CN105715595B - Air pressure-loading fueller for piston cooling nozzle performance test stand - Google Patents

Abstract

The invention discloses a kind of air pressure-loading fueller for piston cooling nozzle performance test stand, wherein, oil-supply valve is installed on fuel feed pump between the middle and lower part of air tank and the oil inlet of piston cooling nozzle, oil return fuel tank is installed on the lower section of the jet of piston cooling nozzle and positioned at the top of air tank, oil return valve is installed on the oil return pipe between oil return fuel tank and air tank, air intake valve is installed on tracheae between the middle and upper part of air tank and the gas outlet of barostat, interlinked on tracheae between air intake valve and air tank and be connected to blast pipe, drain tap is installed on blast pipe, the air inlet of barostat is connected with high-pressure air source.Air pressure-loading fueller of the present invention is used to provide machine oil for piston cooling nozzle, without conventional motors, compressor, machine oil is without temperature rise, and control is more accurate, and experimental result is more accurate, more energy-conservation and environmental protection.

Description

Air pressure-loading fueller for piston cooling nozzle performance test stand

Technical field

The present invention relates to a kind of annex of piston cooling nozzle performance test stand, more particularly to a kind of piston that is used for cool down The air pressure-loading fueller of nozzle performance experimental stand.

Background technology

Important component of the piston cooling nozzle (i.e. PCN) as automobile engine, the quality of its performance is to engine The lubrication of moving piston, cooling effect have extremely important effect.

Piston cooling nozzle is made up of nozzle body and check valve, based on automobile engine specification, the diversity of model, piston Specification, the model of cooling nozzles are also a lot, but its structure type is substantially similar.

The switching characteristic of piston cooling nozzle, discharge characteristic test are exfactory inspection projects, it is desirable to all products that dispatch from the factory Carry out 100% one hundred percent inspection test.The specification of piston cooling nozzle, model are different, its technical requirement difference.

The technical indicator parameter that piston cooling nozzle needs to detect includes：

A) Opening pressure：Flow rises to charge oil pressure value during setting from low to high.Such as：30mL、200kPa± 20kPa。

B) closing presure：Flow is dropped to charge oil pressure value during setting by height on earth.Such as：30mL, more than 170kPa.

C) leakage flow：Flow value before unlatching during specified pressure value.Such as：150kPa, less than 0.1L/min.

D) dredge oil amount：Flow rises to flow value during authorized pressure value from low to high.Such as：400kPa, 1.15L/min~ 1.55L/min。

E) target practice position：When charge oil pressure reaches draining flow rate test pressure value, the position of oily beam injection strike.Such as： Flow is more than or equal to 90% in 400kPa, penetrating designated area.

When carrying out switching characteristic to piston cooling nozzle, discharge characteristic detecting, it is desirable to using automobile engine oil as detection medium, And require to provide charge oil pressure by following several phase sequences：

A) it is vented：Charge oil pressure is quickly increased on Opening pressure, to discharge oil feed line and piston cooling nozzle Interior air.

B) low speed is depressured：Charge oil pressure is reduced to below 100kPa by low speed, and closing presure, leakage stream are tested in this stage Amount.

C) low speed boosts：Charge oil pressure is increased to slightly above Opening pressure by low speed, and Opening pressure is tested in this stage.

D) rapid pressure：Charge oil pressure is quickly increased to slightly above dredge oil amount, target practice position measurement pressure, in this stage Test dredge oil amount, target practice position.

E) reduction of blood pressure in high-speed：Charge oil pressure is quickly dropped to zero.

Therefore, when carrying out switching characteristic, the discharge characteristic detection of piston cooling nozzle, adjustable pressure fueller is necessary 's.

By controlling the charge oil pressure of fueller, pressure scanning is carried out to piston cooling nozzle, surveyed with pressure sensor Pressure testing power, with flow sensor detection flows, synchronization gain its pressure, flow and target practice position measurement curve, above carried from curve Take each feature physical quantity.Be shown in Fig. 1 current germany volkswagen piston cooling nozzle performance test stand provide pressure, flow Indicatrix.

Traditional adjustable pressure fueller can be summarized as following 4 kinds of structures：

Traditional structure one：As shown in Fig. 2 oil circuit is tested using meter in pressure regulation：Pass through opening for manual adjustment ball valve 2 Degree, realizes the regulation of charge oil pressure；High-pressure pump 1 is also show in Fig. 2, flow sensor 3 (for gathered data, otherwise can use Flowmeter), pressure sensor 4 (for gathered data, otherwise available pressure table) and piston cooling nozzle 5, ball valve 2 be to change to supply To the critical piece of the engine oil pressure of piston cooling nozzle 5, flow sensor 3, pressure sensor 4 are used as observation and understand real-time streams Amount and oil pressure.

Traditional structure two：As shown in figure 3, oil circuit is tested using by-pass throttle pressure regulation：Pass through program control regulation rapid switching valve 7, change bypass flow size, and change bypass flow velocity using flow speed control valve 6, realize the regulation of charge oil pressure；High-pressure pump in Fig. 3 1st, flow sensor 3, pressure sensor 4 and piston cooling nozzle 5 are identical with Fig. 2.

Traditional structure three：As shown in figure 4, oil circuit is tested using meter in pressure regulation：Pass through opening for program control regulation proportioning valve 9 Degree, and change bypass flow velocity using choke valve 8, realize the regulation of charge oil pressure.

Traditional structure four：As shown in figure 5, drive high pressure pump operation not with common electric machine with structure one, structure two, structure three Together, it drives high-pressure pump 1 to run using variable-frequency motor 10, by the rotating speed of programme-control variable-frequency motor 10, realizes charge oil pressure Regulation.

The defects of above-mentioned Conventional tunable forced feed device, is as follows：

Structure one needs the aperture of manually regulation ball valve, and the detection efficiency of experimental stand is low, the work of operating personnel Intensity is big, and the confidence level of testing result depends on the operative skill and sense of responsibility of operating personnel.

The shortcomings that structure one, structure two, structure three, common presence of structure four 1：Due to motor, oil pump, magnetic valve etc. Heating, detection medium machine oil can produce larger temperature rise.

In order to solve the temperature rise of detection medium machine oil, it is necessary to take constant temperature measures.

The following 2 kinds of constant temperature measures of generally use：

A) constant temperature measures one：Using the constant-temperature oil tank with refrigerating function.

B) constant temperature measures two：Using electrical heating constant-temperature oil tank.

For constant temperature measures one：Because refrigeration compressor does not allow quick starting and stopping switch operating, constant-temperature oil tank needs simultaneously With 2 sets of refrigeration, heating systems, refrigeration system continuously runs, by the heating power of fuel temperature measurement feedback control heating system, Realize the thermostatic control of oil temperature；Its shortcoming is that the power consumption cost of experimental stand operation can be higher, and refrigeration system can also produce Raw larger operation noise.

For constant temperature measures two：Detection medium oil temperature is set higher than environment temperature, such as 50 DEG C, and install blowing additional Heat sinking function, by the heating power of fuel temperature measurement feedback control heating system, realize the thermostatic control of oil temperature；Its shortcoming The power consumption cost for being experimental stand operation can be higher, it is necessary to prepare special hybrid detection medium machine oil to reach the viscosity of needs Coefficient, heating high temperature can cause medium engine oil viscosity coefficient change and continuously charing, it is necessary to frequent change Medium machine oil is detected, the operating cost of experimental stand is higher.

The content of the invention

The purpose of the present invention, which is that, provides a kind of machine oil in order to solve the above problems without temperature rise and noise is low is used for The air pressure-loading fueller of piston cooling nozzle performance test stand.

The present invention is achieved through the following technical solutions above-mentioned purpose：

A kind of air pressure-loading fueller for piston cooling nozzle performance test stand, including air tank, fuel feeding Valve, oil return valve, oil return fuel tank, air intake valve, drain tap, barostat and high-pressure air source, the air tank The oil-supply valve, the oil return fuel tank are installed on the fuel feed pump between the oil inlet of middle and lower part and the piston cooling nozzle It is installed on the lower section of the jet of the piston cooling nozzle and positioned at the top of the air tank, the oil return valve installation On oil return pipe between the oil return fuel tank and the air tank, the middle and upper part of the air tank and the air pressure adjustment The air intake valve, the tracheae between the air intake valve and the air tank are installed on the tracheae between the gas outlet of device On interlink and be connected to blast pipe, the drain tap is installed on the blast pipe, the air inlet of the barostat and institute State high-pressure air source connection.

In said structure, air tank, air intake valve, drain tap, barostat and high-pressure air source form gas control Device processed, for being controlled to the gas pressure in air tank, so as to realize to the engine oil pressure in air tank Control, and then realize the control to the engine oil pressure in piston cooling nozzle；Air tank, oil-supply valve, oil return valve and return Fuel tank then forms machine oil control device, for providing machine oil to piston cooling nozzle and reclaiming the machine oil of ejection；Air tank It is then gas circuit and oil circuit is mutually related tie, the gas in air tank internal upper part space enters machine oil the pressure of bottom machine oil Enter piston cooling nozzle to be used to test；Because air has compressibility, so the machine oil output pressure of air tank will not produce Raw mutation, but a stable progressive formation, export the rising of charge oil pressure, fall off rate depends on air injection, discharge Flow velocity；Barostat is using the ripe source of the gas treatment element applied, on the one hand by the gas pressure of 8bar outer air supply source 6.5bar is adjusted to, on the other hand a small amount of mist of oil can be sprayed while supply, there is lubricating function.

The air intake valve and the drain tap are respectively two sets be connected in parallel with each other；So as to be better achieved To air inlet and the control of the low rate and high-speed of exhaust.

Preferably, often covering the air intake valve includes air inlet electromagnetic valve and air inlet angle pedestal valve, the drain tap is often covered Including exhaust solenoid valve and exhaust angle pedestal valve, the oil-supply valve includes fuel feeding magnetic valve and fuel feeding angle pedestal valve, the oil return valve Door includes oil return solenoid valve and oil return angle pedestal valve, the control of the control signal of the air inlet electromagnetic valve, the exhaust solenoid valve The control with controller respectively of the control signal of input, the control signal of the fuel feeding magnetic valve and the oil return solenoid valve Output end processed connection, the air inlet of the air inlet electromagnetic valve, the air inlet of the exhaust solenoid valve, the fuel feeding magnetic valve enter Gas outlet of the air inlet of gas port and the oil return solenoid valve respectively with the barostat is connected, the air inlet electromagnetic valve Gas outlet is connected with the control terminal of the air inlet angle pedestal valve, the gas outlet of the exhaust solenoid valve and the control of the exhaust angle pedestal valve End connection processed, the gas outlet of the fuel feeding magnetic valve are connected with the control terminal of the fuel feeding angle pedestal valve, the oil return solenoid valve Gas outlet is connected with the control terminal of the oil return angle pedestal valve, and the air inlet angle pedestal valve is installed on the air tank and the air pressure On tracheae between adjuster, the exhaust angle pedestal valve is installed on the blast pipe, and the fuel feeding angle pedestal valve is installed on described On fuel feed pump between air tank and the piston cooling nozzle, the oil return angle pedestal valve is installed on the oil return fuel tank and institute State on the oil return pipe between air tank.

In said structure, corresponding gas is controlled by angle pedestal valve pneumatic corresponding to each solenoid valve control, then by angle pedestal valve Body or oil flow rate, not only it is easy to control, and can avoids using gas or machine oil caused by the direct controlling stream amount of magnetic valve The problem of heated heating, it ensure that gas and machine oil are temperature-resistant in transmitting procedure, so as to beneficial to more accurate control piston Engine oil pressure and the more accurate experimental result of acquisition needed for cooling nozzles.

In order to which air inlet and gas exhaust inspecting is better achieved, often covers on the tracheae where the air intake valve and often cover the row Choke valve is connected in series with respectively on blast pipe where air valve.

In order to reduce exhaust noise, the steam vent of each air inlet electromagnetic valve, each exhaust solenoid valve Steam vent, the steam vent of the fuel feeding magnetic valve, the steam vent and each described exhaust angle pedestal valve of the oil return solenoid valve Exhaust outlet is separately installed with the muffler for eliminating exhaust sound.

For the ease of obtaining the real-time charge oil pressure and flow parameter of more accurate piston cooling nozzle, the inflation oil Flow sensor and pressure sensing are also equipped with oil pipe between the oil inlet of the middle and lower part of case and the piston cooling nozzle Device, the signal output part of the flow sensor and the signal output part of pressure sensor are defeated with the signal of the controller respectively Enter end connection.

Specifically, the air inlet electromagnetic valve, the exhaust solenoid valve, the fuel feeding magnetic valve and the oil return solenoid valve are equal For three mouthfuls of two magnetic valves.Three mouthfuls of two magnetic valves are a kind of solenoid directional control valves of ripe application, and traditional application method is from A Mouth air inlet, to P mouths, R mouths switching supply under Electromagnetic Control, but use of the present invention to three mouthfuls of two magnetic valves is using excellent as follows Select mode：P mouths connect barostat as air inlet, and R mouths run in the muffler of gas, and A mouths are as gas outlet connection angled seat Valve.So, angle pedestal valve is in normally off, and three mouthfuls two only need connection one with pipeline between magnetic valve and angle pedestal valve, three mouthfuls During two magnetic valve cut-out supply, the spring automatic reset of angle pedestal valve is utilized.

Preferably, four points of the whole space that the space above the machine oil in the air tank is accounted in the air tank One of to 1/3rd, the position that the air tank is connected with the barostat is located at the machine oil in the air tank Top.

The beneficial effects of the present invention are：

Use air pressure-loading fueller of the present invention to provide machine oil for piston cooling nozzle, without conventional motors, Compressor, machine oil is without temperature rise, and control is more accurate, and experimental result is more accurate, more energy-conservation and environmental protection；Specific advantage is as follows：

1st, medium machine oil is detected without temperature rise, medium machine oil is detected using normal temperature, without configuring special hybrid detection medium machine For oil to reach the viscosity coefficient of needs, medium machine oil is relatively inexpensive.

2nd, constant temperature measures need not be taken, equipment operation power consumption cost can be reduced.

3rd, constant temperature measures need not be taken, medium engine oil viscosity coefficient is relatively stable and will not produce charing, so as to reduce The frequency of detection medium machine oil is changed, the operating cost of experimental stand can be reduced.

4th, experimental stand compressor-free, motor, detection operating environment noise level are low.

5th, experimental stand compressor-free, motor, the nearly source strength electromagnetic interference of experimental stand are reduced, test curve interference burr Improve, the repeatability of test result increases with repeatability evaluation index.

Brief description of the drawings

Fig. 1 is that the pressure that provides of the piston cooling nozzle performance test stand of current germany volkswagen company, traffic characteristic are bent Line schematic diagram；

Fig. 2 is the schematic diagram of the traditional structure one of adjustable pressure fueller；

Fig. 3 is the schematic diagram of the traditional structure two of adjustable pressure fueller；

Fig. 4 is the schematic diagram of the traditional structure three of adjustable pressure fueller；

Fig. 5 is the schematic diagram of the traditional structure four of adjustable pressure fueller；

Fig. 6 is the principle of the air pressure-loading fueller of the present invention for piston cooling nozzle performance test stand Figure；

Fig. 7 is main view knot when air pressure-loading fueller of the present invention is used for piston cooling nozzle performance test stand Structure schematic diagram；

Fig. 8 is that right side when air pressure-loading fueller of the present invention is used for piston cooling nozzle performance test stand regards knot Structure schematic diagram；

The curve that pressure, flow obtained by when Fig. 9 is air pressure-loading fueller application of the present invention change over time Schematic diagram.

Embodiment

The invention will be further described below in conjunction with the accompanying drawings：

As shown in fig. 6, the air pressure-loading fueller of the present invention for piston cooling nozzle performance test stand, bag Include air tank 13, oil-supply valve, oil return valve, oil return fuel tank 11, air intake valve, drain tap, barostat 16 and height Pressurized air source 15, the air intake valve include the first air inlet electromagnetic valve 22, the first air inlet angle pedestal valve 18, the second air inlet electromagnetic valve 20, Second air inlet angle pedestal valve 21, the drain tap include first exhaust magnetic valve 31, first exhaust angle pedestal valve 17, second row pneumoelectric Magnet valve 33, second exhaust angle pedestal valve 19, the oil-supply valve include fuel feeding magnetic valve 34 and fuel feeding angle pedestal valve 23, the oil return valve Door includes oil return solenoid valve 32 and oil return angle pedestal valve 12, and the space above machine oil in air tank 13 is accounted in air tank 13 The a quarter in whole space is to 1/3rd, and general volume is 10 liters, middle and lower part and the piston cooling nozzle 5 of air tank 13 Oil inlet between fuel feed pump 28 on fuel feeding angle pedestal valve 23, flow sensor 3 and pressure sensor 4, oil return fuel tank are installed 11 are installed on the lower section of the jet of piston cooling nozzle 5 and are installed on positioned at the top of air tank 13, oil return angle pedestal valve 12 On oil return pipe 29 between oil return fuel tank 11 and air tank 13, the upper position of air tank 13 is in the machine in air tank 13 The first air inlet angled seat being connected in parallel is installed on tracheae 30 between the position of oily top and the gas outlet of barostat 16 The air inlet angle pedestal valve 21 of valve 18 and second, the gas between the first air inlet angle pedestal valve 18 and the second air inlet angle pedestal valve 21 and air tank 13 Interlinked on pipe and be connected to two blast pipes (unmarked in figure), first exhaust angle pedestal valve 17 and second exhaust angle pedestal valve 19 are pacified respectively Loaded on two blast pipes, the air inlet of barostat 16 is connected with high-pressure air source 15, the signal output part of flow sensor 3 It is connected with signal input part of the signal output part of pressure sensor 4 respectively with controller (not shown), the first air inlet electromagnetism The control signal of valve 22, the control signal of the second air inlet electromagnetic valve 20, the control signal of first exhaust magnetic valve 31, The control signal of the control signal of two exhaust solenoid valves 33, the control signal of fuel feeding magnetic valve 34 and oil return solenoid valve 32 It is connected respectively with the control output end of controller, the air inlet of the air inlet of the first air inlet electromagnetic valve 22, the second air inlet electromagnetic valve 20 Mouth, the air inlet of first exhaust magnetic valve 31, the air inlet of second exhaust magnetic valve 33, fuel feeding magnetic valve 34 air inlet and return Gas outlet of the air inlet of solenoid 32 respectively with barostat 16 is connected, 22 gas outlets of the first air inlet electromagnetic valve and the The control terminal connection of one air inlet angle pedestal valve 18, the gas outlet of the second air inlet electromagnetic valve 20 and the control terminal of the second air inlet angle pedestal valve 21 Connection, the gas outlet of first exhaust magnetic valve 31 are connected with the control terminal of first exhaust angle pedestal valve 17, second exhaust magnetic valve 33 Gas outlet be connected with the control terminal of second exhaust angle pedestal valve 19, the gas outlet of fuel feeding magnetic valve 34 and the control of fuel feeding angle pedestal valve 23 End connection processed, the gas outlet of oil return solenoid valve 32 are connected with the control terminal of oil return angle pedestal valve 12, the first air inlet angle pedestal valve 18, second Divide on blast pipe on tracheae where air inlet angle pedestal valve 21 and where first exhaust angle pedestal valve 17, second exhaust angle pedestal valve 19 Choke valve 8, the steam vent of the first air inlet electromagnetic valve 22, steam vent, the first row of the second air inlet electromagnetic valve 20 are not connected in series with The steam vent of pneumoelectric magnet valve 31, the steam vent of second exhaust magnetic valve 33, the steam vent of fuel feeding magnetic valve 34, oil return solenoid valve 32 Steam vent, the exhaust outlet of first exhaust angle pedestal valve 17 and the exhaust outlet of second exhaust angle pedestal valve 19 be separately installed with for eliminating The muffler 14 of exhaust sound,

Above-mentioned first air inlet electromagnetic valve 22, the second air inlet electromagnetic valve 20, first exhaust magnetic valve 31, second exhaust magnetic valve 33rd, fuel feeding magnetic valve 34 and oil return solenoid valve 32 are three mouthfuls of two magnetic valves.Three mouthfuls of two magnetic valves are a kind of ripe applications Solenoid directional control valve, traditional application method is from A mouth air inlets, to P mouths, R mouths switching supply, but the present invention under Electromagnetic Control Use to three mouthfuls of two magnetic valves uses following preferred embodiment：P mouths connect barostat 16 as air inlet, and R mouths run in The muffler 14 of gas, A mouths connect each angle pedestal valve as gas outlet.So, each angle pedestal valve is in normally off, three mouthfuls of two electricity Connection one is only needed when three mouthfuls of two magnetic valves cut-outs supply, to utilize each angled seat with corresponding pipeline between magnet valve and each angle pedestal valve The spring automatic reset of valve.

As shown in Figure 7 and Figure 8, during application, each part of this air pressure-loading fueller is installed on experimental stand 26, Piston cooling nozzle 5 is installed on the fixture 25 on experimental stand 26, and 24 in Fig. 8 represent the institute being installed on experimental stand 26 There is magnetic valve, target practice position measurement device 27 is also show in Fig. 7 and Fig. 8, the device is unrelated with this air pressure-loading fueller, So do not illustrate.

It is that piston cooling nozzle 5 provides machine oil progress in fact using this air pressure-loading fueller with reference to Fig. 6, Fig. 7 and Fig. 8 When testing, the main operational principle of this air pressure-loading fueller is as follows：

Boosting exhaust at a high speed：First exhaust magnetic valve 31, second exhaust magnetic valve 33, oil return electromagnetism are controlled by controller Valve 32 is corresponding to close first exhaust angle pedestal valve 17, second exhaust angle pedestal valve 19, oil return angle pedestal valve 12, and first is controlled by controller Air inlet electromagnetic valve 22, the second air inlet electromagnetic valve 20, fuel feeding magnetic valve 34 are corresponding to open the first air inlet angle pedestal valve 18, the second flow inlet angle Seat valve 21, fuel feeding angle pedestal valve 23, setting pressure (being higher than Opening pressure, such as 300kPa) is boosted at a high speed；

Low speed is depressured：Close oil return angle pedestal valve 12, the first air inlet angle pedestal valve 18, the second air inlet angle pedestal valve 21, second exhaust Angle pedestal valve 19 (or first exhaust angle pedestal valve 17), open first exhaust angle pedestal valve 17 (or second exhaust angle pedestal valve 19), delivery angle Seat valve 23.Low speed is depressurized to setting pressure (being less than closing presure, such as 100kPa)；

Low speed boosts：Close oil return angle pedestal valve 12, the second air inlet angle pedestal valve 21 (or first air inlet angle pedestal valve 18), first row Air horn seat valve 17, second exhaust angle pedestal valve 19, open the first air inlet angle pedestal valve 18 (or second air inlet angle pedestal valve 21), the first air inlet Angle pedestal valve 18, low speed boost to setting pressure (being higher than Opening pressure, such as 250kPa)；

Boost at a high speed：First exhaust angle pedestal valve 17, second exhaust angle pedestal valve 19, oil return angle pedestal valve 12 are closed, opens first Air inlet angle pedestal valve 18, the second air inlet angle pedestal valve 21, fuel feeding angle pedestal valve 23, setting pressure is boosted at a high speed and (is higher than dredge oil amount/target practice Detect pressure, such as 420kPa in position)；

It is depressured at a high speed：Oil return angle pedestal valve 12, the first air inlet angle pedestal valve 18, the second air inlet angle pedestal valve 21 are closed, opens first Angle pedestal valve 17, second exhaust angle pedestal valve 19, fuel feeding angle pedestal valve 23 are vented, is depressurized to 0kPa at a high speed；

Oil return：The first air inlet angle pedestal valve 18, the second air inlet angle pedestal valve 21, fuel feeding angle pedestal valve 23 are closed, opens first exhaust Angle pedestal valve 17, second exhaust angle pedestal valve 19, oil return angle pedestal valve 12, the detection medium machine oil in oil return fuel tank 11 return to air tank 13。

During detection operation, charge oil pressure is tested with the test volume flow of flow sensor 3, with pressure sensor 4, can be obtained To pressure, flow and the test curve of time, as shown in figure 9, required feature physical quantity can be obtained from the curve.

Explanation：Above-mentioned control method is the preferred application method of this air pressure-loading fueller, not unique method, also not It is the protection scheme of the present invention.

Above-described embodiment is presently preferred embodiments of the present invention, is not the limitation to technical solution of the present invention, as long as The technical scheme that can be realized on the basis of above-described embodiment without creative work, it is regarded as falling into patent of the present invention Rights protection scope in.

Claims (6)

1. A kind of 1. air pressure-loading fueller for piston cooling nozzle performance test stand, it is characterised in that：Including inflation Fuel tank, oil-supply valve, oil return valve, oil return fuel tank, air intake valve, drain tap, barostat and high-pressure air source, it is described to fill The oil-supply valve is installed on the fuel feed pump between the oil inlet of the middle and lower part of gas and oil case and the piston cooling nozzle, it is described Oil return fuel tank is installed on the lower section of the jet of the piston cooling nozzle and positioned at the top of the air tank, the oil return Valve is installed on the oil return pipe between the oil return fuel tank and the air tank, the middle and upper part of the air tank with it is described The air intake valve is installed on the tracheae between the gas outlet of barostat, the air intake valve and the air tank it Between tracheae on interlink and be connected to blast pipe, the drain tap is installed on the blast pipe, and the barostat enters Gas port is connected with the high-pressure air source；The air intake valve is two sets be connected in parallel with each other, and the drain tap is mutually simultaneously Two sets of connection connection；Often covering the air intake valve includes air inlet electromagnetic valve and air inlet angle pedestal valve, and often covering the drain tap includes Exhaust solenoid valve and exhaust angle pedestal valve, the oil-supply valve include fuel feeding magnetic valve and fuel feeding angle pedestal valve, the oil return valve bag Include oil return solenoid valve and oil return angle pedestal valve, the control signal of the air inlet electromagnetic valve, the control input of the exhaust solenoid valve The control signal at end, the control signal of the fuel feeding magnetic valve and the oil return solenoid valve is defeated with the control of controller respectively Go out end connection, the air inlet of the air inlet electromagnetic valve, the air inlet of the exhaust solenoid valve, the air inlet of the fuel feeding magnetic valve It is connected with gas outlet of the air inlet of the oil return solenoid valve respectively with the barostat, the outlet of the air inlet electromagnetic valve Mouth is connected with the control terminal of the air inlet angle pedestal valve, the gas outlet of the exhaust solenoid valve and the control terminal of the exhaust angle pedestal valve Connection, the gas outlet of the fuel feeding magnetic valve are connected with the control terminal of the fuel feeding angle pedestal valve, the outlet of the oil return solenoid valve Mouth is connected with the control terminal of the oil return angle pedestal valve, and the air inlet angle pedestal valve is installed on the air tank and the air pressure adjustment On tracheae between device, the exhaust angle pedestal valve is installed on the blast pipe, and the fuel feeding angle pedestal valve is installed on the inflation On fuel feed pump between fuel tank and the piston cooling nozzle, the oil return angle pedestal valve is installed on the oil return fuel tank and filled with described On oil return pipe between gas and oil case.
2. 2. the air pressure-loading fueller according to claim 1 for piston cooling nozzle performance test stand, it is special Sign is：Often cover on the tracheae where the air intake valve and often cover on the blast pipe where the drain tap that series connection connects respectively It is connected to choke valve.
3. 3. the air pressure-loading fueller according to claim 1 for piston cooling nozzle performance test stand, it is special Sign is：The steam vent of each air inlet electromagnetic valve, the steam vent of each exhaust solenoid valve, the fuel feeding electromagnetism The exhaust outlet of the steam vent of valve, the steam vent of the oil return solenoid valve and each exhaust angle pedestal valve, which is separately installed with, to be used for Eliminate the muffler of exhaust sound.
4. 4. the air pressure-loading fueller according to claim 1 for piston cooling nozzle performance test stand, it is special Sign is：Flow is also equipped with oil pipe between the oil inlet of the middle and lower part of the air tank and the piston cooling nozzle Sensor and pressure sensor, the signal output part of the flow sensor and the signal output part of pressure sensor respectively with institute State the signal input part connection of controller.
5. 5. the air pressure-loading fueller according to claim 1 for piston cooling nozzle performance test stand, it is special Sign is：The air inlet electromagnetic valve, the exhaust solenoid valve, the fuel feeding magnetic valve and the oil return solenoid valve are three mouthful two Position magnetic valve.
6. 6. the air pressure-loading fueller according to claim 1 for piston cooling nozzle performance test stand, it is special Sign is：The a quarter in the whole space that the space above machine oil in the air tank is accounted in the air tank is to three / mono-, the position that the air tank is connected with the barostat is located above the machine oil in the air tank.