CN208459386U - A kind of geotechnical centrifuge modularization tension beam - Google Patents

Abstract

The utility model discloses a kind of geotechnical centrifuge modularization tension beams, including the first module, the second module and third module, first module is connect with rotation center, the inner end of two second modules is connect with the both ends of first module respectively, and the inner end of two third modules is connect with the outer end of two second modules respectively；A kind of geotechnical centrifuge modularization tension beam of the utility model uses the structure type of modularization assembling, solve the problems, such as that load is unreasonable under uneven, processing difficulties and centrifugal field using material properties caused by integral type tension beam, and the module of the size selection individual material properties according to the receiving centrifugal force of different operating position, the effect of each module can be given full play to, selects the material of disparate modules as needed.Since the size of individual module is smaller, it on the one hand can guarantee the quenched uniformity of raw material, on the other hand available process equipment is more, time saving and energy saving for an opposite whole tension beam.

Description

A kind of geotechnical centrifuge modularization tension beam

Technical field

The utility model relates to simulated experiment field more particularly to a kind of geotechnical centrifuge modularization tension beams.

Background technique

Geotechnical centrifuge is the important equipment for carrying out centrifuge modelling tests, is widely used in rock-soil mechanics research, Tu Gongjie The fields such as structure stability test and geological environment engineering simulation are the construction of geotechnical engineering, hydraulic engineering and geological environment engineering One basic test platform is provided.

According to the difference of structure type, geotechnical centrifuge can be mainly divided into two major classes: arm-type geotechnical centrifuge and drum-type Geotechnical centrifuge.Drum-type geotechnical centrifuge is mainly used for simulating continuous, homogeneous test model, and arm-type geotechnical centrifuge can be opened The trial stretch of exhibition is wider, the test model of simulation is bigger, therefore arm-type geotechnical centrifuge is centrifuged as domestic and international large geotechnical Mainstream model used by machine.

Pivoted arm is the critical component of arm-type geotechnical centrifuge, acceleration overload ring needed for providing test model by rotation Border.Pivoted arm is usually made of two tension beams, pivoted arm bearing, several positioning rings and standard component.

Important component of the tension beam as pivoted arm is mainly used for undertaking test model and auxiliary spare part in acceleration Overload generated centrifugal force and moment of flexure under environment.Currently, tension beam generallys use a whole raw material and is process.According to The difference of geotechnical centrifuge scale, the length of tension beam is generally by 1m to 20m etc., and cross section is generally circular in cross section or rectangle.Needle For the geotechnical centrifuge of g value big to overlength arm, if tension beam uses a whole raw material, length and cross sectional dimensions are all It can greatly increase, this will be modulated to the material parameter of raw material, and machine-shaping etc. brings very big challenge.

For g value geotechnical centrifuge big to overlength arm, tension beam is done using a whole raw material and is had the disadvantage in that

Tension beam cross sectional dimensions is too big, when to the quenched equal processing of raw material progress, in fact it could happen that material property is uneven The phenomenon that；

Tension beam length dimension is too big, processing difficulties；

It is consistent with the material properties for bearing smaller centrifugal force region that tension beam bears larger centrifugal force region, does not send out sufficiently Wave the effect of material.

Lead to the reasons for the above problems are as follows:

It is usually what ecto-entad carried out to the quenched of tension beam raw material, it, can when the sectional dimension of tension beam is too big Quenched non-uniform phenomenon can occur, i.e., be apparently higher than the mechanical property of material close to the inner portion by the mechanical property of exterior material；

When tension beam length dimension is too big, available process equipment is limited, and processing time consuming is laborious；

Region far from rotation center, the centrifugal load that tension beam is born are larger, it is desirable that the mechanical property of tension beam is preferable； Close to the region of rotation center, the centrifugal load that tension beam is born is smaller, it is desirable that the mechanical property of tension beam can generally meet It is required that.When doing tension beam using a whole raw material, there may be very in the region close to rotation center for material property Big surplus, and may be also lacking in the region far from rotation center.

Utility model content

The purpose of this utility model is that solve the above-mentioned problems and provides a kind of geotechnical centrifuge modularization pulling force Beam.

The utility model achieves the above object through the following technical schemes:

A kind of geotechnical centrifuge modularization tension beam, including the first module, the second module and third module, first mould Block is connect with rotation center, and the inner end of two second modules is connect with the both ends of first module respectively, described in two The inner end of third module is connect with the outer end of two second modules respectively；

First module/second module includes straight-bar and ring flange, and two ring flanges are fixedly installed respectively At the both ends of the straight-bar, first module is connected with second module by the ring flange；

The third module includes quarter butt and fork ear, and the inner end of the quarter butt is provided with ring flange, the fork ear with it is described The outer end of quarter butt is fixedly connected, and the third module is connected with second module by the ring flange.

Specifically, two adjacent ring flanges are positioned by seam allowance, are bolted to connection.

Specifically, male half coupling is provided on the ring flange at first module both ends；

The male half coupling and inner stopper being mutually adapted are respectively arranged on two ring flanges at second module both ends；

Inner stopper is respectively arranged on the ring flange of two third modules.

Further, the quantity of second module is multiple, and is sequentially connected in series by the ring flange.

Specifically, the material property of first module, second module and the third module is sequentially increased.

The utility model has the beneficial effects that:

A kind of geotechnical centrifuge modularization tension beam of the utility model uses the structure type of modularization assembling, solves to use Material properties caused by integral type tension beam are uneven, the unreasonable problem of load under processing difficulties and centrifugal field, and according to not With the module of the size selection individual material properties of the receiving centrifugal force of operating position, the work of each module can be given full play to With the material as needed for selecting disparate modules.Since the size of individual module is smaller, it on the one hand can guarantee that raw material are quenched Uniformity, on the other hand available process equipment is more, time saving and energy saving for an opposite whole tension beam.

Detailed description of the invention

Fig. 1 is a kind of structural schematic diagram of geotechnical centrifuge modularization tension beam described in the utility model；

Fig. 2 is the structural schematic diagram of the first module described in the utility model；

Fig. 3 is the structural schematic diagram of the second module described in the utility model；

Fig. 4 is the structural schematic diagram of third module described in the utility model.

Specific embodiment

The utility model is described in further detail with reference to the accompanying drawing:

As shown in Figure 1, Figure 2, Figure 3 and Figure 4, a kind of geotechnical centrifuge modularization tension beam of the utility model, including first Module 1, the second module 2 and third module 3, the first module 1 are connect with rotation center, the inner end of two the second modules 2 respectively with The both ends of first module 1 connect, and the inner end of two third modules 3 is connect with the outer end of two the second modules 2 respectively, the first module 1, the material property of the second module 2 and third module 3 is sequentially increased.

First module, 1/ second module 2 includes straight-bar and ring flange 4, and two ring flanges 4 are respectively fixedly disposed at straight-bar Both ends, the first module 1 and the second module 2 are connected by ring flange 4, and third module 3 includes quarter butt 7 and fork ear 8, quarter butt 7 it is interior End is provided with ring flange 4, and fork ear 8 is fixedly connected with the outer end of quarter butt 7, and third module 3 and the second module 2 are connected by ring flange 4 It connects.

Two adjacent ring flanges 4 are positioned by seam allowance, are bolted to connection, the ring flange 4 at 1 both ends of the first module On be provided with male half coupling 5；Be respectively arranged on two ring flanges 4 at 2 both ends of the second module the male half coupling 5 being mutually adapted and it is interior only Mouth 6；Inner stopper 6 is respectively arranged on the ring flange 4 of two third modules 3.The quantity of second module 2 is multiple, and passes through method Blue disk 4 is sequentially connected in series.

A kind of working principle of geotechnical centrifuge modularization tension beam of the utility model is as follows:

When modularization tension beam couples, by the way of by centre to both ends, adjacent module is positioned using seam allowance, bolt It connects firmly.

First module 1 is located near rotation center, and in big g value centrifugal field, the centrifugal force born is smaller, using material The general steel alloy of performance can be met the requirements.

Second module 2 is the changeable module in tension beam, increases the quantity of the second module 2, and the length of tension beam increases； The quantity of the second module 2 is reduced, the length of tension beam shortens.One end of second module 2 is inner stopper 6, is used for and previous module Male half coupling 5 match, formed seam allowance positioning；The other end is male half coupling 5, couples next module for cooperating.It is centrifuged in big g value In, for opposite first module 1 of the second module 2, farther out apart from rotation center, the centrifugal force born is larger, need to use material Expect the steel alloy of better performances, while in order to guarantee that it can connect with third module 3, the second module 2 of 1 side of the first module Quantity is odd number.

Third module 3 is for coupling the module of geotechnical centrifuge hanging basket in tension beam, and one end is inner stopper 6, is used for It is matched with the male half coupling 5 of the second module 2, forms seam allowance positioning；The other end is fork ear 8, for coupling geotechnical centrifuge hanging basket, As shown in Figure 4.In big g value centrifugal field, third module 3 is farthest apart from rotation center, and the centrifugal force of receiving is maximum, need to use material Material performance is better than the steel alloy of the second module 2.

With the tension beam of modularized design, the effect of each module can be given full play to, selects different moulds as needed The material of block.Since the size of individual module is smaller, it on the one hand can guarantee the quenched uniformity of raw material, it is on the other hand optional Process equipment is more, time saving and energy saving for an opposite whole tension beam.

The limitation that the technical solution of the utility model is not limited to the above specific embodiments, all skills according to the present utility model The technology deformation that art scheme is made, each falls within the protection scope of the utility model.

Claims (5)

1. a kind of geotechnical centrifuge modularization tension beam, it is characterised in that: including the first module, the second module and third module, First module is connect with rotation center, and the inner end of two second modules connects with the both ends of first module respectively It connects, the inner end of two third modules is connect with the outer end of two second modules respectively；

First module/second module includes straight-bar and ring flange, and two ring flanges are respectively fixedly disposed at institute The both ends of straight-bar are stated, first module is connected with second module by the ring flange；

The third module includes quarter butt and fork ear, and the inner end of the quarter butt is provided with ring flange, the fork ear and the quarter butt Outer end be fixedly connected, the third module is connected with second module by the ring flange.

2. a kind of geotechnical centrifuge modularization tension beam according to claim 1, it is characterised in that: described in adjacent two Ring flange is positioned by seam allowance, is bolted to connection.

3. a kind of geotechnical centrifuge modularization tension beam according to claim 2, it is characterised in that: first module two Male half coupling is provided on the ring flange at end；

The male half coupling and inner stopper being mutually adapted are respectively arranged on two ring flanges at second module both ends；

Inner stopper is respectively arranged on the ring flange of two third modules.

4. a kind of geotechnical centrifuge modularization tension beam according to claim 1, it is characterised in that: second module Quantity is multiple, and is sequentially connected in series by the ring flange.

5. a kind of geotechnical centrifuge modularization tension beam according to claim 1, it is characterised in that: first module, The material property of second module and the third module is sequentially increased.