Energy-absorbing anti-climbing device for railway vehicle
阅读说明:本技术 一种轨道车辆吸能防爬装置 (Energy-absorbing anti-climbing device for railway vehicle ) 是由 阳光武 陈宽裕 肖守讷 杨冰 朱涛 于 2019-11-15 设计创作,主要内容包括:本发明提供了一种轨道车辆吸能防爬装置,属于轨道车辆被动安全领域。套筒的尾端与安装座的正面中心固定,筒状刀具安装架的圆筒尾端穿过方形吸能隔板中心的通孔与套筒的前端面壁厚的内半环接触;四个二级弹簧的尾端均与二级弹簧安装座配合固定,前端分别与方形吸能隔板背面的四个二级弹簧安装座配合固定;吸能隔板与安装座之间的二级弹簧外围设有压溃管;锯齿防爬器背面为正方形平板结构,多级导杆前端与锯齿防爬器背面居中位置通过焊接连接;锯齿防爬器背面的弹簧安装座与吸能隔板前面的弹簧安装座之间设有一级弹簧,尾端与吸能隔板前面的一级弹簧安装座配合固定;筒状刀具安装架通过法兰盘上的螺栓孔与吸能隔板螺栓连接。(The invention provides an energy-absorbing anti-climbing device for a railway vehicle, and belongs to the field of passive safety of railway vehicles. The tail end of the sleeve is fixed with the center of the front surface of the mounting seat, and the tail end of the cylinder of the cylindrical cutter mounting frame passes through a through hole in the center of the square energy-absorbing partition plate to be in contact with the inner semi-ring with the wall thickness of the front end surface of the sleeve; the tail ends of the four secondary springs are matched and fixed with the secondary spring mounting seats, and the front ends of the four secondary springs are respectively matched and fixed with the four secondary spring mounting seats on the back of the square energy-absorbing partition plate; a crushing pipe is arranged on the periphery of the secondary spring between the energy-absorbing partition plate and the mounting seat; the back of the sawtooth anti-creeper is of a square flat plate structure, and the front end of the multistage guide rod is connected with the middle position of the back of the sawtooth anti-creeper in a welding mode; a first-stage spring is arranged between the spring mounting seat on the back of the sawtooth anti-creeper and the spring mounting seat in front of the energy-absorbing partition plate, and the tail end of the sawtooth anti-creeper is matched and fixed with the first-stage spring mounting seat in front of the energy-absorbing partition plate; the cylindrical cutter mounting frame is connected with the energy-absorbing partition plate through bolt holes in the flange plate.)
1. The utility model provides a rail vehicle energy-absorbing anti-creep device, includes sawtooth anticreeper (1), conquassation pipe (6), mount pad (7), cutter and the mounting bracket that is equipped with bolt hole (13), and the tail end of sleeve (18) is fixed with the front center of mount pad (7), its characterized in that: the outer ring of the wall thickness central line of the front end surface of the sleeve (18) is contacted with the tail end surface of a sleeve ring (19) with a flange plate, the outer diameter of a cylindrical cutter mounting frame (5) with the flange plate is matched with the inner diameter of the sleeve ring (19), and the cylindrical tail end of the cylindrical cutter mounting frame (5) passes through a through hole in the center of the square energy-absorbing partition plate (4) to be contacted with the inner ring of the wall thickness central line of the front end surface of the sleeve (18); secondary spring mounting seats (17) are uniformly distributed in four corner directions around a sleeve (18) on the front side of the mounting seat (7), the tail ends of four secondary springs (16) are matched and fixed with the secondary spring mounting seats (17), and the front ends of the four secondary springs are respectively matched and fixed with the four secondary spring mounting seats (17) on the back side of the square energy-absorbing partition plate (4); a crushing pipe (6) is arranged on the periphery of a secondary spring (16) between the energy-absorbing partition plate (4) and the mounting seat (7); the back of the sawtooth anti-creep device (1) is of a square flat plate structure, primary spring mounting seats (9) are uniformly distributed in the directions of four corners, the front end of a multi-stage guide rod (11) is connected with the middle position of the back of the sawtooth anti-creep device (1) in a welding mode, and the other end of the multi-stage guide rod (11) is in interference fit with the inner diameter of a sleeve (18); first-stage spring mounting seats (9) are uniformly distributed in the directions of four corners in front of the energy-absorbing partition plate (4), the front ends of the first-stage springs (2) are matched and fixed with the first-stage spring mounting seats (9) on the back of the sawtooth anti-creeper (1), and the tail ends of the first-stage springs are matched and fixed with the first-stage spring mounting seats (9) in front of the energy-absorbing partition plate (4); the cylindrical cutter mounting frame (5) is in bolted connection with the energy-absorbing partition plate (4) through bolt holes (14) in the flange plate; the cylindrical cutter mounting rack (5) is uniformly provided with cutters (10) along the inner diameter of the cylinder.
2. The energy-absorbing anti-creep device for railway vehicles according to claim 1, characterized in that: the toothed plate of the sawtooth anti-creeper (1) is of an equidistant tooth and groove row arrangement structure, and the toothed plate of the sawtooth anti-creeper is provided with equidistant inner grooves (20) and outer convex teeth (12).
3. A rail vehicle energy-absorbing anti-creep device according to claim 1, characterized in that: the multistage guide rod (11) is provided with a cutting layer (15) at the front end of the cutter (10).
4. The energy-absorbing anti-creep device for railway vehicles according to claim 1, characterized in that: tubular cutter mounting bracket (5) are equipped with the adjustment mechanism at cutter edge X, Y axle direction and inclination, and the anterior angle value of cutter (10) is 0 ~ 10, and the back angle value range is 3 ~ 12.
5. The energy-absorbing anti-creep device for railway vehicles according to claim 1, characterized in that: the sleeve (18) is an expansion type thin-wall energy absorption pipe, the inner wall of the sleeve is in interference fit with the multistage guide rod (11), and a cavity is formed at the rear part of the sleeve.
6. The energy-absorbing anti-creep device for railway vehicles according to claim 1, characterized in that: the crushing pipe (6) is made of aluminum honeycomb materials and is of a square structure which is formed by welding and combining an upper part and a lower part, and the four corners of the square structure are provided with inducing holes (8).
7. The energy-absorbing anti-creep device for railway vehicles according to claim 1, characterized in that: the multistage guide rod (11) is in clearance fit connection with the inner diameter of the cylindrical cutter mounting frame (5), the through holes in the centers of the energy-absorbing partition plates (4) with the bolt holes (3) at four corners and the inner diameter of the lantern ring (19).
Technical Field
The invention belongs to the technical field of rail transit passive safety.
Background
At present, the rail transit industry in China is rapidly developed, the running speed of trains is continuously improved, and once collision accidents happen to the trains, serious casualties and property loss can be caused at higher and higher speeds, so that the passive safety protection mechanism for improving the trains is an increasingly important problem in recent years. In the event of a train collision, the coupling buffer acts first, after its failure the entire coupling buffer is withdrawn from the mounting bolt, and then the anti-creeper comes into contact. Therefore, the energy-absorbing and anti-climbing device is an indispensable part in the design of a collision-resistant vehicle body as a climbing vehicle buffering energy-absorbing device, and the energy-absorbing device absorbs energy through large plastic deformation of materials or large friction between metals, so that the effects of buffering energy absorption and preventing climbing vehicle during vehicle body collision are achieved.
The anti-climbing energy absorption devices used at home and abroad are mainly divided into a cutting type, a crushing type and an expansion type. In terms of the energy absorption capacity of the deformation form of the metal material, the energy absorption mode of the metal material is superior to that of the metal material which only generates plastic deformation, and the process of generating cutting chips, namely the cutting type energy absorption process, is the process of metal fracture.
The crushing type energy absorption process is a process in which metal generates single plastic large deformation, the crushing material mainly comprises thin-shell tubular structures such as aluminum alloy and honeycomb aluminum plates, the energy absorption characteristic of the crushing material mainly depends on the plastic dynamic buckling mechanical behavior of the structure under axial impact, however, the single crushing energy absorption is superior to pursuing material lightweight, and the instability problem is easily caused in the high-speed impact process. The expansion type energy absorption structure is an energy absorption device mainly composed of an inner ejector rod and an outer sleeve, wherein the inner ejector rod is a solid metal rod, and the outer sleeve is an expansion type thin-wall energy absorption pipe. The expansion type energy absorption structure with the guide rod does not have the problem of instability, but has the defects of small energy absorption capacity and difficult control of the energy absorption process.
Disclosure of Invention
The invention aims to provide an energy-absorbing anti-climbing device for a railway vehicle, which can effectively absorb the collision energy of the vehicle and prevent the phenomenon of climbing the vehicle.
The purpose of the invention is realized by the following technical scheme: an energy-absorbing anti-climbing device for rail vehicles comprises a sawtooth anti-climbing device, a crushing pipe, a mounting seat provided with bolt holes, a cutter and a mounting frame of the cutter, wherein the tail end of a sleeve is fixed with the center of the front face of the mounting seat; secondary spring mounting seats are uniformly distributed in the four corner directions around the sleeve on the front side of the mounting seat, the tail ends of the four secondary springs are matched and fixed with the secondary spring mounting seats, and the front ends of the four secondary springs are respectively matched and fixed with the four secondary spring mounting seats on the back side of the square energy-absorbing partition plate; a crushing pipe is arranged on the periphery of the secondary spring between the energy-absorbing partition plate and the mounting seat; the back surface of the sawtooth anti-creep device is of a square flat plate structure, primary spring mounting seats are uniformly distributed in the directions of four corners, the front end of a multi-stage guide rod is connected with the middle position of the back surface of the sawtooth anti-creep device in a welding mode, and the other end of the multi-stage guide rod is in interference fit with the inner diameter of the sleeve; first-stage spring mounting seats are uniformly distributed in the directions of four corners in front of the energy-absorbing partition plate, the front ends of the first-stage springs are matched and fixed with the first-stage spring mounting seats on the back of the sawtooth anti-creeper, and the tail ends of the first-stage springs are matched and fixed with the first-stage spring mounting seats in front of the energy-absorbing partition plate; the cylindrical cutter mounting frame is connected with the energy-absorbing partition plate through bolt holes in the flange plate; the cylindrical cutter mounting frame is uniformly provided with cutters along the inner diameter of the cylinder.
The toothed plate of the sawtooth anti-creeper is of an equidistant tooth and groove split arrangement structure, and the toothed plate of the sawtooth anti-creeper is provided with equidistant inner grooves and outer convex teeth.
The multistage guide rod is provided with a cutting layer at the front end of the cutter.
The barrel-shaped cutter mounting bracket is provided with a cutter along the X, Y axial direction and an inclination angle adjusting mechanism, the front angle value of the cutter is 0-10 degrees, and the rear angle value range is 3-12 degrees.
The sleeve is an expansion type thin-wall energy absorption pipe, the inner wall of the sleeve is in interference fit with the multistage guide rods, and a cavity is formed at the rear part of the sleeve.
The crushing pipe is made of aluminum honeycomb materials and is of a square structure which is formed by welding and combining an upper part and a lower part, and the four corners of the square structure are provided with inducing holes.
The inner diameters of the multistage guide rods and the cylindrical cutter mounting frame, the through holes in the center of the energy-absorbing partition plate with the bolt holes in the four corners and the inner diameter of the lantern ring are in clearance fit connection.
Furthermore, a plurality of inducing holes are formed in four corners of the crushing pipe formed by splicing the upper half body and the lower half body, wherein the inducing holes are in a form that rectangular holes are formed in two adjacent surfaces, and the number of the inducing holes is not fixed; research shows that the stability of the angle opening is better than that of the surface opening, the buckling is generated at the first opening firstly, then the folding buckling is formed at each opening, the number of the inducing openings in the axial direction is more, and the buckling is relatively more stable; the upper two parts of the crushing pipe are welded and combined, so that the process installation is convenient; the crushing pipe is made of an aluminum honeycomb structure, and the front end and the rear end of the crushing pipe are fixedly connected with the rear surface of the energy-absorbing partition plate and the front surface of the mounting seat respectively.
Compared with the prior art, the invention has the beneficial effects that: the top end of an anti-creep toothed plate of the multi-directional multi-stage energy absorption device of the railway vehicle comprises a plurality of inner grooves with equal intervals; the bottom of the groove comprises a plurality of equidistant convex teeth, a hollow groove is arranged between every two stages of teeth, when a vehicle collides, the car coupler buffer firstly acts, the whole coupler buffer device withdraws from the mounting bolt after the car coupler buffer device loses efficacy, then the anti-creeper starts to contact, and as the equidistant concave grooves and the equidistant convex teeth can be mutually meshed, the vertical force and the transverse force during collision are effectively inhibited; the multi-stage guide rod is used as a cutting material at the front end of the energy-absorbing partition plate for cutting energy absorption and plays roles in guiding and bearing a transverse force, the rear end of the energy-absorbing partition plate is used as an inner ejector rod for impacting the thin-wall energy-absorbing pipe to enable the thin-wall energy-absorbing pipe to expand, deform and absorb energy and play roles in guiding and bearing the transverse force, and the guide rod is used as a cutting rod and the inner ejector rod at the same time, so that the energy-absorbing device can simultaneously perform cutting type energy absorption and expansion type energy absorption and can absorb more energy than a simple crushing; the crushing device is provided with guide holes at four corners, so that the crushing device can absorb impact energy more quickly and stably. The invention fully utilizes the advantage that the energy absorption mode that metal is firstly subjected to large plastic deformation and then is broken is superior to the energy absorption mode that metal materials are only subjected to plastic deformation, combines the cutting type, the crushing type and the expansion type energy absorption modes to absorb energy, and utilizes the cut guide ejector rod as an inner ejector rod in an expansion energy absorption system to continuously absorb energy. And a spring and a crushing material are added to prevent the occurrence of instability. The multistage combined energy-absorbing anti-climbing device greatly improves the safety coefficient of personnel on the train and greatly reduces the loss after the accident occurs.
Drawings
FIG. 1 is a schematic view of the overall structure of the present invention;
FIG. 2 is a half sectional view of the overall structure of the present invention;
FIG. 3 is an exploded view of a longitudinal force transfer member of the present invention;
FIG. 4 is a partial schematic view of the energy absorption by cutting of the present invention;
FIG. 5 is a partial schematic view of the expansion energy absorption of the present invention;
FIG. 6 is a partial schematic view of a cutting tool of the present invention;
fig. 7 is a schematic view of a crushable material of the present invention;
Detailed Description
The following further describes embodiments of the present invention with reference to the drawings.
As shown in fig. 1 and 2, the energy-absorbing anti-climbing device for the rail vehicle comprises a sawtooth
When collision happens, the
Further, the front angle of the
The invention is not to be considered as limited to the specific embodiments thereof, and all changes and equivalents that can be made by those skilled in the art without departing from the spirit and principle of the inventive concept are intended to be embraced therein.
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