CN218135777U - Modularization ground rail subassembly - Google Patents

Abstract

The utility model belongs to the technical field of laser cutting, specifically provide a modularization ground rail subassembly, include: the ground rail comprises a ground rail body consisting of a plurality of detachably connected ground rail single bodies, and a driving rack and a guide rail which are arranged on the ground rail body; the ground rail single body is provided with a plurality of rack mounting holes II corresponding to the rack mounting holes I on the driving rack and used for mounting the driving rack; the distance from the starting holes of the rack mounting holes II on the ground rail monomer to the edge of the ground rail monomer is half of the pitch between the rack mounting holes I; the ground rail single body is provided with a plurality of guide rail mounting holes II corresponding to the guide rail mounting holes I on the guide rail and used for mounting the guide rail; the distance from the starting holes of the guide rail mounting holes II on the ground rail monomer to the edge of the ground rail monomer is half of the pitch between the guide rail mounting holes I; the length of the single ground rail body is an integral multiple of the greatest common divisor of the pitch of the rack mounting holes I and the pitch of the guide rail mounting holes I. The number of the single ground rail bodies can be adjusted according to requirements, and the modular design of the ground rail is realized.

Description

Modularization ground rail subassembly

Technical Field

The utility model belongs to the technical field of laser cutting, concretely relates to modularization ground rail subassembly.

Background

Nowadays, laser cutting technology is widely applied to various industries, and besides cutting standardized plates and pipes, cutting of three-dimensional parts with complex curved surface structures needs to be considered, such as thermoformed parts in the automobile industry, cladding parts in the aerospace industry and the like. Therefore, at the present stage, customers have more requirements on the size of the table top of the movable workbench and have larger differentiation, and for the workbenches with different sizes, the sizes of the corresponding ground rails are also different. The workstation ground rail subassembly generally comprises components such as ground rail body, drive rack, linear guide, and rack and linear guide all need be in the same place through bolt and this body coupling of ground rail, and current linear guide's mounting hole apart from being different with the mounting hole apart from of drive rack, to the workstation of some needs customizations, also need customize the ground rail again according to its size, can't splice ground rail length at will, this is with greatly increased designer's work load.

Therefore, the utility model provides a modularization ground rail subassembly adopts the modularized design in product design process, can splice the ground rail as required, saves operating time greatly, improves work efficiency.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming among the prior art supporting ground rail and need customizing according to the workstation size, increasing designer's work load, increasing the problem of cost of manufacture.

Therefore, the utility model provides a modularization ground rail subassembly, include: the ground rail comprises a ground rail body consisting of a plurality of detachably connected ground rail single bodies, and a driving rack and a guide rail which are arranged on the ground rail body; a plurality of rack mounting holes II corresponding to the rack mounting holes I on the driving rack are formed in the ground rail single body and used for mounting the driving rack; the distance from the starting holes of the rack mounting holes II on the ground rail single body to the edge of the ground rail single body is half of the pitch of the rack mounting holes I; the ground rail single body is provided with a plurality of guide rail mounting holes II corresponding to the guide rail mounting holes I on the guide rail and used for mounting the guide rail; the distance from the starting holes of the guide rail mounting holes II on the ground rail single body to the edge of the ground rail single body is half of the pitch of the guide rail mounting holes I; the length of the ground rail single body is an integral multiple of the greatest common divisor of the pitch between the rack mounting holes I and the pitch between the guide rail mounting holes I.

Specifically, the ground rail single bodies are detachably connected through connecting bolts.

Specifically, the driving rack is installed on the single ground rail body by penetrating a fixing bolt through the rack installation hole I and the rack installation hole II.

Specifically, the guide rail is installed on the ground rail single body by utilizing a fixing bolt to penetrate through the guide rail installation hole I and the guide rail installation hole II.

Specifically, the bottom of the ground rail single body is provided with a ground foot mounting plate for fixing with the ground; the ground foot mounting plate is provided with a mounting hole, and the ground rail single body is fixed on the ground through the mounting hole by a screw.

Specifically, the modular ground rail assembly further comprises a dust cover capable of covering the ground rail body.

Specifically, the dust cover is an organ type dust cover.

Specifically, one end of the ground rail body is provided with a dust cover mounting plate; one end of the organ type dust cover is fixed with the dust cover mounting plate, and the other end of the organ type dust cover can move on the ground rail body.

Compared with the prior art, the utility model has the advantages of it is following and beneficial effect:

the utility model provides a distance that originated hole arrives ground rail monomer edge in a plurality of rack mounting holes II among this kind of modularization ground rail subassembly is half of pitch between two adjacent rack mounting holes I in the ground rail monomer, and the originated hole of guide rail mounting hole II arrives distance of ground rail monomer edge is half of pitch between two adjacent guide rail mounting holes I, and ground rail monomer's length is pitch between two adjacent rack mounting holes I and the integral multiple of the greatest common divisor of pitch between two adjacent guide rail mounting holes I, can guarantee when two ground rail monomers splice, pitch between seam both ends rack mounting hole II and the interval between guide rail mounting hole II and pitch between rack mounting hole I between pitch and the guide rail mounting hole I are the same, when multistage ground rail monomer concatenation can not appear, the pitch of concatenation department guide rail mounting hole II is different with the pitch of guide rail mounting hole I, or the pitch of rack mounting hole II is different with the pitch of rack mounting hole I and the condition that leads to the interface dislocation, and then can increase or reduce monomer quantity according to the demand that uses, with the modularization ground rail design the total length of ground rail. Furthermore, the utility model provides a guide rail, drive rack pass through fixing bolt and install on the ground rail monomer in modularization ground rail group, connect through connecting bolt between the adjacent ground rail monomer, and the dismouting combination is convenient, has improved design efficiency.

The present invention will be described in further detail with reference to the accompanying drawings.

Drawings

Fig. 1 is a schematic structural diagram of the modular ground rail assembly provided by the present invention.

Fig. 2 is a top view of the modular ground rail assembly provided by the present invention.

Fig. 3 is a schematic view of a connection structure between the single ground rails of the modular ground rail assembly provided by the present invention.

Fig. 4 is the utility model provides a rack mounting hole II and guide rail mounting hole II arrangement diagram on modularization ground rail subassembly's ground rail monomer.

Description of reference numerals: 1. a ground rail single body; 2. a rack mounting hole II; 3. a guide rail mounting hole II; 4. a drive rack; 5. a rack mounting hole I; 6. a guide rail; 7. a guide rail mounting hole I; 8. a connecting bolt; 9. a ground foot mounting plate; 10. mounting holes; 11. a dust cover; 12. dust cover mounting panel.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "center", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are merely for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, are not to be construed as limiting the present invention. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

Referring to fig. 1-4, the present invention provides a modular ground rail assembly, comprising: the ground rail comprises a ground rail body consisting of a plurality of detachably connected ground rail single bodies 1, and a driving rack 4 and a guide rail 6 which are arranged on the ground rail body; a plurality of rack mounting holes II 2 corresponding to the rack mounting holes I5 on the driving rack 4 are formed in the ground rail single body 1 and used for mounting the driving rack 4; the distance from the starting holes of the rack mounting holes II 2 in the ground rail single body 1 to the edge of the ground rail single body 1 is half of the pitch between the rack mounting holes I5; a plurality of guide rail mounting holes II 3 corresponding to the guide rail mounting holes I7 on the guide rail 6 are formed in the ground rail single body 1 and used for mounting the guide rail 6; the distance from the starting holes of the guide rail mounting holes II 3 on the ground rail single body 1 to the edge of the ground rail single body 1 is half of the pitch between the guide rail mounting holes I7; the length of the single ground rail body 1 is the integral multiple of the greatest common divisor of the pitch between the I5 rack mounting holes and the pitch between the I7 guide rail mounting holes. Because the distance from the initial hole to the edge of the ground rail monomer 1 in the plurality of rack mounting holes II 2 on the ground rail monomer 1 is half of the hole distance between two adjacent rack mounting holes I5, the initial hole of the guide rail mounting hole II 3 reaches the distance from the edge of the ground rail monomer 1 is half of the hole distance between two adjacent guide rail mounting holes I7, and the length of the ground rail monomer 1 is integral multiple of the maximum common divisor of the hole distance between two adjacent rack mounting holes I5 and the hole distance between two adjacent guide rail mounting holes I7, when the two ground rail monomers 1 are spliced, the distance between the rack mounting holes II 2 at two ends of a joint and the distance between the guide rail mounting holes II 3 are the same as the hole distance between the rack mounting holes I5 and the hole distance between the guide rail mounting holes I7, when the multi-section ground rail monomer 1 is spliced, the hole distance of the guide rail mounting holes II 3 at the splicing position is not the same as the hole distance of the guide rail mounting holes I7, or the hole distance of the rack mounting holes II 2 is not the same as the hole distance of the rack mounting holes I5, so as to cause the dislocation condition of the interface. During the in-service use, according to the work scene demand, select suitable quantity ground rail monomer 1 to splice, then install drive rack 4 and guide rail 6 on the ground rail body that the concatenation formed, realize the modularized design of ground rail.

Furthermore, the single ground rail bodies 1 are detachably connected through the connecting bolts 8, as shown in fig. 3, connecting holes can be formed in the connecting ends of the single ground rail bodies 1, and the connecting bolts 8 penetrate through the connecting holes in the connecting ends of the two connected single ground rail bodies 1, so that the connection of the two single ground rail bodies 1 is realized. In order to ensure the connection stability, connecting holes can be arranged on the upper side and the lower side of the connecting end.

Preferably, the driving rack 4 and the guide rail 6 are both installed on the ground rail body formed by splicing the ground rail single bodies 1 through fixing bolts. Specifically, a fixing bolt penetrates through the rack mounting hole I5 and the rack mounting hole II 2 to mount the driving rack 4 on the ground rail single body 1. And fixing bolts penetrate through the guide rail mounting holes I7 and the guide rail mounting holes II 3 to mount the guide rail 6 on the ground rail single body 1.

In order to fix the modular ground rail assembly with the ground of a workplace, a ground foot mounting plate 9 is arranged at the bottom of the ground rail single body 1; the ground foot mounting plate 9 is provided with a mounting hole 10, and the ground rail single body 1 is fixed on the ground through the mounting hole 10 by a screw. The number of the foot mounting plates 9 can be set according to actual requirements.

In the preferred embodiment, the modular ground rail assembly further comprises a dust cover 11 that covers the body of the ground rail, the dust cover 11 preferably being a concertina dust cover 11. As shown in fig. 1-2, after the floor rail single bodies 1 are spliced to form a floor rail body, a dust cover mounting plate 12 is arranged at one end of the floor rail body, one end of an organ type dust cover 11 is fixed with the dust cover mounting plate 12, and the other end can move on the floor rail body. When the workbench is not in operation, the organ type dust cover 11 is pulled to cover the ground rail body and the driving rack 4 and the guide rail 6 thereon, so that foreign matters such as dust and waste materials are prevented from falling into the workbench to influence the operation of the workbench.

In one embodiment of refining, the utility model provides a modularization ground rail subassembly, include: a ground rail body, a driving rack 4 and a linear guide rail 6, wherein,

a plurality of rack mounting holes I5 are formed in the driving rack 4 at equal intervals, and the hole distance between every two adjacent rack mounting holes I5 is A;

a plurality of guide rail mounting holes I7 are formed in the linear guide rail 6 at equal intervals; the pitch between the adjacent guide rail mounting holes I7 is B;

the ground rail body is formed by splicing a plurality of detachably connected ground rail single bodies 1; connecting holes are formed in the upper side and the lower side of the left connecting end and the right connecting end of each ground rail single body 1, and connecting bolts 8 penetrate through the connecting holes in the same side of the connecting ends of two adjacent ground rail single bodies 1 to realize detachable connection of the two ground rail single bodies 1;

the length of the single ground rail 1 is an integral multiple of the greatest common divisor of the pitch A between the rack mounting holes I5 and the pitch B between the guide rail mounting holes I7. As shown in fig. 4, the upper and lower both ends of ground rail monomer 1 upper surface are equipped with a plurality of rack mounting holes ii 2 corresponding with rack mounting hole i 5 respectively to a plurality of guide rail mounting hole ii 3 corresponding with guide rail mounting hole i 7, and the distance of the originated hole of rack mounting hole ii 2 to ground rail monomer 1 edge is a half, namely the half of rack mounting hole i 5 pitch-row, the distance of the originated hole of guide rail mounting hole ii 3 to ground rail monomer 1 edge is B half, namely the half of guide rail mounting hole i 7 pitch-row. Fixing bolts respectively penetrate through the rack mounting hole I5 and the rack mounting hole II 2, and the guide rail mounting hole I7 and the guide rail mounting hole II 3 to respectively mount the driving rack 4 and the linear guide rail 6 on the ground rail single body 1;

the bottom of the ground rail single body 1 is provided with a plurality of foot mounting plates 9 with mounting holes 10, and the ground rail single body 1 is fixed on the ground by passing through the mounting holes 10 through screws;

as shown in fig. 1, dust cover mounting plates 12 are arranged at two ends of a ground rail body formed by splicing ground rail single bodies 1, an organ type dust cover 11 is arranged on each of the dust cover mounting plates 12 at the two ends, one end of the organ type dust cover 11 is fixed with the dust cover mounting plate 12, the other end of the organ type dust cover can move on the ground rail body to cover the ground rail body and a driving rack 4 and a guide rail 6 thereon, and foreign matters such as dust and waste materials are prevented from falling into the ground rail body and affecting the operation of a workbench.

The above illustration is merely an illustration of the present invention, and does not limit the scope of the present invention, and all designs identical or similar to the present invention are within the scope of the present invention.

Claims (8)

1. A modular ground rail assembly, comprising: the ground rail comprises a ground rail body consisting of a plurality of detachably connected ground rail single bodies, and a driving rack and a guide rail which are arranged on the ground rail body; a plurality of rack mounting holes II corresponding to the rack mounting holes I on the driving rack are formed in the ground rail single body and used for mounting the driving rack; the distance from the starting holes of the rack mounting holes II on the ground rail single body to the edge of the ground rail single body is half of the pitch of the rack mounting holes I; the ground rail single body is provided with a plurality of guide rail mounting holes II corresponding to the guide rail mounting holes I on the guide rail, and the ground rail single body is used for mounting the guide rail; the distance from the starting holes of the guide rail mounting holes II on the ground rail single body to the edge of the ground rail single body is half of the pitch between the guide rail mounting holes I; the length of the ground rail single body is an integral multiple of the greatest common divisor of the pitch between the rack mounting holes I and the pitch between the guide rail mounting holes I.

2. The modular ground rail assembly of claim 1 wherein: the single ground rails are detachably connected through connecting bolts.

3. The modular ground rail assembly of claim 1 wherein: and a fixing bolt penetrates through the rack mounting hole I and the rack mounting hole II to mount the driving rack on the ground rail single body.

4. The modular ground rail assembly of claim 1, wherein: and fixing bolts penetrate through the guide rail mounting holes I and the guide rail mounting holes II to mount the guide rails on the ground rail single body.

5. The modular ground rail assembly of claim 1 wherein: the bottom of the ground rail single body is provided with a ground foot mounting plate for fixing with the ground; the ground foot mounting plate is provided with a mounting hole, and the ground rail single body is fixed on the ground through the mounting hole by a screw.

6. The modular ground rail assembly of claim 1 wherein: the modular ground rail assembly further comprises a dust cover capable of covering the ground rail body.

7. The modular ground rail assembly of claim 6, wherein: the dust cover is an organ type dust cover.

8. The modular ground rail assembly of claim 7, wherein: one end of the ground rail body is provided with a dust cover mounting plate; one end of the organ type dust cover is fixed with the dust cover mounting plate, and the other end of the organ type dust cover can move on the ground rail body.

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