CN214925912U - Cutting table guide rail - Google Patents

Abstract

Cutting table guide rail, including the guide rail frame, slider and slider drive assembly, slider slidable mounting is on the guide rail frame, slider drive assembly is connected with the slider, the drive slider removes, install the drive regulating part on the guide rail frame, the drive regulating part is connected with slider drive assembly, hold-in range in to slider drive assembly is adjusted through the drive regulating part, be convenient for adjust the rate of tension of hold-in range at the cutting in-process, prevent hold-in range and synchronizing wheel emergence and skid, thereby prevent that the cutting work piece from scrapping.

Description

Cutting table guide rail

Technical Field

The utility model belongs to the technical field of cutting machine equipment, concretely relates to cutting table guide rail.

Background

Cutting machines are currently commonly used tools for cutting slabs such as tiles. Generally, the cutting machine includes the frame, is equipped with the workstation in this frame, and the top of this workstation is equipped with the guide rail, and cutting tool slidable mounting removes cutting tool through driving belt on the guide rail, and when cutting resistance is great, take place easily between drive wheel and the driving belt and skid, lead to cutting tool can't remove to can't change driving belt in the cutting process, lead to cutting member to scrap easily.

Disclosure of Invention

Not enough more than, the utility model aims to solve the technical problem that a cutting table guide rail is provided, is equipped with the regulating part that carries out the regulation to belt elasticity degree in this guide rail, is convenient for adjust the hold-in range at the cutting in-process, prevents that hold-in range and synchronizing wheel from taking place to skid.

In order to solve the technical problems, the utility model adopts the technical proposal that,

a cutting workbench guide rail comprises a guide rail frame, a slide block and a slide block driving assembly, wherein the slide block is slidably mounted on the guide rail frame, the slide block driving assembly is connected with the slide block and drives the slide block to move, a driving adjusting piece is mounted on the guide rail frame and is connected with the slide block driving assembly.

Further, slider drive assembly includes slider driving motor, drive pulley, driven pulley and hold-in range, and slider driving motor fixed mounting is on the guide rail frame, and drive pulley installs on slider driving motor, and driven pulley passes through the drive regulating part to be installed on the guide rail frame, and the hold-in range is connected with drive pulley, driven pulley respectively.

Further, the drive adjusting part comprises an adjusting bolt and a belt pulley mounting seat, the adjusting bolt is rotatably mounted on the guide rail frame, the belt pulley mounting seat is rotatably connected with the adjusting bolt, and the driven belt pulley is mounted on the belt pulley mounting seat.

Further, the guide rail frame comprises a cross beam fixing clamp plate and a slide rail, the cross beam fixing clamp plate is fixedly installed on two sides of the slide rail, the slide block is slidably installed on the slide rail, and the slide block driving motor and the adjusting bolt are respectively installed on the cross beam fixing clamp plate.

Further, the inboard of crossbeam solid fixed splint is dug and is equipped with the direction mounting groove, and a side end face of belt pulley mount pad slides and laminates on direction mounting groove inner wall, and the slide rail is installed in the direction mounting groove.

Furthermore, dig on the lateral wall of direction mounting groove and be equipped with the installation through-hole, install the dust cover through the installation through-hole on the crossbeam solid fixed splint.

Furthermore, a guide rail installation cavity is formed in the dust cover, and the guide rail frame, the sliding block and the synchronous belt are all installed in the guide rail installation cavity.

Furthermore, dig on the crossbeam mounting plate who installs slider driving motor and be equipped with the hold-in range groove, the hold-in range groove is dug and is established in the direction mounting groove, and the hold-in range runs through the hold-in range groove.

Furthermore, the inner side of the beam fixing clamp plate is fixedly provided with a buffer column, and the buffer column is positioned below the guide mounting groove.

Furthermore, the adjusting bolt comprises an adjusting stud and an adjusting nut, the adjusting stud is rotatably arranged on the beam fixing clamp plate through threads, and the adjusting nut is fixedly connected with the adjusting stud.

The beneficial effects of the utility model are that, adjust the hold-in range in the slider drive assembly through the drive regulating part, be convenient for adjust the rate of tension of hold-in range in cutting process, prevent that hold-in range and synchronizing wheel from taking place to skid to prevent that the cutting work piece from scrapping.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a partial enlarged view at a.

Fig. 3 is a partial enlarged view at B.

Reference numerals: the device comprises a guide rail mounting cavity 2-13, a beam fixing clamp plate 4-1, a guide rail frame 6-1, a sliding block 6-2, a sliding block driving assembly 6-3, a driving adjusting part 6-4, a sliding block driving motor 6-5, a driving belt pulley 6-6, a driven belt pulley 6-7, a synchronous belt 6-8, an adjusting bolt 6-9, a belt pulley mounting seat 6-10, a sliding rail 6-11, a guide mounting groove 6-12, a mounting through hole 6-13, a dust cover 6-14, a synchronous belt groove 6-15, a buffer column 6-16, an adjusting stud 6-17 and an adjusting nut 6-18.

Detailed Description

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

A cutting workbench guide rail comprises a guide rail frame 6-1, a slide block 6-2 and a slide block driving assembly 6-3, wherein the slide block 6-2 is slidably mounted on the guide rail frame 6-1, the slide block driving assembly 6-3 is connected with the slide block 6-2, the slide block 6-2 is driven to move, a driving adjusting piece 6-4 is mounted on the guide rail frame 6-1, the driving adjusting piece 6-4 is connected with the slide block driving assembly 6-3, a synchronous belt in the slide block driving assembly 6-3 is adjusted through the driving adjusting piece 6-4, the tightness of the synchronous belt is conveniently adjusted in the cutting process, the synchronous belt and a synchronous wheel are prevented from slipping, and therefore cutting workpieces are prevented from being scrapped.

The slide block driving assembly 6-3 comprises a slide block driving motor 6-5, a driving belt pulley 6-6, a driven belt pulley 6-7 and a synchronous belt 6-8, the slide block driving motor 6-5 is fixedly installed on the guide rail frame 6-1, the driving belt pulley 6-6 is installed on the slide block driving motor 6-5, the driven belt pulley 6-7 is installed on the guide rail frame 6-1 through a driving adjusting part 6-4, the synchronous belt 6-8 is respectively connected with the driving belt pulley 6-6 and the driven belt pulley 6-7, and the distance between the driving belt pulley 6-6 and the driven belt pulley 6-7 is adjusted through the driving adjusting part 6-4, so that the tension degree of the synchronous belt 6-8 is adjusted.

The driving adjusting part 6-4 comprises an adjusting bolt 6-9 and a belt pulley mounting seat 6-10, the adjusting bolt 6-9 is rotatably mounted on the guide rail frame 6-1 through threads, the belt pulley mounting seat 6-10 is rotatably connected with the adjusting bolt 6-9, the driven belt pulley 6-7 is mounted on the belt pulley mounting seat 6-10, and the adjusting bolt 6-9 is rotated to change the extending amount of the adjusting bolt 6-9, so that the relative position of the belt pulley mounting seat 6-10 is adjusted.

The guide rail frame 6-1 comprises a beam fixing splint 4-1 and a slide rail 6-11, the beam fixing splint 4-1 is fixedly arranged on two sides of the slide rail 6-11, a slide block 6-2 is slidably arranged on the slide rail 6-11, and a slide block driving motor 6-5 and an adjusting bolt 6-9 are respectively arranged on the beam fixing splint 4-1.

A guide mounting groove 6-12 is dug in the inner side of the beam fixing splint 4-1, one side end face of the belt pulley mounting seat 6-10 is in sliding fit with the inner wall of the guide mounting groove 6-12, the belt pulley mounting seat 6-10 is prevented from rotating along with an adjusting bolt 6-9 in the adjusting process, and a sliding rail 6-11 is mounted in the guide mounting groove 6-12.

The side wall of the guide installation groove 6-12 is dug with an installation through hole 6-13, and the beam fixed splint 4-1 is provided with a dust cover 6-14 through the installation through hole 6-13.

Guide rail mounting cavities 2-13 are formed in the dust cover 6-14, the guide rail frame 6-1, the sliding block 6-2 and the synchronous belt 6-8 are all mounted in the guide rail mounting cavities 2-13, and through the arrangement of the dust cover 6-14, scraps in the cutting process are prevented from splashing on the guide rail frame 6-1, the sliding block 6-2 and the synchronous belt 6-8.

A synchronous belt groove 6-15 is dug in the cross beam fixing splint 4-1 provided with the sliding block driving motor 6-5, the synchronous belt groove 6-15 is dug in the guide installation groove 6-12, and the synchronous belt 6-8 penetrates through the synchronous belt groove 6-15, so that the synchronous belt 6-8 is conveniently installed in the dust cover 6-14.

The inner side of the beam fixing splint 4-1 is fixedly provided with a buffer column 6-16, and the buffer column 6-16 is positioned below the guide mounting groove 6-12 to prevent a cutting tool on the slide rail 6-11 from colliding with the beam fixing splint 4-1.

The adjusting bolt 6-9 comprises an adjusting stud 6-17 and an adjusting nut 6-18, the adjusting stud 6-17 is rotatably installed on the beam fixing clamp plate 4-1 through threads, the adjusting nut 6-18 is fixedly connected with the adjusting stud 6-17, and the adjusting nut 6-18 is rotated to enable the adjusting stud 6-7 to move relatively.

In some preferred modes, the dust cover 6-14 is fixedly provided with a limiting part 2-5, and the movement range of the motor of the intelligent cutting workbench is conveniently limited by the arrangement of the limiting part 2-5.

In some preferred modes, the limiting pieces 2-5 are magnets, the limiting pieces 2-5 are fixedly mounted at two ends of the dust covers 6-14, correspondingly, magnetic sensors are mounted at two sides of the cutting motor part respectively, the positions of the magnetic sensors correspond to the positions of the limiting pieces 2-5, the magnetic sensors are electrically connected with the slider driving motor 6-5 to drive the slider driving motor 6-5 to rotate forward and backward, and when the cutting motor part is arranged at the position of the limiting pieces 2-5, the magnetic sensors send control signals to the driving motor 6-5 to enable the driving motor 6-5 to rotate reversely.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention; thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Although the terms corresponding to the reference numerals in the figures are used more herein, the possibility of using other terms is not excluded; these terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed in a manner that is inconsistent with the spirit of the invention.

Claims (10)

1. The cutting workbench guide rail is characterized by comprising a guide rail frame (6-1), a slide block (6-2) and a slide block driving assembly (6-3), wherein the slide block (6-2) is slidably mounted on the guide rail frame (6-1), the slide block driving assembly (6-3) is connected with the slide block (6-2), the slide block (6-2) is driven to move, a driving adjusting piece (6-4) is mounted on the guide rail frame (6-1), and the driving adjusting piece (6-4) is connected with the slide block driving assembly (6-3).

2. The cutting table rail according to claim 1, wherein the slider driving assembly (6-3) comprises a slider driving motor (6-5), a driving pulley (6-6), a driven pulley (6-7) and a synchronous belt (6-8), the slider driving motor (6-5) is fixedly installed on the rail frame (6-1), the driving pulley (6-6) is installed on the slider driving motor (6-5), the driven pulley (6-7) is installed on the rail frame (6-1) through a driving adjusting member (6-4), and the synchronous belt (6-8) is respectively connected with the driving pulley (6-6) and the driven pulley (6-7).

3. The cutting table rail according to claim 2, characterized in that the driving adjustment member (6-4) comprises an adjustment bolt (6-9) and a pulley mount (6-10), the adjustment bolt (6-9) being rotatably mounted on the rail frame (6-1), the pulley mount (6-10) being rotatably connected with the adjustment bolt (6-9), and the driven pulley (6-7) being mounted on the pulley mount (6-10).

4. The cutting table rail according to claim 3, characterized in that the rail bracket (6-1) comprises a beam fixing clamp plate (4-1) and a slide rail (6-11), the beam fixing clamp plate (4-1) is fixedly installed on both sides of the slide rail (6-11), the slide block (6-2) is slidably installed on the slide rail (6-11), and the slide block driving motor (6-5) and the adjusting bolt (6-9) are respectively installed on the beam fixing clamp plate (4-1).

5. The cutting table rail according to claim 4, wherein the beam fixing clamp plate (4-1) is hollowed at the inner side with a guide mounting groove (6-12), one side end surface of the belt pulley mounting seat (6-10) is slidably attached to the inner wall of the guide mounting groove (6-12), and the slide rail (6-11) is mounted in the guide mounting groove (6-12).

6. The cutting table rail according to claim 5, wherein the guide mounting groove (6-12) is dug with a mounting through hole (6-13) on a side wall thereof, and the beam fixing clamp plate (4-1) is mounted with a dust cover (6-14) through the mounting through hole (6-13).

7. The cutting table rail according to claim 6, characterized in that a rail mounting cavity (2-13) is formed in the dust cover (6-14), and the rail bracket (6-1), the sliding block (6-2) and the synchronous belt (6-8) are all mounted in the rail mounting cavity (2-13).

8. The cutting table rail according to claim 7, wherein a cross beam fixing splint (4-1) provided with the slider driving motor (6-5) is provided with a synchronous belt groove (6-15) in an excavated manner, the synchronous belt groove (6-15) is excavated in the guide installation groove (6-12), and the synchronous belt (6-8) penetrates through the synchronous belt groove (6-15).

9. The cutting table rail according to claim 5, wherein the beam fixing jaw (4-1) is fixedly installed at an inner side thereof with a buffer post (6-16), and the buffer post (6-16) is located below the guide installation groove (6-12).

10. The cutting table rail according to claim 3, characterized in that the adjusting bolt (6-9) comprises an adjusting stud (6-17) and an adjusting nut (6-18), the adjusting stud (6-17) is rotatably mounted on the beam fixing clamp plate (4-1) through a thread, and the adjusting nut (6-18) is fixedly connected with the adjusting stud (6-17).

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