CN214925910U - Intelligent cutting workbench motor - Google Patents

Abstract

Intelligence cutting workstation motor, including sliding rail connection spare, cutting motor element and automatically controlled subassembly, cutting motor element, automatically controlled subassembly respectively with sliding rail connection spare fixed connection, automatically controlled subassembly is connected with cutting motor element electricity, is equipped with altitude mixture control structure in the cutting motor element, through the setting of altitude mixture control structure, is convenient for adjust cutting blade's in the cutting motor element height to satisfy different users' cutting demand.

Description

Intelligent cutting workbench motor

Technical Field

The utility model belongs to the technical field of the cutting machine, concretely relates to motor of intelligence cutting table.

Background

Cutting machines are currently commonly used tools for cutting slabs such as tiles. Generally, the cutting machine comprises a frame, a workbench is arranged on the frame, a guide rail is arranged above the workbench, a cutting frame is arranged on the guide rail in a sliding mode, a rotating motor is fixed on the cutting frame, a cutting blade is fixed on a power output shaft of the rotating motor, the relative position of the blade is fixed after the installation of an electric control cutting motor of the cutting machine on the market is completed, and the height of the cutting blade cannot be adjusted according to user requirements.

Disclosure of Invention

Not enough more than, the utility model aims to solve the technical problem that an intelligence cutting workstation motor is provided, this cutting motor blade highly can carry out relative regulation, is convenient for satisfy different users' cutting demand.

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

intelligence cutting workstation motor, including sliding rail connection spare, cutting motor element and automatically controlled subassembly, cutting motor element, automatically controlled subassembly respectively with sliding rail connection spare fixed connection, automatically controlled subassembly is connected with cutting motor element electricity, is equipped with altitude mixture control structure in the cutting motor element.

Further, the cutting motor assembly comprises a cutting motor, a motor flange and a motor connecting piece, the motor flange is fixedly connected to the cutting motor, the motor flange is connected with the motor connecting piece through a height adjusting structure, and the motor connecting piece is fixedly connected with the sliding rail connecting piece.

Furthermore, the motor connecting piece comprises a connecting piece mounting plate and a flange mounting plate, the flange mounting plate is vertically connected with the connecting piece mounting plate, and the motor flange is rotatably connected with the flange mounting plate.

Furthermore, a flange connecting hole and a flange connecting groove are dug in the flange mounting plate, the motor flange is rotatably connected with the flange connecting hole through a motor bolt, and the flange connecting groove is slidably connected with the motor flange.

Furthermore, both sides of the motor flange are connected with mounting lugs, mounting holes are dug in the mounting lugs, the mounting holes on one side are rotatably connected with flange connecting holes, a height adjusting structure is mounted in the mounting holes on the other side, and the height adjusting structure is slidably connected with the flange connecting grooves.

Further, the height adjusting structure comprises a locking bolt and a locking spanner, the locking bolt is respectively connected with the flange connecting groove and the mounting hole, and the locking spanner is fixedly connected with the locking bolt.

Further, a motor groove is formed in the flange mounting plate and is matched with the cutting motor.

Further, the cutting motor comprises a motor, a speed reducer and a blade, the motor is fixedly mounted on a motor flange, the speed reducer is connected with the motor, and the blade is connected with the speed reducer.

Furthermore, automatically controlled subassembly includes automatically controlled cover shell, automatically controlled circuit board and display, and automatically controlled cover shell and slide rail connecting piece fixed connection, automatically controlled circuit board fixed mounting are in automatically controlled cover shell, and the display is installed on automatically controlled cover shell, and is connected with automatically controlled circuit board.

Furthermore, the slide rail connecting piece is I-shaped, the bottom of the slide rail connecting piece is fixedly connected with an installation platform, and the electric control assembly is fixedly installed on the installation platform.

The beneficial effects of the utility model are that, through the setting of altitude mixture control structure, be convenient for highly adjust cutting blade in the cutting motor subassembly to satisfy different users' cutting demand.

Drawings

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

Fig. 2 is a schematic structural view of fig. 1 after being rotated by a certain angle.

Fig. 3 is a schematic view of a half-section structure of the motor.

Fig. 4 is a schematic structural diagram of the motor of the intelligent cutting workbench adapted to the housing.

Reference numerals: 3-1 parts of sliding rail connecting pieces, 3-2 parts of cutting motor components, 3-3 parts of electric control components, 3-4 parts of cutting motors, 3-5 parts of motor flanges, 3-6 parts of motor connecting pieces, 3-7 parts of connecting piece mounting plates, 3-8 parts of flange mounting plates, 3-9 parts of flange connecting holes, 3-10 parts of flange connecting grooves, 3-11 mounting lugs of motor bolts, 3-12 parts of mounting holes, 3-13 parts of height adjusting structures, 3-14 parts of locking bolts, 3-15 parts of locking wrenches, 3-17 parts of motor grooves, 3-18 parts of motors, 3-19 parts of speed reducers, 3-20 parts of blades, 3-21 parts of electric control casings, 3-22 parts of electric control circuit boards, 3-23 parts of displays and 3-24 parts of mounting tables.

Detailed Description

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

The intelligent cutting workbench motor comprises a sliding rail connecting piece 3-1, a cutting motor component 3-2 and an electric control component 3-3, wherein the cutting motor component 3-2 and the electric control component 3-3 are fixedly connected with the sliding rail connecting piece 3-1 respectively, the electric control component 3-3 is electrically connected with the cutting motor component 3-2, a height adjusting structure 3-14 is arranged in the cutting motor component 3-2, and the height of a cutting blade in the cutting motor component 3-2 can be conveniently adjusted through the arrangement of the height adjusting structure 3-14, so that the cutting requirements of different users are met.

The cutting motor component 3-2 comprises a cutting motor 3-4, a motor flange 3-5 and a motor connecting piece 3-6, the motor flange 3-5 is fixedly connected to the cutting motor 3-4, the motor flange 3-5 is connected with the motor connecting piece 3-6 through a height adjusting structure 3-14, the motor connecting piece 3-6 is fixedly connected with the sliding rail connecting piece 3-1, and the height adjusting structure 3-14 is used for adjusting the relative position between the motor flange 3-5 and the motor connecting piece 3-6, so that the relative height of the cutting motor 3-4 is adjusted, and the height of a blade in the cutting motor 3-4 is adjusted.

The motor connecting piece 3-6 comprises a connecting piece mounting plate 3-7 and a flange mounting plate 3-8, the flange mounting plate 3-8 is vertically connected with the connecting piece mounting plate 3-7, and the motor flange 3-5 is rotatably connected with the flange mounting plate 3-8.

The flange mounting plate 3-8 is internally provided with flange connecting holes 3-9 and flange connecting grooves 3-10 in an excavating manner, a motor flange 3-5 is rotatably connected with the flange connecting holes 3-9 through motor bolts 3-11, the flange connecting grooves 3-10 are slidably connected with the motor flange 3-5, preferably, the flange connecting grooves 3-10 are arc-shaped stroke grooves, and the relative height of the cutting motor 3-4 is adjusted through adjusting the relative position of the height adjusting structure 3-14 in the flange connecting grooves 3-10.

The two sides of the motor flange 3-5 are both connected with mounting lugs 3-12, mounting holes 3-13 are dug in the mounting lugs 3-12, the mounting holes 3-13 on one side are rotatably connected with flange connecting holes 3-9, a height adjusting structure 3-14 is mounted in the mounting holes 3-13 on the other side, the height adjusting structure 3-14 is slidably connected with the flange connecting grooves 3-10, and the relative height of the cutting motor 3-4 is adjusted by adjusting the relative position of the height adjusting structure 3-14 in the flange connecting grooves 3-10.

The height adjusting structure 3-14 comprises locking bolts 3-15 and locking spanners 3-16, the locking bolts 3-15 are respectively connected with flange connecting grooves 3-10 and mounting holes 3-13, the locking spanners 3-16 are fixedly connected with the locking bolts 3-15, and the motor flanges 3-5 and the motor connecting pieces 3-6 are locked through the locking spanners 3-16.

Motor grooves 3-17 are formed in the flange mounting plates 3-8, and the motor grooves 3-17 are matched with the cutting motors 3-4 to prevent the cutting motors 3-4 from interfering with the flange mounting plates 3-8.

The cutting motor 3-4 comprises a motor 3-18, a speed reducer 3-19 and a blade 3-20, the motor 3-18 is fixedly arranged on a motor flange 3-5, the speed reducer 3-19 is connected with the motor, and the blade 3-20 is connected with the speed reducer 3-19.

The electric control assembly 3-3 comprises an electric control casing 3-21, an electric control circuit board 3-22 and a display 3-23, the electric control casing 3-21 is fixedly connected with the sliding rail connecting piece 3-1, the electric control circuit board 3-22 is fixedly arranged in the electric control casing 3-21, the display 3-23 is arranged on the electric control casing 3-21 and is connected with the electric control circuit board 3-22, and the electric control circuit board 3-22 controls the motor 3-18 to work.

The slide rail connecting piece 3-1 is I-shaped, the bottom of the slide rail connecting piece 3-1 is fixedly connected with an installation table 3-24, and the electric control assembly 3-3 is fixedly installed on the installation table 3-24.

The intelligent cutting workbench motor is slidably mounted on the slide rail 6-11, the housing 2-1 is sleeved on the outer side of the slide rail, the limiting part 2-5 is fixedly connected to the housing 2-1, and the limiting part 2-5 is arranged to limit the moving range of the intelligent cutting workbench motor conveniently.

In some preferred modes, the limiting pieces 2-5 are magnets, the limiting pieces 2-5 are fixedly mounted at two ends of the housing 2-1, correspondingly, magnetic sensors are mounted at two sides of the electronic control casing 3-21 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 motors 6-5 to drive the slider driving motors 6-5 to rotate forward and backward, the slider driving motors 6-5 are used for driving the intelligent cutting workbench motor to slide on the sliding rail, and when the electronic control casing 3-21 is arranged at the position of the limiting pieces 2-5, the magnetic sensors send control signals to the driving motors 6-5 to enable the driving motors 6-5 to rotate backward.

In some preferred modes, a sliding block 6-2 is arranged on a sliding rail 6-11 in a sliding mode, a sliding block driving motor 6-5 drives the sliding block 6-2 to slide through a synchronous belt 6-8, and the intelligent cutting workbench motor is fixedly arranged on the lower end face of the sliding block 6-2.

In some preferred modes, the motor dustproof shell 3-25 is sleeved outside the motor 3-18, the dustproof exhaust channel 3-26 is formed in the motor dustproof shell 3-25, and through the arrangement of the dustproof exhaust channel 3-26, on one hand, the heat dissipation of the motor 3-18 can be facilitated, on the other hand, cutting liquid generated by cutting can be prevented from splashing into the motor 3-18, and the service life of the motor 3-18 is prolonged.

In some preferred modes, the motor exhaust channel 3-26 is formed above the motor 3-18, most of cutting fluid is shielded in the cutting process, the cutting fluid is prevented from splashing into the motor exhaust channel 3-26, and preferably, the upper end face of the motor exhaust channel 3-26 is dug to be provided with an exhaust groove 3-27, and the heat dissipation of the motor 3-18 is facilitated through the arrangement of the exhaust groove 3-27.

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 intelligent cutting workbench motor is characterized by comprising a sliding rail connecting piece (3-1), a cutting motor component (3-2) and an electric control component (3-3), wherein the cutting motor component (3-2) and the electric control component (3-3) are fixedly connected with the sliding rail connecting piece (3-1), the electric control component (3-3) is electrically connected with the cutting motor component (3-2), and a motor dustproof shell (3-25) is arranged in the cutting motor component (3-2).

2. The intelligent cutting workbench motor according to claim 1, characterized in that a dustproof exhaust channel (3-26) is formed in the motor dustproof shell 3-25, the motor exhaust channel (3-26) is formed above the motor (3-18), and an exhaust groove (3-27) is dug on the upper end surface of the motor exhaust channel (3-26).

3. An intelligent cutting table motor according to claim 1, wherein the cutting motor assembly (3-2) comprises a cutting motor (3-4), a motor flange (3-5), a motor connecting piece (3-6) and a height adjusting structure (3-14), the motor flange (3-5) is fixedly connected to the cutting motor (3-4), the motor flange (3-5) is connected with the motor connecting piece (3-6) through the height adjusting structure (3-14), and the motor connecting piece (3-6) is fixedly connected with the sliding rail connecting piece (3-1).

4. An intelligent cutting table motor according to claim 3, wherein the motor connection member (3-6) comprises a connection member mounting plate (3-7) and a flange mounting plate (3-8), the flange mounting plate (3-8) is vertically connected with the connection member mounting plate (3-7), and the motor flange (3-5) is rotatably connected with the flange mounting plate (3-8).

5. The intelligent cutting workbench motor according to claim 4, wherein a flange connecting hole (3-9) and a flange connecting groove (3-10) are dug in the flange mounting plate (3-8), the motor flange (3-5) is rotatably connected with the flange connecting hole (3-9) through a motor bolt (3-11), and the flange connecting groove (3-10) is slidably connected with the motor flange (3-5).

6. The intelligent cutting table motor according to claim 5, wherein mounting lugs (3-12) are connected to both sides of a motor flange (3-5), mounting holes (3-13) are dug in the mounting lugs (3-12), the mounting holes (3-13) on one side are rotatably connected with flange connecting holes (3-9), the height adjusting structures (3-14) are mounted in the mounting holes (3-13) on the other side, and the height adjusting structures (3-14) are slidably connected with flange connecting grooves (3-10).

7. An intelligent cutting table motor according to claim 6, wherein the height adjusting structure (3-14) comprises locking bolts (3-15) and locking wrenches (3-16), the locking bolts (3-15) are respectively connected with the flange connecting grooves (3-10) and the mounting holes (3-13), and the locking wrenches (3-16) are fixedly connected with the locking bolts (3-15).

8. An intelligent cutting table motor according to claim 4, wherein the flange mounting plate (3-8) is formed with motor slots (3-17) therein, the motor slots (3-17) being adapted to the cutting motor (3-4).

9. An intelligent cutting table motor according to claim 3, wherein the cutting motor (3-4) comprises a motor (3-18), a reducer (3-19) and a blade (3-20), the motor (3-18) is fixedly mounted on a motor flange (3-5), the reducer (3-19) is connected with the motor, and the blade (3-20) is connected with the reducer (3-19).

10. An intelligent cutting table motor according to claim 1, wherein the electric control assembly (3-3) comprises an electric control casing (3-21), an electric control circuit board (3-22) and a display (3-23), the electric control casing (3-21) is fixedly connected with the sliding rail connector (3-1), the electric control circuit board (3-22) is fixedly installed in the electric control casing (3-21), and the display (3-23) is installed on the electric control casing (3-21) and connected with the electric control circuit board (3-22).

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