CN114717887B - Supporting seat device for high-speed magnetic levitation track beam body and installation method - Google Patents

Abstract

A supporting seat device and an installation method for a high-speed magnetic levitation track beam body comprise a supporting seat device body (1) for supporting the high-speed magnetic levitation track beam body, and a holding seat device arranged on the supporting seat device body (1), the supporting installation of the high-speed magnetic levitation track beam body is realized through the supporting seat device body (1), and the locking setting of the positions of component parts of the supporting seat device body (1) is realized through the holding seat device, so that the phenomenon of causing the whole displacement of the high-speed magnetic levitation track beam body is prevented, and the contact energizing safety performance of adjacent steel frames is improved.

Description

Supporting seat device for high-speed magnetic levitation track beam body and installation method

Technical Field

The invention relates to a supporting seat device and an installation method, in particular to a supporting seat device and an installation method for a high-speed magnetic levitation track beam body.

Background

The gap between the high-speed magnetic levitation track beam bodies is generally 2mm, and the high-speed magnetic levitation track beam bodies are required to be not allowed to generate integral displacement, so that the contact electrification safety of adjacent steel frames is ensured, therefore, the supporting seat device for the high-speed magnetic levitation track beam bodies is an important track traffic component, in the existing supporting seat device for the high-speed magnetic levitation track beam bodies, a common height-adjusting spherical steel support is also used, because the upper support plate and the studs are not limited by positioning, the integral displacement of the high-speed magnetic levitation track beam bodies can be caused, the contact electrification safety performance of the adjacent steel frames is influenced,

the technical scheme of the invention is made based on technical books provided by the applicant in 2022, 3 and 15 days and having the technical problems in the working process, and the technical problems, technical characteristics and technical effects existing in the similar patent literature and background technology are obtained through retrieval.

Disclosure of Invention

The invention discloses a supporting seat device for a high-speed magnetic levitation track beam body,

the invention discloses an object of a method for installing a supporting seat device for a high-speed magnetic levitation track beam body.

In order to overcome the technical defects, the invention aims to provide the supporting seat device for the high-speed magnetic levitation track beam body and the installation method, so that the phenomenon of causing the whole displacement of the high-speed magnetic levitation track beam body is prevented, and the contact electrifying safety performance of the adjacent steel frames is improved.

In order to achieve the above purpose, the invention adopts the following technical scheme: a supporting seat device for a high-speed magnetic levitation track beam body comprises a supporting seat device body for supporting the high-speed magnetic levitation track beam body and a holding seat device arranged on the supporting seat device body.

Because the supporting seat device body and the enclasping seat device are designed, the supporting installation of the high-speed magnetic levitation track beam body is realized through the supporting seat device body, and the locking setting of the positions of the component parts of the supporting seat device body is realized through the enclasping seat device, so that the phenomenon of causing the whole displacement of the high-speed magnetic levitation track beam body is prevented from occurring, and the contact electrifying safety performance of the adjacent steel frames is improved.

The invention designs that the supporting seat device body and the holding seat device are mutually connected in a mode of locking the positions of the component parts.

The invention designs a method for connecting a holding seat device with a supporting seat device body in a mode of locking the height position of a component part.

The invention designs a hugging seat device which comprises a first hugging seat and a second hugging seat.

The technical effects of the four technical schemes are as follows: by tightly holding the seat device, braking acting force is generated on the component parts of the support seat device body, and the position solid setting of the support seat device body is maintained.

The invention also comprises a first accessory device which is arranged between the enclasping seat device and the supporting seat device body, wherein the first accessory device comprises a first positioning block and a second positioning block.

The technical effects of the above technical scheme are as follows: the integrated installation of other components is realized, and the technical effect of the invention is expanded.

The invention designs that a first cohesion seat and a second cohesion seat are respectively arranged on a supporting seat device body, a first position-making block is arranged between the first cohesion seat and the supporting seat device body, and a second position-making block is arranged between the second cohesion seat and the supporting seat device body.

The technical effects of the above technical scheme are as follows: the basic technical scheme of the invention is formed by the supporting seat device body, the first cohesion seat, the second cohesion seat, the first position making block and the second position making block, and the technical problem of the invention is solved.

The invention designs that the supporting seat device body comprises a cylinder shell, a cover plate, a supporting column, a support, a ball core, an upper lining plate, a lower lining plate, an upper embedded part and a lower embedded part, wherein the lower end face part of the cylinder shell is connected with the lower embedded part, the cylinder shell is connected with the lower end head of the supporting column in a containing way, the cover plate is connected with the supporting column in a sleeving way, the lower end face part of the cover plate is connected with the opening part of the cylinder shell in a contact way, the cover plate is connected with the cylinder shell through a screw, the upper end head of the supporting column is connected with the support in a penetrating way, the ball shell groove body of the upper end face of the supporting column is connected with the lower end face part of the ball core through the lower lining plate, the upper end face part of the ball core is connected with the bottom wall of the support through the upper lining plate, the upper end face part of the support is connected with the upper embedded part, a first embracing seat is arranged between one side face part of the side face of the supporting column and the lower end face of the support, one side part of the lower end face of the support is connected with the lower end face of the support is arranged with the first embracing seat, one side part of the lower end face of the support is connected with the first embracing block, the other side part of the other side face of the support is connected with the second embracing seat is arranged between the other side of the other side face of the side face is connected with the other side.

The invention designs that the cylinder shell is a circular tubular body, the cover plate is a circular annular body, the supporting column is a circular rod-shaped body, the support is a disc-shaped body with a blind hole at the lower end face, the ball core is a block-shaped body with a spherical surface at the lower end face and a plane at the upper end face, the upper lining plate is a sheet-shaped body, the lower lining plate is an arc-shaped sheet-shaped body, and the upper embedded part and the lower embedded part are respectively arranged as frame-shaped bodies with supporting leg screw rods.

The technical effects of the two technical schemes are as follows: the position relation adjustment setting of the curved surface movement is realized.

The invention designs that the supporting seat device body is arranged to further comprise a displacement box part and a sliding plate part, the bottom wall of a hole body of the displacement box part is connected with the upper end face part of the supporting seat through the sliding plate part, the upper end face part of the displacement box part is arranged to be connected with the lower end face part of the upper embedded part, the displacement box part is arranged to be a disc-shaped body with a blind hole on the lower end face, and the sliding plate part is arranged to be a rectangular sheet-shaped body.

The technical effects of the above technical scheme are as follows: the support surface setting is increased, and the support stability of the high-speed magnetic levitation track beam body is improved.

The invention designs that the first cohesion seat and the second cohesion seat are respectively provided with a seat part, a first ear part and a second ear part, through hole bodies are respectively arranged on the first ear part and the second ear part, the inner side face part of the seat part, the upper end face part of the first ear part and the upper end face part of the second ear part are respectively arranged to be connected with the supporting seat device body in a contact way, the through hole bodies are connected with the supporting seat device body through bolts, the seat part is an arc-shaped platy body with a step body on the inner side face part, the first ear part and the second ear part are respectively arranged as rectangular platy bodies, and the through hole bodies are respectively arranged as long strips Kong Zhuangti.

The technical effects of the above technical scheme are as follows: the brake curved surface tile is arranged, and the contact area with the support column is increased.

The invention designs that the inner side parts of the block part of the first positioning block and the block part of the second positioning block are provided with arc-shaped surface bodies, the arc-shaped surface bodies positioned on the first positioning block are in contact connection with the first cohesion seat, the arc-shaped surface bodies positioned on the second positioning block are in contact connection with the second cohesion seat, the outer side parts of the block part are connected with the supporting seat device body in a welding mode, the inner side parts of the block part are respectively connected with the first cohesion seat and the second cohesion seat in a welding mode, the block part is provided with strip-shaped bodies, and the arc-shaped surface bodies are provided with C-shaped curved surface bodies.

The technical effects of the above technical scheme are as follows: the arc-shaped strip is connected, and the connection strength between the arc-shaped strip and the first cohesion seat and the second cohesion seat is improved.

The invention designs that the supporting seat device body, the first cohesion seat and the second cohesion seat are distributed in a clamping and fixed connection mode, the supporting seat device body, the first cohesion seat and the second cohesion seat are distributed in a stop block fixed mode, the first cohesion seat and the second cohesion seat are distributed at intervals along the periphery of a supporting column respectively, the arc-shaped surface body is connected with the seat, the first lug part, the second lug part and the block part are connected with the support respectively, and the seat is connected with the supporting column.

The invention designs a method for installing a supporting seat device for a high-speed magnetic levitation track beam body, which comprises the following steps: the supporting seat device body is used for supporting and installing the high-speed magnetic levitation track beam body, and the enclasping seat device is used for locking the positions of the component parts of the supporting seat device body.

The technical effects of the above technical scheme are as follows: the locking force is generated by friction braking, and non-rigid connection is generated between the supporting seat device body and the high-speed magnetic levitation track beam body.

The invention designs the method which comprises the following steps: the method comprises the steps of connecting a lower embedded part with a foundation seat of a high-speed magnetic levitation track beam body, placing the high-speed magnetic levitation track beam body on the upper embedded part, adjusting the high-speed magnetic levitation track beam body for the first time according to the installation size, enabling the high-speed magnetic levitation track beam body to be located at the installation position, installing the high-speed magnetic levitation track beam body on the upper embedded part, waiting until the installation of the high-speed magnetic levitation track beam body is finished, measuring the installation size of the high-speed magnetic levitation track beam body, adjusting the high-speed magnetic levitation track beam body for the second time, enabling the installation size of the high-speed magnetic levitation track beam body to reach a specified value, placing a seat part on a supporting column, placing a first lug part and a second lug part on a support seat, installing bolts on a through hole body, enabling the bolts to be screwed into the support seat part, adjusting the seat part, enabling the bolts to move in the through hole body, enabling the seat part located on the first holding seat and the seat part located on the second holding seat to be respectively acted on the support column, screwing the bolts in the support, enabling the flange body of the bolts to act on the first lug part and the second lug part on the second lug part, placing the seat part and the seat part located on the first holding seat part and the second holding seat part through the arc-shaped seat part, and making contact with the first holding part and the seat part.

The technical effects of the above technical scheme are as follows: the two-stage clamping and fixing of the support column are realized, and the stability of the support column is improved.

The invention designs the method which comprises the following steps: the seat part positioned on the first cohesion seat is placed on the supporting column, the first lug part of the first cohesion seat and the second lug part of the first cohesion seat are placed on the support, the bolt is installed on the through hole body of the first cohesion seat, the bolt is screwed into the support, the seat part of the first cohesion seat is adjusted, the bolt moves in the through hole body of the first cohesion seat, the distance between the outer end face part of the seat part of the first cohesion seat and the outer end face part of the support is in a specified value, the installation position of the seat part of the first cohesion seat and the support is used as a standard, and the installation position of the seat part of the second cohesion seat on the support is adjusted.

The technical effects of the above technical scheme are as follows: the reference setting of the installation process is realized, and the installation precision and efficiency are improved.

The invention designs that the installation size of the high-speed magnetic levitation track beam body is set to be 2mm including the gap between the adjacent high-speed magnetic levitation track beam bodies.

In the technical scheme, the supporting seat device body is a basic component, is an essential technical feature of the invention, and the first holding seat, the second holding seat, the first positioning block and the second positioning block are functional components, are features for realizing other technical effects of the invention, and are designed according to the technical features of the patent law and implementation rules thereof, wherein the technical features include a cylinder shell, a cover plate, a supporting column, a supporting seat, a ball core, an upper lining plate, a lower lining plate, an upper embedded part, a lower embedded part, a seat part, a first lug part, a second lug part, a through hole body, a block part and an arc-shaped surface body.

In the technical scheme, the supporting seat device body and the enclasping seat device for locking the positions of the component parts are important technical characteristics, and the supporting seat device and the installation method for the high-speed magnetic levitation track beam body are novel, creative and practical, and the terms in the technical scheme can be explained and understood by the patent literature in the technical field.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Figure 1 is a schematic view of the present invention,

figure 2 is a schematic view of the structure of a supporting seat device body 1 according to one of the first embodiment of the present invention,

figure 3 is a schematic structural view of the first clasping seat 2 and the second clasping seat 3,

figure 4 is a front view of figure 3,

figure 5 is a schematic view of the structure of the first positioning block 4 and the second positioning block 5,

figure 6 is a right side view of figure 5,

FIG. 7 is a schematic view of a supporting seat device body 1 according to a second embodiment of the present invention,

the supporting seat device comprises a supporting seat device body-1, a first holding seat-2, a second holding seat-3, a first positioning block-4, a second positioning block-5, a cylinder shell-11, a cover plate-12, a supporting column-13, a supporting seat-14, a ball core-15, an upper lining plate-16, a lower lining plate-17, an upper embedded part-18, a lower embedded part-19, a seat-21, a first lug-22, a second lug-23, a through hole body-24, a block-41 and an arc-shaped surface body-42.

Detailed Description

Terms such as "having," "including," and "comprising," as used herein, are to be construed as not being accompanied by the presence or addition of one or more other elements or combinations thereof, in accordance with the censoring guidelines.

In the description of the present invention, it should be noted that the directions or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

In addition, the technical features of the various embodiments of the invention described below may be combined with one another as long as they do not interfere with one another, and, unless otherwise specified, the equipment and materials used in the examples below are commercially available, as the process conditions are not explicitly described, with reference to the commercially available product specifications or in accordance with methods conventional in the art.

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Fig. 1 is a schematic diagram of one of a first embodiment of the present invention, and specifically illustrates the present embodiment with reference to the accompanying drawings, where the support seat device includes a support seat device body 1, a first enclasping seat 2, a second enclasping seat 3, a first positioning block 4 and a second positioning block 5, the support seat device body 1 is provided with the first enclasping seat 2 and the second enclasping seat 3, the first positioning block 4 is disposed between the first enclasping seat 2 and the support seat device body 1, and the second positioning block 5 is disposed between the second enclasping seat 3 and the support seat device body 1.

In the present embodiment, the supporting seat device body 1 is provided to include a cartridge 11, a cover plate 12, a support column 13, a support 14, a ball core 15, an upper liner plate 16, a lower liner plate 17, an upper embedded part 18 and a lower embedded part 19 and a lower end face portion of the cartridge 11 is provided to be coupled with the lower embedded part 19, the cartridge 11 is provided to be coupled with a lower end of the support column 13 in a housing manner and the cover plate 12 is provided to be coupled with the support column 13 in a housing manner, a lower end face portion of the cover plate 12 is provided to be coupled with an open portion of the cartridge 11 in a contact manner and the cover plate 12 is provided to be coupled with the cartridge 11 by a screw, an upper end of the support column 13 is provided to be coupled with the support 14 in a penetrating manner and a ball housing groove body of an upper end face of the support column 13 is provided to be coupled with a lower end face portion of the ball core 15 by the lower liner plate 17, the upper end face portion of the ball core 15 is arranged to be coupled with the hole body bottom wall of the support 14 through the upper liner 16 and the upper end face portion of the support 14 is arranged to be coupled with the upper embedded part 18, a first holding seat 2 is arranged between one of the side face portions of the support column 13 and one of the side portions of the lower end face of the support 14 is arranged to be coupled with the first positioning block 4, a second holding seat 3 is arranged between the other of the side face portions of the support column 13 and the other of the side portions of the lower end face of the support 14 is arranged to be coupled with the second positioning block 5,

through supporting seat device body 1, the support tie point to first embracing seat 2, second embracing seat 3, first system position piece 4 and second system position piece 5 has been formed, by support column 13 and support 14, realized being connected with first embracing seat 2, realized being connected with second embracing seat 3, by support 14, realized being connected with first system position piece 4, realized being connected with second system position piece 5, by barrel housing 11, apron 12, ball core 15, go up welt 16 and lower welt 17, realized the arcwall face connection processing between support column 13 and the support 14, by last built-in fitting 18, realized with high-speed magnetic levitation track roof beam body connection processing, by lower built-in fitting 19, realized the ground seat connection processing of high-speed magnetic levitation track roof beam body, its technical objective: is used as a support carrier of the first embracing seat 2, the second embracing seat 3, the first positioning block 4 and the second positioning block 5.

In the present embodiment, the cartridge 11 is provided as a circular tubular body and the cover plate 12 is provided as a circular annular body, the support column 13 is provided as a circular rod-like body and the support 14 is provided as a disk-like body having a blind hole at the lower end face, the ball core 15 is provided as a block-like body having a spherical face at the lower end face and a flat face at the upper end face, the upper liner plate 16 is provided as a sheet-like body and the lower liner plate 17 is provided as an arc-like sheet-like body, and the upper embedded part 18 and the lower embedded part 19 are respectively provided as a rack-like body having leg screws.

The technical purpose is that: realize carrying out the displacement adjustable support to high-speed magnetic levitation track roof beam body.

In the present embodiment, the first clasping seat 2 and the second clasping seat 3 are respectively provided to include the seat portion 21, the first ear portion 22 and the second ear portion 23 and are respectively provided with the through hole bodies 24 on the first ear portion 22 and the second ear portion 23, the inner side face portion of the seat portion 21, the upper end face portion of the first ear portion 22 and the upper end face portion of the second ear portion 23 are respectively provided to be in contact-type coupling with the supporting seat device body 1 and the through hole bodies 24 are provided to be coupled with the supporting seat device body 1 by bolts, the seat portion 21 is provided to be an arc-shaped plate-like body having a step body in the inner side face portion and the first ear portion 22 and the second ear portion 23 are respectively provided to be rectangular sheet-like bodies, and the through hole bodies 24 are provided to be elongated Kong Zhuangti.

Through first cohesion seat 2 and second cohesion seat 3, formed the support tie point to supporting seat device body 1, by seat 21, first ear 22, second ear 23 and through-hole body 24, realized being connected with supporting seat device body 1, its technical aim at: the device is used for limiting the supporting seat device body 1.

In the present embodiment, the arc-shaped surface bodies 42 are provided on the inner side surfaces of the block portion 41 of the first positioning block 4 and the block portion 41 of the second positioning block 5, and the arc-shaped surface bodies 42 located on the first positioning block 4 are provided to be in contact with the first clasping seat 2, the arc-shaped surface bodies 42 located on the second positioning block 5 are provided to be in contact with the second clasping seat 3, and the outer side surfaces of the block portion 41 are provided to be in contact with the supporting seat device body 1 by welding, the inner side surfaces of the block portion 41 are provided to be in contact with the first clasping seat 2 and the second clasping seat 3 by welding, respectively, the block portion 41 is provided as a strip-shaped body, and the arc-shaped surface bodies 42 are provided as C-shaped curved surfaces.

Through first system position piece 4 and second system position piece 5, formed the support tie point to supporting seat device body 1, first cohesion seat 2 and second cohesion seat 3, realized being connected with supporting seat device body 1 by the piece portion 41, realized being connected with first cohesion seat 2 by arcwall face body 42, realized being connected with second cohesion seat 3, its technical aim is: as means for connecting the first and second clasping seats 2, 3 with the supporting seat device body 1.

In this embodiment, the supporting seat device body 1 and the first and second holding seats 2 and 3 are arranged to be distributed according to a clamping and fixing connection manner, and the supporting seat device body 1, the first and second holding seats 2 and 3, the first and second positioning blocks 4 and 5 are arranged to be distributed according to a stopper fixing manner, the first and second holding seats 2 and 3 are respectively arranged to be distributed along the periphery of the supporting column 13 at intervals, the arc-shaped surface body 42 is arranged to be connected with the seat 21, the first and second ear portions 22 and 23 and the block portion 41 are respectively arranged to be connected with the support 14, and the seat 21 is arranged to be connected with the supporting column 13.

The invention will be further described with reference to the following examples, which are intended to illustrate the invention and not to limit it further.

A method for installing a supporting seat device for a high-speed magnetic levitation track beam body is provided, which comprises the following steps: the method comprises the steps of connecting a lower embedded part 19 with a foundation seat of a high-speed magnetic levitation track beam body, placing the high-speed magnetic levitation track beam body on the upper embedded part 18, adjusting the high-speed magnetic levitation track beam body for the first time according to the installation size, enabling the high-speed magnetic levitation track beam body to be positioned on the installation position, installing the high-speed magnetic levitation track beam body on the upper embedded part 18, waiting until the installation of the high-speed magnetic levitation track beam body is finished, measuring the installation size of the high-speed magnetic levitation track beam body, adjusting the high-speed magnetic levitation track beam body for the second time, enabling the installation size of the high-speed magnetic levitation track beam body to reach a specified value, placing a seat part 21 on a supporting column 13, placing a first lug part 22 and a second lug part 23 on a support 14, installing bolts on a through hole 24, enabling the bolts to be screwed into the support 14, adjusting the seat part 21, enabling the bolts to move in the through hole 24, enabling the seat part 21 positioned on the first holding seat 2 and the seat part 21 positioned on the second holding seat 3 to be respectively used on the support column 13, screwing the first lug part 22 and the second lug part 21 in the support seat part 4, enabling the first holding block 21 and the second lug part 21 to be positioned on the second holding seat part 21 to be positioned on the support seat part 4, and the second holding seat part 4 to be positioned on the support seat part 41, and the first holding seat part 21 and the second lug part 4 to be positioned on the support seat part 41, and the second holding seat part 4 being in contact with the first seat part 41, and the second lug part 4, and the second lug part being positioned on the support part 4, and the second lug part 4 being positioned on the support part, and the support part 41.

In this embodiment, the installation size of the high-speed magnetic levitation track beam body is set to be 2mm including the gap between the adjacent high-speed magnetic levitation track beam bodies.

Fig. 7 is a second embodiment of the present invention, specifically describing the present embodiment with reference to the drawings, in which the supporting seat device body 1 is configured to further include a displacement box portion 101 and a slide plate portion 102, and the bottom wall of the hole of the displacement box portion 101 is configured to be coupled to the upper end face portion of the support 14 through the slide plate portion 102, the upper end face portion of the displacement box portion 101 is configured to be coupled to the lower end face portion of the upper embedded part 18, and the displacement box portion 101 is configured to be a disk-shaped body having a blind hole in the lower end face, and the slide plate portion 102 is configured to be a rectangular sheet-shaped body.

The technical purpose is that: the secondary sliding position adjustment support of the upper embedded part 18 is realized.

The second embodiment of the invention is a method for installing a supporting seat device for a high-speed magnetic levitation track beam body, comprising the following steps: the seat 21 of the first clasping seat 2 is placed on the support column 13, the first lug 22 of the first clasping seat 2 and the second lug 23 of the first clasping seat 2 are placed on the support 14, a bolt is mounted on the through hole 24 of the first clasping seat 2, the bolt is screwed into the support 14, the seat 21 of the first clasping seat 2 is adjusted, the bolt is moved in the through hole 24 of the first clasping seat 2, the distance between the outer end face of the seat 21 of the first clasping seat 2 and the outer end face of the support 14 is set at a prescribed value, and the mounting position of the seat 21 of the first clasping seat 2 and the support 14 is adjusted to the mounting position of the seat 21 of the second clasping seat 3 on the support 14 by taking the mounting position of the seat 21 of the first clasping seat 2 and the support 14 as a standard.

A supporting seat device body 1, a first cohesion seat 2, a second cohesion seat 3, a first position-making block 4 and a second position-making block 5,

The cylinder shell 11, the cover plate 12, the supporting column 13, the supporting seat 14, the ball core 15, the upper lining plate 16, the lower lining plate 17, the upper embedded part 18, the lower embedded part 19, the displacement box part 101, the sliding plate part 102,

A seat 21, a first lug 22, a second lug 23, a through hole 24,

A block 41, an arc-shaped surface 42,

In a second embodiment of the present invention, the support base apparatus body 1 and the clasping base apparatus are coupled to each other in such a manner that the positions of the constituent members are locked.

In the present embodiment, the clasping seat apparatus is coupled to the support seat apparatus body 1 in such a manner that the height position of the constituent members is locked.

In this embodiment, the hugging seat device is configured to include a first hugging seat 2 and a second hugging seat 3.

In the present embodiment, a first accessory device is further included and is provided between the clasping seat device and the support seat device body 1, the first accessory device being provided to include the first positioning block 4 and the second positioning block 5.

The second embodiment of the present invention is based on the first embodiment,

a second embodiment of the invention comprises the steps of: the support mounting of the high-speed magnetic levitation track beam body is realized by the support seat device body 1, and the locking setting of the positions of the component parts of the support seat device body 1 is realized by the enclasping seat device.

The second embodiment of the present invention is based on the first embodiment,

the invention has the following characteristics:

1. because the supporting seat device body 1 and the enclasping seat device are designed, the supporting installation of the high-speed magnetic levitation track beam body is realized through the supporting seat device body 1, and the locking setting of the positions of the component parts of the supporting seat device body 1 is realized through the enclasping seat device, so that the phenomenon of causing the whole displacement of the high-speed magnetic levitation track beam body is prevented, and the contact electrifying safety performance of the adjacent steel frames is improved.

2. Due to the design of the supporting seat device body 1, the adjustable support of the mounting position of the high-speed magnetic levitation track beam body is realized.

3. Due to the design of the first cohesion seat 2 and the second cohesion seat 3, the clamping and fixing of the support column 13 positioned on the center support are realized.

4. Due to the design of the first positioning block 4 and the second positioning block 5, the surrounding fixing treatment of the first enclasping seat 2 and the second enclasping seat 3 is realized.

5. Because the structure shape is designed to limit the numerical range, the numerical range is the technical characteristic in the technical scheme of the invention, and the technical characteristic of the numerical range is not calculated through a formula or obtained through limited tests, and the tests show that the technical characteristic of the numerical range has good technical effect.

6. Because the technical characteristics of the invention are designed, the experiment shows that the performance indexes of the invention are at least 1.7 times of the existing performance indexes under the independent and mutually aggregated functions of the technical characteristics, and the invention has good market value through evaluation.

Other technical features of the coupling with the supporting seat device body 1 and the clasping seat device for locking the positions of the constituent parts are one of the embodiments of the present invention, and the technical features of the above-described embodiments may be arbitrarily combined, and in order to satisfy the requirements of patent laws, patent implementation details and examination guidelines, all possible combinations of the technical features of the above-described embodiments will not be described.

The above embodiment is only one implementation form of the supporting seat device and the installation method for the high-speed magnetic levitation track beam body provided by the invention, and according to other variants of the scheme provided by the invention, components or steps in the supporting seat device and the installation method are added or reduced, or the supporting seat device and the installation method are used in other technical fields close to the invention, and all the other technical fields belong to the protection scope of the invention.

Claims (9)

1. A supporting seat device for high-speed magnetic levitation track roof beam body, characterized by: comprises a supporting seat device body (1) for supporting a high-speed magnetic levitation track beam body and a holding seat device arranged on the supporting seat device body (1),

the enclasping seat device is arranged to comprise a first enclasping seat (2) and a second enclasping seat (3),

the device also comprises a first accessory device which is arranged between the enclasping seat device and the supporting seat device body (1) and comprises a first positioning block (4) and a second positioning block (5),

a first cohesion seat (2) and a second cohesion seat (3) are respectively arranged on the supporting seat device body (1), a first position-making block (4) is arranged between the first cohesion seat (2) and the supporting seat device body (1), a second position-making block (5) is arranged between the second cohesion seat (3) and the supporting seat device body (1),

the supporting seat device body (1) is arranged to comprise a cylinder shell (11), a cover plate (12), a supporting column (13), a support (14), a ball core (15), an upper lining plate (16), a lower lining plate (17), an upper embedded part (18) and a lower embedded part (19), wherein the lower end face part of the cylinder shell (11) is arranged to be connected with the lower embedded part (19), the cylinder shell (11) is arranged to be connected with the lower end of the supporting column (13) in a holding way, the cover plate (12) is arranged to be connected with the supporting column (13) in a sleeving way, the lower end face part of the cover plate (12) is arranged to be connected with the opening part of the cylinder shell (11) in a contact way, the cover plate (12) is arranged to be connected with the cylinder shell (11) through a screw, the upper end of the supporting column (13) is arranged to be connected with the lower end face part of the ball core (15) through the lower lining plate (17), the upper end face part of the ball core (15) is arranged to be connected with the upper embedded part (18) through the hole part of the upper lining plate (16) and the upper end face part of the supporting column (14) is arranged to be connected with the upper embedded part (14), a first embracing seat (2) is arranged between one side surface part of the supporting column (13) and one side part of the lower end surface of the support (14), one side part of the lower end surface of the support (14) is connected with the first position-making block (4), a second embracing seat (3) is arranged between the other side surface part of the supporting column (13) and the other side part of the lower end surface of the support (14), the other side part of the lower end surface of the support (14) is connected with the second position-making block (5),

the first cohesion seat (2) and the second cohesion seat (3) are respectively provided with a seat (21), a first lug (22) and a second lug (23), through hole parts (24) are respectively arranged on the first lug (22) and the second lug (23), the inner side face part of the seat (21), the upper end face part of the first lug (22) and the upper end face part of the second lug (23) are respectively arranged to be connected with the supporting seat device body (1) in a contact way, the through hole parts (24) are connected with the supporting seat device body (1) through bolts, the seat (21) is an arc-shaped platy body with a step body on the inner side face part, the first lug (22) and the second lug (23) are respectively arranged as rectangular platy bodies, the through hole parts (24) are respectively arranged as long strips Kong Zhuangti,

the inner side parts of the block parts (41) of the first positioning block (4) and the block parts (41) of the second positioning block (5) are provided with arc-shaped surface bodies (42) and the arc-shaped surface bodies (42) positioned on the first positioning block (4) are connected with the first cohesion seat (2) in a contact mode, the arc-shaped surface bodies (42) positioned on the second positioning block (5) are connected with the second cohesion seat (3) in a contact mode, the outer side parts of the block parts (41) are connected with the supporting seat device body (1) in a welding mode, the inner side parts of the block parts (41) are connected with the first cohesion seat (2) and the second cohesion seat (3) in a welding mode respectively, and the block parts (41) are strip-shaped bodies and the arc-shaped surface bodies (42) are C-shaped surface bodies.

2. The support seat device for a high-speed magnetic levitation track beam body according to claim 1, characterized in that: the supporting seat device body (1) and the holding seat device are mutually connected in a mode of locking the positions of the component parts.

3. The support seat device for a high-speed magnetic levitation track beam body according to claim 1, characterized in that: the clasping seat device is connected with the supporting seat device body (1) in a mode of locking the height positions of the component parts.

4. The support seat device for a high-speed magnetic levitation track beam body according to claim 1, characterized in that: the shell (11) is a circular tubular body, the cover plate (12) is a circular annular body, the support column (13) is a circular rod-shaped body, the support (14) is a disc-shaped body with a blind hole on the lower end face, the ball core (15) is a block-shaped body with a spherical surface on the lower end face and a plane on the upper end face, the upper lining plate (16) is a sheet-shaped body, the lower lining plate (17) is an arc-shaped sheet-shaped body, and the upper embedded part (18) and the lower embedded part (19) are respectively a frame-shaped body with supporting leg screw rods.

5. The support seat device for a high-speed magnetic levitation track beam body according to claim 1, characterized in that: the supporting seat device body (1) is arranged to further comprise a displacement box portion (101) and a sliding plate portion (102), the bottom wall of a hole body of the displacement box portion (101) is connected with the upper end face portion of the supporting seat (14) through the sliding plate portion (102), the upper end face portion of the displacement box portion (101) is connected with the lower end face portion of the upper embedded part (18), the displacement box portion (101) is arranged to be a disc-shaped body with a blind hole in the lower end face, and the sliding plate portion (102) is arranged to be a rectangular sheet-shaped body.

6. The support seat device for a high-speed magnetic levitation track beam according to any one of claims 1 to 5, characterized in that: the supporting seat device body (1) is distributed with the first cohesion seat (2) and the second cohesion seat (3) in a clamping and fixing connection mode, the supporting seat device body (1), the first cohesion seat (2) and the second cohesion seat (3) are distributed with the first position making block (4) and the second position making block (5) in a stop block fixing mode, the first cohesion seat (2) and the second cohesion seat (3) are distributed along the periphery of the supporting column (13) in an interval arrangement mode respectively, the arc-shaped surface body (42) is connected with the seat (21), the first lug (22), the second lug (23) and the block part (41) are connected with the supporting seat (14) respectively, and the seat (21) is connected with the supporting column (13).

7. A method of installing a support base apparatus for a high-speed magnetically levitated track beam according to claim 6, characterized by: the method comprises the following steps: the supporting seat device body (1) realizes the supporting installation of the high-speed magnetic levitation track beam body, the enclasping seat device realizes the locking setting of the positions of the component parts of the supporting seat device body (1),

the lower embedded part (19) is connected with a foundation seat of the high-speed magnetic levitation track beam body, the high-speed magnetic levitation track beam body is placed on the upper embedded part (18), the high-speed magnetic levitation track beam body is firstly adjusted according to the installation size, the high-speed magnetic levitation track beam body is positioned on the installation position, the high-speed magnetic levitation track beam body is installed on the upper embedded part (18), after the high-speed magnetic levitation track beam body is installed, the installation size of the high-speed magnetic levitation track beam body is measured, the high-speed magnetic levitation track beam body is secondarily adjusted, the installation size of the high-speed magnetic levitation track beam body reaches a specified value, the seat part (21) is placed on the supporting column (13), the first lug part (22) and the second lug part (23) are placed on the supporting column (14), a bolt is installed on the through hole part (24), the bolt is screwed into the supporting column (14), the seat part (21) is adjusted, the bolt is moved in the through hole part (24), the seat part (2) and the second lug part (21) is tightly contacted with the supporting column (14) by the lug part (21) and the second lug part (21) in a way, the lug part (21) is tightly contacted with the supporting column (14) by the arc-shaped lug part (41), the block part (41) is connected with the seat part (21) and the support (14), the block part (41) positioned at the first positioning block (4) is connected with the seat part (21) positioned at the first cohesion seat (2), and the block part (41) positioned at the second positioning block (5) is connected with the seat part (21) positioned at the second cohesion seat (3).

8. The mounting method according to claim 7, characterized in that: the method comprises the following steps: the seat (21) of the first embracing seat (2) is placed on the supporting column (13), the first lug (22) of the first embracing seat (2) and the second lug (23) of the first embracing seat (2) are placed on the support (14), the bolt is installed on the through hole part (24) of the first embracing seat (2), the bolt is screwed into the support (14), the seat (21) of the first embracing seat (2) is adjusted, the bolt moves in the through hole part (24) of the first embracing seat (2), the distance between the outer end face part of the seat (21) of the first embracing seat (2) and the outer end face part of the support (14) is set at a specified value, and the installation position of the seat (21) of the first embracing seat (2) and the installation position of the support (14) of the second embracing seat (3) is adjusted according to the standard.

9. The mounting method according to claim 7, characterized in that: the installation size of the high-speed magnetic levitation track beam body is set to be 2mm including the gap of the adjacent high-speed magnetic levitation track beam body.