RU2679387C1 - Railway vehicle and installation mechanism of inner front door - Google Patents

Abstract

FIELD: transportation.SUBSTANCE: invention relates to supporting devices for inner end doors of railway vehicles. Installation mechanism of an inner end door includes transverse support (3) and connecting support made with the possibility of connecting the transverse support with the inner upper part of car body (4). Connecting support includes left support assembly (1) and right support assembly (2), which are left-right symmetrical and connected to the two ends of the transverse support. Each of the left support assembly and the right support assembly includes a first connecting plate and a second connecting plate. First connecting plate is perpendicular to the axis of the car body and includes a first plate body, extending in the transverse direction, and a second plate body, sloping in an up-and-out direction. Lower edge of the first plate body is bent to form the first horizontal curved part, and the first curved part is connected to the upper part of the transverse support. Second connecting plate is perpendicular to the first connecting plate. Second connecting plate has an upper end bent downwards and outwards to form a second curved part, and the second curved part is connected to the car body. Railway vehicle includes a car body and installation mechanism of the inner front door.EFFECT: invention increases the flexibility of the layout and effectively increases the strength of a joint support.10 cl, 4 dwg

Description

FIELD OF TECHNOLOGY

This invention relates to the field of supporting devices of the internal end entrance doors of railway vehicles and, in particular, to the installation mechanism of the internal end entrance door. Moreover, the invention further relates to a railway vehicle provided with the aforementioned mechanism for installing an internal end entrance door.

BACKGROUND

The end doors of a train train include an internal end entrance door and a transition door. The inner end entrance door is configured to separate the passage from the passenger compartment and may be a movable door with two-sided opening or one-sided opening with electric control and drive, and the transition doors are located at the two ends of each car to separate the cars from each other to ensure independence between wagons.

In traditional technology, for most types of vehicles, a sliding groove is provided in the center of the car body roof, and the internal end entrance door is directly installed in the sliding groove in the center of the roof using a vertical suspension support, and this method of installing the internal front entrance door has been used for a long time.

However, for railway vehicles, such as high-speed electric multi-section trains, operating in a region with harsh cold climates, because the outside air has a very low temperature, high demands are placed on the function of heating the air conditioner, and the air conditioning unit must be installed above the inner end the front door. The internal end entrance door is a movable functional part and has high requirements for the reliability of the installation design. And the placement of the air conditioning unit above the inner end entrance door requires that the sliding groove in the center of the car roof be removed, which can lead to the fact that the sliding grooves on the two sides of the car body cannot be used to directly install the internal end entrance door due to too long distance between the grooves of the slide.

In this regard, the technical problem that is currently being considered by specialists in the field of technology is the installation of the internal end entrance door and ensuring that the installation design of the internal end entrance door is strong and reliable, provided that the sliding groove in the center of the car roof is removed .

SUMMARY OF THE INVENTION

An object of the present invention is to provide an internal end entrance door installation mechanism that can effectively solve the problem that the internal end entrance door installation has an adverse effect due to too large a gap created when the internal end entrance door is located under the air conditioning unit , and, moreover, the strength of the connection of the inner end entrance door to the car body can be effectively increased. Another objective of the present invention is to provide a railway vehicle comprising the aforementioned mechanism for installing an internal end entrance door.

To solve the above problems in accordance with the present invention created the following technical solutions.

The installation mechanism of the inner end entrance door includes a transverse support and a connecting support made with the possibility of connecting the transverse support with the inner upper part of the car body. The connecting support includes a left support node and a right support node, which are left-right symmetrical and connected to the two ends of the transverse support. Each of the left support assembly and the right support assembly includes a first connecting plate and a second connecting plate. The first connecting plate is perpendicular to the axis of the car body and includes a first plate body extending in the transverse direction and a second plate body extending obliquely in an up-out direction. The lower edge of the first plate body is bent to form a first horizontal curved part, and the first curved part is connected to the upper part of the transverse support. The second connecting plate is perpendicular to the first connecting plate and has a side fixedly connected to the first connecting plate. The second connecting plate extends obliquely up and out along the first connecting plate, and the upper end of the second connecting plate is bent down and out to form a second curved part, and the second curved part is connected to the car body.

Preferably, the plate body of the second connecting plate has the shape of an inverted rectangular trapezoid and has a width gradually increasing from the lower end to the upper end.

Preferably, the inclination of the second curved portion, curved down and out, corresponds to the inclination of the sliding groove of the car body and the inclination of the upper end of the second plate body.

Preferably, in an adjacent angle between the first plate body and the second plate body of the first connecting plate, an arched transitional connecting part is provided.

Preferably, the second curved part is connected to the car body with a bolt capable of sliding into the sliding groove of the car body, and the second curved part is provided with a first oval bolt hole extending in the axial direction of the car body.

Preferably, the first curved part is connected to the transverse support by a bolt, and the first curved part is provided with a second oval bolt hole extending in the axial direction of the car body.

Preferably, the transverse support is provided with a third oval bolt hole extending in the direction of the width of the car body.

Preferably, the lower end of the second connecting plate is located on the lower edge of the first connecting plate and extends obliquely in the up-out direction from the middle of the first connecting plate.

Preferably, the adjacent angle between the second connecting plate and the transverse support is from 30 ° to 60 °.

In accordance with the present invention, a railway vehicle is further provided that includes a carriage body, an internal end entrance door provided in the car body, and an internal end entrance door installation mechanism in accordance with any of the above aspects, configured to install an internal end entrance the door.

The internal front door entry installation mechanism in accordance with the present invention uses a transverse support to install an internal front door and uses a connecting support to install a transverse support on the inner upper part of the car body for installing an internal front door. Also, with the arrangement of the two connecting plates and the curved parts provided on the two connecting plates, respectively, the connecting support solves the difficult problem that the installation of the door mechanism has an adverse effect due to the too large gap formed when the inner end entrance door is located under the block air conditioning, and increases layout flexibility. Moreover, the connecting support is formed by rigidly connecting the two connecting plates, which can effectively increase the strength of the connecting support, thereby increasing the strength of the connection of the inner front entrance door and the car body and increasing the reliability of using the inner end entrance door. The support unit uses a modular and serial design, and the installation design is suitable for a car body with a high roof structure and a car body with a flat roof structure, thereby increasing manufacturability.

In a preferred embodiment, the first curved part is connected to the transverse support by a bolt, and the first curved part is provided with a second oval bolt hole extending in the axial direction of the car body. With an oval bolt hole located in the first curved part, and an extension direction of the second oval bolt hole in the axial direction of the car body, the above structure can provide adjustment of the transverse support and the first curved part in the axial direction of the car body to increase applicability.

A railway vehicle in accordance with the present invention is provided with the above mechanism for installing an internal end entrance door. Since the mechanism for installing the inner end entrance door has the above technical effects, the railway vehicle provided with the mechanism for installing the inner end entrance door must also have corresponding technical effects.

BRIEF DESCRIPTION OF THE DRAWINGS

To more clearly illustrate the technical solutions in the embodiments of the present invention or in the traditional technology, the drawings mentioned to describe the embodiments or traditional technology will be briefly described below. Obviously, the drawings in the following description are only some examples of the present invention, and other drawings can be made by one skilled in the art based on these drawings without any inventive efforts. In the drawings:

FIG. 1 is a schematic front view showing the construction of an embodiment of a mechanism for installing an internal end entrance door in accordance with the present invention;

FIG. 2 is a schematic plan view showing the structure of the installation mechanism of the inner end entrance door shown in FIG. 1 when viewed in the direction of C;

FIG. 3 is a schematic cross-sectional view showing a structure of an installation mechanism of an inner end entrance door shown in FIG. 1, in the direction AA; and

FIG. 4 is a schematic enlarged view showing the construction of a part D of the installation mechanism of the inner end entrance door shown in FIG. one.

LIST OF REFERENCE POSITIONS

1 - left support node

2 - right support node

3 - transverse support

4 - car body,

5 - internal end entrance door,

6 - the first connecting plate,

61 - the first plate body,

62 - the second plate body,

63 - the first curved part,

7 - second connecting plate,

71 - the second curved part.

DETAILED DESCRIPTION OF THE INVENTION

The idea of the present invention is to provide a mechanism for installing the inner end entrance door, which can significantly increase the strength of the connection between the inner end entrance door and the car body and has high applicability. Another idea of the present invention is to provide a railway vehicle including an internal end entrance door mounting mechanism described above.

Technical solutions in embodiments of the present invention will now be described clearly and fully in conjunction with the drawings in embodiments of the present invention. Obviously, the described embodiments are only part of the embodiments of the present invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without any inventive efforts are within the scope of protection of the present invention.

Reference will now be made to FIG. 1-4. FIG. 1 is a schematic front view showing the construction of an embodiment of a mechanism for installing an internal end entrance door in accordance with the present invention; FIG. 2 is a schematic plan view showing the structure of the installation mechanism of the inner end entrance door shown in FIG. 1 when viewed in the direction of C; FIG. 3 is a schematic sectional view showing the structure of the installation mechanism of the inner end entrance door shown in FIG. 1, in the direction AA; and FIG. 4 is a schematic enlarged view showing the construction of part D of the internal end entrance door mounting mechanism shown in FIG. one.

In this embodiment, the installation mechanism of the inner end entrance door includes a transverse support 3 and a connecting support.

The connecting support is made with the possibility of connecting the transverse support 3 and the inner upper part of the body 4 of the car. The transverse support 3 is configured to install an internal end entrance door 5, and the transverse support 3 is preferably a grooved support. Two end surfaces of the grooved support are located above and below, the upper end surface being connected to the connecting support, and the lower end surface connected to the inner end entrance door 5. Moreover, the reinforcing rib plate can be further welded to the grooved support to prevent deformation of the grooved support. due to the concentration of stresses during movement of the inner end entrance door 5.

The connecting support includes a left support assembly 1 and a right support assembly 2, and a left support assembly 1 and a right support assembly 2 are left-right symmetrical and connected to two ends of the transverse support 3. Each of the left support assembly 1 and the right support assembly 2 includes a first connecting plate 6 and a second connecting plate 7. The first connecting plate 6 is located in a direction perpendicular to the axis of the car body 4. The plate casing of the first connecting plate 6 includes a first plate casing 61 extending in the transverse direction and a second plate casing 62 extending obliquely in an up-out direction. In addition, the first horizontal curved portion 63 is formed by bending the lower edge of the first plate body 61, and the first curved portion 63 is connected to the upper portion of the transverse support 3.

The second connecting plate 7 is perpendicular to the first connecting plate 6, and the second connecting plate 7 has a side rigidly connected to the first connecting plate 6, and, in particular, the side is connected to the first connecting plate 6 by welding. The second connecting plate 7 extends obliquely up and out along the first connecting plate 6 and has an upper end curved down and out to form a second curved part 71, which is connected to the car body 4.

The installation mechanism of the inner front entrance door uses the transverse support 3 to install the inner end entrance door 5 and uses the connecting support to install the transverse support 3 on the inner upper part of the car body 4, thereby installing the inner end entrance door 5. Also with the location of the two connecting plates and bent parts provided on the two connecting plates, respectively, the connecting support solves the difficult problem, namely, that the installation of the mechanism and the door has an adverse effect due to too large gap formed at the location of the inner front door 5 to the air conditioning unit, and increases layout flexibility. Moreover, the connecting support is formed by rigidly connecting the two connecting plates, which can effectively increase the strength of the connecting support, thereby increasing the strength of the connection of the inner end entrance door 5 and the car body 4 and increasing the reliability of using the inner end entrance door 5. The support node uses a modular and serial design and installation design is suitable for the body of 4 cars with a high roof structure and the body structure of 4 cars with a flat roof structure, thereby increasing High technology.

In particular, the plate body of the second connecting plate 7 has the shape of an inverted rectangular trapezoid and has a width gradually increasing from the lower end to the upper end, that is, the plate body of the second connecting plate 7 has a width gradually decreasing from the end close to the car body 4, to end away from the body 4 wagons. Since the part of the second connecting plate 7 connected to the car body 4 is subjected to high voltage, this design corresponds to the stress distribution of the second connecting plate 7, thereby increasing the service life of the second connecting plate 7.

Additionally, the inclination of the second curved part 71, curved down and out, corresponds to the inclination of the sliding groove of the car body 4, which facilitates the connection of the second curved part 71 with the sliding groove. Also, the inclination of the second curved portion 71, curved downward and outward, must correspond to the inclination of the upper end of the second plate body 62 of the first connecting plate 6, and this design can allow the second curved part 71 to be flush with the upper end surface of the second plate body 62, thus , facilitating the connection of the second curved part 71 with the body 4 of the car. Of course, to further increase the bond strength of the two connecting plates, the side of the second curved portion 71 can also be rigidly connected to the second plate body 62, that is, both the plate body of the second connecting plate 7 and the side of the second curved part 71 are rigidly connected to the plate body the first connecting plate 6.

Preferably, in order to increase the bond strength between the first plate body 61 and the second plate body 62 of the first connecting plate 6 and to prevent rupture between the first plate body 61 and the second plate body 62, in an adjacent angle between the first plate body 61 and the second plate body 62 of the first connecting plate 6, an arcuate transition connecting portion is provided.

Additionally, the upper parts of the left support assembly 1 and the right support assembly 2 can be connected to the sliding groove of the car body 4 using bolts that can slide into the sliding groove of the car body 4. Of course, a part of the head of the bolt of each of the above bolts can be T-shaped to fit in the sliding groove. In order to make the connection position of the second curved part 71 with the car body 4 adjustable, the second curved part 71 is provided with a first oval bolt hole extending in the axial direction of the car body 4.

Based on the above embodiments, the first curved portion 63 and the transverse support 3 can be connected to each other with a fastening screw that is easy to remove and install, and the first curved portion 63 is provided with a second oval bolt hole extending in the axial direction of the car body 4.

Additionally, the transverse support 3 is provided with a third oval bolt hole extending in the width direction of the car body 4, and the placement of the third oval bolt hole can make the position of the transverse support 3 and the first curved portion 63 adjustable in the width direction of the car body 4.

With an oval bolt hole located in the first curved portion 63 and an elongation direction of the second oval bolt hole in the axial direction of the car body 4, the above structure can provide for the adjustment of the transverse support 3 and the first curved part 63 in the axial direction of the car body 4, which increases applicability. When using the second oval bolt hole and the third oval bolt hole, the first curved portion 63 and the transverse support 3 during assembly can be adjusted in the forward-backward and left-right directions so that the flexibility of the assembly is high.

In particular, the lower end of the second connecting plate 7 is located on the lower edge of the first connecting plate 6 and extends obliquely up and out from the middle of the first connecting plate 6 in order to increase the bond strength between the first connecting plate 6 and the second connecting plate 7 and to provide uniform distribution of stresses. Preferably, the adjacent angle between the second connecting plate 7 and the transverse support 3 is from 30 ° to 60 °.

Preferably, the plate casing of the first connecting plate 6 is perpendicular to the first curved portion 63, that is, the first connecting plate 6 is a right-angled plate, and, similarly, the plate casing of the second connecting plate 7 is perpendicular to the second curved part 71, i.e. the second connecting plate 7 also preferably represents a plate bent at right angles. The above right-angled plate has high strength and low cost.

More preferably, both the left support assembly 1 and the right support assembly 2 can be formed by welding two angular section profiles to meet high strength requirements.

It should be noted that the plate casing of the first connecting plate 6 refers to the main body of the first connecting plate 6, and the first curved part 63 is formed by bending the lower edge of the plate casing of the first connecting plate 6. The plate casing of the second connecting plate 7 relates to the main part of the second connecting casing the plate 7, and the second curved part 71 is formed by bending the upper edge of the plate body of the second connecting plate 7. Preferably, the plate body of the first connector oh plate 6 is disposed perpendicularly to the plate body of the second connecting plate 7 and the second bent portion 71.

The installation mechanism of the inner front entrance door according to this embodiment forms a closed frame structure by means of the left support assembly 1, the right support assembly 2, the transverse support 3 and the car body 4, which provides strength and rigidity. The support unit can solve the difficult problem that the installation of the inner end entrance door has an adverse effect due to the too large gap formed when the inner end entrance door is located under the air conditioning unit. Moreover, the interaction between the first connecting plate 6 and the second connecting plate 7 increases the reliability of the connection of the transverse support 3 with the body 4 of the car, that is, the strength of the connection of the inner end entrance door 5 with the body 4 of the car is achieved. The design of the installation mechanism of the inner end door provides a theoretical basis and practical experience for the proper and flexible arrangement of the air conditioning unit and the inner end entrance door 5, and increases the layout flexibility and satisfies the layout requirements in the development of various products of electric multi-section trains.

In addition to the aforementioned internal end entrance door mounting mechanism according to the present invention, a railway vehicle is further provided including the aforementioned internal end entrance door mounting mechanism, reference may be made to conventional technology for structures of other parts of the railway vehicle that are not described in this document.

The above embodiments are described in a progressive manner. Each of the embodiments is mainly focused on the description of its differences from other embodiments, and among these embodiments, references may be made to the same or similar parts among these embodiments.

The installation mechanism of the inner front entrance door in accordance with the present invention is described in detail above. The principle and embodiments of the present invention are illustrated herein with specific examples. The above description of examples is intended only to assist in understanding the method and basic concept of the present invention. It should be noted that some modifications and improvements of the present invention can be made by a person skilled in the art without deviating from the principle of the present invention, and these modifications and improvements are also considered to fall within the protection scope of the present invention defined by the claims.

Claims (16)

1. The installation mechanism of the internal front entrance door, comprising: transverse support (3) and a connecting support made with the possibility of connecting the transverse support (3) with the inner upper part of the body (4) of the carriage, while: the connecting support comprises a left support assembly (1) and a right support assembly (2), which are left-right symmetrical and connected to two ends of the transverse support (3); each of the left support assembly (1) and the right support assembly (2) comprises a first connecting plate (6) and a second connecting plate (7), the first connecting plate (6) being perpendicular to the axis of the car body (4) and containing the first body (61 ) a plate extending in the transverse direction and a second plate body (62) of the plate extending obliquely in an up-out direction, the lower edge of the first plate body (61) being bent to form a first horizontal curved part (63) and a first curved part ( 63) connected to the upper part of the peppermint support (3); and the second connection plate (7) is perpendicular to the first connection plate (6) and has a side rigidly connected to the first connection plate (6), the second connection plate (7) extends obliquely up and out along the first connection plate (6), and the upper end of the second connecting plate (7) is bent down and out to form a second curved part (71), and the second curved part (71) is connected to the car body (4). 2. The installation mechanism of the inner end entrance door according to claim 1, wherein the plate body of the second connecting plate (7) has the shape of an inverted rectangular trapezoid and has a width gradually increasing from the lower end to the upper end of the plate body. 3. The installation mechanism of the inner end entrance door according to claim 2, wherein the inclination of the second curved part (71), curved down and out, corresponds to the inclination of the sliding groove of the car body (4) and the inclination of the upper end of the second plate body (62). 4. The mechanism for installing the inner end entrance door according to claim 3, wherein in an adjacent angle between the first plate body (61) and the second plate body (62) of the first connecting plate (6), an arcuate transition connecting part is provided. 5. The installation mechanism of the inner end entrance door according to claim 1, in which the second curved part (71) is provided with a first oval bolt hole extending in the axial direction of the car body (4); and the second curved part (71) is connected to the sliding groove of the car body (4) with a T-bolt, and the head part of the T-shaped bolt has a sliding element that can be inserted into the sliding groove. 6. The mechanism for installing the internal end entrance door according to any one of paragraphs. 1-5, in which the first curved part (63) is connected to the transverse support (3) by means of a bolt and the first curved part (63) is provided with a second oval bolt hole extending in the axial direction of the car body (4). 7. The installation mechanism of the inner end entrance door according to claim 6, in which the transverse support (3) is provided with a third oval bolt hole extending in the direction of the width of the car body (4). 8. The installation mechanism of the inner end entrance door according to claim 6, in which the lower end of the second connecting plate (7) is located on the lower edge of the first connecting plate (6) and extends obliquely in the direction up-out from the middle part of the first connecting plate (6 ) 9. The installation mechanism of the inner end entrance door according to claim 8, in which the adjacent angle between the second connecting plate (7) and the transverse support (3) is from 30 ° to 60 °. 10. A railway vehicle comprising a wagon body, an internal end entrance door provided in the wagon body, and an internal end entrance door installation mechanism configured to install an internal end entrance door, wherein the internal end entrance door installation mechanism is an internal end door installation mechanism the front door according to any one of paragraphs. 1-9.

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