CN217913470U - Laser flying saw lathe bed structure - Google Patents

Abstract

The utility model discloses a laser flying saw bed structure, which comprises a bed component and a trolley component; the lathe bed component comprises a lathe bed base, a lathe bed, a linear guide rail and a rack, the lathe bed is arranged on the lathe bed base, and the linear guide rail and the rack are arranged on the lathe bed along the length direction; the trolley assembly comprises a trolley plate, a trolley sliding block, an additional plate and a trolley driving assembly, the trolley plate is hung on the outer side of the lathe body, the trolley sliding block is arranged on the inner side of the trolley plate and matched with the linear guide rail, the additional plate is arranged on the outer side of the trolley plate and used for mounting a laser cutting device, the trolley plate is further provided with the trolley driving assembly, and a driving gear of the trolley driving assembly is meshed with the rack to drive the trolley sliding block to horizontally and linearly move along the linear guide rail. Utilize the utility model discloses a lathe bed structure when examining the laser head and maintaining, need not climb up the lathe bed and just can operate the laser head, not only safe but also convenient.

Description

Laser flying saw lathe bed structure

Technical Field

The utility model belongs to the technical field of welded tube flying saw cutting, a lathe bed structure is related to, concretely relates to laser flying saw lathe bed structure.

Background

As a new cutting technology, laser cutting has become one of the main ways of cutting plates and pipes under wire, and is widely used in the market.

Because the laser flying saw needs to check the laser head frequently in use, the laser flying saw is required to complete the on-line fixed-length cutting of the welded pipe on the structural design, and is more favorable for safe and convenient checking operation. However, the conventional flying saw body is of a horizontal structure, and when the laser head is to be inspected and maintained, the laser head can be operated only by climbing the body, so that the operation is not safe and convenient, and great potential safety hazards exist.

Therefore, a laser flying saw bed structure capable of solving the problems is urgently needed.

Disclosure of Invention

To the shortcoming and the deficiency that exist among the prior art, the utility model discloses a can be used to laser cutting fly saw's lathe bed structure utilizes the utility model discloses a when lathe bed structure inspects the laser head and maintains, need not climb the lathe bed and just can operate the laser head, not only safe but also convenient.

The technical scheme of the utility model as follows:

a laser flying saw lathe bed structure comprises a lathe bed component and a trolley component; the lathe bed assembly comprises a lathe bed base, a lathe bed, a linear guide rail and a rack, the lathe bed is arranged on the lathe bed base, and the linear guide rail and the rack are arranged on the lathe bed along the length direction; the trolley component comprises a trolley plate, a trolley sliding block, an additional plate and a trolley driving component, the trolley plate is hung on the outer side of the lathe bed, the trolley sliding block is arranged on the inner side of the trolley plate and matched with the linear guide rail, the additional plate is arranged on the outer side of the trolley plate and used for installing a laser cutting device, the trolley plate is further provided with the trolley driving component, and a driving gear of the trolley driving component is meshed with the rack to drive the trolley sliding block to perform horizontal linear motion along the linear guide rail.

Furthermore, a lifting motor is also arranged on the trolley plate and is connected with a lifter, and the lifter is connected with the additional plate; the outer side of the trolley plate is provided with the lifting guide rail, and the inner side of the additional plate is provided with a lifting slide block matched with the lifting guide rail.

Furthermore, the trolley driving assembly comprises a driving speed reducer, a driving motor and the driving gear, wherein the driving motor is connected with the driving gear through the driving speed reducer; the trolley driving assembly is arranged on the top of the trolley plate.

Further, the trolley plate is of an inverted L shape.

Further, the lathe bed base is L-shaped.

Furthermore, the lathe bed is of a plate-shaped structure, and the plate-shaped structure stands on the side of the lathe bed base.

Further, the lathe bed base is provided with a plurality of.

Further, the upper side and the lower side of the lathe bed are provided with the linear guide rails, and the upper side of the lathe bed is provided with the racks.

Furthermore, buffers are arranged on two sides of the lathe bed and used for limiting the forward and backward movement of the trolley assembly. The utility model discloses a platform truck subassembly side is hung in the outside of lathe bed subassembly, and the platform truck subassembly can be at the horizontal linear motion on the lathe bed subassembly. The height of the laser cutting device (such as a laser head) arranged on the trolley component can be adjusted, and the laser cutting device is suitable for operators to directly operate the laser head and is convenient to debug and maintain.

Utilize the utility model discloses a when lathe bed structure inspects the laser head and maintains, need not climb up the lathe bed and just can operate the laser head, not only safe but also convenient, do not have the potential safety hazard.

The utility model has the advantages of simple structure and convenient installation.

Drawings

FIG. 1: the utility model is a general diagram of a lathe bed structure;

FIG. 2: a schematic view of a bed assembly;

FIG. 3: a schematic view of a trolley assembly;

FIG. 4 is a schematic view of: a schematic view of a trolley drive assembly;

the device comprises a machine tool body assembly 10, a machine tool body base 1, a machine tool body 2, a linear guide rail 3, a rack 4 and a buffer 5;

20-trolley assembly, 21-trolley drive assembly, 22-lifting guide rail, 23-lifting slide block, 24-trolley plate, 25-trolley slide block, 26-lifting motor, 27-lifter, 28-lifting platform plate;

31-driving rack, 32-driving reducer and 33-driving motor.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and examples.

Referring to fig. 1, the laser flying saw bed structure of the present embodiment includes a bed assembly 10 and a trolley assembly 20, and the trolley assembly 20 is mounted on the bed assembly 10.

The trolley assembly 20 is hung on the outer side of the bed assembly 10, and the trolley assembly 20 can move on the bed assembly 10 in a horizontal and straight line manner. The height of the laser cutting device (such as a laser head) arranged on the trolley component 20 can be adjusted, so that the laser cutting device is suitable for operators to directly operate the laser head, and is convenient to debug and maintain.

As shown in fig. 2, the bed assembly 10 includes a bed base 1, a bed 2, a linear guide 3, and a rack 4; the bed body 2 is arranged on the bed body base 1, and the bed body base 1 is L-shaped, so that the stability of the whole equipment can be improved. The bed 2 is of a plate-like structure standing on its side on the bed base 1.

Preferably, the same bed 2 is supported on a plurality of bed bases 1.

The bed body 2 is provided with a linear guide rail 3 and a rack 4. Specifically, linear guide rails 3 are arranged on the upper side and the lower side of the bed body 2 along the length direction of the bed body 2, and racks are arranged on the linear guide rails 3 on the upper side of the bed body 2.

The buffer 5 is arranged on two sides of the lathe bed 2, and the limit position of the forward and backward movement of the trolley component 20 is limited in a fault state.

As shown in fig. 3, the trolley assembly 20 includes a trolley plate 24, a trolley slide 25, a trolley driving assembly 21, a lifting slide 23, a lifting guide rail 22, a lifting motor 26, a lifter 27, and a lifting table plate 28;

the carriage plate 24 has an inverted L-shaped structure, and the carriage plate 24 is hung on the outer side of the bed 2.

The inner side of the trolley plate 24 is provided with a trolley slide block 25, and the trolley slide block 25 can move back and forth on the linear guide rail 3 on the machine body 2.

The top of the trolley plate 24 is provided with a trolley driving assembly 21, as shown in fig. 4, the trolley driving assembly 21 includes a driving reducer 32, a driving motor 33 and a driving gear 31, the driving motor 33 is connected to the driving gear 31 through the driving reducer 32, the driving gear 31 is meshed with the rack 4 on the upper side of the lathe bed 2, and the trolley slide 25 on the trolley plate 24 can be driven to perform horizontal linear motion along the linear guide 3 on the lathe bed 2.

In addition, the top of the trolley plate 24 is also provided with a lifting motor 26, the lifting motor 26 is connected with a lifter 27 (a standard part, a screw rod lifter for direct purchase), the lifter 27 is connected with a lifting table plate 28, the lifting table plate 28 is arranged on the outer side surface of the trolley plate 24, and when the lifting table plate 28 is provided with a laser cutting device, the height of the cutting device is adjusted to adapt to cutting of welded pipes with different pipe diameters.

The outer side of the trolley plate 24 is provided with a lifting guide rail 22, the inner side of the lifting bedplate 28 is provided with a lifting slide block 23, and the lifting slide block 23 moves up and down on the lifting guide rail 22 so as to drive the lifting bedplate 28 to generate height adjustment.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It should be understood by those skilled in the art that the above embodiments do not limit the present invention in any way, and all technical solutions obtained by adopting equivalent replacement or equivalent transformation fall within the protection scope of the present invention.

Claims (9)

1. The laser flying saw machine body structure is characterized by comprising a machine body component and a trolley component; the lathe bed component comprises a lathe bed base, a lathe bed, a linear guide rail and a rack, the lathe bed is arranged on the lathe bed base, and the linear guide rail and the rack are arranged on the lathe bed along the length direction;

the trolley component comprises a trolley plate, a trolley sliding block, an additional plate and a trolley driving component, the trolley plate is hung on the outer side of the lathe bed, the trolley sliding block is arranged on the inner side of the trolley plate and matched with the linear guide rail, the additional plate is arranged on the outer side of the trolley plate and used for installing a laser cutting device, the trolley plate is further provided with the trolley driving component, and a driving gear of the trolley driving component is meshed with the rack to drive the trolley sliding block to perform horizontal linear motion along the linear guide rail.

2. The laser flying saw machine body structure as claimed in claim 1, wherein a lifting motor is further arranged on the trolley plate, the lifting motor is connected with a lifter, and the lifter is connected with the additional plate; the outer side of the trolley plate is provided with a lifting guide rail, and the inner side of the additional plate is provided with a lifting slide block matched with the lifting guide rail.

3. The laser flying saw lathe bed structure of claim 2, wherein the trolley driving assembly comprises a driving speed reducer, a driving motor and the driving gear, and the driving motor is connected with the driving gear through the driving speed reducer; the trolley driving assembly is arranged on the top of the trolley plate.

4. The laser flying saw lathe body structure according to any one of claims 1 to 3, wherein the trolley plate is provided with an inverted L shape.

5. The laser flying saw machine body structure as claimed in any one of claims 1 to 3, wherein the machine body base is L-shaped.

6. The laser flying saw bed structure according to any one of claims 1 to 3, wherein the bed is provided with a plate-shaped structure, and the plate-shaped structure stands on the side of the bed base.

7. The machine body structure of the laser flying saw according to any one of claims 1 to 3, wherein a plurality of machine body bases are provided.

8. The machine body structure of the laser flying saw of claim 3, wherein the linear guide rails are arranged on the upper side and the lower side of the machine body, and the rack is arranged on the upper side of the machine body.

9. The machine body structure of the laser flying saw as claimed in any one of claims 1 to 3, wherein buffers are arranged on two sides of the machine body to limit the forward and backward movement of the trolley assembly.

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