Summary of the invention
The purpose of the present invention is to provide a kind of Batch Transportation batching interface rule of development experimental rig, overcome existing
The problem for having the test accuracy of technology pilot experiment device low, booster pump and test track are separately positioned in the experimental rig,
Influence of the booster pump disturbance to contaminated product parameter is eliminated, test accuracy is improved.
The object of the present invention is achieved like this, a kind of Batch Transportation batching interface rule of development experimental rig;
The Batch Transportation batching interface rule of development experimental rig includes the oil blending test module being set in distance and oil product
Memory module, the oil blending test module are used to test the Mixed testing of oil product, and the oil blending test module includes test track,
The contaminated product parameter measuring apparatus for contaminated product parametric measurement is provided in the test track;The oil product memory module is used for institute
The offer of the test oil product of oil blending test module is provided and tests the recycling of waste oil, the oil product memory module includes two test oil
Product fuel tank, connection setting booster pump on each test oil product fuel tank, the oil product memory module further includes dirty oil tank;It is described at
Product oil sequentially-fed batching interface rule of development experimental rig further includes connection manifold module and data acquisition and control module, institute
State the connection that connection manifold module is used for the oil blending test module and the oil product memory module;The data acquisition and control
It is data acquisition and the oil blending test module of the module for the oil blending test module, the connection manifold module, described
The on off operating mode of oil product memory module controls.
In a preferred embodiment of the present invention, the test track is connected to by the transparent arc tube of multistage inner wall smooth
It constitutes, circumferentially uniform intervals are provided at least two groups oil blending test device group, each oil blending test device in the test track
Group includes the electromagnet cut off valve that is serially connected in the test track, each oil blending test device group further include in the test track from
The electromagnet cut off valve three-way solenoid valve that sequential concatenation is arranged in the counterclockwise direction, two tee tubes and one group of contaminated product ginseng
Number measuring device, each tee tube of oil blending test device group described in every group is for the test track oil inlet and entrance passes through institute
It states connection manifold module to be connected to each test oil product fuel tank matching respectively, described the three of oil blending test device group described in every group
The quantity of siphunculus is identical as the test quantity of oil product fuel tank, and the outlet of each three-way solenoid valve is used for the test track
Oil extraction and setting is connected to the dirty oil tank by the connection manifold module;Each electromagnet cut off valve, the contaminated product parameter
Measuring device and the three-way solenoid valve are acquired with the data to be connected with control module.
In a preferred embodiment of the present invention, the contaminated product parameter measuring apparatus includes flowmeter, coloration tester
And temperature inductor, the flowmeter, the coloration tester and the temperature inductor are acquired and are controlled with the data
Module is connected.
In a preferred embodiment of the present invention, the flow is calculated as supersonic non-contact flowmeter.
In a preferred embodiment of the present invention, the coloration test is calculated as online photo-electric chromaticity transducer.
In a preferred embodiment of the present invention, the temperature inductor is thermojunction type temperature inductor.
In a preferred embodiment of the present invention, the internal diameter ruler of each electromagnet cut off valve and each three-way solenoid valve
It is very little identical as the internal diameter of the transparent arc tube.
In a preferred embodiment of the present invention, the connection manifold module include two for the test track into
The oil inlet tube passage of oil, the quantity of the oil inlet tube passage is identical as the test quantity of oil product fuel tank, each oil inlet pipe
The oil product entrance in channel is connected to the booster pump matching for being connected to setting on each test oil product fuel tank respectively;It is each it is described into
Multiple oil product outlets, the quantity of the oil product outlet on each oil inlet tube passage and the contaminated product are provided on oil pipe channel
The quantity of experimental rig group is identical, and each oil product outlet on each oil inlet tube passage is filled with each oil blending test respectively
Each tee tube matching connection of group is set, each oil product exit is respectively arranged with the logical connecting tube only of Control experiment oil product
Overflow valve, each connecting tube overflow valve is acquired with the data to be connected with control module;The connection manifold module is also wrapped
Include the oil extraction tube passage for the test track oil extraction, be arranged on the oil extraction tube passage it is multiple can respectively with each electromagnetism
The waste oil entrance of the outlet of triple valve, the waste oil of the oil extraction tube passage, which is exported, is connected to setting with the dirty oil tank.
In a preferred embodiment of the present invention, the outlet of each booster pump is respectively communicated with one booster pump overflow of setting
Valve, the outlet of each booster pump overflow valve are connected to the matching of the oil product entrance of each oil inlet tube passage respectively, each institute
It states booster pump overflow valve and is acquired with the data and is connected with control module.
In a preferred embodiment of the present invention, the Batch Transportation batching interface rule of development experimental rig
Including skid bracket, the oil blending test module, the connection manifold module and the oil product memory module are set from top to down
It is placed on the skid bracket.
From the above mentioned, Batch Transportation batching interface rule of development experimental rig of the invention has following beneficial to effect
Fruit:
(1) oil blending test module, connection in Batch Transportation batching interface rule of development experimental rig of the invention
Manifold module and the layering of oil product memory module are arranged, the proving ring in booster pump and oil blending test module in oil product memory module
Road is separately positioned, avoids influence of pump disturbance when booster pump pump oil to contaminated product parameter, improves test accuracy;
(2) in Batch Transportation batching interface rule of development experimental rig of the invention, using the side of test track
Formula carries out oil product mixing, can satisfy the requirement of long distance delivery test measurement, and the bending radius of test track is larger, in
Influence with the centrifugal force and centripetal force in test oil product flow process to contaminated product parameter, further to improve test accurate
Degree;
(3) in Batch Transportation batching interface rule of development experimental rig of the invention, test track is by multistage
The smooth transparent arc tube of wall, which is connected to, to be constituted, and each transparent arc tube is all made of transparent toughened glass pipe, can intuitively observe examination
The flow condition and color change for testing test oil product in circuit, realize from the angle of coloration and determine sequentially-fed product oil
The change of mixture spread in the process, coloration is more sensitive, so that Batch Transportation batching interface of the invention develops rule
The test accuracy of rule experimental rig further increases;The inner wall smooth of transparent arc tube avoids disturbance of the tube wall to contaminated product, so that
The contaminated product Experiment Parameter precision that present apparatus test measures further increases;
(4) Batch Transportation batching interface rule of development experimental rig structure of the invention is simple, easy to operate, benefit
In popularization and application.
Detailed description of the invention
The following drawings are only intended to schematically illustrate and explain the present invention, not delimit the scope of the invention.Wherein:
Fig. 1: for the structural schematic diagram of Batch Transportation batching interface rule of development experimental rig of the invention;
Fig. 2: for oil blending test module diagram of the invention;
Fig. 3: for contaminated product parameter measuring apparatus schematic diagram of the invention;
Fig. 4: for connection manifold module diagram of the invention;
Fig. 5: for oil product memory module schematic diagram of the invention;
Fig. 6: for the operation principle schematic diagram of Batch Transportation batching interface rule of development experimental rig of the invention.
In figure:
100, Batch Transportation batching interface rule of development experimental rig;
1, oil blending test module;
11, test track;
111, the first arc tube;112, the second arc tube;113, third arc tube;114, the 4th arc tube;
12, contaminated product parameter measuring apparatus;
121, flowmeter;122, coloration tester;123, temperature inductor;
131, the first electromagnet cut off valve;132, the second electromagnet cut off valve;
141, the first tee tube;142, the second tee tube;143, third tee tube;144, the 4th tee tube;
151, the first three-way solenoid valve;152, the second three-way solenoid valve;
2, manifold module is connected;
211, the first oil inlet tube passage;
2111, the first oil product exports;2112, the second oil product exports;2113, the first oil product entrance;
212, the second oil inlet tube passage;
2121, third oil product exports;2122, the 4th oil product exports;2123, the second oil product entrance;
22, oil extraction tube passage;221, waste oil entrance;222, waste oil exports;
231, the first connecting tube overflow valve;232, the second connecting tube overflow valve;233, third connecting tube overflow valve;234,
Four connecting tube overflow valves;
3, oil product memory module;
31, oil product fuel tank is tested;311, the first test oil product fuel tank;312, the second test oil product fuel tank;
32, booster pump;
33, dirty oil tank;34, booster pump overflow valve;
4, skid bracket.
Specific embodiment
For a clearer understanding of the technical characteristics, objects and effects of the present invention, this hair of Detailed description of the invention is now compareed
Bright specific embodiment.
As shown in Figures 1 to 6, the present invention provides a kind of Batch Transportation batching interface rule of development experimental rig
100, including the oil blending test module 1 and oil product memory module 3 being set in distance, oil blending test module 1 is for testing oil product
Mixed testing, oil blending test module 1 include test track 11, and the contaminated product for contaminated product parametric measurement is provided in test track 11
Parameter measuring apparatus 12;The offer of test oil product and the returning of test waste oil of the oil product memory module 3 for oil blending test module 1
It receives, oil product memory module 3 includes two test oil product fuel tanks 31, and it is each to test connection setting booster pump 32 on oil product fuel tank 31, increase
Test oil product in each test oil product fuel tank 31 is pumped into test track by press pump 32, and oil product memory module 3 further includes dirty oil tank 33,
Dirty oil tank 33 is used to receive the waste oil that the mixing after the completion of storage test finishes;The Batch Transportation batching interface rule of development
Experimental rig 100 further includes connection manifold module 2 and data acquisition and control module (prior art is not shown in the figure), connection
Manifold module 2 is used for the connection of oil blending test module 1 and oil product memory module 3.Data acquisition is tried with control module for contaminated product
The data acquisition of module 1 and the on off operating mode control of oil blending test module 1, connection manifold module 2, oil product memory module 3 are tested,
Data acquisition can be constituted with control module using integration module in the prior art.Batch Transportation contaminated product of the invention
Oil blending test module 1, connection manifold module 2 and the layering setting of oil product memory module 3 in interface rule of development experimental rig 100,
The test track 11 in booster pump 32 and oil blending test module 1 in oil product memory module 3, which is spaced, to be arranged, and booster pump 32 is avoided to pump
Influence of the pump disturbance to contaminated product parameter when oily, improves test accuracy;Oil product mixing is carried out by the way of test track,
It can satisfy the requirement of long distance delivery test measurement, and the bending radius of test track is larger, has neutralized test oil product stream
The influence of centrifugal force and centripetal force to contaminated product parameter during dynamic, it is further to improve test accuracy;Finished product of the invention
100 structures of oily sequentially-fed batching interface rule of development experimental rig are simple, easy to operate, are conducive to promote and apply.
Further, as shown in Figure 1 and Figure 2, test track 11 is made of the connection of the transparent arc tube of multistage inner wall smooth, respectively
Transparent arc tube is all made of transparent toughened glass pipe, can intuitively observe in test track 11 flow condition of test oil product and
Color change, with realize from the angle of coloration determine sequentially-fed product oil during mixture spread, the change of coloration
It is more sensitive, so that the test accuracy of Batch Transportation batching interface rule of development experimental rig 100 of the invention
It further increases;The inner wall smooth of transparent arc tube avoids disturbance of the tube wall to contaminated product, so that the present apparatus tests the contaminated product measured
Experiment Parameter precision further increases.Circumferentially uniform intervals are provided at least two groups oil blending test device in test track 11
Group, each oil blending test device group include the electromagnet cut off valve being serially connected in test track 11, electromagnet cut off valve Control experiment circuit
11 contaminated product process, each oil blending test device group further include sequentially going here and there in the counterclockwise direction in test track 11 from electromagnet cut off valve
Connect the three-way solenoid valve, two tee tubes and one group of contaminated product parameter measuring apparatus of setting, every group of oil blending test device group
Each tee tube is for 11 oil inlet of test track and entrance is matched with each test oil product fuel tank 31 respectively by connecting manifold module 2
The quantity of connection, the tee tube of every group of oil blending test device group is identical as the test quantity of oil product fuel tank 31, each three-way solenoid valve
Outlet with dirty oil tank 33 be connected to setting for 11 oil extraction of test track and by connection manifold module 2.Each electromagnet cut off valve,
Contaminated product parameter measuring apparatus 12 and three-way solenoid valve are acquired with data to be connected with control module.In the present embodiment, in order to
Avoid test oil product by generating disturbance, each electromagnet cut off valve when each electromagnet cut off valve and each three-way solenoid valve
It is identical as the internal diameter of the transparent arc tube with the internal diameter of each three-way solenoid valve.
Further, as shown in Figure 1, Figure 3, contaminated product parameter measuring apparatus 12 includes flowmeter 121,122 and of coloration tester
Temperature inductor 123, flowmeter 121, coloration tester 122 and temperature inductor 123 acquire and control module phase with data
Connection.In the present embodiment, flowmeter 121 is supersonic non-contact flowmeter, and coloration tester 122 is online photo-electric
Chromaticity transducer, temperature inductor 123 are thermojunction type temperature inductor.Flowmeter 121, coloration tester 122 and temperature sense
Device 123 is answered to be all set on the side wall of test track 11, flowmeter 121, coloration tester 122 and temperature inductor 123 can
It is sufficiently contacted with test oil product, Accurate Determining tests flow, coloration and the temperature of oil product.
Further, temperature compensation unit is provided on the lateral wall of test track 11, temperature compensation unit can be to proving ring
Test oil product in road 11 carries out temperature-compensating, and to avoid test oil product, temperature change is initial to test oil product during transportation
The influence of condition.
Further, as shown in Figure 1, Figure 4, Figure 5, connection manifold module 2 include two for test track 11 oil inlet into
The quantity in oil pipe channel, oil inlet tube passage is identical as the test quantity of oil product fuel tank 31, the oil product entrance point of each oil inlet tube passage
It is not connected to the matching of booster pump 32 for being connected to setting on each test oil product fuel tank 31, is provided with multiple oil products on each oil inlet tube passage
It exports, the quantity of the oil product outlet on each oil inlet tube passage is identical as the quantity of oil blending test device group, on each oil inlet tube passage
Each oil product outlet respectively with each tee tube of each oil blending test device group matching be connected to, each oil product exit is respectively arranged with control
The logical connecting tube overflow valve only of system test oil product, each connecting tube overflow valve enter the sequence of test track for Control experiment oil product
The position and.Each connecting tube overflow valve is acquired with data to be connected with control module.In the present embodiment, each booster pump 32 go out
Mouth is respectively communicated with one booster pump overflow valve 34 of setting, and each booster pump overflow valve 34 exports the oil product with each oil inlet tube passage respectively
Entrance matching connection, each booster pump overflow valve 34 is acquired with data to be connected with control module.
Further, as shown in Figure 1, Figure 4, Figure 5, connection manifold module 2 further includes the oil extraction for 11 oil extraction of test track
Tube passage 22, be arranged on oil extraction tube passage 22 it is multiple can respectively with the waste oil entrance 221 of the outlet of each three-way solenoid valve, row
The waste oil outlet 222 in oil pipe channel is connected to setting with dirty oil tank 33.
Further, data acquisition and control module include data acquisition unit and control unit, and data acquisition unit is used for
Acquire flow, coloration and the temperature that flowmeter 121, coloration tester 122 and temperature inductor 123 measure in oil blending test module 1
Degree evidence, control unit are used to control the on-off of each valve.
Further, as shown in Figure 1, Batch Transportation batching interface rule of development experimental rig 100 of the invention is adopted
It is arranged with skid, oil blending test module 1, connection manifold module 2 and oil product memory module 3 present lower leaf setting, of the invention
Batch Transportation batching interface rule of development experimental rig 100 includes skid bracket 4, oil blending test module 1, connection manifold
Module 2 and oil product memory module 3 are fixed on from top to down on skid bracket 4.
As shown in Figures 1 to 6, in a specific embodiment of the invention, test oil product is 2 kinds, tests oil product fuel tank 31
It is two, the respectively first test oil product fuel tank 311 and the second test oil product fuel tank 312, the quantity of oil blending test device group are
Two groups, respectively the first oil blending test device group and the second oil blending test device group, test track 11 wait the transparent of radians by 4 sections
Arc tube connection is constituted, respectively the first arc tube 111, the second arc tube 112, third arc tube 113 and the 4th arc tube
114;Electromagnet cut off valve that the first oil blending test device group includes is set as the first electromagnet cut off valve 131, the first arc tube 111
One end is connected to by the first electromagnet cut off valve 131 with the second arc tube 112, and the first oil blending test device group further includes that can be connected to the
The three-way solenoid valve of two arc tubes 112 and third arc tube 113, sets the three-way solenoid valve as the first three-way solenoid valve 151, and
The outlet of one three-way solenoid valve 151 is connected to by connecting manifold module 2 with dirty oil tank 33, and the first oil blending test device group further includes
Two tee tubes of sequential concatenation, respectively the first tee tube 141 and the second threeway in the counterclockwise direction on third arc tube 113
The entrance of pipe 142, the first tee tube 141 is connected to by connection manifold module 2 with the first test oil product fuel tank 311, the second threeway
The entrance of pipe 142 is connected to by connection manifold module 2 with the second test oil product fuel tank 312;From the two or three on third arc tube 113
Siphunculus 142 concatenates one group of contaminated product parameter measuring apparatus 12 in the counterclockwise direction;Set the electricity that the second oil blending test device group includes
Magnetic shut-off valve is the second electromagnet cut off valve 132, and the other end of third arc tube 113 passes through the second electromagnet cut off valve 132 and the 4th
Arc tube 114 is connected to;Second oil blending test device group further includes the other end and the first arc tube for being connected to the 4th arc tube 114
The three-way solenoid valve of 111 other end, sets the three-way solenoid valve as the second three-way solenoid valve 152, the second three-way solenoid valve 152
Outlet by connect manifold module 2 be connected to dirty oil tank 33, the second oil blending test device group further includes on the first arc tube 111
Two tee tubes of sequential concatenation, respectively the 4th tee tube 144 and third tee tube 143 in the counterclockwise direction, third threeway
The entrance of pipe 143 is connected to by connection manifold module 2 with the first test oil product fuel tank 311, and the entrance of the 4th tee tube 144 passes through
Connection manifold module 2 is connected to the second test oil product fuel tank 312;From the 4th tee tube 144 along counterclockwise on first arc tube 111
Direction concatenates one group of contaminated product parameter measuring apparatus 12.First electromagnet cut off valve 131 and the second electromagnet cut off valve 132 are radially symmetrical
Setting, the first three-way solenoid valve 151 and the second three-way solenoid valve 152 are radially symmetrical arranged, and the first three-way solenoid valve 151 is located at
At 90 ° of positions counterclockwise of first electromagnet cut off valve 131, the second three-way solenoid valve 152 is located at the inverse of the second electromagnet cut off valve 132
At 90 ° of positions of hour hands.
Connecting manifold module 2 includes two oil inlet tube passages, is respectively set as the first oil inlet tube passage 211 and the second oil inlet
Tube passage 212 offers the outlet 2111 of the first oil product and the second oil product outlet 2112, the first oil on first oil inlet tube passage 211
First connecting tube overflow valve 231 is set at product outlet 2111, second connecting tube overflow valve is set at the second oil product outlet 2112
232, the oil product entrance of the first oil inlet tube passage 211 is set as the first oil product entrance 2113, and the first oil product exports 2111 and first
The entrance of tee tube 141 is connected to, and the second oil product outlet 2112 is connected to the entrance of third tee tube 143, the first oil product entrance
2113 are connected to the booster pump 32 for being connected to setting on the first test oil product fuel tank 311;Is offered on second oil inlet tube passage 212
The outlet 2121 of three oil products and the 4th oil product outlet 2122, third oil product, which exports, is arranged third connecting tube overflow valve 233 at 2121, the
The 4th connecting tube overflow valve 234 is set at four oil products outlet 2122, sets the oil product entrance of the second oil inlet tube passage 212 as second
Oil product entrance 2123, third oil product outlet 2121 are connected to the entrance of the second tee tube 142, the 4th oil product outlet 2122 and the 4th
The entrance of tee tube 144 is connected to, and the booster pump 32 of setting is connected on the second oil product entrance 2123 and the second test oil product fuel tank 312
Connection;Connection manifold module 2 further includes an oil extraction tube passage 22, two waste oil entrances 221 of setting on oil extraction tube passage 22, and two
A waste oil entrance 221 outlet with the first three-way solenoid valve 151, the second three-way solenoid valve 152 respectively, oil extraction tube passage
Waste oil outlet 222 is connected to setting with dirty oil tank 33.
Flowmeter 121, coloration tester 122, temperature inductor 123, the first electromagnet cut off valve 131, the cut-off of the second electromagnetism
Valve 132, the first three-way solenoid valve 151, the second three-way solenoid valve 152, the first connecting tube overflow valve 231, the second connecting tube overflow
Valve 232, third connecting tube overflow valve 233, the 4th connecting tube overflow valve 234 and each booster pump overflow valve 34 and data acquisition and control
Molding block is connected.
As shown in Fig. 1, Fig. 6, the test process of the specific embodiment of the invention is as follows:
Before on-test, the first electromagnet cut off valve 131 and the second electromagnet cut off valve 132 are closed, the first three-way solenoid valve
151, the outlet of the second three-way solenoid valve 152 is in closed state, the second connecting tube overflow valve 232 and third connecting tube overflow
Valve 233 is closed, and the first connecting tube overflow valve 231, the 4th connecting tube overflow valve 234 and each booster pump overflow valve 34 are in unlatching
State, the first test oil product fuel tank 311 of starting and the second test coconnected booster pump 32 of oil product fuel tank 312, the first test oil
Test oil product (being set as the first oil product) in product fuel tank 311 enters examination through the first oil inlet tube passage 211, the first tee tube 141
It tests in the second arc tube 112 and third arc tube 113 of circuit 11, the test oil product (setting in the second test oil product fuel tank 312
For the second oil product) enter the 4th arc tube 114 and the of test track 11 through the second oil inlet tube passage 212, the 4th tee tube 144
In one arc tube 111, the first oil product is full of the 4th arc tube full of the second arc tube 112 and third arc tube 113, the second oil product
114 and first after arc tube 111, stops two booster pumps 32, closes the first connecting tube overflow valve 231, the 4th connecting tube overflow
Valve 234.Flowmeter 121, coloration tester 122 and the temperature inductor 123 of two groups of contaminated product parameter measuring apparatus 12 are online in real time
Measurement is respectively measured the initial condition parameters of the first oil product and the second oil product before starting oil blending test and by measurement result
It is transferred to data acquisition and control module.
Start oil blending test, the first electromagnet cut off valve 131 and the second electromagnet cut off valve 132 is first turned on, in the first electromagnetism
The first batching interface (when flowing in the counterclockwise direction, the first oil product is preceding, and the second oil product is rear), In are formed at shut-off valve 131
The second batching interface is formed at second electromagnet cut off valve 132, sets the first batching interface to test the batching interface to be observed.
The second test coconnected booster pump 32 of oil product fuel tank 312 and the 4th connecting tube overflow valve 234 are opened, is opened simultaneously
The outlet of second three-way solenoid valve 152, the second oil product is under the action of booster pump 32 through the second oil inlet tube passage the 212, the 4th 3
Siphunculus 144 enters the first arc tube 111, outlet of the part test oil product through the second three-way solenoid valve 152 under differential pressure action, row
Oil pipe channel 22 flows out to dirty oil tank 33, and the test oil product in entire test track 11 is turned counterclockwise under differential pressure action
It is dynamic;
After the first batching interface reaches the first three-way solenoid valve 151, it is coconnected to close the second test oil product fuel tank 312
Booster pump 32 and the 4th connecting tube overflow valve 234 are opened the coconnected booster pump 32 and second of the first test oil product fuel tank 311 and are connected
Adapter tube overflow valve 232, the first oil product enter under the action of booster pump 32 through the first oil inlet tube passage 211, third tee tube 143
First arc tube 111, outlet, oil extraction tube passage 22 outflow of the part oil product through the second three-way solenoid valve 152 under differential pressure action
To dirty oil tank 33, the test oil product in entire test track 11 continues to rotate counterclockwise under differential pressure action;
After the first batching interface reaches the second electromagnet cut off valve 132, close the second three-way solenoid valve 152 outlet, the
The one test coconnected booster pump 32 of oil product fuel tank 311 and the second connecting tube overflow valve 232 open the second test oil product fuel tank
312 coconnected booster pumps 32 and third connecting tube overflow valve 233, while the outlet of the first three-way solenoid valve 151 is opened, second
Oil product enters third arc tube 113, part through the second oil inlet tube passage 212, the second tee tube 142 under the action of booster pump 32
Outlet of the oil product through the first three-way solenoid valve 151 under differential pressure action, oil extraction tube passage 22 flow out to dirty oil tank 33, entire to test
Test oil product in circuit 11 continues to rotate counterclockwise under differential pressure action;
After the first batching interface reaches the second three-way solenoid valve 152, it is coconnected to close the second test oil product fuel tank 312
Booster pump 32 and third connecting tube overflow valve 233 are opened the coconnected booster pump 32 and first of the first test oil product fuel tank 311 and are connected
Adapter tube overflow valve 231, the first oil product enter third arc tube 113, part through the first oil inlet tube passage 211, the first tee tube 141
Test outlet of the oil product through the first three-way solenoid valve 151 under differential pressure action, oil extraction tube passage 22 flows out to dirty oil tank 33, entirely
Test oil product in test track 11 continues to rotate counterclockwise under differential pressure action, when the first batching interface turns to first
When at electromagnet cut off valve 131, each valve is in the state at the beginning of test, completes a contaminated product circulation.
During first batching interface rotates counterclockwise, since the first oil product and the second oil product are further during rotation
It mixing, the coloration at the first batching interface changes, and experimenter can observe through transparent arc tube at any time, and two groups
In flowmeter 121, coloration tester 122 and the online the real time measure of temperature inductor 123 of contaminated product parameter measuring apparatus 12 flow through
Flow, coloration and the temperature of the test oil product in portion, and each parameter is transferred to data acquisition and control module.
Aforementioned operation can be circuited sequentially, by contaminated product color and Density Detection, is finally obtained at any time according to test demand
Between in change procedure mixed contamination plug length variation, and different section contaminated products the batching interfaces such as mixing proportion the rule of development.
From the above mentioned, Batch Transportation batching interface rule of development experimental rig of the invention has following beneficial to effect
Fruit:
(1) oil blending test module, connection in Batch Transportation batching interface rule of development experimental rig of the invention
Manifold module and the layering of oil product memory module are arranged, the proving ring in booster pump and oil blending test module in oil product memory module
Road is separately positioned, avoids influence of pump disturbance when booster pump pump oil to contaminated product parameter, improves test accuracy;
(2) in Batch Transportation batching interface rule of development experimental rig of the invention, using the side of test track
Formula carries out oil product mixing, can satisfy the requirement of long distance delivery test measurement, and the bending radius of test track is larger, in
Influence with the centrifugal force and centripetal force in test oil product flow process to contaminated product parameter, further to improve test accurate
Degree;
(3) in Batch Transportation batching interface rule of development experimental rig of the invention, test track is by multistage
The smooth transparent arc tube of wall, which is connected to, to be constituted, and each transparent arc tube is all made of transparent toughened glass pipe, can intuitively observe examination
The flow condition and color change for testing test oil product in circuit, realize from the angle of coloration and determine sequentially-fed product oil
The change of mixture spread in the process, coloration is more sensitive, so that Batch Transportation batching interface of the invention develops rule
The test accuracy of rule experimental rig further increases;The inner wall smooth of transparent arc tube avoids disturbance of the tube wall to contaminated product, so that
The contaminated product Experiment Parameter precision that present apparatus test measures further increases;
(4) Batch Transportation batching interface rule of development experimental rig structure of the invention is simple, easy to operate, benefit
In popularization and application.
The foregoing is merely the schematical specific embodiment of the present invention, the range being not intended to limit the invention.It is any
Those skilled in the art, made equivalent changes and modifications under the premise of not departing from design and the principle of the present invention,
It should belong to the scope of protection of the invention.