CN205804426U - Concrete block bank protection stability against sliding experimental provision - Google Patents
Concrete block bank protection stability against sliding experimental provision Download PDFInfo
- Publication number
- CN205804426U CN205804426U CN201620537864.1U CN201620537864U CN205804426U CN 205804426 U CN205804426 U CN 205804426U CN 201620537864 U CN201620537864 U CN 201620537864U CN 205804426 U CN205804426 U CN 205804426U
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- CN
- China
- Prior art keywords
- rectangular frame
- domatic
- gripper shoe
- simulation
- scale chi
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- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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- Pit Excavations, Shoring, Fill Or Stabilisation Of Slopes (AREA)
Abstract
Concrete block bank protection stability against sliding experimental provision, including domatic simulation gripper shoe, the first support and the second support being positioned at the first internal stent, first cradle top level is provided with the first rectangular frame, second cradle top level is provided with the second rectangular frame, on the right side of domatic simulation gripper shoe by hinge on the right side of the second rectangular frame, on the left of domatic simulation gripper shoe, upper surface is provided with fixed block, and the first rectangular frame is provided with the gradient regulation power-driven mechanism being connected with fixed block.This utility model simple in construction, easily operated, simulate effective, provide good data supporting for civil construction, to adapt to use different slope protection concrete and the construction operation of vegetation under varying environment, it is ensured that the quality of construction.
Description
Technical field
This utility model belongs to concrete experiments technical field, particularly relates to a kind of concrete block bank protection stability against sliding real
Experiment device.
Background technology
Bank protection refers to as preventing side slope from being washed away, the various general designations paved and plant done on domatic.Bank protection
It can be generally divided into two kinds by function: (A) is only weathering resistance and the slope protection work of antiscour, and this protection work is not subject to lateral soil
Pressure, such as shotcrete bank protection, gridiron plant growing protection slope, plant growing protection slope etc. all belongs to this type of, be only applicable to mild and stablize fricton-tight it
In the side slope of anxiety.(B) the gear soil bank protection of skid resistance is provided, substantially can divide into: (a) rigidity dead-weight retaining wall is (such as: stone-laying
Retaining wall, gravity retaining wall, lean on wall type retaining wall, cantilever retaining wall, counterfort wall), (b) flexible dead-weight gear
Cob wall (such as: gabion retaining wall, crib retaining wall, formula of putting more energy into retaining wall), (c) anchor Rods In Tied Double Retaining Walls is (such as: the pull-type lattice beam of anchor
Retaining wall, anchor pull-type campshed retaining wall).
Existing bank protection only has the domatic or single anti-of weathering resistance and antiscour in structure if it were not for single
The gear soil bank protection of sliding power, even if the design the two combined simply effect the most in actual applications is poor.Also there are many places
Using and lay concrete protective slope structure, use concrete revetment, although cost is high, but stability against sliding is strong, weather resistance
Can be excellent, but not yet have experimental provision that stability against sliding and the weather resistance of concrete can be carried out reality at laboratory at present
Testing, experimental result is for adjusting the proportioning of concrete to be applicable to the slope protection construction operation of different gradient and different regions.
Utility model content
This utility model is in order to solve weak point of the prior art, it is provided that a kind of simple in construction, easily operated, simulation
The concrete block bank protection stability against sliding experimental provision that validity is high, experiment effect is good.
For solving above-mentioned technical problem, this utility model adopts the following technical scheme that concrete block bank protection stability against sliding
Experimental provision, including domatic simulation gripper shoe, the first support and the second support being positioned at the first internal stent, the first cradle top
Level is provided with the first rectangular frame, and the second cradle top level is provided with the second rectangular frame, passes through on the right side of domatic simulation gripper shoe
Hinge is on the right side of the second rectangular frame, and on the left of domatic simulation gripper shoe, upper surface is provided with fixed block, on the first rectangular frame
It is provided with the gradient regulation power-driven mechanism being connected with fixed block;
Be provided with horizontal scale chi on front side of second rectangular frame along left and right horizontal direction, the zero graduation of horizontal scale chi is positioned at hinge
Chain center, is hung with flexible scale chi on the left of domatic simulation gripper shoe, flexible scale chi sets with horizontal scale chi square crossing,
Flexible scale chi lower end is provided with weight, and the zero graduation of flexible scale chi is positioned at the front side portion of domatic simulation gripper shoe.
Gradient regulation power-driven mechanism includes slide rail, drives motor, active synchronization wheel, driven synchronization to take turns and hoist engine,
Slide rail arranges on the first rectangular frame along left and right horizontal direction, and slide rail slides is provided with slide, and hoist engine is located on slide, drives
The main shaft of motor is in transmission connection with active synchronization wheel, and active synchronization wheel is located on the right side of the first rectangular frame, and driven synchronization wheel is located at
On the left of first rectangular frame, between active synchronization wheel and driven synchronization wheel, transmission is provided with Timing Belt, and the slide left and right sides is with synchronization
The latter half of band connects, and hoist engine is wound with lifting rope, and lifting rope lower end is connected with fixed block.
Domatic simulation gripper shoe lower surface is provided with at least one reinforcement gusset in left-right direction.
Use technique scheme, in advance concrete is made the concrete sash block in positive six limit annulars, by domatic mould
Intend support plate upper surface elder generation uniform spreading last layer soil, soil layer tamped, then concrete sash block is uniformly placed on soil layer,
The vegetation of filling tape soil in concrete sash block.
The process carrying out stability against sliding experiment is as follows: starts and drives motor, drives driven by motor active synchronization wheel to rotate,
Active synchronization wheel drives the hoist engine on slide and slide to move along slide rail by Timing Belt, also starts hoist engine, elevator simultaneously
Machine is sling domatic simulation gripper shoe by lifting rope;Along with being raised above on the left of domatic simulation gripper shoe, inclination angle is increasing, when going out
When existing concrete sash block slide downward or soil layer slide downward, record and intersect between flexible scale chi and horizontal scale chi
Numerical value, so can calculate the slope ratio of bank protection.Further, since lifting rope is soft, domatic simulation gripper shoe can be rocked, in order to increase
The stability of strong domatic simulation gripper shoe, can arrange stability maintenance support on the second rectangular frame, along with domatic simulation gripper shoe with
The increase of horizontal plane angle, mobile stability maintenance support contacts with domatic simulation gripper shoe lower surface all the time.
Strengthen the setting of gusset, the weight capacity of domatic simulation gripper shoe can be improved.
In sum, this utility model simple in construction, easily operated, simulate effective, for civil construction provide good
Data supporting, the different slope protection concrete of employing in (north that south that rainwater is many is few with rainwater) and planting adapting under varying environment
The construction operation of quilt, it is ensured that the quality of construction.
Accompanying drawing explanation
Fig. 1 is structural representation of the present utility model.
Detailed description of the invention
As it is shown in figure 1, concrete block bank protection stability against sliding experimental provision of the present utility model, support including domatic simulation
Plate the 1, first support 2 and be positioned at the second support 3 within the first support 2, the first support 2 top horizontal is provided with the first rectangular frame
4, the second support 3 top horizontal is provided with the second rectangular frame 5, by hinge at the second square on the right side of domatic simulation gripper shoe 1
On the right side of shape framework 5, on the left of domatic simulation gripper shoe 1, upper surface is provided with fixed block 6, and the first rectangular frame 4 is provided with and fixed block 6
The gradient regulation power-driven mechanism connected;
It is provided with horizontal scale chi 7, the zero graduation position of horizontal scale chi 7 along left and right horizontal direction on front side of second rectangular frame 5
At hinge centres, being hung with flexible scale chi 8 on the left of domatic simulation gripper shoe 1, flexible scale chi 8 hangs down with horizontal scale chi 7
Orthogonal fork sets, and flexible scale chi 8 lower end is provided with weight 9, before the zero graduation of flexible scale chi 8 is positioned at domatic simulation gripper shoe 1
Sidepiece.
The gradient regulation power-driven mechanism include slide rail 10, drive motor (figure is not illustrated out), active synchronization wheel 11,
Driven synchronization wheel 12 and hoist engine 13, slide rail 10 arranges on the first rectangular frame 4 along left and right horizontal direction, and slide rail 10 slides to be set
Having slide 14, hoist engine 13 to be located on slide 14, drive the main shaft of motor to be in transmission connection with active synchronization wheel 11, active synchronization is taken turns
11 are located on the right side of the first rectangular frame 4, and the driven wheel that synchronizes 12 is located on the left of the first rectangular frame 4, active synchronization wheel 11 and driven
Synchronizing transmission between wheel 12 and be provided with Timing Belt 15, slide 14 left and right sides is connected with the latter half of Timing Belt 15, hoist engine 13
On be wound with lifting rope 16, lifting rope 16 lower end is connected with fixed block 6.
Domatic simulation gripper shoe 1 lower surface is provided with at least one reinforcement gusset 17 in left-right direction.
Concrete on pretreatment, is made the concrete sash block in positive six limit annulars, by domatic by this utility model in advance
Simulation gripper shoe 1 upper surface elder generation uniform spreading last layer soil, tamps soil layer, then concrete sash block is uniformly placed into soil layer
On, the vegetation of filling tape soil in concrete sash block.
The process carrying out stability against sliding experiment is as follows: starts and drives motor, drives driven by motor active synchronization to take turns 11 turns
Dynamic, active synchronization wheel 11 drives the hoist engine 13 on slide 14 and slide 14 to move along slide rail 10 by Timing Belt 15, the most also
Starting hoist engine 13, hoist engine 13 is sling domatic simulation gripper shoe 1 by lifting rope 16;Along with on the left of domatic simulation gripper shoe 1 to
Being raised, inclination angle is increasing, when there is concrete sash block slide downward or soil layer slide downward, records flexible quarter
The numerical value intersected between degree chi 8 and horizontal scale chi 7, so can calculate the slope ratio of bank protection.Further, since lifting rope 16 is soft
Soft, domatic simulation gripper shoe 1 can be rocked, in order to strengthen the stability of domatic simulation gripper shoe 1, and can be on the second rectangular frame 5
Arranging stability maintenance support 18, along with the increase of domatic simulation gripper shoe 1 with horizontal plane angle, mobile stability maintenance support 18 is all the time with domatic
Simulation gripper shoe 1 lower surface contact.
Shape of the present utility model, material, structure etc. are not made any pro forma restriction by above-described embodiment, every depend on
Any simple modification, equivalent variations and the modification made above example according to technical spirit of the present utility model, belongs to this
The protection domain of utility model technical scheme.
Claims (3)
1. concrete block bank protection stability against sliding experimental provision, it is characterised in that: include domatic simulation gripper shoe, the first support and
Being positioned at the second support of the first internal stent, the first cradle top level is provided with the first rectangular frame, the second cradle top level
Being provided with the second rectangular frame, on the right side of domatic simulation gripper shoe by hinge on the right side of the second rectangular frame, domatic simulation is propped up
On the left of fagging, upper surface is provided with fixed block, and the first rectangular frame is provided with the gradient regulation power-driven machine being connected with fixed block
Structure;
Be provided with horizontal scale chi on front side of second rectangular frame along left and right horizontal direction, the zero graduation of horizontal scale chi is positioned in hinge
At the heart, being hung with flexible scale chi on the left of domatic simulation gripper shoe, flexible scale chi sets with horizontal scale chi square crossing, flexible
Rule lower end is provided with weight, and the zero graduation of flexible scale chi is positioned at the front side portion of domatic simulation gripper shoe.
Concrete block bank protection stability against sliding experimental provision the most according to claim 1, it is characterised in that: gradient regulation is dynamic
Power drive mechanism includes slide rail, drives motor, active synchronization wheel, driven synchronization to take turns and hoist engine, and slide rail is along left and right horizontal direction
Arranging on the first rectangular frame, slide rail slides is provided with slide, and hoist engine is located on slide, drives the main shaft of motor with the most same
Step wheel is in transmission connection, and active synchronization wheel is located on the right side of the first rectangular frame, and driven synchronization wheel is located on the left of the first rectangular frame, main
Between dynamic synchronization wheel with driven synchronization wheel, transmission is provided with Timing Belt, and the slide left and right sides is connected with the latter half of Timing Belt, volume
Raising and be wound with lifting rope on machine, lifting rope lower end is connected with fixed block.
Concrete block bank protection stability against sliding experimental provision the most according to claim 1, it is characterised in that: domatic simulation is propped up
Fagging lower surface is provided with at least one reinforcement gusset in left-right direction.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620537864.1U CN205804426U (en) | 2016-06-06 | 2016-06-06 | Concrete block bank protection stability against sliding experimental provision |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620537864.1U CN205804426U (en) | 2016-06-06 | 2016-06-06 | Concrete block bank protection stability against sliding experimental provision |
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CN205804426U true CN205804426U (en) | 2016-12-14 |
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CN201620537864.1U Expired - Fee Related CN205804426U (en) | 2016-06-06 | 2016-06-06 | Concrete block bank protection stability against sliding experimental provision |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112924129A (en) * | 2021-03-16 | 2021-06-08 | 中铁西北科学研究院有限公司 | Multi-dimensional large-scale simulation test equipment for impact response of high-order dangerous rock protective structure |
-
2016
- 2016-06-06 CN CN201620537864.1U patent/CN205804426U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112924129A (en) * | 2021-03-16 | 2021-06-08 | 中铁西北科学研究院有限公司 | Multi-dimensional large-scale simulation test equipment for impact response of high-order dangerous rock protective structure |
CN112924129B (en) * | 2021-03-16 | 2023-08-01 | 中铁西北科学研究院有限公司 | Impact response multi-dimensional large-scale simulation test equipment for high-order dangerous rock body protection structure |
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20161214 Termination date: 20170606 |
|
CF01 | Termination of patent right due to non-payment of annual fee |