CN211439412U - Grinding machine processing equipment with multiple groups of grinding mechanisms - Google Patents

Abstract

The utility model relates to a grinding machine processing equipment of mechanism is ground to utensil multiunit, wherein, the first grinding miller of first grinding mechanism and the second grinding miller of second grinding mechanism are used for carrying out abrasive machining to the both sides terminal surface of work piece, and the third grinding miller of mechanism is used for carrying out abrasive machining to the top side terminal surface of work piece to the third. In particular, the present invention provides the third grinding mechanism on a third seat independent of the gantry-type support structure. Therefore, the third grinding mechanism can be selectively positioned on the left side or the right side of the main base by only changing the position of the third base. In this way, the operator can select the left or right third grinding mechanism to perform grinding processing on the workpiece according to the workpiece feeding direction.

Description

Grinding machine processing equipment with multiple groups of grinding mechanisms

Technical Field

The present invention relates to the field of machine tools, and more particularly to a grinding machine processing apparatus with a plurality of grinding mechanisms for performing grinding machine processing on a workpiece.

Background

As is known, many metal parts or semi-finished products are produced by specific machining operations using machining tools, such as: machining treatment of a lathe, a milling machine, a drilling machine, a grinding machine and the like.

In current machining operations, Grinding machines (Grinding machines) are one of the most commonly used precision machining tools, which grind a workpiece with a grinder and then machine the workpiece into an object having a specific shape or size. Fig. 1 is a perspective view of a conventional grinding machine with three sets of grinding mechanisms, which mainly comprises: a base 10 ', a feeding mechanism 11', a supporting structure 12 ', a workpiece carrying mechanism 13', a first grinding mechanism 14 ', a second grinding mechanism 15', a third grinding mechanism 16 ', and two side bases 17'. The feeding mechanism 11 'is disposed on the base 10' for carrying the workpiece carrying mechanism 13 'to move on the base 10' along the Z-axis direction.

In light of the above description, the two side seat bodies 17 ' are respectively disposed adjacent to two sides of the seat body 10 ', and the supporting structure 12 ' is connected to the two side seat bodies 17 ' and spans over the seat body 10 '. As shown in fig. 1, the first polishing means 14 'and the second polishing means 15' are connected to the support structure 12 ', and the two polishing means (14', 15 ') are located at an upper position of the work carrier means 13' with a force opposing each other, so that both side end faces of a work 2 'disposed on the work carrier means 13' are polished by the two polishing means (14 ', 15'). On the other hand, the third polishing mechanism 16 'is also connected to the support structure 12' and located above the workpiece carrying mechanism 13 'for polishing the top end surface of the workpiece 2'.

Practical experience has shown that connecting the first grinding means 14 ', the second grinding means 15 ', and the third grinding means 16 ' to the support structure 12 ' at the same time allows the known grinding machine processing apparatus 1 ' to exhibit the following drawbacks in practical operating applications:

(1) as shown in fig. 1, a body 121 ' of the supporting structure 12 ' must have a certain height and width to be able to connect and support the first polishing mechanism 14 ', the second polishing mechanism 15 ', and the third polishing mechanism 16 ' at the same time, so that the three sets of polishing mechanisms (14 ', 15 ', 16 ') are located above the workpiece carrier 13 ' at the same time. However, the bulky support structure 12 ' is not suitable for the disassembly and assembly of the conventional grinding machine 1 ', and also limits the application area of the conventional grinding machine 1 '.

(2) As is known, in cooperation with a feeding direction of the workpiece 2 ', an on-line operator can set the polishing directions of the polishing heads of the three sets of polishing mechanisms (14', 15 ', 16'), so that the conventional grinding machine processing equipment 1 'can stably and precisely complete the polishing process of the workpiece 2'. However, when the first polishing mechanism 14 '(or the second polishing mechanism 15') and the third polishing mechanism 16 'perform polishing work simultaneously, the main body 121' of the supporting structure 12 'will have a certain degree of vibration, thereby affecting the polishing precision of the workpiece 2'.

(3) It is particularly noted that connecting the first polishing mechanism 14 ', the second polishing mechanism 15 ', and the third polishing mechanism 16 ' to the support structure 12 ' simultaneously limits the position of the third polishing mechanism 16 '. More specifically, fig. 1 shows the third polishing mechanism 16 ' having a body structure configured on the left side of the housing 10 ', so that an in-line operator must first walk to the left side of the housing 10 ' to access the third polishing mechanism 16 ' if he needs to adjust the third polishing mechanism 16 '.

As can be seen from the above description, it is necessary to improve or redesign the structure of the conventional grinding machine processing equipment 1' with three sets of grinding mechanisms, so as to improve the above-listed practical drawbacks. In view of the above, the present inventor has made research and creation as much as possible, and finally, has developed a grinding machine processing apparatus with multiple sets of grinding mechanisms.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a grinding machine processing equipment of mechanism is ground to utensil multiunit, its simple structure, convenient operation, it is convenient to maintain, can selectively let the third grind the left side or the right side that the mechanism is located main pedestal, is convenient for grind the processing, still can improve machining precision and availability factor, has more the practicality.

In order to achieve the above object, the utility model discloses a grinding machine processing equipment of mechanism is ground to utensil multiunit, its characterized in that includes:

a main seat body, which is provided with an accommodating space;

a feeding mechanism arranged in the accommodating space;

a workpiece carrying unit arranged on the main seat body and connected with the feeding mechanism for carrying at least one workpiece, so that the feeding mechanism drives the workpiece carrying unit to move on the main seat body along the Z-axis direction;

the first seat body is arranged adjacent to a first side of the main seat body;

the second seat body is arranged adjacent to a second side of the main seat body and opposite to the first seat body through the main seat body;

the third seat body is arranged adjacent to the first side of the main seat body;

a first grinding mechanism arranged on the first base, wherein a first grinding wheel is positioned above the workpiece carrying unit;

a second grinding mechanism arranged on the second seat body; wherein a second grinding wheel of the second grinding mechanism is located above the workpiece carrying unit and is opposite to the first grinding wheel in a distance manner, so that the first grinding wheel and the second grinding wheel are used for grinding two side end faces of the workpiece; and

a third grinding mechanism disposed on the third base; wherein a third grinding wheel of the third grinding mechanism is located above the workpiece carrying unit and is oppositely located between the first grinding wheel and the second grinding wheel to grind the top end surface of the workpiece.

Wherein, the first side is the left side or the right side of the main base.

Wherein, the second side is the left side or the right side of the main base.

Wherein, still include a bearing structure, it includes:

a first body;

two assembling columns with one end connected to the bottom of the first body.

Wherein, this first grinding mechanism includes:

the first driving unit is arranged on one surface of one assembling column and comprises a first setting seat, a first sliding rail, a first guide rod and a first guide rod driving device, wherein the first sliding rail, the first guide rod and the first guide rod driving device are arranged on the first setting seat;

a first driven unit, comprising:

a first mobile platform;

a plurality of first sliding blocks which are connected with the first moving platform so as to be assembled and slide on the first sliding rails; and

a first guide nut connected to the first movable platform and assembled to the first guide rod; wherein, the first driving unit drives the first moving platform to move along the Y-axis direction;

a second driving unit, including a second setting seat connected to the first moving platform, and a plurality of second sliding blocks, a second guide rod and a second guide rod driving device arranged on the second setting seat;

a second driven unit, comprising:

a second moving platform connected to the second setting seat;

a second slide rail, which is assembled on the second moving platform and on which the plurality of second sliding blocks are assembled and slide; and

a second guide nut connected to the second movable platform and assembled to the second guide rod; the second driving unit drives the second moving platform to move along the X-axis direction; and

a first grinding unit, including a first power device assembled on the second moving platform and the first grinding wheel connected to the first power device.

Wherein, this second grinds the mechanism and includes:

the third driving unit is arranged on one surface of the other assembling column and comprises a third setting seat, a third sliding rail, a third guide rod and a third guide rod driving device, wherein the third sliding rail, the third guide rod and the third guide rod driving device are arranged on the third setting seat;

a third driven unit, comprising:

a third mobile platform;

a plurality of third sliding blocks which are connected with the third moving platform so as to be assembled and slide on the third sliding rails; and

a third guide nut connected to the third movable platform and assembled to the third guide rod; the third driving unit drives the third moving platform to move along the Y-axis direction;

a fourth driving unit including a fourth setting base connected to the third moving platform, and a plurality of fourth sliders, a fourth guide bar and a fourth guide bar driving device disposed on the fourth setting base;

a fourth driven unit, comprising:

a fourth moving platform connected to the fourth setting seat;

a fourth slide rail, which is assembled on the fourth moving platform and on which the plurality of fourth sliding blocks are assembled and slide; and

a fourth guide nut connected to the fourth movable platform and assembled to the fourth guide rod; the fourth driving unit drives the fourth moving platform to move along the X-axis direction; and

a second grinding unit, which comprises a second power device assembled on the fourth moving platform and the second grinding wheel connected to the second power device.

Wherein, still include:

the first shell is used for accommodating the first mobile platform and the second setting seat, so that the first setting seat is relatively positioned at the rear part of the first shell, and meanwhile, the second mobile platform is positioned at the front part of the first shell; and

the second shell is used for accommodating the third moving platform and the fourth setting seat, so that the third setting seat is relatively positioned at the rear part of the second shell, and meanwhile, the fourth moving platform is positioned at the front part of the second shell.

Wherein, this third grinds mechanism includes:

a second body;

an assembly member connected at one end to the bottom of the second body;

a fifth drive unit comprising:

a fifth setting seat connected to the assembly member;

a fifth slide rail arranged on the fifth setting seat;

a fifth guide rod arranged on the fifth setting seat;

the fifth guide rod driving device is arranged on the fifth setting seat and is connected with the fifth guide rod;

a fifth guide nut assembled on the fifth guide rod; and

a plurality of fifth sliding blocks which are assembled and slide on the fifth sliding rails;

a fifth driven unit connected to a surface of the second body, and including:

a sixth slide rail;

a plurality of sixth sliding blocks, which are arranged in a group and slide on the sixth sliding rails;

the fifth moving platform is connected with the sixth sliding blocks and is provided with a sixth guide screw cap;

the sixth guide rod is arranged between the second main body and the fifth moving platform and is used for arranging the sixth guide nut group on the sixth guide rod; and

the sixth guide rod driving device is connected with the sixth guide rod; and

a third polishing unit comprising: a third power device assembled on the fifth moving platform and the third grinding wheel connected to the third power device.

Through the structure, the utility model discloses can realize following technological effect:

1. the third grinding mechanism can be selectively positioned on the left side or the right side of the main seat body, so that the grinding processing is convenient.

2. Effectively avoid vibrations, can stably influence the grinding machining precision of work piece.

3. The structure can be obviously reduced, and the space utilization rate is improved.

4. The disassembly and the use in the later period are facilitated, the use efficiency is improved, and the later-period cost is effectively reduced.

Drawings

FIG. 1 is a perspective view of a conventional grinding machine with three sets of grinding mechanisms;

fig. 2 is a perspective view of a first embodiment of a grinder machining apparatus having multiple sets of grinding mechanisms according to the present invention;

fig. 3 is an exploded perspective view of a first embodiment of a grinder machining apparatus with multiple grinding mechanisms according to the present invention;

fig. 4A shows a perspective view of a support structure, a first grinding mechanism and a second grinding mechanism of a grinding machine processing apparatus with multiple sets of grinding mechanisms according to the present invention;

FIG. 4B shows an assembled perspective view from another perspective of the support structure, the first grinding mechanism and the second grinding mechanism;

FIG. 5A shows an exploded perspective view from a perspective of the support structure, the first grinding mechanism and the second grinding mechanism;

FIG. 5B shows an exploded perspective view from another perspective of the support structure, the first grinding mechanism and the second grinding mechanism;

fig. 6A is a perspective view of a third grinding mechanism of the grinding machine processing equipment with multiple sets of grinding mechanisms according to the present invention;

FIG. 6B is a perspective view of the third grinding mechanism from another perspective;

FIG. 7A is an exploded perspective view of a third grinding mechanism from a perspective;

FIG. 7B is an exploded perspective view of the third grinding mechanism from another perspective; and

fig. 8 is a perspective view of a second embodiment of a grinding machine processing apparatus with multiple grinding mechanisms according to the present invention.

Detailed Description

In order to more clearly describe the grinding machine processing equipment with multiple grinding mechanisms of the present invention, the following description will be made in detail with reference to the drawings.

First embodiment

Fig. 2 shows a perspective view of a first embodiment of the grinding machine processing equipment 1 with a plurality of groups of grinding mechanisms, and fig. 3 shows an exploded perspective view of a first embodiment of the grinding machine processing equipment 1 with a plurality of groups of grinding mechanisms. As shown in fig. 2 and fig. 3, the grinding machine processing equipment 1 with multiple grinding mechanisms of the present invention comprises: a main base 10, a feeding mechanism F1, a workpiece carrying unit 11, a supporting structure 18, a first base 12, a second base 13, a third base 14, a first grinding mechanism 15, a second grinding mechanism 16, and a third grinding mechanism 17. The main base 10 has a receiving space 101, and the feeding mechanism F1 is disposed in the receiving space 101. On the other hand, the workpiece carrying unit 11 is disposed on the main body 10 and connected to the feeding mechanism F1 for carrying at least one workpiece. In the present invention, the feeding mechanism F1 is used to drive the workpiece carrying unit 11 to move on the main base 10 along the Z-axis direction.

Continuing with FIG. 3, and with reference to FIG. 4A and FIG. 4B, the same operations can be performed. Fig. 4A shows a combined perspective view of one viewing angle of the supporting structure 18, the first polishing mechanism 15 and the second polishing mechanism 16, and fig. 4B shows a combined perspective view of another viewing angle of the supporting structure 18, the first polishing mechanism 15 and the second polishing mechanism 16. According to the design of the present invention, the first seat 12 is disposed adjacent to a first side of the main seat 10. The second seat 13 is disposed adjacent to a second side of the main seat 10, and is opposite to the first seat 12 across the main seat 10. For example, fig. 2 and 3 show the first side as the left side and the second side as the right side. On the other hand, the supporting structure 18 includes a first body 181 and two assembling posts 182, wherein each of the assembling posts 182 is connected to the bottom of the first body 181 at one end.

Please refer to fig. 3, fig. 4A, and fig. 4B simultaneously, and please refer to fig. 5A and fig. 5B simultaneously. Fig. 5A shows an exploded perspective view of the supporting structure 18, the first polishing mechanism 15, and the second polishing mechanism 16 from one perspective, and fig. 5B shows an exploded perspective view of the supporting structure 18, the first polishing mechanism 15, and the second polishing mechanism 16 from another perspective. In the present invention, the first grinding mechanism 15 is disposed on the first base 12, and a first grinding wheel 15H thereof is disposed above the workpiece carrying unit 11. Further, the components for constituting the first polishing mechanism 15 include: a first driving unit 151, a first driven unit 152, a second driving unit 153, a second driven unit 154, and a first polishing unit 155. As shown in fig. 5A and 5B, the first driving unit 151 is disposed on a surface of one of the assembling columns 182, and includes a first setting block 1510, and a first sliding rail 1511, a first guide rod 1512 and a first guide rod driving device 1513 disposed on the first setting block 1510. On the other hand, the first driven unit 152 includes: a first moving platform 1521, a plurality of first sliders 1522 and a first guide nut 1523; the first sliders 1522 are connected to the first movable platform 1521, and are configured to be assembled and slide on the first sliding rail 1511. Furthermore, the first screw nut 1523 is connected to the first movable platform 1521 and assembled to the first guide rod 1512. According to the design of the present invention, the first driving unit 151 is used to drive the first movable platform 1521 to move along the Y-axis direction.

More specifically, the second driving unit 153 includes a second setting base 1530 connected to the first moving platform 1521, a plurality of second sliders 1531 disposed on the second setting base 1530, a second guide bar 1532, and a second guide bar driving device 1533. As shown in fig. 5A and 5B, the second driven unit 154 includes: a second movable platform 1541, a second slide rail 1542 and a second guide nut 1543, wherein the second movable platform 1541 is connected to the second mounting base 1530, and the second slide rail 1542 is disposed on the second movable platform 1541, such that the plurality of second sliders 1531 are mounted thereon and slide thereon. On the other hand, the second screw cap 1543 is connected to the second movable platform 1541 for being assembled to the second guide bar 1532. According to the design of the present invention, the second driving unit 153 is used to drive the second moving platform 1541 to move along the X-axis direction. Further, the first polishing unit 155 includes: a first power device 1551 assembled on the second moving stage 1541 and the first grinding wheel 15H connected to the first power device 1551, and the first grinding wheel 15H is located above the workpiece carrying unit 11.

Please refer to fig. 3, fig. 4A, fig. 4B, fig. 5A, and fig. 5B repeatedly. In the present invention, the structure of the second grinding mechanism 16 is the same as that of the first grinding mechanism 15, including: a third driving unit 161, a third driven unit 162, a fourth driving unit 163, a fourth driven unit 164, and a second polishing unit 165. The third driving unit 161 is disposed on a surface of another one of the assembling posts 182, and includes a third setting base 1610, a third sliding rail 1611 disposed on the third setting base 1610, a third guide rod 1612, and a third guide rod driving device 1613. Furthermore, according to the design of the present invention, the third driven unit 162 includes: a third moving platform 1621, a plurality of third sliding blocks 1622, and a third guiding nut 1623, wherein the plurality of third sliding blocks 1622 are connected to the third moving platform 1621 and are configured to slide on the third sliding rail 1611. On the other hand, the third screw cap 1623 is connected to the third moving platform 1621 for being assembled to the third guide rod 1612. In the present invention, the third driving unit 161 is used to drive the third moving platform 1621 to move along the Y axis direction.

More specifically, the fourth driving unit 163 includes a fourth setting seat 1630 connected to the third moving platform 1621, a plurality of fourth sliders 1631 disposed on the fourth setting seat 1630, a fourth guide rod 1632, and a fourth guide rod driving device 1633. On the other hand, as shown in fig. 4A, 4B, 5A, and 5B, the fourth driven unit 164 includes: a fourth movable platform 1641, a fourth slide rail 1642, and a fourth guide nut 1643. According to the design of the present invention, the fourth movable platform 1641 is connected to the fourth setting seat 1630, and the fourth slide rail 1642 is assembled on the fourth movable platform 1641, so that the plurality of fourth sliders 1631 are assembled and slide thereon. Furthermore, the fourth screw cap 1643 is connected to the fourth moving platform 1641 for assembling to the fourth guide rod 1632. In the present invention, the fourth driving unit 163 is used to drive the fourth movable platform 1641 to move along the X-axis direction. On the other hand, the second grinding unit 165 includes: a second power unit 1651 mounted on the fourth movable platform 1641 and a second grinding wheel 16H connected to the second power unit 1651; wherein the second grinding wheel 16H is located above the workpiece carrier unit 11 and is opposite to the first grinding wheel 15H at a distance therefrom.

It should be noted that, as shown in fig. 4A, fig. 4B, fig. 5A, and fig. 5B, a first casing H1 is used for accommodating the first moving platform 1521 and the second mounting base 1530 therein, such that the first mounting base 1510 is located at the rear of the first casing H1, and the second moving platform 1541 is located at the front of the first casing H1. Furthermore, a second housing H2 is used for accommodating the third moving platform 1621 and the fourth setting seat 1630 therein, such that the third setting seat 1610 is located at the rear of the second housing H2, and the fourth moving platform 1641 is located at the front of the second housing H2.

Please refer to fig. 3, and also refer to fig. 6A and fig. 6B. Fig. 6A shows a perspective view of a viewing angle of the third polishing mechanism 17, and fig. 6B shows a perspective view of another viewing angle of the third polishing mechanism 17. Referring to fig. 7A and 7B, fig. 7A is an exploded perspective view of the third polishing mechanism 17 from one perspective, and fig. 7B is an exploded perspective view of the third polishing mechanism 17 from another perspective. In the first embodiment, the third seat 13 is disposed adjacent to the first side (i.e., left side) of the main seat 10, such that a third grinding wheel 17H of the third grinding mechanism 17 is disposed above the workpiece carrying unit 11 and is disposed between the first grinding wheel 15H and the second grinding wheel 16H. Thus, the first grinding wheel 15H and the second grinding wheel 16H are used for grinding both side end faces of the workpiece, and the third grinding wheel 17H is used for grinding the top end face of the workpiece.

To explain in more detail, the third grinding mechanism 17 includes: a second body 191, an assembly 192, a fifth driving unit 171, a fifth driven unit 172, and a third polishing unit 175. As shown in fig. 6A, 6B, 7A, and 7B, the assembly 192 is connected at one end to the bottom of the second body 191. The fifth driving unit 171 includes: a fifth setting seat 1710, a fifth sliding rail 1711, a fifth guide rod 1712, a fifth guide rod driving device 1713, a fifth guide nut 171G, and a plurality of fifth sliding blocks 171S. In the present invention, the fifth setting seat 1710 is connected to the assembly member 192, and the fifth sliding rail 1711 and the fifth guide rod 1712 are both disposed on the fifth setting seat 1710. On the other hand, the fifth guide rod driving device 1713 is disposed on the fifth setting seat 1710 and connected to the fifth guide rod 1712. The fifth guide nut 171G is disposed on the fifth guide rod 1712, and the fifth sliders 171S are disposed on the fifth slide track 1711 and slide thereon.

As described above, the fifth driven unit 172 is connected to a surface of the second body 191, and includes: a sixth slide rail 1721, a plurality of sixth sliders 1722, a fifth movable platform 1723, a sixth guide rod 1725, and a sixth guide rod driving device 1726. The sixth sliding blocks 1722 are disposed on the sixth sliding rail 1721, and the fifth movable platform 1723 is connected to the sixth sliding blocks 1722 and has a sixth guiding nut 1724. On the other hand, the sixth guide rod 1725 is disposed between the second body 191 and the fifth movable platform 1723 for the sixth guide nut 1724 to be assembled thereon. Furthermore, the sixth guide driving device 1726 is connected to the sixth guide 1725. In the first embodiment, the third polishing unit 175 includes: a third power unit 1751 assembled on the fifth movable stage 1723 and the third grinding wheel 17H connected to the third power unit 1751.

Second embodiment

Fig. 8 shows a perspective view of a second embodiment of a grinding machine processing apparatus 1 with multiple grinding mechanisms according to the present invention. As can be easily seen by comparing fig. 2 and fig. 8, in the second embodiment, the third housing 14 is disposed on the second side (i.e., the right side) of the main housing 10, so that the third polishing mechanism 17 disposed on the third housing 14 is also disposed on the right side of the main housing 10. The third grinding mechanism 17 is disposed on the third base 13; wherein the third grinding wheel 17H of the third grinding mechanism 17 is located above the workpiece carrier unit 11 and is located between the first grinding wheel 15H and the second grinding wheel 16H. By this design, the first grinding wheel 15H and the second grinding wheel 16H are used for grinding both side end faces of the workpiece, and the third grinding wheel 17H is used for grinding the top end face of the workpiece.

Through the first embodiment of the grinding machine processing equipment 1 of the multi-group grinding mechanism shown in fig. 2 and the second embodiment of the grinding machine processing equipment 1 of the multi-group grinding mechanism shown in fig. 8, it should be understood that the present invention is particularly configured to carry and support the third grinding mechanism 17 with the third seat 14. With such a design, not only the third grinding mechanism 17 does not need to be connected to the gantry-type supporting structure 18, but also the third grinding mechanism 17 can be located on the left side (the first embodiment) or the right side (the second embodiment) of the main body 10 by changing the position of the third body 14. In this way, the on-line operator can select to use the grinding machine processing apparatus 1 of the first embodiment or the second embodiment to perform a grinding process on a workpiece according to a workpiece feeding direction. It should be noted that, since the third grinding mechanism 17 is disposed on the third base 14 independent from the gantry-type supporting structure 18, when the first grinding mechanism 15 (or the second grinding mechanism 16) and the third grinding mechanism 17 perform grinding work simultaneously, the main body 181 of the supporting structure 18 will not be severely vibrated, and thus the grinding precision of the workpiece can be stably influenced.

In addition, since the third polishing mechanism 17 is disposed on the third base 14 independent from the gantry-type supporting structure 18, the height and width of the main body 181 of the supporting structure 18 are also significantly reduced. So, not only be favorable to the utility model discloses a this utensil multiunit grinds dismantling, adorning of grinding machine processing equipment 1 of mechanism, it is simultaneously also can not be right the utility model discloses a this utensil multiunit grinds all places of application of grinding machine processing equipment 1 of mechanism limits.

It should be emphasized that the above detailed description is specific to possible embodiments of the present invention, but this is not intended to limit the scope of the invention, and all equivalent implementations or modifications that do not depart from the technical spirit of the present invention should be included in the scope of the present invention.

Claims (8)

1. The utility model provides a grinding machine processing equipment of mechanism is ground to utensil multiunit which characterized in that includes:

a main seat body, which is provided with an accommodating space;

a feeding mechanism arranged in the accommodating space;

a workpiece carrying unit arranged on the main seat body and connected with the feeding mechanism for carrying at least one workpiece, so that the feeding mechanism drives the workpiece carrying unit to move on the main seat body along the Z-axis direction;

the first seat body is arranged adjacent to a first side of the main seat body;

the second seat body is arranged adjacent to a second side of the main seat body and opposite to the first seat body through the main seat body;

the third seat body is arranged adjacent to the first side of the main seat body;

a first grinding mechanism arranged on the first base, wherein a first grinding wheel is positioned above the workpiece carrying unit;

a second grinding mechanism arranged on the second seat body; wherein a second grinding wheel of the second grinding mechanism is located above the workpiece carrying unit and is opposite to the first grinding wheel in a distance manner, so that the first grinding wheel and the second grinding wheel are used for grinding two side end faces of the workpiece; and

a third grinding mechanism disposed on the third base; wherein a third grinding wheel of the third grinding mechanism is located above the workpiece carrying unit and is oppositely located between the first grinding wheel and the second grinding wheel to grind the top end surface of the workpiece.

2. The apparatus of claim 1, wherein the first side is a left side or a right side of the main body.

3. The apparatus of claim 1, wherein the second side is a left side or a right side of the main body.

4. A grinder processing apparatus as claimed in claim 1, further including a support structure including:

a first body;

two assembling columns with one end connected to the bottom of the first body.

5. A grinder processing apparatus with multiple sets of grinding mechanisms as claimed in claim 4, wherein the first grinding mechanism includes:

the first driving unit is arranged on one surface of one assembling column and comprises a first setting seat, a first sliding rail, a first guide rod and a first guide rod driving device, wherein the first sliding rail, the first guide rod and the first guide rod driving device are arranged on the first setting seat;

a first driven unit, comprising:

a first mobile platform;

a plurality of first sliding blocks which are connected with the first moving platform so as to be assembled and slide on the first sliding rails; and

a first guide nut connected to the first movable platform and assembled to the first guide rod; wherein, the first driving unit drives the first moving platform to move along the Y-axis direction;

a second driving unit, including a second setting seat connected to the first moving platform, and a plurality of second sliding blocks, a second guide rod and a second guide rod driving device arranged on the second setting seat;

a second driven unit, comprising:

a second moving platform connected to the second setting seat;

a second slide rail, which is assembled on the second moving platform and on which the plurality of second sliding blocks are assembled and slide; and

a second guide nut connected to the second movable platform and assembled to the second guide rod; the second driving unit drives the second moving platform to move along the X-axis direction; and

a first grinding unit, including a first power device assembled on the second moving platform and the first grinding wheel connected to the first power device.

6. A grinder processing apparatus with multiple sets of grinding mechanisms as claimed in claim 5, wherein the second grinding mechanism includes:

the third driving unit is arranged on one surface of the other assembling column and comprises a third setting seat, a third sliding rail, a third guide rod and a third guide rod driving device, wherein the third sliding rail, the third guide rod and the third guide rod driving device are arranged on the third setting seat;

a third driven unit, comprising:

a third mobile platform;

a plurality of third sliding blocks which are connected with the third moving platform so as to be assembled and slide on the third sliding rails; and

a third guide nut connected to the third movable platform and assembled to the third guide rod; the third driving unit drives the third moving platform to move along the Y-axis direction;

a fourth driving unit including a fourth setting base connected to the third moving platform, and a plurality of fourth sliders, a fourth guide bar and a fourth guide bar driving device disposed on the fourth setting base;

a fourth driven unit, comprising:

a fourth moving platform connected to the fourth setting seat;

a fourth slide rail, which is assembled on the fourth moving platform and on which the plurality of fourth sliding blocks are assembled and slide; and

a fourth guide nut connected to the fourth movable platform and assembled to the fourth guide rod; the fourth driving unit drives the fourth moving platform to move along the X-axis direction; and

a second grinding unit, which comprises a second power device assembled on the fourth moving platform and the second grinding wheel connected to the second power device.

7. The grinding machine processing equipment with multiple groups of grinding mechanisms as claimed in claim 6, further comprising:

the first shell is used for accommodating the first mobile platform and the second setting seat, so that the first setting seat is relatively positioned at the rear part of the first shell, and meanwhile, the second mobile platform is positioned at the front part of the first shell; and

the second shell is used for accommodating the third moving platform and the fourth setting seat, so that the third setting seat is relatively positioned at the rear part of the second shell, and meanwhile, the fourth moving platform is positioned at the front part of the second shell.

8. A grinder processing apparatus with multiple sets of grinding mechanisms as claimed in claim 6, wherein the third grinding mechanism includes:

a second body;

an assembly member connected at one end to the bottom of the second body;

a fifth drive unit comprising:

a fifth setting seat connected to the assembly member;

a fifth slide rail arranged on the fifth setting seat;

a fifth guide rod arranged on the fifth setting seat;

the fifth guide rod driving device is arranged on the fifth setting seat and is connected with the fifth guide rod;

a fifth guide nut assembled on the fifth guide rod; and

a plurality of fifth sliding blocks which are assembled and slide on the fifth sliding rails;

a fifth driven unit connected to a surface of the second body, and including:

a sixth slide rail;

a plurality of sixth sliding blocks, which are arranged in a group and slide on the sixth sliding rails;

the fifth moving platform is connected with the sixth sliding blocks and is provided with a sixth guide screw cap;

the sixth guide rod is arranged between the second main body and the fifth moving platform and is used for arranging the sixth guide nut group on the sixth guide rod; and

the sixth guide rod driving device is connected with the sixth guide rod; and

a third polishing unit comprising: a third power device assembled on the fifth moving platform and the third grinding wheel connected to the third power device.

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