in case of depressurization or formation (presence ) microcracks or other defects in the test case;

- the implementation of the test equipment of the stand with the ability to visually reflect the current test parameters and supplying it with information converters in electronic digital form provides convenience in recording information and its subsequent analysis;

- installation in the control drive, simulating the selector of transmission transmissions, clutch torque limit provides automatic control

the magnitude of the moment of force necessary for stragging the levers of the distribution mechanisms.

The utility model is illustrated by drawings, which depict:

- figure 1 - appearance of the stand in the working position;

- figure 2 is a view of the desktop of the stand with the protective cover removed;

- figure 3 is a view of the desktop of the stand from above (protective cover removed);

- figure 4 - stand hydraulic system;

- figure 5 is an example of the connection of the tested hydraulic transmission devices (distribution mechanism) to the high-pressure branch of the hydraulic discharge line of the stand hydraulic system;

- Fig.6 is an example of the connection of the tested hydraulic transmission devices (mechanical amplifier) to the low-pressure branch of the hydraulic line for pumping the stand hydraulic system;

- Fig.7 is an example of the connection of the tested hydraulic transmission (filter) to the hydraulic line with a manual booster pump;

- Fig. 8 is an example of the joint operation of the high-pressure and low-pressure branches of the hydraulic line for injection of the stand hydraulic system;

- figure 9 is a table in which, as an example, presents a number of hydraulic equipment of the T-80U tank, diagnosed using a stand, and controlled parameters.

The test bench for hydraulic devices of the lubrication and control systems of the tank’s transmission, see Figs. 1-3, is made in the form of a table 1, the lower part of which is covered by screens 2 and provided with a frame 3 for installing a power pump 4 of the hydraulic system 5 of the stand, a hydraulic tank 6 with working fluid and its heater 7 and pipelines 8, forming a discharge line 9 and a discharge line 10.

In the upper part of the table there is a hydraulic plate 11 containing pressure reducing valves 12 and 13, respectively, of high and low pressure, a two-stage high pressure distributor 14, a low pressure distributor 15 and high and low pressure transmitters 16 and 17, respectively, which are structurally integrated into one assembly. The hydraulic plate 11 is equipped with seats for installing the tested hydraulic devices. On the table cover 18, with the possibility of isolating the hydraulic plate and the tested devices, a protective casing 19 is installed, made in the form of a rigid frame 20 with transparent windows 21 made of heat-resistant glass, which allow monitoring the test process and removing visual information from the control and measuring equipment (control- measuring instruments). Windows 21 are equipped with sensors to block the inclusion of heater 7 and electric motor 22 of the power drive

pump 4. A protective cover is mounted around the perimeter of the table top, for example, using threaded connections 23. In the control area of the stand in the recess 24 are located simulators of transmission controls, including a simulator 25 of the gear selector, a simulator 26 of the mechanical drive of the brake brakes and a simulator 27 lever link, which provides transmission power steering with a mechanical drive stop brakes. Simulators 25-27 are made with the possibility of influencing the tested hydraulic devices, which include, see table in Fig. 9, distribution mechanisms left and right, a mechanical amplifier and a hydraulic booster for changing their operating modes. Simulators 25-27 of the controls, taken out of the protective casing (installed outside it) and allow you to change the operating mode of the tested equipment. The fluid heater is equipped with an automatic regulator 28 that maintains the temperature of the fluid in the hydraulic system of the stand at a level corresponding to its maximum temperature that occurs in the hydraulic transmission of the tank in heavy duty operation.

As can be seen from the diagrams presented in figure 4-7 in the hydraulic system of the stand, the discharge line is divided into two branches 29 and 30, the first of which is high-pressure and serves to test (see table in figure 9) the smoothness box, control spool, plate , a valve device, a hydraulic booster and distribution mechanisms, that is, hydraulic devices using high pressure, and includes said pressure reducing valve 12 and a two-stage high pressure distributor 14. The second branch 30 is a low pressure valve used to test the bypass valve, oil cooler valve, mechanical amplifier, that is, hydraulic devices using low pressure, and includes the aforementioned low pressure pressure reducing valve 13 and low pressure distributor 15. In parallel with the main discharge line 9, a suction line 32 is installed on the suction line 31 of the power pump 4 to control the tightness of the housings and hydraulic system seals, in particular, the filter housing 34. The handle 35 of the manual pressure pump is installed to provide operator convenience.

In the stand in the control drive that simulates the selector of transmission transmissions, a clutch 36 of the limit torque is integrated. This coupling, although it does not apply directly to hydraulic devices, however, it allows you to control the force on the gear selector lever during the operation of the distribution hydromechanism, and thus obtain an indirect assessment of the technical condition of the mechanical drive of the spool valves and the pressure regulator of the distribution mechanisms.

Instrumentation of the proposed stand consists of pressure transducers 37 (37 '), flow rate 38, temperature 39 and displacement 40 and is configured to visually reflect the current test parameters. The data acquisition device 41, provides the conversion of information from the primary converters into electronic-digital form and its transmission through a unified interface (USB 2.0 computer) for its registration, visualization and subsequent analysis.

When conducting diagnostic or tuning tests on the bench, the protective cover is installed and fixed on the table. Diagnostic hydraulic devices are installed and connected to the stand hydraulic system through the windows 21 of the protective casing. The stand is equipped with locks that do not allow testing without a protective casing or with windows open. The temperature of the working fluid is set at a level of 105 ° C ... 120 ° C and subsequently automatically maintained at this level. After reaching a temperature of the working fluid of 105 ° C (in the case of diagnostic tests), the flow rate and pressure of the fluid specified by the test program are set, respectively, the electro-hydraulic distributor 14 high or the distributor 15 low pressure is turned on and the test program is executed.

Hydraulics tested for leaks are located and connected to the hydraulic system also inside the protective casing. Tests for leaks are carried out in hydraulic line 32 using a manual pressure pump 33, while since the flow rate of the working fluid created by the hand pump is not high, leakages of the working fluid from the housings or through the seals of the hydraulic devices during depressurization or the presence of defects will be insignificant, with easily removable consequences, unlike possible leaks when using electric pumps for such purposes.

A protective cover provides the operator with safety during testing.

In figures 5, 6, 8, the positions indicate the following previously not mentioned tested hydraulic equipment of the tank transmission [1]: 42 - distribution mechanism; 43 - mechanical amplifier; 44 - radiator valve; 45 - valve device.

The stand allows simultaneous testing of devices connected to different branches of the main discharge line, for example, a valve device and a radiator valve, as shown in Fig. 8.

Thus, a test bench was developed for testing hydraulic devices of the tank lubrication and transmission control systems with expanded diagnostic and testing capabilities for hydraulic devices, which allows testing in high

thermal loading without additional adjustment of the hydraulic system to the parameters of the equipment under test. Information sources:

1. "Object 219. Technical description and operating instructions", book. 2, M., Military Publishing House, 1986, pp. 394-479.

2. Description of the invention "Stand for testing hydraulic units" according to copyright certificate No. 1652687, class. F15B 19/00.

3. Description of the invention "Universal stand for testing hydraulic equipment" according to copyright certificate No. 1707304, class. F15B 19/00.

Claims (4)

1. A test bench for hydraulic devices of the tank’s lubrication and transmission control systems, comprising a hydraulic system, including a tank with a working fluid, a pump and suction and discharge hydraulic lines with distributors, a hydraulic plate for securing and connecting the diagnosed hydraulic devices to the stand’s hydraulic system, and control and measuring equipment, characterized in that in it on the desktop are installed simulators of transmission control elements, made with the possibility of influencing hydraulic devices to change their operating modes, surface The working table, with the exception of the area in which the control simulators are installed, is closed by a protective casing made in the form of a rigid frame with windows made of heat-resistant glass, a heater with an automatic regulator is integrated in the hydraulic tank, ensuring that the temperature of the working fluid is maintained at a level corresponding to its maximum temperatures arising in severe operating conditions, while the discharge hydraulic line is divided into high-pressure and low-pressure branches, the first of which is used to test the hydraulic unit a shaft using high pressure and contains a high pressure pressure reducing valve and a two-stage high pressure distributor, and the second one for testing low pressure hydraulic devices and contains a low pressure pressure reducing valve and a low pressure distributor, while a manual line is built in parallel with the main discharge line on the pump suction line pressure pump to check the tightness of the housings and seals. 2. The stand according to claim 1, characterized in that its instrumentation is made with the possibility of visual reflection of the current test parameters and is equipped with converters of information in electronic digital form for its registration and subsequent analysis. 3. The stand according to claim 1, characterized in that in the control drive that simulates the selector of the transmission gears, a clutch of the limiting moment is integrated 4. The stand according to claim 1, characterized in that it is equipped with an automatic lock on the heater and the pump motor when the level of the working fluid in the tank is lower than the installed or open windows of the protective casing.