CN108296772B

CN108296772B - Workpiece multi-surface synchronous machining equipment capable of automatically switching stations

Info

Publication number: CN108296772B
Application number: CN201711467523.7A
Authority: CN
Inventors: 管宏庆
Original assignee: Tianchang Cylinder Head Co ltd
Current assignee: Tianchang Cylinder Head Co ltd
Priority date: 2017-12-29
Filing date: 2017-12-29
Publication date: 2021-01-08
Anticipated expiration: 2037-12-29
Also published as: CN108296772A

Abstract

The invention discloses a workpiece multi-surface synchronous processing device capable of automatically switching stations, which comprises: workstation, first processing mechanism, second processing mechanism, first actuating mechanism, second actuating mechanism, third actuating mechanism and fourth actuating mechanism, wherein: the workbench comprises an outer ring platform and a support platform; the first driving mechanism is used for driving the outer ring table to rotate; the second driving machine is used for driving the supporting platform to turn over at the inner side of the outer ring platform; the supporting table is provided with a storage groove, the upper end face of the supporting table is provided with a first vertical frame and a first power mechanism, the lower end face of the supporting table is provided with a second vertical frame and a second power mechanism, the first vertical frame is provided with a first movable plate and a third power mechanism, and the second vertical frame is provided with a second movable plate and a fourth power mechanism; the first processing head is positioned above the object placing groove and is driven by the third driving mechanism; the second processing is positioned at the outer side of the object placing groove and is driven by a fourth driving mechanism. The invention improves the processing efficiency and realizes the automatic switching of the processing surfaces.

Description

Workpiece multi-surface synchronous machining equipment capable of automatically switching stations

Technical Field

The invention relates to the technical field of machining equipment, in particular to workpiece multi-surface synchronous machining equipment capable of automatically switching stations.

Background

The cylinder cap needs to be processed on the outer wall and the end faces of two ends in the production and processing process, so that a plurality of different processing devices are needed to be used for processing in the processing process, the operation is very inconvenient, and the time is very wasted. Improvements are needed.

Disclosure of Invention

Based on the technical problems in the prior art, the invention provides a workpiece multi-surface synchronous processing device capable of automatically switching stations.

The invention provides a workpiece multi-surface synchronous processing device capable of automatically switching stations, which comprises: workstation, first processing mechanism, second processing mechanism, first actuating mechanism, second actuating mechanism, third actuating mechanism and fourth actuating mechanism, wherein:

the workbench comprises an outer ring platform with an annular structure and a support platform arranged on the inner side of the outer ring platform;

the outer peripheral surface of the outer ring table is provided with gear teeth, and the first driving mechanism comprises a transmission gear meshed with the outer ring table and a power unit for driving the transmission gear to rotate;

the second driving mechanism is fixedly arranged on the outer ring table and connected with the supporting table to drive the supporting table to turn over, and the turning angle of the second driving mechanism is 180 degrees when the supporting table is turned over once;

the support table is provided with a storage groove which is matched with the outer contour of the workpiece to be processed and can be penetrated by the workpiece to be processed, and the depth of the storage groove is less than or equal to 1/2 the thickness of the workpiece to be processed;

a first vertical frame and a first power mechanism are vertically arranged on the upper end face of the supporting table and located on the outer side of the article placing groove, the first power mechanism is used for driving the first vertical frame to move towards the article placing groove, a second vertical frame and a second power mechanism are vertically arranged on the lower end face of the supporting table and located on the outer side of the article placing groove, the second vertical frame is used for driving the second vertical frame to move towards the article placing groove, a first movable plate and a third power mechanism are arranged on one side, close to the article placing groove, of the first vertical frame, the first movable plate is in sliding assembly with the first vertical frame, the third power mechanism is used for driving the first movable plate to move up and down, a second movable plate and a fourth power mechanism are arranged on one side, close to the article placing groove;

the first machining head is positioned above the object placing groove and is driven by the third driving mechanism to move up and down;

the second processing is positioned at the outer side of the object placing groove and driven by the fourth driving mechanism to reciprocate in the direction of the object placing groove.

Preferably, the device further comprises a fifth driving mechanism for driving the second processing mechanism to move up and down above the workbench.

Preferably, at least three guide holes annularly arranged around the object placing groove are formed in the support table, and each guide hole linearly extends from one end close to the object placing groove to one end far away from the object placing groove; and fifth power mechanisms 13 are respectively installed at one end of the outer ring platform, which is positioned in any one of the guide holes, and each fifth power mechanism 13 comprises an ejector rod which is coaxially arranged with the corresponding guide hole and can extend into the guide hole and a power unit which is used for driving the ejector rod to perform telescopic action towards the direction of the guide hole.

Preferably, one end of the outer ring table, which is positioned at any one of the guide holes, is provided with a first groove arranged along the length direction of the guide hole; the fifth power mechanism 13 is fixedly arranged in the first groove.

Preferably, the first vertical frame comprises a first left vertical frame and a first right vertical frame which are oppositely arranged at two sides of the storage groove; the first movable plate comprises a first left movable plate arranged on the first left vertical frame and a first right movable plate arranged on the first right vertical frame; the first power mechanism comprises a first left driving unit connected with the first left vertical frame and used for driving the first left vertical frame to reciprocate towards the object containing groove and a first right driving unit connected with the first right vertical frame and used for driving the first right vertical frame to reciprocate towards the object containing groove, and the first left driving unit and the first right driving unit are positioned on one sides, far away from each other, of the first left vertical frame and the first right vertical frame; the third power mechanism comprises a third left driving unit which is arranged on the first left vertical frame and used for driving the first left movable plate to move up and down and a third right driving unit which is arranged on the first right vertical frame and used for driving the first right movable plate to move up and down.

Preferably, the first left driving unit and the first right driving unit act synchronously.

Preferably, the third left driving unit and the third right driving unit act synchronously.

Preferably, the second vertical frame comprises a second left vertical frame and a second right vertical frame which are oppositely arranged at two sides of the article holding groove; the second movable plate comprises a second left movable plate arranged on the second left vertical frame and a second right movable plate arranged on the second right vertical frame; the second power mechanism comprises a second left driving unit connected with the second left vertical frame and used for driving the second left vertical frame to reciprocate towards the object placing groove and a second right driving unit connected with the second right vertical frame and used for driving the second right vertical frame to reciprocate towards the object placing groove, and the second left driving unit and the second right driving unit are positioned on one sides, far away from each other, of the second left vertical frame and the second right vertical frame; the fourth power mechanism comprises a fourth left driving unit which is arranged on the second left vertical frame and used for driving the second left movable plate to move up and down and a fourth right driving unit which is arranged on the second right vertical frame and used for driving the second right movable plate to move up and down.

Preferably, the second left driving unit and the second right driving unit act synchronously.

Preferably, the fourth left driving unit and the fourth right driving unit act synchronously.

Preferably, the outer ring platform is provided with a second groove which is arranged in the radial direction; the second driving mechanism comprises a main shaft, an auxiliary shaft and a power unit, the main shaft and the auxiliary shaft are oppositely arranged on two sides of the supporting platform, one end of the main shaft is fixed with the supporting platform, the other end of the main shaft is fixed with the power unit, one end of the auxiliary shaft is fixed with the supporting platform, and the other end of the auxiliary shaft is rotatably connected with the outer ring platform; the power unit is fixedly arranged in the second groove and used for driving the main shaft to rotate.

Preferably, a tray table and a lifting mechanism for driving the tray table to lift up and down are arranged below the support table.

In the invention, the transmission gear in the first driving mechanism is matched with the outer ring table to enable the outer ring table to rotate, and the second driving mechanism is matched with the supporting table to enable the supporting table to rotate along with the rotation of the outer ring table and simultaneously turn over; the upper end opening and the lower end opening of the object placing groove can be sealed by utilizing the first power mechanism and the third power mechanism on the supporting table to be matched with the first vertical frame and the first movable plate and utilizing the second power mechanism and the fourth power mechanism to be matched with the second vertical frame and the second movable plate; the workpiece to be machined can be fixed in the object placing groove by the aid of the matching of the object placing groove and the first movable plate or the second movable plate, one end of the workpiece is kept to be higher than the object placing groove, so that the side wall of the upward end of the workpiece is exposed outside the object placing groove, the first machining mechanism is driven to descend to the machining station by the aid of the third driving mechanism to machine the end face of the workpiece, the second machining mechanism is driven to enter the machining station by the aid of the fourth driving mechanism to machine the side wall of the workpiece, in the machining process, the machined faces of the peripheral face of the workpiece can be switched by the aid of rotation of the outer ring table, the end face of the workpiece is switched by the aid of overturning of the supporting table, and unloading work is automatically completed by controlling opening and closing of the object placing groove after machining is completed.

In conclusion, the workpiece multi-surface synchronous processing equipment capable of automatically switching stations provided by the invention can be used for simultaneously processing the end surface and the side wall of the workpiece, saving the workpiece clamping and unloading time and greatly improving the processing efficiency of workpiece double-surface processing.

Drawings

FIG. 1 is a schematic structural diagram of a multi-surface synchronous processing device for workpieces with automatic station switching according to the present invention;

fig. 2 is a top view of a workpiece multi-surface synchronous processing device capable of automatically switching stations according to the present invention.

Detailed Description

The technical solution of the present invention will be described in detail below with reference to specific examples.

As shown in fig. 1-2, fig. 1 is a schematic structural diagram of a workpiece multi-surface synchronous processing apparatus with automatic station switching according to the present invention; fig. 2 is a top view of a workpiece multi-surface synchronous processing device capable of automatically switching stations according to the present invention.

Referring to fig. 1-2, a multi-surface synchronous processing apparatus for workpieces with automatic station switching according to an embodiment of the present invention includes: workstation 1, first processing mechanism 2, second processing mechanism 3, first actuating mechanism 4, second actuating mechanism 5, third actuating mechanism 6 and fourth actuating mechanism 7, wherein: the table 1 includes an outer ring table 101 having a ring structure and a support table 102 disposed inside the outer ring table 101.

Gear teeth are arranged on the outer peripheral surface of the outer ring table 101, and the first driving mechanism 4 includes a transmission gear engaged with the outer ring table 101 and a power unit for driving the transmission gear to rotate. The second driving mechanism 5 is fixedly installed on the outer ring table 101 and connected to the supporting table 102 for driving the supporting table 102 to perform the turning operation, and the turning angle of the supporting table 102 is 180 ° for each turning.

The support table 102 is provided with a storage groove which is matched with the outer contour of the workpiece to be processed and can be penetrated by the workpiece to be processed, and the depth of the storage groove is less than or equal to 1/2 thickness of the workpiece to be processed; the upper end face of the supporting table 102 and the outer side of the article holding groove are provided with a first vertical frame 8 which is vertically arranged and a first power mechanism for driving the first vertical frame 8 to move towards the article holding groove, the lower end face of the supporting table 102 and the outer side of the article holding groove are provided with a second vertical frame 9 which is vertically arranged and a second power mechanism for driving the second vertical frame 9 to move towards the article holding groove, one side of the first vertical frame 8, which is close to the article holding groove, is provided with a first movable plate 10 which is in sliding assembly with the first vertical frame and a third power mechanism for driving the first movable plate 10 to move up and down, and one side of the second vertical frame 9, which is close to the article holding groove, is provided with a second movable plate 11 which is in sliding assembly with the first vertical frame and a fourth power mechanism for driving the.

The first processing head is positioned above the object placing groove and is driven by the third driving mechanism 6 to move up and down; the second machining is located outside the storage compartment and is driven by the fourth driving mechanism 7 to reciprocate in the direction of the storage compartment.

The invention works as follows: the support platform 102 is in a horizontal state, and the first power mechanism and the second power mechanism are respectively connected with the first vertical frame 8, the second vertical frame 9, the first movable plate 10 and the second movable plate 11 to enable the lower port of the object holding groove to be in a closed state and the upper port of the object holding groove to be in an open state; then, the workpiece to be processed is placed in the storage tank, one surface to be processed of the workpiece to be processed is kept upward, so that the workpiece in the tank is kept fixed, and the end part and the side wall of one end of the workpiece are positioned outside the storage tank after the workpiece enters the storage tank due to the fact that the depth of the storage tank is smaller than or equal to 1/2 of the thickness of the workpiece to be processed, so that the first processing mechanism 2 and the second processing mechanism 3 can simultaneously process the upper first end surface and the side wall of the workpiece; when the first processing mechanism 2 and the second processing mechanism 3 complete the processing action, the first power mechanism or the second power mechanism is matched with the first vertical frame 8 or the second vertical frame 9, so that the first movable plate 10 or the second movable plate 11 moves to the upper end of the workpiece, and the third power mechanism or the fourth power mechanism drives the workpiece to descend to enable the first end surface of the workpiece to abut against, so that the workpiece is fixed in the storage groove, then the supporting platform 102 is turned over by 180 degrees by the second driving mechanism 5, the lower end face of the workpiece enters an upward state, the first end face of the workpiece enters a downward state, and the lower end face of the workpiece is higher than the object placing groove by controlling the first movable plate 10 or the second movable plate 11 to move upwards, so as to utilize the first processing mechanism 2 and the second processing mechanism 3 to process the second end surface of the workpiece and the side wall thereof, and after the workpiece finishes double-sided processing, the unloading work can be automatically finished by controlling the opening/closing of the port of the object placing groove.

From the above, in the present invention, the transmission gear of the first driving mechanism 4 is engaged with the outer ring table 101 to enable the outer ring table 101 to rotate, and the second driving mechanism 5 is engaged with the support table 102 to enable the support table 102 to rotate along with the rotation of the outer ring table 101 and simultaneously turn over; the upper and lower ports of the object placing groove can be closed by matching the first power mechanism and the third power mechanism on the supporting table 102 with the first vertical frame 8 and the first movable plate 10 and matching the second power mechanism and the fourth power mechanism with the second vertical frame 9 and the second movable plate 11; the workpiece to be machined can be fixed in the object placing groove by matching the object placing groove with the first movable plate or the second movable plate 11, one end of the workpiece is kept to be higher than the object placing groove, so that the side wall of the upward end of the workpiece is exposed outside the object placing groove, the first machining mechanism 2 is driven to descend to a machining station by the third driving mechanism 6 to machine the end face of the workpiece, the second machining mechanism 3 is driven to enter the machining station by the fourth driving mechanism 7 to machine the side wall of the workpiece, in the machining process, the machining face of the peripheral face of the workpiece can be switched by the rotation of the outer ring table 101, the end face of the workpiece is switched by the overturning of the supporting table 102, and after the machining is finished, the unloading work is automatically finished by controlling the opening and closing of the object placing groove. The processing efficiency of the double-sided processing of the workpiece is greatly improved.

In this embodiment, a fifth driving mechanism 12 for driving the second processing mechanism 3 to move up and down above the table 1 is further included, so that the adjustability of the processing of the workpiece is achieved.

In this embodiment, at least three guide holes annularly arranged around the object placing groove are formed in the support platform 102, and each guide hole linearly extends from one end close to the object placing groove to one end far away from the object placing groove; the fifth power mechanisms 13 are mounted at one end of any one guide hole on the outer ring platform 101, and each fifth power mechanism 13 comprises a mandril which is coaxially arranged with the corresponding guide hole and can extend into the guide hole and a power unit for driving the mandril to perform telescopic action towards the direction of the guide hole; the ejector rods in the fifth power mechanisms 13 are used for abutting against the workpiece in the object groove, so that the fixing firmness of the workpiece is improved, the fit clearance between the object groove and the workpiece can be increased when the object groove is designed, and the object groove can be conveniently loaded and unloaded. In this embodiment, a first groove arranged along the length direction of each guide hole is formed in one end of the outer ring table 101, which is located in any one of the guide holes, and the fifth power mechanism 13 is fixedly installed in the first groove. In order to avoid the interference of the fifth power mechanism 13 with the first processing mechanism 2 when the first processing mechanism 2 performs the processing operation.

In this embodiment, the first standing frame 8 includes a first left standing frame 801 and a first right standing frame 802 which are oppositely disposed at two sides of the storage slot; the first movable plate 10 includes a first left movable plate 1001 mounted on the first left stand 801 and a first right movable plate 1002 mounted on the first right stand 802; the first power mechanism comprises a first left driving unit connected with the first left vertical frame 801 and used for driving the first left vertical frame 801 to reciprocate towards the object placing groove and a first right driving unit connected with the first right vertical frame 802 and used for driving the first right vertical frame 802 to reciprocate towards the object placing groove, and the first left driving unit and the first right driving unit are positioned on one sides, far away from each other, of the first left vertical frame 801 and the first right vertical frame 802 and synchronously act; the third power mechanism comprises a third left driving unit installed on the first left vertical frame 801 and used for driving the first left movable plate 1001 to move up and down and a third right driving unit installed on the first right vertical frame 802 and used for driving the first right movable plate 1002 to move up and down, and the third left driving unit and the third right driving unit act synchronously. To increase the single movement of each respective component. Similarly, the second vertical frame 9 includes a second left vertical frame and a second right vertical frame which are oppositely arranged at two sides of the storage slot; the second movable plate 11 comprises a second left movable plate mounted on the second left stand and a second right movable plate mounted on the second right stand; the second power mechanism comprises a second left driving unit connected with the second left vertical frame and used for driving the second left vertical frame to reciprocate towards the object placing groove and a second right driving unit connected with the second right vertical frame and used for driving the second right vertical frame to reciprocate towards the object placing groove, and the second left driving unit and the second right driving unit are positioned on one sides, far away from each other, of the second left vertical frame and the second right vertical frame and synchronously move; the fourth power mechanism comprises a fourth left driving unit which is arranged on the second left vertical frame and used for driving the second left movable plate to move up and down and a fourth right driving unit which is arranged on the second right vertical frame and used for driving the second right movable plate to move up and down, and the fourth left driving unit and the fourth right driving unit synchronously act.

In this embodiment, the outer annular table 101 is provided with second grooves arranged in a radial direction; the second driving mechanism 5 comprises a main shaft, an auxiliary shaft and a power unit, wherein the main shaft and the auxiliary shaft are oppositely arranged on two sides of the support platform 102, one end of the main shaft is fixed with the support platform 102, the other end of the main shaft is fixed with the power unit, one end of the auxiliary shaft is fixed with the support platform 102, and the other end of the auxiliary shaft is rotatably connected with the outer ring platform 101; the power unit is fixedly installed in the second groove and used for driving the spindle to rotate, so that the supporting table 102 is driven to turn, the supporting table 102 is provided with the supporting table 13 and the lifting mechanism used for driving the supporting table 13 to lift up and down, and in operation, when the supporting table 102 completes turning action, the lifting mechanism 15 can be utilized to push the supporting table 13 to lift up until the supporting table 13 is abutted to the supporting table 10, so that the stability of the supporting table 102 in the machining process is enhanced, and the pressure of the spindle and the auxiliary shaft in the second driving mechanism 5 is reduced.

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

1. The utility model provides an automatic work piece multiaspect synchronous processing equipment of switching station which characterized in that includes: workstation (1), first processing mechanism (2), second processing mechanism (3), first actuating mechanism (4), second actuating mechanism (5), third actuating mechanism (6) and fourth actuating mechanism (7), wherein:

the workbench (1) comprises an outer ring platform (101) with an annular structure and a support platform (102) arranged on the inner side of the outer ring platform (101);

gear teeth are arranged on the peripheral surface of the outer ring table (101), and the first driving mechanism (4) comprises a transmission gear meshed with the outer ring table (101) and a power unit for driving the transmission gear to rotate;

the second driving mechanism (5) is fixedly arranged on the outer ring table (101) and connected with the supporting table (102) to drive the supporting table (102) to turn over, and the turning angle of the supporting table (102) is 180 degrees when the supporting table (102) turns over once;

the support table (102) is provided with an object placing groove which is matched with the outer contour of the workpiece to be processed and can be penetrated by the workpiece to be processed, and the depth of the object placing groove is less than or equal to 1/2 thickness of the workpiece to be processed;

a first vertical frame (8) which is vertically arranged and a first power mechanism which is used for driving the first vertical frame (8) to move towards the object placing groove are arranged on the upper end face of the supporting table (102) and located on the outer side of the object placing groove, a second vertical frame (9) which is vertically arranged and a second power mechanism which is used for driving the second vertical frame (9) to move towards the object placing groove are arranged on the lower end face of the supporting table (102) and located on the outer side of the object placing groove, a first movable plate (10) which is in sliding assembly with the first vertical frame (8) and a third power mechanism which is used for driving the first movable plate (10) to move up and down are arranged on one side, close to the object placing groove, of the first vertical frame (8), a second movable plate (11) which is in sliding assembly with the first vertical frame (11) and a fourth power mechanism which is used for driving the second movable plate (11) to;

the first processing head is positioned above the object placing groove and is driven by a third driving mechanism (6) to move up and down;

the second processing is positioned at the outer side of the object placing groove and is driven by a fourth driving mechanism (7) to reciprocate in the direction of the object placing groove;

the first vertical frame (8) comprises a first left vertical frame (801) and a first right vertical frame (802) which are oppositely arranged at two sides of the storage groove; the first movable plate (10) comprises a first left movable plate (1001) mounted on the first left stand (801) and a first right movable plate (1002) mounted on the first right stand (802); the first power mechanism comprises a first left driving unit which is connected with the first left vertical frame (801) and used for driving the first left vertical frame (801) to reciprocate towards the object placing groove direction and a first right driving unit which is connected with the first right vertical frame (802) and used for driving the first right vertical frame (802) to reciprocate towards the object placing groove direction, and the first left driving unit and the first right driving unit are positioned on one sides, far away from each other, of the first left vertical frame (801) and the first right vertical frame (802); the third power mechanism comprises a third left driving unit which is arranged on the first left vertical frame (801) and used for driving the first left movable plate (1001) to move up and down and a third right driving unit which is arranged on the first right vertical frame (802) and used for driving the first right movable plate (1002) to move up and down;

the second vertical frame (9) comprises a second left vertical frame and a second right vertical frame which are oppositely arranged at two sides of the article holding groove; the second movable plate (11) comprises a second left movable plate installed on the second left vertical frame and a second right movable plate installed on the second right vertical frame; the second power mechanism comprises a second left driving unit connected with the second left vertical frame and used for driving the second left vertical frame to reciprocate towards the object placing groove and a second right driving unit connected with the second right vertical frame and used for driving the second right vertical frame to reciprocate towards the object placing groove, and the second left driving unit and the second right driving unit are positioned on one sides, far away from each other, of the second left vertical frame and the second right vertical frame; the fourth power mechanism comprises a fourth left driving unit which is arranged on the second left vertical frame and used for driving the second left movable plate to move up and down and a fourth right driving unit which is arranged on the second right vertical frame and used for driving the second right movable plate to move up and down;

a second groove which is arranged in the radial direction is arranged on the outer ring table (101); the second driving mechanism (5) comprises a main shaft, an auxiliary shaft and a power unit, wherein the main shaft and the auxiliary shaft are oppositely arranged on two sides of the supporting platform (102), one end of the main shaft is fixed with the supporting platform (102), the other end of the main shaft is fixed with the power unit, one end of the auxiliary shaft is fixed with the supporting platform (102), and the other end of the auxiliary shaft is rotatably connected with the outer ring platform (101); the power unit is fixedly arranged in the second groove and used for driving the main shaft to rotate; a supporting platform (13) and a lifting mechanism for driving the supporting platform (13) to lift up and down are arranged below the supporting platform (102).

2. The multi-face synchronous processing equipment for workpieces with automatic station switching is characterized by further comprising a fifth driving mechanism (12) for driving the second processing mechanism (3) to move up and down above the worktable (1).

3. The multi-surface synchronous processing equipment for the workpieces with the automatic station switching function as claimed in claim 1, wherein the support platform (102) is internally provided with at least three guide holes annularly arranged around the object placing groove, and each guide hole linearly extends from one end close to the object placing groove to one end far away from the object placing groove; and fifth power mechanisms (13) are respectively installed at one end of the outer ring platform (101) positioned in any one guide hole, and each fifth power mechanism (13) comprises an ejector rod which is coaxially arranged with the corresponding guide hole and can extend into the guide hole and a power unit for driving the ejector rod to perform telescopic action towards the direction of the guide hole.

4. The multi-surface synchronous machining equipment for the workpieces with the automatic stations switching function as claimed in claim 3, wherein one end of any one guide hole on the outer ring table (101) is provided with a first groove arranged along the length direction of the guide hole; and a fifth power mechanism (13) is fixedly arranged in the first groove.

5. The multi-surface synchronous processing equipment for workpieces capable of automatically switching stations as claimed in claim 1, wherein the first left driving unit and the first right driving unit act synchronously.

6. The multi-surface synchronous processing equipment for workpieces capable of automatically switching stations as claimed in claim 1, wherein the third left driving unit and the third right driving unit act synchronously.

7. The multi-surface synchronous processing equipment for workpieces capable of automatically switching stations as claimed in claim 1, wherein the second left driving unit and the second right driving unit act synchronously.

8. The multi-surface synchronous processing equipment for workpieces capable of automatically switching stations as claimed in claim 1, wherein the fourth left driving unit and the fourth right driving unit act synchronously.