The present invention relates to an underframe end structure without a bolster beam for a rail vehicle, is particularly adapted to a subway vehicle bearing a high longitudinal force, and belongs to the technical field of vehicle body structure design for rail vehicles.
With the development of rail vehicle technologies, requirements on vehicles are increasingly high. Not only convenient vehicle body structure assembly and proper installation interfaces for devices are required, but also requirements, such as a capacity of bearing a high longitudinal force, need to be satisfied.
Currently, ends of rail vehicle underframes are mainly end structures with a bolster beam and end structures without a bolster beam. There are many assembly relationships between an end structure with a bolster beam and a bogie, and process adjustment is complex. There are a small quantity of structures without a bolster beam, which have technical problems, such as a low bearing capacity and a severe stress concentration problem, due to an undiversified longitudinal force transmission path.
It is found through searches that Chinese invention patent application CN106004911A relates to an end structure without a bolster beam, using a front box structure for bearing. Main technical features thereof are reducing installation interfaces of a bogie and reducing processes and installation. The structure is borne on the front box, and because of an undiversified force transmission structure, the structure is likely to form stress concentration and has a bearing capacity that is not high. The box structure of the front greatly affects an installation space and a motion space of a coupler.
For the foregoing problems in the prior art, an objective of the present invention is to provide an underframe end structure without a bolster beam for a rail vehicle, in which a longitudinal force on a vehicle is transmitted through multiple paths, to ensure a bearing capacity of the structure.
To resolve the foregoing technical problems, the present invention provides an underframe end structure without a bolster beam for a rail vehicle, including an underframe end beam, an underframe edge beam, a coupler mounting base, and coupler support beams, and further including: oblique support beams, where the front of the coupler mounting base is connected to the underframe end beam through the oblique support beams, two sides of the coupler mounting base are connected to the underframe edge beam through the coupler support beams, so that quadrilateral frame structures are respectively formed on the two sides of the coupler mounting base, the oblique support beams form an included angle of 55° to 80° with a forward opening, and the coupler support beams form an included angle of 120° to 140° with a backward opening.
Further, the included angle between the oblique support beams preferably ranges from 62° to 68°.
The present invention further sets forth a rail vehicle, including the foregoing underframe end structure without a bolster beam for a rail vehicle.
A production process for the underframe end structure without a bolster beam for a rail vehicle is provided, including the following steps:
step 1: welding a coupler mounting base, coupler support beams, and oblique support beams to form a main frame, where an included angle of 55° to 80° with a forward opening is formed between the coupler support beams, and an included angle of 120° to 140° with a backward opening is formed between the oblique support beams;
step 2: welding a coupler connecting base to the rear of the coupler mounting base, and welding a traction beam to the rear of the coupler connecting base, to form an end bearing structure;
step 3: welding an underframe end beam, an underframe edge beam, and an underframe floor to form an entire structure; and
step 4: welding the end bearing structure to the entire structure, specifically including: welding the front end of the oblique support beam to the underframe end beam, welding the outer end of the coupler support beam to the underframe edge beam, and welding the end bearing structure to the bottom face of the underframe floor, to form an entire end structure without a bolster beam.
Beneficial effects of the present invention are as follows:
1. All components can be produced independently and then be assembled, so that production efficiency can be improved.
2. A longitudinal force on a vehicle can be transmitted through multiple paths, to disperse transmission of a longitudinal force through a single path, thereby ensuring a bearing capacity of the structure. A stress concentration region is processed by using a transition structure, to satisfy a fatigue life requirement of the structure.
3. A structure without a bolster beam is used to avoid a complex assembly relationship with a bogie and process adjustment.
Implementations of the present invention are explained and descried below with reference to the accompanying drawings.
As shown in
The front of the coupler mounting base 3 is connected to the underframe end beam 1 through the oblique support beams 2, two sides of the coupler mounting base 3 are connected to the underframe edge beam 7 through the coupler support beams 4, to form a main frame, so that quadrilateral frame structures are respectively formed on the two sides of the coupler mounting base 3, to help transmission of a force. The two oblique support beams 2 form an included angle of 65° with a forward opening (the included angle between the oblique support beams ranges from 55° to 80°, preferably from 62° to 68°), the two coupler support beams 4 form an included angle of 130° with a backward opening (the included angle between the coupler support beams relatively properly ranges from 120° to 140°). The oblique support beams 2 are connected to the underframe edge beam 7 through the front-end connecting plate 8, so that a force transmission area of the vehicle is enlarged when the vehicle bears a force. In addition, this connection does not affect an anti-climbing device or a lead-up space.
The two oblique support beams 2 are connected to the coupler mounting base 3 to form a specific angle, which is adjustable according to a swing space of a coupler, to powerfully ensure a motion space and an installation space of the coupler. The coupler mounting base 3 is connected to a plate through a profile. An interface of the coupler is directly extruded from the profile to avoid welding. The extruded profile is in a “Y-shaped” structure, which is beneficial to transmission of a longitudinal force. As shown in
The front end of the traction beam 6 is welded to the coupler connecting base 5, and the traction beam 6 is connected to the underframe floor 9, and is transitioned to the underframe floor 9 through a connecting plate, so that a force that is borne is transmitted to the underframe floor, and the entire structure is used for bearing. The traction beam 6 can extend into a bolster beam according to a force bearing status, to enhance transmission of a force.
All of the foregoing structures are made of alloy material, and this solution is applicable to structural design of two-position ends of a locomotive.
A production process of the underframe end structure without a corbel beam for a rail vehicle in this embodiment includes the following steps:
Step 1: Weld a coupler mounting base 3, coupler support beams 4, and oblique support beams 2 to form a main frame, where an included angle of 55° to 80° with a forward opening is formed between the coupler support beams 4, and an included angle of 120° to 140° with a backward opening is formed between the oblique support beams 2.
Step 2: Weld a coupler connecting base 5 to the rear of the coupler mounting base 3, and weld a traction beam 6 to the rear of the coupler connecting base 5, to form an end bearing structure.
Step 3: Weld an underframe end beam 1, an underframe edge beam 7, and an underframe floor 9 to form an entire structure.
Step 4: Weld the end bearing structure to the entire structure, specifically including: welding the front end of the oblique support beam 2 to the underframe end beam 1, welding the outer end of the coupler support beam 4 to the underframe edge beam 7, and welding the end bearing structure to the bottom face of the underframe floor 9, to form an entire end structure without a bolster beam.
At this point, assembly of the entire underframe end structure without a bolster beam is completed.
In addition to the foregoing embodiments, the present invention may further include other implementations. Any technical solution formed through equivalent replacement or equivalent transformation falls within the protection scope claimed in the present invention.
Number | Date | Country | Kind |
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201910813790.8 | Aug 2019 | CN | national |
This application is the national stage entry of International Application No. PCT/CN2019/109338, filed on Sep. 30, 2019, which is based upon and claims priority to Chinese Patent Application No. 201910813790.8, filed on Aug. 30, 2019, the entire contents of which are incorporated herein by reference.
Filing Document | Filing Date | Country | Kind |
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PCT/CN2019/109338 | 9/30/2019 | WO |