CN215615197U - Direct-drive drilling machine structure for factory production and processing - Google Patents

Abstract

The utility model provides a directly drive drilling machine structure that production and processing of mill used, relates to drilling machine equipment technical field, the on-line screen storage device comprises a base, the base both sides respectively are equipped with a triangle mount, two fixedly connected with X axial advancing mechanism between the triangle mount, sliding fit has Z axial advancing mechanism on the X axial advancing mechanism, the motor is installed to Z axial advancing mechanism below, the motor rotates and is connected with anchor clamps, install Y axial advancing mechanism on the base, sliding fit has the workstation on the Y axial advancing mechanism, the workstation is in the anchor clamps below. The utility model realizes the processing requirements on metal parts, plastics and wood products, realizes the movement of the clamp in three directions by the mutual matching of the Y-axial propulsion mechanism, the X-axial propulsion mechanism and the Z-axial propulsion mechanism, directly drives the clamp to process the object to be processed by the motor, avoids the influence of a transmission mechanism on positioning, and is suitable for various processing occasions.

Description

Direct-drive drilling machine structure for factory production and processing

Technical Field

The utility model relates to the technical field of drilling machine equipment, in particular to a direct-drive drilling machine structure used for factory production and processing.

Background

Along with the shape of enterprise production spare part is various, and the drilling machine is also diversified, and the drilling machine not only needs to process metal parts, still needs to satisfy the processing demand of plastics, woodwork simultaneously. The drilling machines on the market mainly comprise vertical drilling machines, table drilling machines and rocker arm drilling machines, metal parts are mostly machined, corresponding drilling machines are additionally purchased for machining other materials, so that the economic cost of enterprises is greatly increased, the existing machine tool is complex in structure, and the damage of a general system is mostly caused by aging (such as stretching of a belt) or stress of parts of a conveying mechanism. Therefore, the direct-drive drilling machine structure used in factory production is provided by the technical personnel in the field.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problems in the background technology, and further provides a direct-drive drilling machine structure for factory production and processing.

The technical scheme adopted by the utility model for solving the technical problems is as follows:

the utility model provides a directly drive drilling machine structure that production and processing of mill used, includes the base, the base both sides respectively are equipped with a triangle mount, two fixedly connected with X axial advancing mechanism between the triangle mount, sliding fit has Z axial advancing mechanism on the X axial advancing mechanism, the motor is installed to Z axial advancing mechanism below, the motor is connected with anchor clamps, install Y axial advancing mechanism on the base, sliding fit has the workstation on the Y axial advancing mechanism, the workstation is in the anchor clamps below.

Further, the base includes preceding square post, rear shape post, left shape post and right shape post, the square post mid-mounting in back has Y axial advancing mechanism.

Further, Y axial advancing mechanism includes Y axial cylinder, Y axial cylinder is connected with Y axial pneumatic rod, and the complex is with it, be equipped with the lug on the square post in front, Y axial pneumatic rod is connected with the lug.

Further, be connected with two Y axle crossbeams between preceding square post, the rear shape post, install Y axial guide bar on the Y axle crossbeam, Y axial guide bar top sliding fit has the workstation, the workstation bottom is connected with Y axial pneumatic rod, under the drive of Y axial cylinder, treats processing part along Y axle crossbeam linear motion.

Furthermore, a plurality of positioning holes are uniformly distributed on the workbench, the positioning holes are in threaded connection with positioning bolts, and the positioning bolts are sleeved with positioning blocks.

Furthermore, the positioning blocks are hollow square blocks, the hollow square blocks have various shapes, and the positioning blocks with corresponding shapes are selected to be fastened according to the types of the parts to be machined.

Furthermore, a triangular fixing frame is arranged on each of the left square column and the right square column, an X-axis propelling mechanism is installed on each triangular fixing frame, and the stability of the triangle is better than that of fixing frames of other shapes.

Further, X axial advancing mechanism includes X axial cylinder, X axial cylinder is connected with X axial pneumatic rod, X axial pneumatic rod both sides are equipped with X axial guide bar respectively, two X axial guide bar is located between the triangle-shaped mount, and X axial advancing mechanism is equipped with protective housing all around, protective housing avoids dust and X axial advancing mechanism direct contact in the course of working, has improved X axial advancing mechanism life.

Furthermore, a guide plate is connected to the X-axis pneumatic rod and is in sliding fit with the X-axis guide rod.

Furthermore, the deflector is connected with Z axial advancing mechanism, Z axial advancing mechanism includes Z axial cylinder, Z axial cylinder is located the deflector top, Z axial cylinder is connected with Z axial pneumatic rod, Z axial pneumatic rod is connected with the removal mounting panel.

Furthermore, a Z-axis guide rail is arranged on the guide plate and is in sliding fit with the movable mounting plate.

Further, a motor is mounted on the movable mounting plate.

Compared with the prior art, the utility model has the beneficial effects that: the utility model realizes the processing requirements on metal parts, plastics and wood products, adjusts the positioning bolt, meets the clamping and fixing of different types of objects to be processed, realizes the movement of the clamp in three directions by the mutual matching of the Y-axial propulsion mechanism, the X-axial propulsion mechanism and the Z-axial propulsion mechanism, directly drives the clamp to process the objects to be processed by the motor, has no function of an intermediate mechanism (transmission mechanism), can avoid the influence of a transmission mechanism on the positioning, has fewer movable parts, and prolongs the service life of a drilling machine.

Drawings

The utility model is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of a portion of the present invention;

FIG. 3 is a schematic view of a work table;

FIG. 4 is an enlarged view of part A;

wherein: the device comprises a base 1, an 11Y-axis beam, a 12 convex mounting block, a 13 triangular fixing frame, a 2Y axial propelling mechanism, a 21Y axial cylinder, a 22Y axial pneumatic rod, a 23Y axial guide rod, a 24 workbench, a 241 positioning hole, a 242 positioning bolt, a 243 positioning block, a 3X axial propelling mechanism, a 31X axial cylinder, a 32X axial guide rod, a 33X axial pneumatic rod, a 34 protective shell, a 4Z axial propelling mechanism, a 41Z axial cylinder, a 42 guide plate, a 43Z axial guide rail, a 44Z axial pneumatic rod, a 45 moving mounting plate, a 46 motor and a 47 clamp.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention. The utility model is further illustrated with reference to the accompanying drawings and examples:

as shown in fig. 1 to show, a direct-drive drilling machine structure for factory production and processing, including base 1, the base both sides respectively are equipped with a triangle mount 13, two fixedly connected with X axial advancing mechanism 3 between the triangle mount, sliding fit has Z axial advancing mechanism 4 on the X axial advancing mechanism 3, motor 46 is installed to Z axial advancing mechanism below, the motor is connected with anchor clamps 47, install Y axial advancing mechanism 2 on the base, sliding fit has workstation 24 on the Y axial advancing mechanism 2, the workstation is in the anchor clamps below.

In at least one embodiment, as shown in fig. 2, the base includes a front square column, a rear square column, a left square column and a right square column, a Y axial propulsion mechanism is installed in the middle of the rear square column, the Y axial propulsion mechanism includes a Y axial cylinder 21, the Y axial cylinder is connected with a Y axial pneumatic rod 22, and is matched with the Y axial pneumatic rod, a bump 12 is arranged on the front square column, the Y axial pneumatic rod is connected with the bump, two Y axial cross beams 11 are connected between the front square column and the rear square column, a Y axial guide rod 23 is installed on the Y axial cross beam, a workbench 24 is slidably matched above the Y axial guide rod, and the bottom of the workbench is connected with the Y axial pneumatic rod.

Further, as shown in fig. 3, a plurality of positioning holes 241 are uniformly distributed on the working table, the positioning holes are in threaded connection with positioning bolts 242, and the positioning bolts are sleeved with positioning blocks 243.

Specifically, the positioning block is a hollow square block, the positioning block has various types including a long strip shape and a triangular shape, and the positioning block with the corresponding shape is selected to be fastened according to the type of the part to be processed.

When the machining device is implemented, a part to be machined is placed on the workbench, the corresponding positioning block is selected according to the shape of the part to be machined to be fastened, and the part to be machined moves linearly along the Y-axis cross beam under the driving of the Y-axis cylinder.

In at least one embodiment, as shown in fig. 1, a triangular fixing frame 13 is respectively disposed on the left square column and the right square column, an X axial propulsion mechanism is mounted on the triangular fixing frame, the X axial propulsion mechanism includes an X axial cylinder 31, the X axial cylinder is connected with an X axial pneumatic rod 33, X axial guide rods 32 are respectively disposed on two sides of the X axial pneumatic rod, two X axial guide rods are disposed between the triangular fixing frames, and a protective shell 34 is disposed around the X axial propulsion mechanism.

In other embodiments, the triangular fixing frame has other shapes, and the fixing frame can have various shapes, but in the last embodiment, the stability of the triangular fixing frame is optimal.

In at least one embodiment, as shown in fig. 4, a guide plate 42 is connected to the X-axis pneumatic rod, the guide plate is in sliding fit with the X-axis pneumatic rod, the guide plate is connected with a Z-axis propulsion mechanism 4, the Z-axis propulsion mechanism includes a Z-axis cylinder 41, the Z-axis cylinder is located at the top of the guide plate, the Z-axis cylinder is connected with a Z-axis pneumatic rod 44, the Z-axis pneumatic rod is connected with a movable mounting plate 45, and in cooperation therewith, a Z-axis guide rail 43 is arranged on the guide plate, the Z-axis guide rail is in sliding fit with the movable mounting plate, and a motor is installed on the movable mounting plate.

In other embodiments, the motor is directly connected to the Z-axis pneumatic rod, which is simpler in structure, but has a greater wear on the Z-axis propulsion mechanism and a poor connection effect.

During implementation, under the effect of X axial advancing mechanism, anchor clamps realize X axial direction motion, and in concrete implementation process, treat that the processing thing type differs, and required technological requirement is different, only can not satisfy the processing requirement by X axial direction motion, then, has designed Z axial advancing mechanism in this embodiment, through the motion of equidirectional, closely cooperates between each mechanism, has realized treating the processing of processing thing.

The working principle of the utility model is as follows: the staff will treat that the processing thing is placed on the workstation, according to treating the big or small adjusting positioning bolt 242 of processing thing, starting drive, anchor clamps 47 are three direction motion, according to treating the required technological requirement of processing thing, anchor clamps move along XYZ three direction under the appointed of control panel settlement, and anchor clamps can treat the processing such as processing realization through-hole, blind hole, counterbore to the different grade type.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the embodiments and descriptions given above are only illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which fall within the scope of the claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (9)

1. The utility model provides a directly drive drilling machine structure that mill's production and processing used, its characterized in that, includes the base, the base both sides respectively are equipped with a triangle mount, two fixedly connected with X axial advancing mechanism between the triangle mount, sliding fit has Z axial advancing mechanism on the X axial advancing mechanism, the motor is installed to Z axial advancing mechanism below, the motor rotates and is connected with anchor clamps, install Y axial advancing mechanism on the base, sliding fit has the workstation on the Y axial advancing mechanism, the workstation is in the anchor clamps below.

2. The direct-drive drilling machine structure for factory production and processing as claimed in claim 1, wherein the base comprises a front square column, a rear square column, a left square column and a right square column, and a Y-axis propulsion mechanism is mounted in the middle of the rear square column.

3. The direct-drive drilling machine structure for factory production and processing as claimed in claim 2, wherein the Y-axis propulsion mechanism comprises a Y-axis cylinder, the Y-axis cylinder is connected with a Y-axis pneumatic rod, a bump is arranged on the front square column, and the Y-axis pneumatic rod is connected with the bump.

4. The direct-drive drilling machine structure for factory production and processing as claimed in claim 2 or 3, wherein two Y-axis beams are connected between the front square column and the rear square column, a Y-axis guide rod is mounted on each Y-axis beam, a workbench is slidably matched above the Y-axis guide rod, and the bottom of the workbench is connected with a Y-axis pneumatic rod.

5. The direct-drive drilling machine structure for factory production and processing as claimed in claim 4, wherein a plurality of positioning holes are uniformly distributed on the workbench, positioning bolts are in threaded connection with the positioning holes, and positioning blocks are sleeved on the positioning bolts.

6. The direct-drive drilling machine structure for factory production and processing as claimed in claim 1, wherein the X-axis propulsion mechanism comprises an X-axis cylinder, the X-axis cylinder is connected with an X-axis pneumatic rod, and X-axis guide rods are respectively arranged on two sides of the X-axis pneumatic rod.

7. The direct-drive drilling machine structure for factory production and processing as claimed in claim 6, wherein the X-axis pneumatic rod is connected with a guide plate, and the guide plate is in sliding fit with the X-axis guide rod.

8. The direct-drive drilling machine structure for factory production and processing as claimed in claim 7, wherein the guide plate is connected with a Z-axis propulsion mechanism, the Z-axis propulsion mechanism comprises a Z-axis cylinder, the Z-axis cylinder is located at the top of the guide plate, the Z-axis cylinder is connected with a Z-axis pneumatic rod, and the Z-axis pneumatic rod is connected with a movable mounting plate.

9. The direct-drive drilling machine structure for factory production and processing as claimed in claim 7, wherein a Z-axis guide rail is arranged on the guide plate, and the Z-axis guide rail is in sliding fit with the movable mounting plate.

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