CN114952679B - Tool for combined track - Google Patents

Abstract

The invention discloses a tool for a combined track, which comprises a base plate, limiting rails and buckling devices, wherein both ends of each limiting rail are respectively provided with a concave outer rail groove and a concave inner rail groove, a plurality of limiting rails are uniformly distributed on the upper surface of the base plate, and a pair of buckling devices are arranged between any two limiting rails; the outer rail grooves on the limiting rails can be correspondingly combined to form an outer groove diameter, the inner rail grooves on the limiting rails can be correspondingly combined to form an inner groove diameter, the outer groove diameter is parallel to the inner groove diameter, the buckling devices are respectively positioned on the outer sides of the outer groove diameter and the inner groove diameter, and when the buckling devices are in buckling states, the pressing heads of the buckling devices are directly opposite to the outer groove diameter and the upper side of the inner groove diameter. The invention can be matched with the rail to realize the assembly of various forms, improves the assembly efficiency and can carry out the accuracy confirmation and correction on line.

Description

Tool for combined track

Technical Field

The application belongs to the technical field of track assembly, and particularly relates to a tool for a combined track.

Background

When the track is assembled and the bent track/straight track is spliced, the assembly can be completed only by fixing the relative positions among the components, the conventional butt joint assembly mode is low in efficiency, and the relative positions are difficult to determine.

Particularly, when the bent rail is assembled, the whole layout of each component is difficult to operate, and the bent rail is misplaced slightly carelessly, so that a stable fixing tool is lacked.

Disclosure of Invention

The utility model aims at providing a frock for combination formula is orbital, but the cooperation is used and is realized the track equipment of multiple form, improves packaging efficiency, can confirm, revise on line precision.

The technical scheme adopted for solving the technical problems of the application is that the tool for the combined track comprises a base plate, limiting pieces and buckling devices, wherein both ends of each limiting piece are respectively provided with a concave outer rail groove and a concave inner rail groove, a plurality of limiting pieces are uniformly distributed on the upper surface of the base plate, and a pair of buckling devices are arranged between two adjacent limiting pieces; the outer rail grooves on the limiting pieces can be correspondingly combined to form an outer ring path, the inner rail grooves on the limiting pieces can be correspondingly combined to form an inner ring path, the outer ring path is parallel to the inner ring path, the two buckling devices in pairs are respectively positioned on the outer sides of the outer ring path and the inner ring path, and when the buckling devices are in buckling states, the pressure heads of the buckling devices are directly opposite to and pressed onto the outer ring path and the upper part of the inner ring path.

Further, the device further comprises a positioning block, wherein the positioning block is fixed on the upper surface of the substrate, the buckling device is installed at the upper end of the positioning block, and the positioning block is used for lifting the working height of the buckling device.

Further, a positioning hole group and a limiting hole group are formed in the substrate, the positioning hole group is used for fixing the positioning block, and the limiting hole group is used for fixing the limiting piece; the limiting hole groups are distributed on the substrate in an array manner, so that the limiting pieces can be uniformly arranged and fixed on the substrate; the plurality of paired positioning hole groups are arranged between two adjacent limiting pieces and are respectively arranged at two ends, so that the buckling device can be distributed on the outer sides of the inner ring path and the outer ring path in pairs.

Further, the buckling device further comprises a handle, a rotating arm, a base and a locking piece, wherein a fixing lug is arranged at the lower end of the base and used for positioning and installing the buckling device, the rear part of the upper end of the base is rotationally connected with the rear end of the rotating arm, the front end of the rotating arm is fixedly connected with the pressure head, the middle section of the rotating arm is rotationally connected with the lower end of the locking piece, the upper end of the locking piece is rotationally connected with the upper part of a bifurcation arm of the handle, and the lower part of the bifurcation arm is rotationally connected with the front part of the upper end of the base.

Further, the upper end of the handle is a rotating handle, the lower end of the handle is a bifurcation arm, the bifurcation arm is respectively connected to two sides of the base in a rotating way, and the rotating arm is positioned between the bifurcation arms; the locking piece sets up parallel ears board, and the front end of ears board is provided with the backstop structure, and the rear end of ears board can be covered to on the rotor arm, the lower extreme of ears board rotate respectively be connected to the both sides in rotor arm middle section, the upper end of ears board rotate respectively be connected to divide the inboard of yoke.

Further, the rotating handle is rotated forwards, so that the locking piece synchronously rotates forwards until the stop structure of the locking piece is perpendicular to the rotating arm, and therefore the rotating arm is pushed to drop downwards to a horizontal state, the handle is in a vertical state, and locking of the buckling state of the buckling device is completed; and the rotating handle is rotated backwards, so that the locking piece synchronously rotates backwards to gradually pull the rotating arm to lift upwards and cover the rotating arm, and the buckling state of the buckling device is released.

Further, an outer rail wall is arranged on one side of an outer rail groove on the limiting piece, an inner rail wall is arranged on one side of an inner rail groove, a protruding fixing portion is arranged between the outer rail groove and the inner rail groove, and a plurality of through holes are formed in the fixing portion and used for fixing the limiting piece.

Further, the base plate is an arc-shaped plate, a plurality of limiting pieces are distributed in an annular mode, and the outer rail grooves and the inner rail grooves are arc-shaped grooves, so that the inner ring path and the outer ring path are annular groove paths.

Furthermore, the circumference of the base plate accounts for one fourth, and the two base plates are in mirror image butt joint, so that the bending rails assembled on the two base plates can be assembled into a semicircular bending rail structure.

A section of straight rail can be added in the middle of the semicircular bent rail structure, so that the span of the bent rail is enlarged, and the requirements of actual field layout are met.

Furthermore, the two substrates are in central symmetry butt joint, so that the assembled bent rail on the two tools can be assembled into an S-shaped bent rail structure.

A section of straight rail can be added in the middle of the S-shaped bent rail structure, so that smoothness of the inspection trolley in running of an S-shaped bent rail is improved.

Further, the base plate is a straight plate, the limiting pieces are distributed at equal intervals in a straight line, and the outer rail groove and the inner rail groove are linear grooves, so that the inner ring path and the outer ring path are linear groove paths.

The beneficial effects of this application are:

the utility model provides a be used for orbital frock of combination formula for combination formula orbital butt joint, installation can cooperate between frock and the frock to use and realize the track equipment of multiple form, like 90 curved rails, 180 curved rails, S type curved rails etc.. When the S-shaped bent rail is assembled, a section of straight rail can be added to optimize the running smoothness of the inspection unit at the S-shaped bent position; when the 180-degree bent rail is assembled, a section of straight rail can be added to expand the span of the bent rail, so that the device is suitable for actual requirements.

When assembling on the frock, after the head end aligns, inside track subassembly can dock the installation in proper order, compress tightly through the twist grip can, need not many times strict accurate positioning, alignment.

After the splicing is completed on the tooling, the precision of the end part of the assembled bent rail can be directly confirmed and corrected, so that the bent rail and the bent rail/straight rail can meet the use requirement in the butt joint process, and the repeated confirmation and correction of the butt joint precision of the end faces of all components are not required.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments of the application and together with the description, serve to explain the principles of the application. In the drawings, like reference numerals are used to identify like elements. The drawings, which are included in the description below, are some, but not all embodiments of the present application. Other figures can be derived from these figures by one of ordinary skill in the art without undue effort.

Fig. 1 is a structural diagram of a tooling for a combined track according to an embodiment of the present application;

FIG. 2 is a diagram of a substrate aperture for a tooling for a modular track according to an embodiment of the present application;

fig. 3 is a block diagram of a limiting part of a tooling for a combined track according to an embodiment of the present application;

fig. 4 is a structural diagram of a buckling device of a tooling for a combined track according to an embodiment of the present application;

FIG. 5 is an exploded view of a crimping device for a tooling of a modular track according to an embodiment of the present application;

FIG. 6 is an assembly schematic diagram of a tooling for a modular track according to an embodiment of the present application;

FIG. 7 is a schematic view of a 180 bend rail assembly for a tooling that combines rails according to an embodiment of the present application;

FIG. 8 is a schematic illustration of an extended assembly of a 180 bend rail for a tooling that is a rail according to an embodiment of the present application;

FIG. 9 is an assembled schematic view of an S-bend for a tooling that combines rails according to an embodiment of the present application;

fig. 10 is an extended assembly schematic of an S-bend for a tooling that combines rails according to an embodiment of the present application.

In the figure: 1. a substrate; 2. a limiting piece; 3. a positioning block; 4. a buckling device; 5. an outer rail groove; 6. an inner rail groove; 8. bending a rail; 9. a straight rail; 11. a positioning hole group; 12. a limiting hole group; 21. an outer rail wall; 22. an inner rail wall; 23. a fixing part; 41. a handle; 42. a pressure head; 43. a rotating arm; 44. a base; 45. a locking member; 81. an outer annular wall; 82. an inner annular wall; 83. a top plate; 84. and (5) sealing plates.

Detailed Description

In order to more clearly illustrate the embodiments of the present application and the technical solutions in the prior art, the following description will explain specific embodiments of the present application with reference to the accompanying drawings. It is obvious that the drawings in the following description are only examples of the present application, and that other drawings and other embodiments may be obtained from these drawings by those skilled in the art without undue effort. The term "design azimuth" merely means a relative positional relationship between the respective members, not an absolute positional relationship.

The embodiment of the application provides a tool for a combined track, referring to fig. 1-6, mainly comprising a substrate 1, limiting pieces 2 and buckling devices 4, wherein both ends of the limiting pieces 2 are respectively provided with a concave outer rail groove 5 and a concave inner rail groove 6, a plurality of limiting pieces 2 are uniformly arranged and distributed on the upper surface of the substrate 1, and a pair of buckling devices 4 are arranged between any two limiting pieces 2; the outer rail grooves 5 on the limiting pieces 2 can be correspondingly combined to form an outer ring path, the inner rail grooves 6 on the limiting pieces 2 can be correspondingly combined to form an inner ring path, the outer ring path is parallel to the inner ring path, the two buckling devices 4 are respectively positioned on the outer sides of the outer ring path and the inner ring path, and when the buckling devices 4 are in a buckling state, the pressing heads 42 of the buckling devices 4 are right opposite to be pressed above the outer ring path and the inner ring path.

The substrate 1 of the application can be an arc-shaped plate, and a plurality of corresponding limiting pieces 2 are uniformly arranged in a ring shape and distributed on the substrate 1; the outer rail groove 5 and the inner rail groove 6 are arc grooves, so that the inner ring path and the outer ring path are annular groove paths. The circumference of the arc plate accounts for one fourth, and when the fixture is used, the 90-degree bent rail 8 can be directly assembled.

Preferably, the two tools are mirror-image-docked, i.e. the two substrates 1 are mirror-image-docked, so that the curved rail 8 assembled by the two tools can be spliced into a semicircular curved rail structure, as shown in fig. 7. To adapt to the span requirement of the actual field, a section of straight rail 9 can be added at the butt joint, and the span of a semicircular bent rail structure is increased, as shown in fig. 8. It will be appreciated that the length of the straight rail 9 may be taken according to the actual field requirements.

Preferably, the two tools are butted in a central symmetry manner, i.e. the two substrates 1 are butted in a central symmetry manner at the ends, so that the assembled bent rail 8 on the two tools can be assembled into an S-shaped bent rail structure, as shown in fig. 9. The assembled track of this application can be used to the operation of inspection trolley, in order to reduce the jamming risk of inspection trolley operation at S curved track department, can add a little section straight rail 9 in the butt joint department to guarantee the operation of inspection trolley smooth and easy.

The base plate 1 of this application can also be the straight line template, and a plurality of locating parts 2 are evenly arranged along the straight line, equidistant on base plate 1, and outer rail groove 5, interior rail groove 6 are the straight line groove for inner ring route, outer ring route are the straight line groove footpath. When the tool is used, the linear rail can be directly assembled. (Linear template is not shown)

In the embodiment of the application, a positioning hole set 11 and a limiting hole set 12 are formed in the substrate 1, wherein the positioning hole set 11 is used for fixedly mounting the buckling device 4, and the limiting hole set 12 is used for fixedly mounting the limiting piece 2. It can be understood that the plurality of limiting hole groups 11 are distributed on the substrate 1 in an array manner, and in this application, an annular array is taken as an example, and correspondingly, the limiting pieces 2 can be uniformly arranged and fixed on the substrate 1 in an annular array manner; the positioning hole groups 11 are arranged between two adjacent limiting pieces 2 and are respectively arranged at two ends, so that the buckling devices 4 are distributed in pairs and are respectively arranged at the outer sides of the inner ring path and the outer ring path.

Because the buckling device 4 has a demand on the operation height, the positioning block 3 can be arranged, and the buckling device 4 is mounted at the upper end of the positioning block 3, so that the operation height of the buckling device 4 is raised. It will be appreciated that the height of the positioning block 3 can be adjusted according to the actual requirements of the assembled track. Preferably, the positioning block 3 can be set to be a telescopic structure so as to adjust the height lifting amount provided by the positioning block 3, thereby adapting to the assembly rails with different assembly height requirements.

In the embodiment of the present application, the lower end of the positioning block 3 is fixed to the upper surface of the substrate 1 through the positioning hole set 11, and the upper end is used for fixedly mounting the buckling device 4.

In the embodiment of the application, the two ends of the limiting piece 2 are respectively provided with an outer rail groove 5 and an inner rail groove 6, as shown in fig. 3, one side of the outer rail groove 5 on the limiting piece 2 is provided with an outer rail wall 21, one side of the inner rail groove 6 is provided with an inner rail wall 22, a protruding fixing part 23 is arranged between the outer rail groove 5 and the inner rail groove 6, and a plurality of through holes are formed in the fixing part 23 to be matched with the limiting hole group 12 to fix the limiting piece 2.

In the application, the plurality of limiting pieces 2 are distributed on the upper surface of the base plate 1 in a single-row mode, and the positions of the outer rail grooves 5 on each limiting piece 2 can be correspondingly combined to form an opening path of the outer rail groove 5, namely an outer ring path; the positions of the inner rail grooves 6 on each limiting piece 2 can be correspondingly combined to form an opening path of the inner rail groove 6, namely an inner ring path. It can be appreciated that the outer ring path and the inner ring path correspond to the outer side wall and the inner side wall of the limiting member channel assembly respectively when the track assembly is performed.

In this application, the buckling device 4 includes a handle 41, a pressing head 42, a rotating arm 43, a base 44, and a locking piece 45, where a fixing lug extending to two sides is disposed at a lower end of the base 44 for positioning and installing the buckling device 4 onto the base plate 1 or the positioning block 3.

Referring to fig. 4 and 5, the rear part of the upper end of the base 44 is rotatably connected to the rear end of the rotating arm 43, and the front end of the rotating arm 43 is fixedly connected to the ram 42, so that the rotating arm 43 and the ram 42 can rotate relative to the base 44. The middle section of the rotating arm 43 is rotatably connected with the lower end of the locking member 45, the upper end of the locking member 45 is rotatably connected with the upper portion of the bifurcated arm of the handle 41, and the lower portion of the bifurcated arm is rotatably connected with the front portion of the upper end of the base 44.

Specifically, the upper end of the base 44 is a double-vertical plate structure, the rotating arm 43 is located between the double vertical plates, the rear portion of the double vertical plates is rotationally connected with the rotating arm 43, the front portion of the double vertical plates is provided with an arc-shaped recess, and the arc-shaped recess corresponds to the middle section of the rotating arm 43 and is used for matching with the rotation of the locking piece 45. The pivotal connection between the lower portion of the bifurcated arm and the front portion of the upper end of the base 44 is located directly below the arcuate recess.

The upper end of the handle 41 is a rotating handle, the lower end of the handle 41 is a forked arm, the two sides of the base 44 are respectively connected in a rotating way, and the rotating arm 43 is positioned between the forked arms; the locking piece 45 is provided with parallel double-lug plates, the front ends of the double-lug plates are provided with stop structures, the rear ends of the double-lug plates can be covered on the rotating arms 43, the lower ends of the double-lug plates are respectively connected to two sides of the middle section of the rotating arms 43 in a rotating mode, and the upper ends of the double-lug plates are respectively connected to the inner sides of the bifurcation arms in a rotating mode.

The use of the buckling device 4 can buckle the track assembly in the tool, stabilize the state of the assembly, and change the state of the assembly, wherein the state comprises:

rotating the rotating handle forward, so that the locking piece 45 synchronously rotates forward until the stop structure of the locking piece 45 is perpendicular to the rotating arm 43, thereby pushing the rotating arm 43 to drop down to a horizontal state, and the handle 41 is in a vertical state, so as to complete locking of the buckling state of the buckling device 4;

the rotation handle is rotated backward so that the lock member 45 is rotated backward simultaneously to gradually pull the rotation arm 43 upward and cover onto the rotation arm 43, thereby releasing the buckled state of the buckling device 4.

When the handle 41 rotates backward, the rotation range is limited by the upper end of the stop structure, and when the upper end of the stop structure abuts against the structure at the rear side of the base 44, the handle 41 cannot continue to rotate. It will be appreciated that the crimping effect of the crimping apparatus 4 is immediately released when the upright position of the handle 41 is released.

In a specific embodiment, taking a combined curved rail as an example, the components of the curved rail 8 may include an outer annular wall 81, an inner annular wall 82, a top plate 83, and a sealing plate 84, where the radian of the curved rail 8 is matched with the tooling.

The outer rail groove 5 and the inner rail groove 6 formed by the cooperation of the plurality of limiting pieces 2 are respectively used for accommodating the outer annular wall 81 and the inner annular wall 82, the buckling device 4 is used for buckling the outer annular wall 81 and the inner annular wall 82 to keep the upright state, the top plate 83 slides and is inserted along the reserved chute channels of the two annular walls, through holes can be formed for fixing the top plate 83 and the two annular walls, and accordingly the foundation structure of the bent rail 8 is formed.

The frock of this application can stabilize the relative position of two ramas, makes the interval at its head and tail both ends remain unanimous throughout, effectively promotes the smooth and easy effect of slip of roof 83 in the installation.

The sealing plate 84 has a multi-section structure, is buckled/slidably installed above the bent rail 8, and is designed as a cable laying space between the sealing plate 84 and the top plate 83.

Specifically, the sealing plate 84 may be an elastic plate made of non-metal material, and as a mounting manner, the side plates of the sealing plate 84 are elastically compressed to enable the sliding ways reserved on the bent rail 8 to be in butt joint, so that the sealing plate 84 can slide along the sliding ways to the mounting position.

As another mounting method, the two side plates of the elastic compression seal plate 84 are fastened to the slide rail, and can be directly mounted at the corresponding positions without sequentially sliding from the ports.

It will be appreciated that after the closure plate 84 is installed, there is always an outward expansion force on the side plates, and a force on the two walls of the curved rail 8, which will tilt the two walls of the curved rail 8 during assembly, so that the rails cannot be precisely aligned during docking.

In the embodiment of the application, the top plate 83 is taken as an example for explanation, and if the top plate 83 is of a sectional structure, the tool still has a good assembly effect, and can effectively improve the assembly efficiency.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises an element.

The foregoing is a further detailed description of the present application in connection with the preferred embodiments, and it is not intended that the specific examples of the present application be limited to these descriptions. It should be understood that those skilled in the art to which the present application pertains may make several simple deductions or substitutions without departing from the spirit of the present application, and all such deductions or substitutions should be considered to be within the scope of the present application.

Claims (8)

1. The tool for the combined track is characterized by comprising a base plate (1), limiting pieces (2) and buckling devices (4), wherein both ends of each limiting piece (2) are respectively provided with a concave outer rail groove (5) and a concave inner rail groove (6), a plurality of limiting pieces (2) are uniformly distributed on the upper surface of the base plate (1), and a pair of buckling devices (4) are arranged between two adjacent limiting pieces (2); the outer rail grooves (5) on the limiting pieces (2) can be correspondingly combined to form an outer ring path, the inner rail grooves (6) on the limiting pieces (2) can be correspondingly combined to form an inner ring path, the outer ring path is parallel to the inner ring path, the two buckling devices (4) in pairs are respectively positioned on the outer sides of the outer ring path and the inner ring path, and when the buckling devices (4) are in a buckling state, the pressure heads (42) of the buckling devices (4) are directly opposite to and pressed onto the outer ring path and the upper part of the inner ring path;

an outer rail wall (21) is arranged on one side of an outer rail groove (5) on the limiting piece (2), an inner rail wall (22) is arranged on one side of an inner rail groove (6), a protruding fixing part (23) is arranged between the outer rail groove (5) and the inner rail groove (6), and a plurality of through holes are formed in the fixing part (23) and used for fixing the limiting piece (2);

the base plate (1) is an arc-shaped plate, the limiting pieces (2) are distributed in an annular mode, and the outer rail grooves (5) and the inner rail grooves (6) are arc-shaped grooves, so that the inner ring path and the outer ring path are annular groove paths.

2. The tooling for the combined track according to claim 1, further comprising a positioning block (3), wherein the positioning block (3) is fixed on the upper surface of the base plate (1), the buckling device (4) is installed at the upper end of the positioning block (3), and the positioning block (3) is used for lifting the working height of the buckling device (4).

3. The tooling for the combined track according to claim 2, wherein a positioning hole group (11) and a limiting hole group (12) are formed in the base plate (1), the positioning hole group (11) is used for fixing the positioning block (3), the limiting hole group (12) is used for fixing the limiting piece (2), and a plurality of the limiting hole groups (12) are distributed on the base plate (1) in an array manner, so that a plurality of the limiting pieces (2) can be uniformly arranged and fixed on the base plate (1); the positioning hole groups (11) are arranged between two adjacent limiting pieces (2) in pairs and are respectively arranged at two ends, so that the buckling devices (4) can be distributed on the outer sides of the inner ring path and the outer ring path in pairs.

4. The tool for combined rails according to claim 1, wherein the buckling device further comprises a handle (41), a rotating arm (43), a base (44) and a locking piece (45), a fixing lug is arranged at the lower end of the base (44) for positioning and mounting the buckling device (4), the rear end of the upper end of the base (44) is rotationally connected with the rear end of the rotating arm (43), the front end of the rotating arm (43) is fixedly connected with the pressing head (42), the middle section of the rotating arm (43) is rotationally connected with the lower end of the locking piece (45), the upper end of the locking piece (45) is rotationally connected with the upper part of a bifurcation arm of the handle (41), and the lower part of the bifurcation arm is rotationally connected with the front end of the upper end of the base (44).

5. A tooling for a combined track according to claim 4, characterized in that the upper end of the handle (41) is a rotating handle, the lower end of the handle (41) is a bifurcated arm, the rotating arms (43) are positioned between the bifurcated arms and are respectively connected to two sides of the base (44) in a rotating way; the locking piece (45) is provided with parallel double-lug plates, the front ends of the double-lug plates are provided with stop structures, the rear ends of the double-lug plates can be covered on the rotating arms (43), the lower ends of the double-lug plates are respectively connected to two sides of the middle section of the rotating arms (43) in a rotating mode, and the upper ends of the double-lug plates are respectively connected to the inner sides of the bifurcation arms in a rotating mode.

6. A tooling for a combined track according to claim 5, characterized in that the turning handle is turned forward so that the locking member (45) is turned forward synchronously until the stop structure of the locking member (45) is perpendicular to the turning arm (43), thereby pushing the turning arm (43) down to a horizontal state, the handle (41) being in a vertical state, completing the buckling state locking of the buckling device (4); the rotating handle is rotated backwards, so that the locking piece (45) synchronously rotates backwards to gradually pull the rotating arm (43) to lift upwards and cover the rotating arm (43), and the buckling state of the buckling device (4) is released.

7. A tooling for a combined track according to claim 1, characterized in that the circumference of the base plate (1) is one quarter, the two base plates (1) are mirror-image-butted, so that the assembled curved rails (8) on the two tooling can be assembled into a semicircular curved rail structure.

8. A tooling for a combined rail according to claim 1, characterized in that the two base plates (1) are butt-jointed centrosymmetrically so that the assembled bent rail (8) on the two tooling can be assembled into an S-shaped bent rail structure.