CN205067213U - Automatic control structure of varying in airtight high -pressure reacting chamber - Google Patents
Automatic control structure of varying in airtight high -pressure reacting chamber Download PDFInfo
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- CN205067213U CN205067213U CN201520868650.8U CN201520868650U CN205067213U CN 205067213 U CN205067213 U CN 205067213U CN 201520868650 U CN201520868650 U CN 201520868650U CN 205067213 U CN205067213 U CN 205067213U
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- tray
- backstay
- pivot
- elevating lever
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Abstract
The utility model provides an automatic control structure of varying in airtight high -pressure reacting chamber, includes workstation elevating system, holds a set rotary mechanism, holds a set positioning mechanism. Workstation elevating system includes the lifter, and the lifter top is equipped with the support, and driving motor is connected to the lifter. Holding set rotary mechanism and including the holding set of multiple layer distribution, pivot frame and pivot control motor, each holds the dish and installs on the pivot frame, holds the dish and can revolute a frame and rotate with the pivot, and pivot frame and pivot are fixed is in the same place just through pivot connection control motor. Each holds the dish has a plurality of round holes and an opening along the distribution of excircle week, and each round hole all is furnished with a cushion cap of placing the sample, corresponding a plurality of round holes and seted up the locating hole along holding in the dish circumference. Hold set positioning mechanism including fixing at the first locating lever at pressure chamber top and the second locating lever of bottom. The utility model discloses the realization uninterrupted and do not influence under the prerequisite of pressure chamber normal water - rock effect, and it carries out unipolar or rheology compression test to change the rock specimen automatically.
Description
Technical field
The utility model relates to the rock mechanics experiment field in civil engineering work, specifically a kind of control structure of automatic sample-changing in enclosed high pressure reaction chamber.
Background technology
Rock mechanics experiment is the important means of study of rocks mechanics and engineering, and the key of carrying out rock mechanics experiment is then will the farthest real bearing state of simulation rock and Environmental effect.In Practical Project practice, a large amount of geotechnical engineering problems needs to understand the change of mechanical property rule of rock under the action of soaking such as various aqueous solution, chemical solution and mechanism.To build up and the Three Gorges Dam of retaining, along with the adjustment of Various Seasonal reservoir level, there is water-rock effect in storehouse bank rock, mechanism wherein and characteristic are significant safely to reservoir stability under conditions of differential pressure incessantly.In order to simulate the water-rock mechanism of storehouse, certain depth place bank rock more truly, design one is needed to soak the confined reaction room of rock, apply certain water pressure in the reaction chamber simultaneously, then carry out the immersion of different cycles under this condition, finally directly in the reaction chamber uniaxial compression test or the test of uniaxial compression stream variable compression are carried out to the rock sample after immersion; Or load application carries out uniaxial compression test or uniaxial compression rheological test in immersion process simultaneously.Simultaneously, in rock mechanics experiment, often to carry out the test of many group rock samples, in order to reduce the impact of experimental enviroment on test findings, optimal situation realizes automatic sample-changing in reaction chamber, after a rock sample damages by pressure, automatically change another one rock sample, reaction chamber need not be opened and manually vary operation.Although at present scholars have carried out a lot of research in this respect, the test carried out based on this strict occurrence condition or study temporary transient or blank, has not had a kind of instrument can realize this function simultaneously yet.
Summary of the invention
In order to address this problem the demand meeting Practical Project, the utility model is on the basis of experimental instrument simulating water-rock interaction mechanism in reservoir water pressure state before, devise a kind of control structure of automatic sample-changing in enclosed high pressure reaction chamber, to realize not interrupting and under not affecting the prerequisite of pressure chamber Zhong Shui-rock effect, automatically changing rock sample and carry out single shaft or the test of stream variable compression.For water that is virtually reality like reality-rock effect better, obtain experimental data exactly, provide instrument more easily.
The technical scheme that the utility model adopts is:
A control structure for automatic sample-changing in enclosed high pressure reaction chamber, comprises worktable lifting mechanism, tray rotating mechanism, tray detent mechanism.Described worktable lifting mechanism comprises elevating lever, and elevating lever top is provided with bearing, and elevating lever connects drive motor, and described drive motor is for driving elevating lever at pressure indoor lifting.
Described tray rotating mechanism comprises shaft frame, controls the tray of motor, Multi-layers distributing, and each tray is arranged on shaft frame, and tray can framework and axis of rotation around the shaft, and shaft frame is by rotating shaft connection control motor; Each tray is distributed with multiple circular hole and an opening along excircle, and each circular hole is all furnished with the cushion cap that is placed sample; Correspond to multiple circular hole along tray inner periphery and offer pilot hole.
Described tray detent mechanism comprises and is fixed on first backstay at top, pressure chamber and the second backstay of bottom, backstay for insert tray pilot hole in fix tray.
Described backstay connects servomotor, described servomotor, drive motor, the equal connection control main frame of control motor.
Described tray is divided into three layers from top to bottom.
The control structure of a kind of automatic sample-changing in enclosed high pressure reaction chamber of the utility model, technique effect is as follows:
1), solve stress state in water-rock Effect study and an Environmental effect simulation difficult problem, more true and reliable test figure can be provided, and then optimize the analysis and prediction result of storehouse bank security protection.
2), multilayer tray of the present utility model and automatic sample-changing function, effectively can make up water-rock Experiment on Function cycle long shortcoming, greatly improve scientific research efficiency, also eliminate because of the error in different batches test caused by different operating simultaneously.
3), the utility model has the advantages that structure is simple, easy to operate, automaticity is high; The automatic sample-changing function in enclosed high pressure pressure chamber can be realized well, for the water-rock acting mechanism of research storehouse bank rock provides meticulousr test platform.
4), the utility model carries out water-rock interaction test with can realizing uninterrupted, noiseless (outside air), and then realizes the storehouse bank rock water under the different water pressure condition-rock effect of simulating certain depth more truly.
Accompanying drawing explanation
Fig. 1 is one-piece construction schematic diagram of the present utility model;
Fig. 2 is tray plan structure schematic diagram of the present utility model.
Wherein: 1-frame, 2-self-powered platform, 3-elevating lever, 4-bearing 4,5-rotating shaft, 6-controls motor, 7-tray, 8-cushion cap, 9-sample; 10-axial pressurizing device, 11-second backstay, 12-lateral deformation measuring device, 13-pilot hole, 14-plexi-glass tubular, 15-stainless-steel tube; 16-main control system, 17-opening, 18-circular hole, 19-shaft frame, 20-second backstay.
Embodiment
As shown in Figure 1 and Figure 2, a kind of control structure of automatic sample-changing in enclosed high pressure reaction chamber, comprises worktable lifting mechanism, tray rotating mechanism, tray detent mechanism.
Described worktable lifting mechanism comprises elevating lever 3, and elevating lever 3 top is provided with bearing 4, and elevating lever 3 connects drive motor, and described drive motor is slowly elevated in pressure chamber for driving elevating lever 3.Elevating lever 3 is made up of the specific steel of high strength high rigidity, and the diameter of elevating lever 3 is 50mm, and the diameter of bearing 4 is 60mm.
Described pressure chamber comprises outer field: the stainless-steel tube 15 of external diameter 640mm, thick 10mm; Internal layer: the plexi-glass tubular 14 of external diameter 640mm, thick 20mm.
Frame 1 is provided with self-powered platform 2, elevating lever 3 is arranged on self-powered platform 2.
Side, described pressure chamber is provided with lateral deformation measuring device 12, and this device is displacement transducer and the waterproof case composition of 5mm primarily of range, is connected with main control system 16.
Top, described pressure chamber is provided with axial pressurizing device 10, and this device is made up of servo-hydraulic power source, displacement transducer, force snesor, stroke sensor, can lump sum acquisition as required, is controlled by main control system 16.
Described tray rotating mechanism comprises tray 7 and the shaft frame 19 of Multi-layers distributing, and tray 7 is made up of the steel plate of diameter 350mm thickness 10mm.
Each tray 7 is arranged on shaft frame 19, tray 7 can rotate around the shaft in framework 19 and rotating shaft 5, shaft frame 19 and rotating shaft 5 are fixed together and by rotating shaft 5 connection control motor 6, when the first backstay 11, second backstay 20 does not insert in the pilot hole 13 of tray 7, tray 7 can rotate together with shaft frame 19; Each tray 7 is distributed with circular hole 18 and a diameter 75mm opening 17 of 11 diameter 65mm along excircle, and each circular hole 18 is all furnished with the cushion cap 8 that is placed sample 9, and cushion cap 8 upper diameter is 70mm; Correspond to 11 circular holes 18 along tray 7 inner periphery and offer 11 pilot holes 13.
Described tray detent mechanism comprise the first backstay 11, second backstay 20, first backstay 11, second backstay 20 of being fixed on top, pressure chamber for insert tray 7 pilot hole 13 in fix tray 7.
The utility model preferred embodiments: tray 7 is divided into three layers from top to bottom: ground floor tray, second layer tray, third layer tray.
A method for automatic sample-changing in enclosed high pressure reaction chamber, comprises the following steps:
Step 1: first by controlling motor 6 rotating shaft framework 19 and tray 7, when the opening 17 of third layer tray aims at elevating lever 3, regulate the second backstay 20 with fixing third layer tray; Then continue through and control motor 6 rotating shaft framework 19 and first and second layer of tray, make the opening of second layer tray aim at elevating lever 3, and fix second and third layer of tray by adjustment second backstay 20; Finally by control motor 6 rotating shaft framework 19 and ground floor tray, make arbitrary circular hole 18 of ground floor tray aim at elevating lever 3, and fix ground floor tray by adjustment first backstay 11.
Step 2: control to make cushion cap 8, the sample 9 of elevating lever 3 upwards on jack-up ground floor tray, then carry out single shaft or rheological test;
Step 3: after sample 9 destroys, fall elevating lever 3, cushion cap 8 is playbacked, then regulate the first backstay 11, and regulate ground floor tray by controlling motor 6, by step 2, single shaft or rheological test are carried out to second sample, by that analogy, until the sample on ground floor tray is all finished;
Step 4: after the sample on ground floor tray is finished, first adjusts the first backstay 11 and makes the opening 17 of ground floor tray aim at elevating lever 3 by controlling motor 6, then fixing ground floor tray by the first backstay 11; Adjust the second backstay 20 again and discharge second layer tray, making arbitrary circular hole 18 of second layer tray aim at elevating lever 3 by controlling motor 6, fixing first and second layer of tray finally by the first backstay 11;
Step 5: with reference to step 2, step 3, the sample on second layer tray is tested respectively;
Step 6: after the sample on second layer tray is finished, regulate the first backstay 11 and the second backstay 20 respectively, make the opening 17 of second layer tray and arbitrary circular hole 18 of ground floor tray aim at elevating lever 3, and fix first and second layer of tray and third layer tray respectively with the first backstay 11 and the second backstay 20;
Step 7: with reference to step 2, step 3, the sample on third layer tray is tested respectively.
Described first backstay 11, second backstay 20 connects servomotor respectively, described servomotor, drive motor, control motor 6 all connection control main frames 16.Above in steps in adjustment and steering order all can be sent by main control system 16.
Control structure in the utility model, by the cooperation of worktable lifting mechanism, tray rotating mechanism, tray detent mechanism, automatically completes the replacing of sample in the space of enclosed high pressure.Worktable lifting mechanism part in this control structure is positioned at pressure chamber, has both possessed sample presentation function, also acts as the bearing base in single shaft or rheological test.Tray rotating mechanism in this control structure controls motor by 3 layers of tray, shaft frame and rotating shaft and forms, it should be noted that, combined cleverly by this, not only achieve the automatic sample-changing function of total, but also drastically increase the efficiency of this kind of long period test.
Claims (3)
1. the control structure of an automatic sample-changing in enclosed high pressure reaction chamber, comprise worktable lifting mechanism, tray rotating mechanism, tray detent mechanism, it is characterized in that, described worktable lifting mechanism comprises elevating lever (3), elevating lever (3) top is provided with bearing (4), elevating lever (3) connects drive motor, and described drive motor is for driving elevating lever (3) at pressure indoor lifting; Described tray rotating mechanism comprises shaft frame (19), controls the tray (7) of motor (6), Multi-layers distributing, each tray (7) is arranged on shaft frame (19), tray (7) can rotate around the shaft in framework (19) and rotating shaft (5), and shaft frame (19) is by rotating shaft (5) connection control motor (6); Each tray (7) is distributed with multiple circular hole (18) and an opening (17) along excircle, and each circular hole (18) is all furnished with the cushion cap (8) that is placed sample (9); Correspond to multiple circular hole (18) along tray (7) inner periphery and offer pilot hole (13); Described tray detent mechanism comprises and is fixed on first backstay (11) at top, pressure chamber and second backstay (20) of bottom, the first backstay (11), the second backstay (20) for insert tray (7) pilot hole (13) in fix tray (7).
2. the control structure of a kind of automatic sample-changing in enclosed high pressure reaction chamber according to claim 1, it is characterized in that, described first backstay (11), the second backstay (20) connect servomotor, described servomotor, drive motor, control motor (6) all connection control main frames (16).
3. the control structure of a kind of automatic sample-changing in enclosed high pressure reaction chamber according to claim 1, it is characterized in that, described tray (7) is divided into three layers from top to bottom.
Priority Applications (1)
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CN201520868650.8U CN205067213U (en) | 2015-11-04 | 2015-11-04 | Automatic control structure of varying in airtight high -pressure reacting chamber |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105259023A (en) * | 2015-11-04 | 2016-01-20 | 三峡大学 | Control structure for automatically changing samples in closed high-pressure reaction chamber and automatic sample changing method |
CN108333055A (en) * | 2018-05-07 | 2018-07-27 | 中国科学院武汉岩土力学研究所 | Wheeled rock mechanics triaxial tester, pilot system and test method |
-
2015
- 2015-11-04 CN CN201520868650.8U patent/CN205067213U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105259023A (en) * | 2015-11-04 | 2016-01-20 | 三峡大学 | Control structure for automatically changing samples in closed high-pressure reaction chamber and automatic sample changing method |
CN105259023B (en) * | 2015-11-04 | 2017-11-10 | 三峡大学 | The control structure and automatic sample-changing method of a kind of automatic sample-changing in enclosed high pressure reative cell |
CN108333055A (en) * | 2018-05-07 | 2018-07-27 | 中国科学院武汉岩土力学研究所 | Wheeled rock mechanics triaxial tester, pilot system and test method |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20160302 Termination date: 20171104 |