CN111306270A - Ball and motor integrated driving electric cylinder - Google Patents

Abstract

The invention discloses a ball screw and motor integrated driving electric cylinder which comprises a linear guide part, a sliding seat and a servo motor structure, wherein an embedded guide rail structure is embedded in the linear guide part, a screw nut mounting hole is formed in one side of the sliding seat, a ball screw nut is mounted in the screw nut mounting hole, a ball screw is mounted in the ball screw nut in a rolling mode through a steel ball, and two ends of the ball screw extend out of the screw nut mounting hole. The electric sliding table solves the problem that the existing electric sliding table is formed by separately assembling the base, the linear guide rail, the sliding block, the ball screw and the servo motor, greatly reduces the appearance size of the electric cylinder, shortens the whole length of the electric cylinder, and simultaneously improves the linearity and the walking parallelism of the linear guide rail.

Description

Ball and motor integrated driving electric cylinder

Technical Field

The invention relates to the technical field of high-precision linear transmission, in particular to a ball screw and motor integrated driving electric cylinder.

Background

The electric cylinder is a linear actuator driven by a servo or stepper motor. The electric cylinder is generally composed of a servo motor and a linear guide transmission mechanism. The common transmission modes include ball screw drive, synchronous belt drive, rack drive and the like. The electric cylinder is an indispensable movement execution unit in the automation device. Electric cylinders are also commonly referred to as electric slides, electric actuators, servo linear modules, single axis robots, and the like.

The conventional ball screw type electric sliding table is generally designed and manufactured by taking a linear guide transmission part and a servo motor part driven by a ball screw as two independent parts. The linear guide part and the servo motor are connected through a coupler, a synchronous belt switching mode and the like. When the shaft coupling is adopted for connection, the defect is that the concentricity of the shaft end of the ball screw and the shaft end of the servo motor cannot be ensured during installation, so that the ball screw and the servo motor are difficult to be directly butted by using a rigid shaft coupling, and the connection is usually carried out by adopting a flexible shaft coupling with a concentricity adjusting function. However, the flexible coupling can reduce the response speed of the servo motor, reduce the transmission precision and increase the length size of the transmission mechanism. The acceleration of the ball screw transmission structure is generally limited to 0.7G (1G ≈ 9.8 m/sec) due to the limited response speed of the servo motor²) The following. When the synchronous belt is used for connection, although the length dimension can be reduced, the synchronous belt has the defects of lower transmission precision and response speed than a coupler, and the width installation dimension of the electric cylinder is increased due to the side installation of the motor.

Disclosure of Invention

Based on the technical problems in the prior art, the invention provides a ball screw and motor integrated driving electric cylinder.

The invention provides a ball screw and motor integrated driving electric cylinder which comprises a linear guide part, a sliding seat and a servo motor structure, wherein an embedded guide rail structure is embedded in the linear guide part, a screw nut mounting hole is formed in one side of the sliding seat, a ball screw nut is mounted in the screw nut mounting hole, a ball screw is mounted in the ball screw nut in a rolling mode through a steel ball, two ends of the ball screw extend out of the screw nut mounting hole, and the servo motor structure comprises a servo motor rotor mandrel mounted at the shaft end of the ball screw.

Preferably, the linear guide part is composed of a base and a sliding seat with embedded guide rail structures, and steel balls are arranged on the base and the sliding seat in a rolling mode.

Preferably, the base with the embedded guide rail structure is of a U-shaped structure in cross section, a notch is designed in the inner side of the base, and the embedded guide rail bar is embedded in the notch.

Preferably, the guide rail bar is a guide rail with high hardness and high wear resistance, and the guide rail bar is provided with a first steel ball raceway groove.

Preferably, a second steel ball raceway groove is processed on the sliding seat, a high-precision and high-hardness steel ball is arranged between the first steel ball raceway groove and the second steel ball raceway groove, a reverser and a backflow hole are arranged at two ends of the sliding seat, and the steel ball is matched with the reverser and the backflow hole.

Preferably, a nut of the ball screw is installed in the screw nut installation hole in a rolling mode, the ball screw is connected with the ball screw nut through a rolling steel ball, and a ball screw nut fixing pin hole is formed in the top side of the ball screw nut.

Preferably, the front end and the rear end of the ball screw are respectively provided with a front end bearing support and a rear end bearing support, the front end bearing support is a precision angular contact ball bearing, the rear end bearing support is provided with a rear end bearing, and the rear end bearing is a deep groove ball bearing.

Preferably, the front end part of the ball screw and the rotor mandrel of the servo motor are of an integrated structure, a servo casing is fixedly installed on the front end bearing support, and the servo motor is structurally installed in the servo casing.

Preferably, the servo motor structure comprises a servo casing, a servo motor rotor mandrel, a servo stator, a coil winding, a rotary encoder and a servo motor end cover.

Preferably, the equal fixed mounting in both sides of base has the curb plate, and fixed mounting has photoelectric switch on one side of curb plate, the top fixed mounting of base has dustproof steel band, and the top of dustproof steel band installs the slide cover, and slide cover and slide looks adaptation.

Compared with the prior art, the ball screw and motor integrated electric driving cylinder has the following beneficial effects:

on the first hand, the embedded guide rail structure of the linear guide part reduces the volume of the linear guide mechanism, and the guide rail groove is directly and integrally processed with the base, so that the linearity and the walking parallelism of the linear guide mechanism are improved;

in a second aspect, the ball screw nut is directly mounted to the slide of the guide mechanism, reducing the mounting error of the ball screw nut. The front end of the ball screw adopts a paired angular contact ball bearing, so that the axial clearance and play of the ball screw are eliminated;

the third aspect, the front end shaft end part of the ball screw and the rotor mandrel of the servo motor are of an integrated structure, transmission errors and time delay generated when the traditional ball screw and the servo motor mandrel are connected by using a coupler or a synchronous belt with flexible characteristics are eliminated, the rigidity and the precision of a transmission mechanism are improved, the response speed of the servo motor is improved, the integrated driving electric cylinder can obtain higher acceleration and deceleration, higher motion characteristics can be obtained in occasions needing high-speed positioning and frequent forward and reverse rotation, meanwhile, the mounting size of the electric cylinder is further optimized and reduced due to the fact that the coupler or the synchronous belt mechanism is omitted, and the integrated driving electric cylinder is suitable for special application occasions with strict requirements on mounting space.

Drawings

FIG. 1 is a structural view of an external shape of an integrated driving electric cylinder;

FIG. 2 is an exploded view of the integrated driving electric cylinder;

FIG. 3 is a view showing a structure of a linear guide portion;

fig. 4 is a view showing a structure of a ball screw nut.

In the figure: 1-a base; 2-a slide seat; 3-front end bearing support; 4-a reverser; 5-ball screw; 6-a guide rail bar; 7-side cover; 8-dustproof steel belt; 9-sliding seat cover; 10-a photoelectric switch; 11-a rear end bearing; 12-a rear end bearing support; 13-a rotor mandrel of the servo motor; 14-servo stator and coil winding; 15-a rotary encoder; 16-a servo housing; 17-servo motor end cover; 21-lead screw nut mounting hole; 22-ball screw nut; and 23-the ball screw nut fixes the pin hole.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Example one

Referring to fig. 1-4, a ball and motor integrated electric driving cylinder comprises a linear guide part, a slide seat 2 and a servo motor structure, wherein an embedded guide rail structure is embedded in the linear guide part, a screw nut mounting hole 21 is formed in one side of the slide seat 2, a ball screw nut is mounted in the screw nut mounting hole 21, a ball screw 5 is mounted on the ball screw nut in a rolling manner through a steel ball, two ends of the ball screw 5 extend out of the screw nut mounting hole 21, and the servo motor structure comprises a servo motor rotor mandrel 13 mounted at the shaft end of the ball screw 5.

According to the invention, the linear guide part consists of a base 1 and a sliding seat 2 with embedded guide rail structures, steel balls are arranged on the base 1 and the sliding seat 2 in a rolling manner, and the base 1 and the sliding seat 2 realize relative precise movement through the steel balls in a circulating rolling manner.

In the invention, the section of the base 1 with the embedded guide rail structure is in a U-shaped structure, the base 1 is in an aluminum alloy section structure, the inner side of the base 1 is provided with a notch, and an embedded guide rail strip 6 is embedded in the notch.

In the invention, the guide rail strip 6 is a guide rail with high hardness and high wear resistance, and a first steel ball raceway groove is processed on the guide rail strip.

In the invention, a second steel ball raceway groove is processed on a sliding seat 2, a high-precision and high-hardness steel ball is arranged between the first steel ball raceway groove and the second steel ball raceway groove, two ends of the sliding seat 2 are provided with a reverser 4 and a return hole, the steel ball is matched with the reverser 4 and the return hole, and when the sliding seat 2 and a base 1 move relatively, the steel ball passes through the steel ball rolling groove, the reverser and the return hole form circular rolling.

In the invention, a nut 22 of the ball screw is arranged in the screw nut mounting hole 21 in a rolling way, the ball screw 5 is connected with the ball screw nut 22 in a rolling way through a steel ball, and a ball screw nut fixing pin hole 23 is arranged on the top side of the ball screw nut 22.

In the invention, the front end and the rear end of the ball screw 5 are respectively provided with a front end bearing support 3 and a rear end bearing support 12, the front end bearing support 3 is a precise angular contact ball bearing, the rear end bearing 11 is arranged on the rear end bearing support 12, the rear end bearing 11 is a deep groove ball bearing, and the front end bearing support 3 is a matched precise angular contact ball bearing, so that the ball screw can bear larger axial force and radial force and can realize no axial play and no clearance.

In the invention, the front end part of the ball screw 5 and the servo motor rotor mandrel 13 are in an integral structure, a servo casing 16 is fixedly arranged on the front end bearing support 3, and the servo motor structure is arranged in the servo casing 16.

The servo motor structure comprises a servo shell 16, a servo motor rotor mandrel 13, a servo stator, a coil winding 14, a rotary encoder 15 and a servo motor end cover 17, wherein a rotor shaft sleeve is arranged on the shaft end part of a ball screw 5, the shaft end of the ball screw 5 is connected with the rotor shaft sleeve part through a key groove, the shaft sleeve eliminates a bearing gap between the shaft sleeve and a screw front support through a locking nut, the coil winding is arranged on the motor stator, the motor stator is pressed into the servo shell 16, the rotary encoder 15 is arranged at the tail end of the ball screw 5, a power line and an encoder line outlet hole are designed on the servo motor end cover 17, the power line and the encoder line are provided with a cable joint, the servo shell 16 is fixed on the front end bearing support 3, and the servo motor is packaged.

According to the invention, the two sides of the base 1 are fixedly provided with the side plates 7, one side of each side plate 7 is fixedly provided with the photoelectric switch 10, the top of the base 1 is fixedly provided with the dustproof steel belt 8, the top of the dustproof steel belt 8 is provided with the sliding seat cover 9, and the sliding seat cover 9 is matched with the sliding seat 2.

Example two

Referring to fig. 1-4, a ball and motor integrated electric driving cylinder comprises a linear guide part, a sliding seat 2 and a servo motor structure, wherein an embedded guide rail structure is embedded in the linear guide part, a screw nut mounting hole 21 is formed in one side of the sliding seat 2, a ball screw nut is installed in the screw nut mounting hole 21 and is provided with a ball screw 5 in a rolling mode through a steel ball, two ends of the ball screw 5 extend out of the screw nut mounting hole 21, and the servo motor structure comprises a servo motor rotor mandrel 13 installed at the shaft end of the ball screw 5.

In the invention, the linear guide part consists of a base 1 and a sliding seat 2 with embedded guide rail structures, steel balls are arranged on the base 1 and the sliding seat 2 in a rolling way, and the steel balls are high-precision and high-hardness steel balls.

In the invention, the section of the base 1 with the embedded guide rail structure is in a U-shaped structure, the inner side of the base 1 is provided with a notch, and an embedded guide rail strip 6 is embedded in the notch.

In the invention, the guide rail strip 6 is a guide rail with high hardness and high wear resistance, a first steel ball raceway groove is processed on the guide rail strip, the guide rail strip 6 has high hardness and high wear resistance, and the hardness of the guide rail strip is HRC58-62 after heat treatment and aging treatment.

In the invention, a second steel ball raceway groove is processed on the sliding seat 2, a high-precision and high-hardness steel ball is arranged between the first steel ball raceway groove and the second steel ball raceway groove, two ends of the sliding seat 2 are provided with a reverser 4 and a return hole, and the steel ball is matched with the reverser 4 and the return hole.

According to the invention, the ball screw nut 22 is arranged in the screw nut mounting hole 21 in a rolling manner, the ball screw 5 is connected with the ball screw nut 22 through a steel ball in a rolling manner, the top side of the ball screw nut 22 is provided with a ball screw nut fixing pin hole 23, the screw nut 22 of the ball screw 5 is designed into a flange-free cylindrical structure, and the sliding seat 2 is provided with a corresponding pin hole and a corresponding fixing threaded hole. The pin penetrates through the pin hole of the sliding seat 2 and enters the pin positioning hole 23 of the nut 22 of the ball screw 5, and the pin is locked into the fixed threaded hole of the sliding seat 2 through a stop screw, so that the screw rod nut 22 is precisely positioned and fixed.

In the invention, a front end bearing support 3 and a rear end bearing support 12 are respectively arranged at the front end and the rear end of a ball screw 5, the front end bearing support 3 is a precise angular contact ball bearing, the rear end bearing 11 is arranged on the rear end bearing support 12, the rear end bearing 11 is a deep groove ball bearing, the front end bearing support 3 adopts a paired angular contact ball bearing, can bear axial force and radial force, and is fixed by a locking nut to eliminate axial clearance and play of the bearing, and the rear end bearing support 11 adopts a deep groove ball bearing which mainly bears radial force to eliminate shaft end swing when the ball screw rotates.

In the invention, the front end part of the ball screw 5 and the servo motor rotor mandrel 13 are in an integral structure, a servo casing 16 is fixedly arranged on the front end bearing support 3, and the servo motor structure is arranged in the servo casing 16.

In the invention, the servo motor structure consists of a servo casing 16, a servo motor rotor mandrel 13, a servo stator and coil winding 14, a rotary encoder 15 and a servo motor end cover 17.

According to the invention, the two sides of the base 1 are fixedly provided with the side plates 7, one side of each side plate 7 is fixedly provided with the photoelectric switch 10, the top of the base 1 is fixedly provided with the dustproof steel belt 8, the top of the dustproof steel belt 8 is provided with the sliding seat cover 9, the sliding seat cover 9 is matched with the sliding seat 2, and the side cover 7, the dustproof steel belt 8, the sliding seat cover 9 and the steel belt adsorption magnet 11 form a protection device.

The invention comprises the following steps: the embedded guide rail structure of the linear guide part reduces the volume of the linear guide mechanism, and the guide rail groove is directly and integrally processed with the base, so that the linearity and the walking parallelism of the linear guide mechanism are improved; the ball screw nut is directly installed on the sliding seat of the guide mechanism, so that the installation error of the ball screw nut is reduced. The front end of the ball screw adopts a paired angular contact ball bearing, so that the axial clearance and play of the ball screw are eliminated; ball front end axle head portion and servo motor active cell dabber adopt one-piece type structure, it is transmission error and the time delay of production to have eliminated traditional ball and servo motor dabber and have used shaft coupling or hold-in range connection that flexible characteristic to connect, drive mechanism's rigidity and precision have been improved, servo motor's response speed has been promoted, make integral type drive electric jar can obtain higher plus-minus speed, can obtain higher motion characteristic in the occasion that needs high-speed location and frequent just reversal, owing to removed shaft coupling or hold-in range mechanism from simultaneously, further optimize and reduced the installation size of electric jar. Is suitable for special application occasions with very strict requirements on installation space.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (10)

1. The utility model provides a driving electric cylinder of ball and motor integral type, includes straight line guide part, slide (2) and servo motor structure, a serial communication port, the embedded guide rail structure that has of straight line guide part, screw nut mounting hole (21) have been seted up to one side of slide (2), install ball nut (22) in screw nut mounting hole (21), roll through the steel ball in ball nut (22) and install ball (5), and the both ends of ball (5) all extend to outside screw nut mounting hole (21), servo motor structure is including installing servo motor active cell dabber (13) at ball (5) axle head.

2. The electric driving cylinder integrating the ball screw and the motor as claimed in claim 1, wherein the linear guide part comprises a base (1) and a sliding base (2) with an embedded guide rail structure, and the base (1) and the sliding base (2) are provided with steel balls in a rolling manner.

3. The electric driving cylinder integrating the ball screw and the motor as claimed in claim 1, wherein the base (1) with the embedded guide rail structure has a U-shaped cross section, the inner side of the base (1) is designed with a notch, and the embedded guide rail strip (6) is embedded in the notch.

4. The integrated ball screw and motor driving electric cylinder according to claim 3, wherein the guide rail bar (6) is a guide rail having high hardness and high wear resistance, and the guide rail bar is formed with a first ball raceway groove.

5. The electric driving cylinder integrating the ball screw and the motor as claimed in claim 1, wherein a second steel ball raceway groove is formed in the sliding base (2), a high-precision and high-hardness steel ball is mounted between the first steel ball raceway groove and the second steel ball raceway groove, a reverser (4) and a backflow hole are mounted at two ends of the sliding base (2), and the steel ball is matched with the reverser (4) and the backflow hole.

6. The electric driving cylinder integrating the ball screw and the motor as claimed in claim 1, wherein a ball screw nut (22) is installed in the screw nut installation hole (21) in a rolling manner, the ball screw (5) is connected with the ball screw nut (22) through a rolling steel ball, and a ball screw nut fixing pin hole (23) is formed in the top side of the ball screw nut (22).

7. The electric driving cylinder with integrated ball screw and motor as claimed in claim 1, wherein the ball screw (5) is provided with a front end bearing support (3) and a rear end bearing support (12) at the front end and the rear end respectively, the front end bearing support (3) is a precision angular contact ball bearing, the rear end bearing support (12) is provided with a rear end bearing (11), and the rear end bearing (11) is a deep groove ball bearing.

8. The ball screw and motor integrated driving electric cylinder according to claim 1, characterized in that the front end part of the ball screw (5) and the servo motor rotor mandrel (13) are of an integrated structure, a servo housing (16) is fixedly mounted on the front end bearing support (3), and the servo motor structure is mounted in the servo housing (16).

9. The ball screw and motor integrated driving electric cylinder according to claim 1, characterized in that the servo motor structure is composed of a servo casing (16), a servo motor rotor mandrel (13), a servo stator and coil winding (14), a rotary encoder (15) and a servo motor end cover (17).

10. The electric driving cylinder integrating the ball screw and the motor as claimed in claim 2, wherein a side plate (7) is fixedly mounted on each of two sides of the base (1), a photoelectric switch (10) is fixedly mounted on one side of the side plate (7), a dustproof steel belt (8) is fixedly mounted on the top of the base (1), a sliding seat cover (9) is mounted on the top of the dustproof steel belt (8), and the sliding seat cover (9) is matched with the sliding seat (2).

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