CN203380704U - Vertical and horizontal type processing machine - Google Patents

Abstract

The utility model relates to a vertical and horizontal type processing machine which comprises a machine platform, wherein the machine platform is equipped with a base, a vertical column arranged on the base and a cantilever beam arranged on the vertical column; a work platform is arranged on the base of the machine platform and used for bearing to-be-processed workpieces; and the vertical column and the cantilever beam of the machine platform are provided with a vertical type spindle unit and a horizontal type spindle unit respectively. Therefore, the vertical and horizontal type processing machine can realize multi-task procedure processing of the workpieces through the vertical type spindle unit and the horizontal type spindle unit respectively, then, the process of repeated dismounting of the workpieces can be omitted, and accordingly, the processing accuracy and the processing efficiency are improved.

Description

The vertical and horizontal processing machine

Technical field

The utility model is relevant with machining machine and tool, refers to especially a kind of vertical and horizontal processing machine.

Background technology

Due to the shape of workpiece to be processed more complicated all usually, thus from expect in the process machined the processing often needed through multiple working procedure (such as milling, grinding or boring etc.).Traditional processing method is after use First processing machine carries out the processing of first operation to workpiece, again workpiece is disassembled from aforementioned processing machine, then according to actual state, use other different processing machines workpiece to be remained to the processing of operation again, until complete all operations.

Yet in traditional process, not only need to configure multiple different lathe and increase many costs, workpiece must have the generation of position error in the process removed and installed, this position error will cause the low of the reduction of machining accuracy and working (machining) efficiency, so on the quality of product, can cause impact to a certain degree.

Summary of the invention

For the problems referred to above, main purpose of the present utility model is to provide a kind of vertical and horizontal processing machine, and it can realize to workpiece the processing of multiple working procedure, to improve machining accuracy and to promote working (machining) efficiency.

For achieving the above object, a kind of vertical and horizontal processing machine provided by the utility model, is characterized in that including: a board, there is a base, a column, and a cantilever beam, described column is fixed in the end face of described base, and described cantilever beam is fixed in a side of described column; One workbench, be located at the base of described board; One first Z axis driver element, have one first Z axis CD-ROM drive motor and one first Z axis driving screw, and described the first Z axis CD-ROM drive motor is fixed in described column, and described the first Z axis driving screw can be located at rotationally described column and connect described the first Z axis CD-ROM drive motor; One vertical spindle unit, there is a vertical spindle seat, a vertical spindle motor, an and vertical spindle head, be spirally connected the first Z axis driving screw of described the first Z axis driver element of described vertical spindle seat, described vertical spindle motor is located at described vertical spindle seat, and described vertical spindle head connects described vertical spindle motor; One second Z axis driver element, there is one second Z axis CD-ROM drive motor, a screw bolt seat, one second Z axis driving screw, an and base, described screw bolt seat is fixed for described the second Z axis CD-ROM drive motor, described the second Z axis driving screw can be located in described screw bolt seat rotationally, and described base is fixed in described cantilever beam and is bolted in described the second Z axis driving screw; One horizontal main axis unit, there is a horizontal main axis seat, a horizontal main axis motor, an and horizontal main axis head, described horizontal main axis seat is fixed in the screw bolt seat of described the second Z axis driver element, described horizontal main axis motor is located at described horizontal main axis seat, and described horizontal main axis head connects described horizontal main axis motor.

In above-mentioned the technical solution of the utility model, described board is provided with an X-axis driver element and a Y-axis driver element, described X-axis driver element has an X-axis CD-ROM drive motor that is fixed in described base, one can be located at rotationally described base and connect the X-axis driving screw of described X-axis CD-ROM drive motor, an and X-axis saddle that is spirally connected described X-axis driving screw, described Y-axis driver element has a Y-axis CD-ROM drive motor that is fixed in described X-axis saddle, one can be located at rotationally described X-axis saddle and connect the Y-axis driving screw of described Y-axis CD-ROM drive motor, and be spirally connected a described Y-axis driving screw and connect the Y-axis saddle of described workbench.

The cantilever beam of described board has a support portion and a fixed part, and an end of described support portion is fixed in described column, and described fixed part is fixed in the other end of described support portion and fixes for described base.

Described board has more the one division dish, and described index dial is located at described workbench.

Adopt technique scheme, as long as vertical and horizontal processing machine of the present utility model is after being fixed on workbench by workpiece, can carry out the processing of multitask order to workpiece by vertical spindle unit and horizontal main axis unit respectively, need to after each procedure completes, to workpiece, not carry out dismounting, to avoid producing unnecessary error in disassembly process, can reach the purpose that promotes machining accuracy and improve working (machining) efficiency.

The accompanying drawing explanation

Fig. 1 is stereogram of the present utility model;

Fig. 2 is partial side view of the present utility model.

The specific embodiment

In order to describe structure of the present utility model, Characteristic in detail, the following preferred embodiment of existing act also coordinates accompanying drawing to be described as follows.

As shown in Figures 1 and 2, for vertical and horizontal processing machine 10 of the present utility model, include a board 20, an X-axis driver element 30, a Y-axis driver element 40, a workbench 50, one first Z axis driver element 60, a vertical spindle unit 70, one second Z axis driver element 80, and a horizontal main axis unit 90.

Board 20 has a base 21, a column 22, and a cantilever beam 23.The end face of base 21 is fixed in the bottom of column 22, and cantilever beam 23 has a support portion 24 and a fixed part 25, and an end of support portion 24 is fixed in a side of column 22, and the other end of support portion 24 is fixing for fixed part 25.

X-axis driver element 30 has an X-axis CD-ROM drive motor 32, an X-axis driving screw 34, and an X-axis saddle 36.X-axis CD-ROM drive motor 32 is fixed in an end of the base 21 of board 20; X-axis driving screw 34 is located at the end face of the base 21 of board 20 rotationally; X-axis saddle 36 is bolted in X-axis driving screw 34.Thus, X-axis saddle 36 can be subject to the driving of X-axis driving screw 34 and move along X-direction when X-axis CD-ROM drive motor 32 starts.

Y-axis driver element 40 has a Y-axis CD-ROM drive motor 42, a Y-axis driving screw 44, and a Y-axis saddle 46.Y-axis CD-ROM drive motor 42 is fixed in an end of X-axis saddle 36; Y-axis driving screw 44 is located at rotationally the end face of X-axis saddle 36 and is connected Y-axis CD-ROM drive motor 42; Y-axis saddle 46 is bolted in Y-axis driving screw 44.Thus, Y-axis saddle 46 can be subject to the driving of Y-axis driving screw 44 and move along Y direction when Y-axis CD-ROM drive motor 42 starts, and whole Y-axis driver element 40 also can be along with X-axis saddle 36 moves along X-direction when X-axis CD-ROM drive motor 32 starts.

Workbench 50 is for carrying a workpiece, the end face that is fixed in Y-axis saddle 46 when mounted, make workbench 50 except can moving along Y direction along with Y-axis saddle 46, also can be by the annexation between X, Y-axis driver element 30,40 along with X-axis saddle 36 moves along X-direction.Yet it should be added that, the end face of workbench 50 can install one division dish 52 additional according to actual needs, for promoting the machining accuracy to workpiece.

The first Z axis driver element 60 has one first Z axis CD-ROM drive motor 62 and one first Z axis driving screw 64.The first Z axis CD-ROM drive motor 62 is fixed in the top of column 22, and the first Z axis driving screw 64 is located at rotationally column 22 and is connected the first Z axis CD-ROM drive motor 62, makes the first Z axis driving screw 64 can be subject to the driving of the first Z axis CD-ROM drive motor 62 and rotate in original place.

Vertical spindle unit 70 has a vertical spindle seat 72, a vertical spindle motor 74, and a vertical spindle head 76.Vertical spindle seat 72 is bolted in the first Z axis driving screw 64 of the first Z axis driver element 60, vertical spindle motor 74 is fixed in the top of vertical spindle seat 72, vertical spindle head 76 connects vertical spindle motor 74, for a workpiece 14(being installed as abrasive wheel, milling cutter or drill bit).Thus, vertical spindle seat 72 just can be subject to the driving of the first Z axis driving screw 64 and drive vertical spindle head 76 along relative workbench 50 upper and lower displacements of Z-direction when the first Z axis CD-ROM drive motor 62 starts.

As shown in Figure 2, the second Z axis driver element 80 has one second Z axis CD-ROM drive motor 82, a screw bolt seat 84, one second Z axis driving screw 86, and two bases 88.The top of screw bolt seat 84 is fixing for the second Z axis CD-ROM drive motor 82; The second Z axis driving screw 86 is located in screw bolt seat 84 rotationally; Each base 88 is fixed in the fixed part 25 of cantilever beam 23 and is bolted in the second Z axis driving screw 86, and in fact, the quantity of base 88 is not necessarily wanted two, as long as at least one.Thus, when the second Z axis CD-ROM drive motor 82 starts, because two bases 88 are fixed in cantilever beam 23 and can not move simultaneously, so the second Z axis driving screw 86 can drive screw bolt seat 84 along relative workbench 50 upper and lower displacements of Z-direction.

Horizontal main axis unit 90 has a horizontal main axis seat 92, a horizontal main axis motor 94, and a horizontal main axis head 96.Horizontal main axis seat 92 is fixed in the bottom of the screw bolt seat 84 of the second Z axis driver element 80; Horizontal main axis motor 94 is fixed in horizontal main axis seat 92; Horizontal main axis head 96 connects horizontal main axis motor 94, for another workpiece 16(being installed as abrasive wheel, milling cutter or drill bit).Thus, horizontal main axis seat 92 just can be subject to the driving of screw bolt seat 84 and drive horizontal main axis head 96 along relative workbench 50 upper and lower displacements of Z-direction when the second Z axis CD-ROM drive motor 82 starts.

When practical operation, first workpiece (as glass) is fixed on workbench 50, then at a control box 12, start X, Y-axis CD-ROM drive motor 32, 42, for adjusting X, Y-axis saddle 36, 46 position, make workbench 50 move to suitable Working position, then start according to actual needs again the first Z axis CD-ROM drive motor 62 or the second Z axis CD-ROM drive motor 82, the height that the first Z axis CD-ROM drive motor 62 is capable of regulating vertical spindle head 76 if start, until vertical spindle head 76 is adjusted to after suitable height and can be operated the 14 pairs of workpiece of workpiece that are arranged on vertical spindle head 76 and carry out grinding, trimming, the processing such as chamfering or punching, similarly, horizontal main axis head 96 can be adjusted to suitable height by starting the second Z axis CD-ROM drive motor 82, to be adjustedly can operate the 16 pairs of workpiece of workpiece that are arranged on horizontal main axis head 96 after complete and carry out grinding, trimming, the processing such as chamfering or punching.

In sum, vertical and horizontal processing machine 10 of the present invention can carry out to workpiece the processing of multiple working procedure by the configuration of two main axle units, need to after completing, each procedure not carry out dismounting to workpiece, so can effectively avoid producing unnecessary error in disassembly process, to reach the purpose that promotes machining accuracy and improve working (machining) efficiency.

Claims (4)

1. a vertical and horizontal processing machine is characterized in that including:

One board, have a base, a column, and a cantilever beam, and described column is fixed in the end face of described base, and described cantilever beam is fixed in a side of described column;

One workbench, be located at the base of described board;

One first Z axis driver element, have one first Z axis CD-ROM drive motor and one first Z axis driving screw, and described the first Z axis CD-ROM drive motor is fixed in described column, and described the first Z axis driving screw can be located at rotationally described column and connect described the first Z axis CD-ROM drive motor;

One vertical spindle unit, there is a vertical spindle seat, a vertical spindle motor, an and vertical spindle head, be spirally connected the first Z axis driving screw of described the first Z axis driver element of described vertical spindle seat, described vertical spindle motor is located at described vertical spindle seat, and described vertical spindle head connects described vertical spindle motor;

One second Z axis driver element, there is one second Z axis CD-ROM drive motor, a screw bolt seat, one second Z axis driving screw, an and base, described screw bolt seat is fixed for described the second Z axis CD-ROM drive motor, described the second Z axis driving screw can be located in described screw bolt seat rotationally, and described base is fixed in described cantilever beam and is bolted in described the second Z axis driving screw;

One horizontal main axis unit, there is a horizontal main axis seat, a horizontal main axis motor, an and horizontal main axis head, described horizontal main axis seat is fixed in the screw bolt seat of described the second Z axis driver element, described horizontal main axis motor is located at described horizontal main axis seat, and described horizontal main axis head connects described horizontal main axis motor.

2. vertical and horizontal processing machine as claimed in claim 1, it is characterized in that: described board is provided with an X-axis driver element and a Y-axis driver element, described X-axis driver element has an X-axis CD-ROM drive motor that is fixed in described base, one can be located at rotationally described base and connect the X-axis driving screw of described X-axis CD-ROM drive motor, an and X-axis saddle that is spirally connected described X-axis driving screw, described Y-axis driver element has a Y-axis CD-ROM drive motor that is fixed in described X-axis saddle, one can be located at rotationally described X-axis saddle and connect the Y-axis driving screw of described Y-axis CD-ROM drive motor, and be spirally connected a described Y-axis driving screw and connect the Y-axis saddle of described workbench.

3. vertical and horizontal processing machine as claimed in claim 1, it is characterized in that: the cantilever beam of described board has a support portion and a fixed part, one end of described support portion is fixed in described column, and described fixed part is fixed in the other end of described support portion and fixes for described base.

4. vertical and horizontal processing machine as claimed in claim 1, it is characterized in that: described board has more the one division dish, and described index dial is located at described workbench.

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