CN218225548U

CN218225548U - Seven-shaft horizontal machining center

Info

Publication number: CN218225548U
Application number: CN202221365608.0U
Authority: CN
Inventors: 张有兵
Original assignee: Hefei Jinci Electromechanical Technology Co ltd
Current assignee: Hefei Jinci Electromechanical Technology Co ltd
Priority date: 2022-06-02
Filing date: 2022-06-02
Publication date: 2023-01-06
Anticipated expiration: 2032-06-02

Abstract

The utility model relates to the technical field of machine tools, in particular to a seven-axis horizontal machining center, which comprises a base and two clamping components, wherein each clamping component comprises two first slide rails, a sliding seat, a first driving mechanism, two second slide rails, a slide block, a second driving mechanism, a first motor and a clamping block; first actuating mechanism is used for driving the sliding seat horizontal slip on two first slide rails, second actuating mechanism is used for driving the slider and slides from top to bottom on two second slide rails, the side of slider is rotated and is installed a clamp splice, the slider horizontal slip finally drives the clamp splice and removes about, the slider slides from top to bottom and drives the clamp splice and reciprocate, it all can adopt this kind of mode adjustment upper and lower position and control the position about controlling two clamp splices, make two clamp splices can adjust according to the length and the height of work piece, support the center at both ends about the work piece respectively, thereby can the not unidimensional work piece of centre gripping.

Description

Seven-shaft horizontal machining center

Technical Field

The utility model relates to a lathe technical field especially relates to a seven horizontal machining centers.

Background

The current seven-axis horizontal machining center generally clamps a workpiece on a base to machine the workpiece, but cannot rotate the workpiece to machine the periphery of the workpiece.

The prior art provides a seven-axis horizontal machining center, which adopts two clamping blocks to clamp a workpiece, and the two clamping blocks can rotate so as to drive the workpiece to rotate, thereby facilitating the machining of the periphery of the workpiece.

However, by adopting the above mode, the positions of the two clamping blocks cannot be adjusted, and workpieces with different sizes cannot be clamped for processing.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a seven horizontal machining centers can the not unidimensional work pieces of centre gripping.

In order to realize the purpose, the utility model provides a seven-shaft horizontal machining center, which comprises a base and two clamping components;

the clamping assembly comprises two first sliding rails, a sliding seat, a first driving mechanism, two second sliding rails, a sliding block, a second driving mechanism, a first motor and a clamping block; the two first slide rails are fixedly connected with the base and located on one side of the base respectively, the sliding seat is slidably connected with the two first slide rails and located on one side of the two first slide rails respectively, the first driving mechanism is arranged on the base, the two second slide rails are fixedly connected with the sliding seat and located on the side of the sliding seat respectively, the sliding block is slidably connected with the two second slide rails and located on one side of the two second slide rails respectively, the second driving mechanism is arranged on the sliding seat, the first motor is fixedly connected with the sliding block and located on one side of the sliding block, and the clamping block is rotatably connected with the sliding block and fixedly connected with an output shaft of the first motor and located on one side of the sliding block.

The clamping assembly further comprises a friction pad, the friction pad is fixedly connected with the clamping block and is positioned on one side, far away from the first motor, of the clamping block.

The first driving mechanism comprises a first screw and a second motor, the first screw is rotatably connected with the base, is in threaded connection with the sliding seat and penetrates through the sliding seat, the second motor is fixedly connected with the base and is positioned on one side of the base, and an output shaft of the second motor is fixedly connected with the first screw.

The second driving mechanism comprises a second screw and a third motor, the second screw is rotatably connected with the sliding seat, is in threaded connection with the sliding block and penetrates through the sliding block, the third motor is fixedly connected with the sliding seat and is positioned on one side of the sliding seat, and an output shaft of the third motor is fixedly connected with the second screw.

The seven-axis horizontal machining center further comprises a translation assembly, and the translation assembly is arranged on the base.

The translation assembly comprises two third sliding rails, a movable plate and a third driving mechanism, the two third sliding rails are fixedly connected with the base and are respectively located on one side of the base, the movable plate is slidably connected with the two third sliding rails and is located on one side of the third sliding rails, and the third driving mechanism is arranged on the base.

The third driving mechanism comprises a third screw and a fourth motor, the third screw is rotatably connected with the base, is in threaded connection with the movable plate and penetrates through the movable plate, the fourth motor is fixedly connected with the base and is positioned on one side of the base, and an output shaft of the fourth motor is fixedly connected with the third screw.

The utility model discloses a seven horizontal machining center, two first slide rails are used for slidable mounting the sliding seat, the sliding seat can be two horizontal slip on the first slide rail, first actuating mechanism is used for the drive the sliding seat slides to lock after sliding is accomplished the position of sliding seat, two the second slide rail is used for slidable mounting the slider, the slider can be two slide from top to bottom on the second slide rail, second actuating mechanism is used for the drive the slider slides to lock after sliding is accomplished the position of slider, the side of slider is rotated and is installed a clamp splice, first motor is used for driving the clamp splice rotates, sliding seat horizontal slip finally drives the clamp splice is removed, the slider slides from top to bottom and drives the clamp splice reciprocates, controls two about the clamp splice all can adopt this kind of mode adjustment vertical position and control position, makes two the clamp splice can adjust according to the length and the height of work piece, supports the center at both ends about the work piece respectively, then two the clamp splice shifts up from the base to the work piece, and two under the drive of first motor, thereby can drive the work piece equidimension not holding size of work piece not.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below.

Fig. 1 is an overall schematic structural view of the first embodiment of the present invention.

Fig. 2 is a schematic view of another angle of the first embodiment of the present invention.

Fig. 3 is an overall schematic structural view of the second embodiment of the present invention.

101-base, 102-clamping component, 103-first slide rail, 104-slide seat, 105-first driving mechanism, 106-second slide rail, 107-slide block, 108-second driving mechanism, 109-first motor, 110-clamping block, 111-friction pad, 112-first screw, 113-second motor, 114-second screw, 115-third motor, 201-translation component, 202-third slide rail, 203-moving plate, 204-third driving mechanism, 205-third screw and 206-fourth motor.

Detailed Description

The first embodiment of the present application is:

referring to fig. 1-2, fig. 1 is a schematic overall structure diagram of a first embodiment of the present invention, and fig. 2 is a schematic overall structure diagram of another angle of the first embodiment of the present invention. The utility model provides a seven horizontal machining centers: comprises a base 101 and two clamping components 102; the clamping assembly 102 comprises two first slide rails 103, a sliding seat 104, a first driving mechanism 105, two second slide rails 106, a sliding block 107, a second driving mechanism 108, a first motor 109, a clamping block 110 and a friction pad 111; the first driving mechanism 105 includes a first screw 112 and a second motor 113; the second drive mechanism 108 includes a second screw 114 and a third motor 115.

For the present embodiment, the base 101 is used for mounting two clamping assemblies 102.

The two first sliding rails 103 are respectively and fixedly connected with the base 101 and are respectively located on one side of the base 101, the sliding seat 104 is respectively and slidably connected with the two first sliding rails 103 and is located on one side of the two first sliding rails 103, the first driving mechanism 105 is disposed on the base 101, the two second sliding rails 106 are respectively and fixedly connected with the sliding seat 104 and are respectively located on the side edges of the sliding seat 104, the sliding block 107 is respectively and slidably connected with the two second sliding rails 106 and is respectively located on one side of the two second sliding rails 106, the second driving mechanism 108 is disposed on the sliding seat 104, the first motor 109 is fixedly connected with the sliding block 107 and is located on one side of the sliding block 107, and the clamping block 110 is rotatably connected with the sliding block 107 and is fixedly connected with an output shaft of the first motor 109 and is located on one side of the sliding block 107. The two first slide rails 103 are used for slidably mounting the slide seat 104, the slide seat 104 can slide left and right on the two first slide rails 103, the first driving mechanism 105 is used for driving the slide seat 104 to slide and locking the position of the slide seat 104 after the sliding is completed, the two second slide rails 106 are used for slidably mounting the sliding block 107, the sliding block 107 can slide up and down on the two second slide rails 106, the second driving mechanism 108 is used for driving the sliding block 107 to slide and locking the position of the sliding block 107 after the sliding is completed, one clamping block 110 is rotatably mounted on the side edge of the sliding block 107, the first motor 109 is used for driving the clamping block 110 to rotate, the slide seat 104 slides left and right and finally drives the clamping block 110 to move left and right, the sliding block 107 slides up and down to drive the clamping block 110 to move up and down, the left and right positions of the clamping block 110 can be adjusted in such a way that the two clamping blocks 110 can be adjusted according to the length and height of a workpiece to respectively abut against the centers of left and right ends of the workpiece, then the two clamping blocks 110 move up and move away from the first slide on the first slide base 103, so as to lift the workpiece 109 and drive the workpiece to rotate.

Next, the friction pad 111 is fixedly connected to the clamping block 110 and is located on a side of the clamping block 110 away from the first motor 109. The friction pad 111 is used for increasing the friction force when the clamping blocks 110 contact with the workpiece, so that the workpiece is clamped by the two clamping blocks 110 more stably.

Meanwhile, the first screw 112 is rotatably connected with the base 101, is in threaded connection with the sliding seat 104, and penetrates through the sliding seat 104, the second motor 113 is fixedly connected with the base 101 and is located on one side of the base 101, and an output shaft of the second motor 113 is fixedly connected with the first screw 112. The second motor 113 is used for driving the first screw rod 112 to rotate, the first screw rod 112 rotates and drives the sliding seat 104 to slide, and the second motor 113 drives the first screw rod 112 to rotate in the forward direction or the reverse direction, so that the sliding seat 104 can be driven to slide leftwards or rightwards.

In addition, the second screw 114 is rotatably connected with the sliding seat 104, is in threaded connection with the sliding block 107, and penetrates through the sliding block 107, the third motor 115 is fixedly connected with the sliding seat 104 and is located on one side of the sliding seat 104, and an output shaft of the third motor 115 is fixedly connected with the second screw 114. The third motor 115 is used for driving the second screw 114 to rotate, the second screw 114 rotates to drive the sliding block 107 to slide, and the third motor 115 drives the second screw 114 to rotate in the forward direction or the reverse direction, so that the sliding block 107 can be driven to slide upwards or downwards.

When the seven-axis horizontal machining center is used, a workpiece is placed on the base 101 and is located between the two clamping blocks 110, so that the centers of the two clamping blocks 110 and the center of the workpiece are located on the same vertical plane, the second motor 113 is started to drive the first screw 112 to rotate, the left and right positions of the sliding seat 104 are adjusted to adjust the left and right positions of the clamping blocks 110 to adapt to the length of the workpiece, the third motor 115 is started to drive the second screw 114 to rotate, the up and down positions of the sliding block 107 are adjusted to adjust the up and down positions of the clamping blocks 110 to adapt to the height of the workpiece, the clamping blocks 110 are aligned to the center of the workpiece, the left and right clamping blocks 110 are adjusted in the same mode, so that the workpiece can be clamped from two sides, then the two clamping blocks 110 move upwards to lift the workpiece, then the two first motors 109 are used to drive the two first clamping blocks 110 to rotate, and the workpiece is convenient to machine the periphery of the workpiece.

The second embodiment of the present application is:

please refer to fig. 3 based on the first embodiment, wherein fig. 3 is a schematic overall structural diagram of a second embodiment of the present invention. The utility model provides a seven-axis horizontal machining center, which also comprises a translation component 201; the translation assembly 201 comprises two third slide rails 202, a moving plate 203 and a third driving mechanism 204; the third drive mechanism 204 includes a third screw 205 and a fourth motor 206.

For this embodiment, the translation assembly 201 is disposed on the base 101. The translation assembly 201 is used to transport a workpiece.

The two third slide rails 202 are respectively fixedly connected with the base 101 and respectively located on one side of the base 101, the moving plate 203 is respectively slidably connected with the two third slide rails 202 and located on one side of the two third slide rails 202, and the third driving mechanism 204 is disposed on the base 101. The two third slide rails 202 are used for slidably mounting the moving plate 203, the moving plate 203 can slide back and forth on the two third slide rails 202, the third driving mechanism 204 is used for driving the moving plate 203 to slide, and after a workpiece is placed on the moving plate 203, the third driving mechanism 204 drives the moving plate 203 to move so as to drive the workpiece to just move between the two clamping blocks 110, so that the two clamping blocks 110 can be conveniently adjusted to clamp the workpiece.

Next, the third screw 205 is rotatably connected to the base 101, is in threaded connection with the moving plate 203, and penetrates through the moving plate 203, the fourth motor 206 is fixedly connected to the base 101 and is located on one side of the base 101, and an output shaft of the fourth motor 206 is fixedly connected to the third screw 205. The fourth motor 206 is used for driving the third screw 205 to rotate, the third screw 205 rotates to drive the moving plate 203 to slide, and the fourth motor 206 drives the third screw 205 to rotate in a forward direction or a reverse direction, so that the moving plate 203 can be driven to move forward or backward.

In the seven-axis horizontal machining center of this embodiment, when a workpiece needs to be machined, the workpiece is horizontally placed on the moving plate 203, the fourth motor 206 is started to drive the moving plate 203 to move backwards, so that the workpiece is driven to just move between the two clamping blocks 110, and the two clamping blocks 110 are conveniently adjusted to clamp the workpiece.

While the above disclosure describes one or more preferred embodiments of the present invention, it is not intended to limit the scope of the claims to such embodiments, and one skilled in the art will understand that all or a portion of the processes performed in the above embodiments may be practiced without departing from the spirit and scope of the claims.

Claims

1. A seven-axis horizontal machining center comprises a base and is characterized in that,

the device also comprises two clamping components;

the clamping assembly comprises two first sliding rails, a sliding seat, a first driving mechanism, two second sliding rails, a sliding block, a second driving mechanism, a first motor and a clamping block;

the two first sliding rails are fixedly connected with the base and located on one side of the base respectively, the sliding seat is slidably connected with the two first sliding rails and located on one side of the two first sliding rails respectively, the first driving mechanism is arranged on the base, the two second sliding rails are fixedly connected with the sliding seat respectively and located on the side edge of the sliding seat respectively, the sliding block is slidably connected with the two second sliding rails and located on one side of the two second sliding rails respectively, the second driving mechanism is arranged on the sliding seat, the first motor is fixedly connected with the sliding block and located on one side of the sliding block, and the clamping block is rotatably connected with the sliding block and fixedly connected with an output shaft of the first motor and located on one side of the sliding block.

2. The seven-axis horizontal machining center according to claim 1,

3. The seven-axis horizontal machining center according to claim 2,

4. The seven-axis horizontal machining center according to claim 3,

5. The seven-axis horizontal machining center according to claim 1,

6. The seven-axis horizontal machining center according to claim 5,

the translation assembly comprises two third sliding rails, a moving plate and a third driving mechanism, the two third sliding rails are fixedly connected with the base and are respectively located on one side of the base, the moving plate is slidably connected with the two third sliding rails and is located on one side of the two third sliding rails, and the third driving mechanism is arranged on the base.

7. The seven-axis horizontal machining center according to claim 6,