CN209087235U - The modeling experiment in water tank device that high-efficiency water-saving can compare - Google Patents
The modeling experiment in water tank device that high-efficiency water-saving can compare Download PDFInfo
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- CN209087235U CN209087235U CN201821112490.4U CN201821112490U CN209087235U CN 209087235 U CN209087235 U CN 209087235U CN 201821112490 U CN201821112490 U CN 201821112490U CN 209087235 U CN209087235 U CN 209087235U
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Abstract
The utility model discloses a kind of modeling experiment in water tank device that high-efficiency water-saving can compare, and belongs to the applied technical field of experimental sedimentology in sedimentology.The utility model is mainly made of sink pond, collection chamber, material resource device bucket, material resource device bucket bracket, movable floor, movable floor lifting instrument, lifting instrument control-rod, vertical graduated scale, suction pump, water-supply-pipe, camera shooting bracket, coordinate graduated scale, filter screen, water inlet.The utility model provides two sets of experimental provisions in a sink equipment, the Experimental comparison of multiple groups experiment condition may be implemented, observe influence of the different experiments factor to deposition process and lithosomic body, effect is intuitive, avoid different condition is by stages secondary from carrying out single experiment, the many experiments time is saved, the risk of the failure of an experiment is reduced;Experiment wastewater is recycled by filter screen into collection chamber simultaneously, largely saves experimental water.
Description
Technical field
The utility model belongs to experimental sedimentology application field in sedimentology, and in particular to what a kind of high-efficiency water-saving can compare
Modeling experiment in water tank device.
Background technique
Deposition analog study starts from the late 19th century, has 100 years of researches courses so far.Famous experiment in the world
The foundation of room and perfect, so that sedimentological new theory is effectively verified and reproduced, promotes sedimentological rapid development.In
The deposition physical analogy of state starts from the 1990s, by deposition simulation, has inquired into the gradient of lake sloped region to delta
The quantitative evolving trend of braided stream-fan dalta under the control action and different lake water depth developed is formed, lake water depth is proposed
The new knowledge of degree control delta sandbody developmental morphology and progradation rate, system analog study alluvial fan, river, delta with
And gravitational flow deposits etc., the abundant of theory that improve and deposit for depositing physical simulation techniques for China are laid a good foundation.
Currently, deposition physical simulation experiment device is mostly single pond, single movable die bed etc., one group can only be carried out each issue
The experiment of experiment condition is primarily present three problems: first, lacking comparing for different experimental conditions;Second, when spending a large amount of
Between, risk of failure is big;Third, experiment wastewater recycles deficiency, the waste of experimental water is caused.
Summary of the invention
In view of the deficiency of the prior art, the utility model provides a kind of sink that high-efficiency water-saving can compare simulation
Experimental provision.
Used technical solution is the utility model in order to solve the above problem:
A kind of modeling experiment in water tank device that high-efficiency water-saving can compare, it include sink pond, collection chamber, material resource device bucket,
Material resource device bucket bracket, movable floor, movable floor lifting instrument, lifting instrument control-rod, vertical graduated scale, suction pump, water-supply-pipe,
Image bracket, coordinate graduated scale, filter screen, water inlet;The sink pond is by the first bypass channel pond, the second bypass channel pond and remittance
Pond composition;The collection chamber is arranged among the first bypass channel pond and the second bypass channel pond;The collection chamber front end two
There is water inlet in side;Liftable type movable floor is arranged at the bottom in the first bypass channel pond and the second bypass channel pond;Described can
Up-down movable bottom plate is by two movable floor lifting instrument supports;The movable floor lifting instrument is controlled by lifting instrument control-rod
Heave amplitude;The same side of material resource device bucket described in two in sink pond;The suction pump is mounted on two material resource devices
Between bucket, the suction pump is connect by water-supply-pipe with material resource device bucket and collection chamber.
Further, the sink pond all round closure, bottom are wedge shaped.
Further, the material resource device bucket bottom is material resource device bucket bracket.
Further, there are two image bracket, the camera shooting bracket and material resource device bucket for the side in the sink pond
Relatively.
Further, there is vertical graduated scale in the corner of the material resource device bucket side in the sink pond.
Further, coordinate graduated scale is installed on the pool wall in the first bypass channel pond and the second bypass channel pond.
Further, the water inlet is equipped with filter screen.
The beneficial effects of the utility model are: the utility model provides two sets of experimental provisions in a sink equipment,
The Experimental comparison of multiple groups experiment condition may be implemented, observe influence of the different experiments factor to lithosomic body, effect is intuitive, avoids not
With the condition single experiment of secondary progress by stages, many experiments time is saved, the risk of the failure of an experiment is reduced;Experiment wastewater warp simultaneously
Filter screen is crossed, into collection chamber, recycles, largely saves experimental water.
Detailed description of the invention
Fig. 1 is the structural schematic diagram of the utility model flume experiment device;
Fig. 2 is the diagrammatic cross-section of the utility model flume experiment device;
Fig. 3 is the diagrammatic cross-section of the utility model water inlet;
Wherein: 1, sink pond;1.1, the first bypass channel pond;1.2, the second bypass channel pond;2, collection chamber;3, material resource device
Bucket;4, material resource device bucket bracket;5, movable floor;6, movable floor goes up and down instrument;7, instrument control-rod is gone up and down;8, vertical graduated scale;
9, suction pump;10, water-supply-pipe;11, bracket is imaged;12, coordinate graduated scale;13, filter screen;14, water inlet.
Specific embodiment
The utility model will be further described below with reference to the accompanying drawings.
As shown in FIG. 1 to 3, the modeling experiment in water tank device that a kind of high-efficiency water-saving can compare, it includes sink pond 1, converges
Pond 2, material resource device bucket bracket 4, movable floor 5, movable floor lifting instrument 6, lifting instrument control-rod 7, is hung down at material resource device bucket 3
To graduated scale 8, suction pump 9, water-supply-pipe 10, camera shooting bracket 11, coordinate graduated scale 12, filter screen 13, water inlet 14.
1 all round closure of sink pond, bottom is wedge shaped, and the sink pond 1 is by the first bypass channel pond 1.1, second
Bypass channel pond 1.2 and collection chamber 2 form;The collection chamber 2 is arranged in the first bypass channel pond 1.1 and the second bypass channel pond 1.2
Centre, the front end of 2 two sidewalls of collection chamber do not contact with sink pond 1, forms water inlet 14;The water inlet 14 is pacified
Equipped with filter screen 13;Liftable type movable floor 5 is arranged at the bottom in the first bypass channel pond 1.1 and the second bypass channel pond 1.2;
The Liftable type movable floor 5 is supported by two movable floor lifting instrument 6;The movable floor lifting instrument 6 is by going up and down
Instrument control-rod 7 controls heave amplitude;Material resource device bucket 3 described in two is in the same side in sink pond 1, the material resource device bucket
3 bottoms are Liftable type material resource device bucket bracket 4;The suction pump 9 is mounted between two material resource device buckets 3, described
Suction pump 9 is connect by water-supply-pipe 10 with material resource device bucket 3 and collection chamber 2.
There are two image bracket 11 for the side in the sink pond 1;The camera shooting bracket 11 and 3 phase of material resource device bucket
It is right;Coordinate graduated scale 12 is designed at the top of four sides in the first bypass channel pond 1.1 and the second bypass channel pond 1.2;It is described
The corner of 3 side of material resource device bucket in sink pond 1 have vertical graduated scale 8;The vertical graduated scale 8 has angle and height
Double unit marks.
When carrying out the experiment of two groups of different experimental conditions, it is laid with deposition region first, the first bypass channel pond 1.1 is set separately
With 5 gradient of movable floor in the second bypass channel pond 1.2,3 valve of height and material resource device bucket of material resource device bucket bracket 4 it is big
It is small;Secondly, water, mud and sand drift go out material resource device bucket 3, in deposition region, generation unloads, deposits or continue to carry, carrying mud,
Husky experiment wastewater flows out deposition region, enters collection chamber 2 by spherical filter net 13, temporarily preserves.When material resource device bucket 3
When testing water deficiency, starts suction pump 9, supplied water by water-supply-pipe 10 to two material resource device buckets 3.It can by coordinate graduated scale 12
To observe the coordinate position on lithosomic body boundary and the planar dimension size of lithosomic body at any time.Adjustment camera shooting bracket 11 height and
Angle shoots the typical depositional phenomenon of the different kens or records typical deposition process.
The content that this specification is not described in detail belongs to the prior art well known to professional and technical personnel in the field.
Claims (7)
1. the modeling experiment in water tank device that a kind of high-efficiency water-saving can compare, it is characterised in that: it includes sink pond (1), collection chamber
(2), material resource device bucket (3), material resource device bucket bracket (4), movable floor (5), movable floor lifting instrument (6), lifting instrument control system
Bar (7), vertical graduated scale (8), suction pump (9), water-supply-pipe (10), camera shooting bracket (11), coordinate graduated scale (12), filter screen
(13), water inlet (14);The sink pond (1) is by the first bypass channel pond (1.1), the second bypass channel pond (1.2) and collection chamber
(2) it forms;Collection chamber (2) setting is intermediate in the first bypass channel pond (1.1) and the second bypass channel pond (1.2), described
Collection chamber (2) front end has water inlet (14);The bottom in the first bypass channel pond (1.1) and the second bypass channel pond (1.2) has
Liftable type movable floor (5);The Liftable type movable floor (5) is by two movable floor lifting instrument (6) supports;It is described
Movable floor lifting instrument (6) by lifting instrument control-rod (7) control heave amplitude;Material resource device bucket (3) is in water described in two
The same side of trough pool (1);The suction pump (9) is mounted between two material resource device buckets (3), and the suction pump (9) is logical
Water-supply-pipe (10) is crossed to connect with material resource device bucket (3) and collection chamber (2).
2. the modeling experiment in water tank device that a kind of high-efficiency water-saving according to claim 1 can compare, it is characterised in that: described
Sink pond (1) all round closure, bottom is wedge shaped.
3. the modeling experiment in water tank device that a kind of high-efficiency water-saving according to claim 1 can compare, it is characterised in that: described
Material resource device bucket (3) bottom be material resource device bucket bracket (4).
4. the modeling experiment in water tank device that a kind of high-efficiency water-saving according to claim 2 can compare, it is characterised in that: described
Sink pond (1) side there are two bracket (11) are imaged, the camera shooting bracket (11) and material resource device bucket (3) are opposite.
5. the modeling experiment in water tank device that a kind of high-efficiency water-saving according to claim 2 can compare, it is characterised in that: described
The corner of material resource device bucket (3) side in sink pond (1) have vertical graduated scale (8).
6. the modeling experiment in water tank device that a kind of high-efficiency water-saving according to claim 1 can compare, it is characterised in that: described
The first bypass channel pond (1.1) and the second bypass channel pond (1.2) pool wall on coordinate graduated scale (12) are installed.
7. the modeling experiment in water tank device that a kind of high-efficiency water-saving according to claim 1 can compare, it is characterised in that: described
Water inlet (14) filter screen (13) are installed.
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN114235650A (en) * | 2021-12-16 | 2022-03-25 | 中海石油(中国)有限公司 | Method and system for predicting distribution of hydrocarbon source rocks |
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2018
- 2018-07-13 CN CN201821112490.4U patent/CN209087235U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114235650A (en) * | 2021-12-16 | 2022-03-25 | 中海石油(中国)有限公司 | Method and system for predicting distribution of hydrocarbon source rocks |
CN114235650B (en) * | 2021-12-16 | 2023-11-10 | 中海石油(中国)有限公司 | Method and system for predicting distribution of hydrocarbon source rocks |
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