CN214212281U - Teaching type horizontal numerical control boring and milling machine - Google Patents

Abstract

The utility model discloses a teaching type horizontal numerical control boring and milling machine, which comprises a bottom frame, wherein the top of the bottom frame is provided with a table top, and the table top is provided with a rotary table structure, a main shaft structure and a numerical control system; the turntable structure includes: the X-axis servo motor is arranged on the X-axis mounting plate; the utility model relates to a boring and milling machine technical field, whole small, equipment cost and cost of maintenance are low, simple to operate, factor of safety is high and the reliability is high, and the working part most exposes outside, and the student's of being convenient for observation makes the student know boring and milling machine's inner structure, and the horizontal numerical control boring and milling machine operation teaching of desktop level can be reached through numerical control system's operation, has improved teaching efficiency, has guaranteed the teaching quality.

Description

Teaching type horizontal numerical control boring and milling machine

Technical Field

The utility model relates to a boring and milling machine technical field specifically is a horizontal numerical control boring and milling machine of teaching type.

Background

The boring and milling machine is a processing tool commonly used in the manufacturing industry at present, combines two functions of a boring machine and a milling machine into a whole, and has higher processing efficiency and better processing precision.

The existing horizontal numerical control boring and milling machine is generally large in size, wide in occupied area, high in manufacturing cost and high in maintenance cost, is mainly used in the actual machining process, and few teaching type horizontal numerical control boring and milling machines specially used for teaching are used, so that equipment capable of solving the problems needs to be invented.

SUMMERY OF THE UTILITY MODEL

The not enough to prior art, the utility model provides a horizontal numerical control boring and milling machine of teaching type has solved the difficult problem that general horizontal numerical control boring and milling machine who proposes is difficult to be applied to in the actual teaching in the background art.

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: a teaching type horizontal numerical control boring and milling machine comprises a chassis, wherein a table top is arranged at the top of the chassis, and a rotary table structure, a main shaft structure and a numerical control system are arranged on the table top;

the turntable structure includes: the X-axis servo motor is arranged on the X-axis mounting plate;

the utility model discloses a wall is installed to X axle mounting plate, X axle servo motor, X axle assembly, X axle guide rail lead screw, installation platform, revolving stage cushion, mounting platform, revolving stage guard shield suit in the mounting platform, the wall is installed on the revolving stage guard shield in the connecting block, the frock bottom plate is installed on the connecting block wall.

Preferably, the spindle structure includes: the device comprises a Y-axis mounting plate, a Y-axis servo motor, a Y-axis assembly, two Y-axis guide rail lead screws, a Z-axis mounting plate, a Z-axis servo motor, a Z-axis assembly, two Z-axis guide rail lead screws, a main shaft body, a main shaft shield and a drag chain;

the Y-axis mounting plate is mounted on the upper wall surface of the table board, the Y-axis servo motor is mounted on the Y-axis mounting plate, the Y-axis assembly is arranged at the drive end of the Y-axis servo motor, the two Y-axis guide rail lead screws are arranged on the Y-axis mounting plate, and the two Y-axis guide rail screw rods are symmetrically arranged by taking the Y-axis assembly as the center, the Z-axis mounting plate is arranged at the moving ends of the two Y-axis guide rail screw rods, the Z-axis servo motor is arranged on the Z-axis mounting plate, the Z-axis assembly is arranged at the driving end of the Z-axis servo motor, the two Z-axis guide rail lead screws are arranged on the Z-axis mounting plate, the two Z-axis guide rail screw rods are symmetrically arranged by taking the Z-axis assembly as the center, the main shaft body is arranged at the moving ends of the two Z-axis guide rail screw rods, the main shaft protective cover is sleeved on the main shaft body, and the drag chain is installed on the outer side wall surface of the main shaft protective cover.

Preferably, the upper wall surface of the control system is an inclined surface.

Preferably, the upper wall surface of the tool bottom plate is provided with a pneumatic clamp.

Preferably, the upper wall surface of the table top is provided with a main machine shell cover.

Preferably, a door is arranged on the bottom frame.

Advantageous effects

The utility model provides a horizontal numerical control boring and milling machine of teaching type possesses following beneficial effect:

1. the boring and milling machine has the advantages of small integral volume, low equipment cost and maintenance cost, convenience in installation, high safety factor and high reliability;

2. most of working parts of the boring and milling machine are exposed outside, so that students can conveniently observe the working parts, know the internal structure of the boring and milling machine, and can achieve desktop-level operation teaching of the horizontal numerical control boring and milling machine through the operation of the numerical control system, thereby improving the teaching efficiency and ensuring the teaching quality.

Drawings

FIG. 1 is the utility model relates to a teaching type horizontal numerical control boring and milling machine's overall structure sketch map.

FIG. 2 is the utility model relates to a horizontal numerical control boring and milling machine of teaching type overlooks the schematic structure.

In the figure: 1-a table top; 2-X axis assembly; 3-mounting a table; 4-tooling bottom plate; 5-a main shaft body; 6-Z axis assembly; 7-Y axis servo motor; an 8-Y axis assembly; 9-a spindle shield; a 10-X axis servo motor; 11-a drag chain; 12-a numerical control system; 13-a host enclosure; 14-Z axis servo motor; 15-a chassis; a 16-X axis mounting plate; 17-X axis guide lead screw; 18-turntable pad block; 19-a turntable shield; 20-connecting blocks; 21-Y axis mounting plate; 22-Y axis guideway screw; a 23-Z axis mounting plate; a 24-Z axis guideway screw; 25-a pneumatic clamp; 26-opening the door.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-2, the present invention provides a technical solution: a teaching type horizontal numerical control boring and milling machine.

Example (b): all the electrical components in the present application are connected with the power supply adapted to the electrical components through the wires, and an appropriate controller should be selected according to actual conditions to meet the control requirements, and specific connection and control sequences should be obtained.

A teaching type horizontal numerical control boring and milling machine comprises a chassis 15, wherein the top of the chassis 15 is provided with a table board 1, and the table board 1 is provided with a turntable structure, a main shaft structure and a numerical control system 12;

in a specific implementation, the turntable structure may preferably adopt the following structure, which includes: the X-axis servo motor comprises an X-axis mounting plate 16, an X-axis servo motor 10, an X-axis assembly 2, two X-axis guide rail screws 17, a rotary table cushion block 18, a mounting table 3, a rotary table shield 19, a connecting block 20 and a tooling bottom plate 4; the X-axis mounting plate 16 is mounted on the upper wall surface of the table board 1, the X-axis servo motor 10 is mounted on the X-axis mounting plate 16, the X-axis assembly 2 is mounted at the driving end of the X-axis servo motor 10, the two X-axis guide rail lead screws 17 are mounted on the X-axis mounting plate 16, the two X-axis guide rail lead screws 17 are mounted in a central symmetry mode by taking the X-axis assembly 2 as a center, the turntable cushion block 18 is mounted on the upper wall surface of the moving end of the two X-axis guide rail lead screws 17, the mounting table 3 is mounted on the upper wall surface of the turntable cushion block 18, the turntable shield 19 is sleeved on the mounting table 3, the connecting block 20 is mounted on the upper wall surface of the turntable shield 19, and the tool bottom plate 4 is mounted on the upper wall surface of the connecting block 20.

In the specific implementation process, the spindle structure may preferably adopt the following structure, which includes: the device comprises a Y-axis mounting plate 21, a Y-axis servo motor 7, a Y-axis assembly 8, two Y-axis guide rail screws 22, a Z-axis mounting plate 23, a Z-axis servo motor 14, a Z-axis assembly 6, two Z-axis guide rail screws 24, a main shaft body 5, a main shaft shield 9 and a drag chain 11; the Y-axis mounting plate 21 is mounted on the upper wall surface of the table board 1, the Y-axis servo motor 7 is mounted on the Y-axis mounting plate 21, the Y-axis assembly 8 is mounted at the driving end of the Y-axis servo motor 7, the two Y-axis guide rail lead screws 22 are mounted on the Y-axis mounting plate 21, the two Y-axis guide rail lead screws 22 are symmetrically mounted by taking the Y-axis assembly 8 as a center, the Z-axis mounting plate 23 is mounted at the moving end of the two Y-axis guide rail lead screws 22, the Z-axis servo motor 14 is mounted on the Z-axis mounting plate 23, the Z-axis assembly 6 is mounted at the driving end of the Z-axis servo motor 14, the two Z-axis guide rail lead screws 24 are mounted on the Z-axis mounting plate 23, the two Z-axis guide rail lead screws 24 are symmetrically mounted by taking the Z-axis assembly 6 as a center, the main shaft body 5 is mounted at the moving end of the two Z-axis guide rail lead screws 24, the main shaft shield 9 is sleeved on the main shaft body 5, and the drag chain 11 is mounted on the outer side wall surface of the main shaft shield 9.

Wherein, it is required to be noted that: the mounting table 3 drives two X-axis guide rail lead screws 17 to work through an X-axis servo motor 10 to realize X-direction movement, the mounting table 3 rotates to drive the tool bottom plate 4 to rotate, preferably, a pneumatic clamp 25 is further arranged on the upper wall surface of the tool bottom plate 4 and is used for fixing a workpiece, a Z-axis mounting plate 23 is driven to realize Y-direction movement through the work of a Y-axis servo motor 7, so that a spindle body 5 arranged at the moving end of the two Z-axis guide rail lead screws 24 can move in the Y direction, the two Z-axis guide rail lead screws 24 are driven to work through the work of a Z-axis servo motor 14, so that the spindle body 5 can move in the Z direction, the Y-axis servo motor 7 and the Z-axis servo motor 14 can work simultaneously, a numerical control system 12 is used for controlling the work of a turntable structure and a spindle structure, the control system is composed of a system body and a sheet metal shell, and the upper wall surface of the control system is an operation panel, preferably, the upper wall surface of the control system is an inclined surface to facilitate operation of an operator, and preferably, the upper wall surface of the table top 1 is provided with a main machine housing 13 for protecting the main machine, and a driving device, a position detecting device and an auxiliary control device are installed inside the bottom frame 15, and preferably, the bottom frame 15 is provided with a door 26.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation. The use of the phrase "comprising one of the elements does not exclude the presence of other like elements in the process, method, article, or apparatus that comprises the element.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. The teaching type horizontal numerical control boring and milling machine is characterized by comprising an underframe (15), wherein the top of the underframe (15) is provided with a table top (1), and the table top (1) is provided with a turntable structure, a main shaft structure and a numerical control system (12);

the turntable structure includes: the X-axis servo motor assembly comprises an X-axis mounting plate (16), an X-axis servo motor (10), an X-axis assembly (2), two X-axis guide rail lead screws (17), a rotary table cushion block (18), a mounting table (3), a rotary table shield (19), a connecting block (20) and a tooling bottom plate (4);

x axle mounting panel (16) are installed in mesa (1) wall on, X axle servo motor (10) are installed on X axle mounting panel (16), install in X axle servo motor (10) drive end, two in X axle assembly (2) X axle guide lead screw (17) are installed on X axle mounting panel (16), and two X axle guide lead screw (17) use X axle assembly (2) to install as central symmetry, install in two revolving stage cushion (18) wall on X axle guide lead screw (17) removal end, install wall on revolving stage cushion (18) in mount table (3), revolving stage guard shield (19) suit is in mount table (3), wall on revolving stage guard shield (19) is installed in connecting block (20), install wall on connecting block (20) in frock bottom plate (4).

2. The teaching type horizontal numerical control boring and milling machine as claimed in claim 1, wherein the spindle structure comprises: the device comprises a Y-axis mounting plate (21), a Y-axis servo motor (7), a Y-axis assembly (8), two Y-axis guide rail lead screws (22), a Z-axis mounting plate (23), a Z-axis servo motor (14), a Z-axis assembly (6), two Z-axis guide rail lead screws (24), a main shaft body (5), a main shaft shield (9) and a drag chain (11);

the Y-axis mounting plate (21) is mounted on the upper wall surface of the table board (1), the Y-axis servo motor (7) is mounted on the Y-axis mounting plate (21), the Y-axis assembly (8) is mounted at the driving end of the Y-axis servo motor (7), two Y-axis guide rail lead screws (22) are mounted on the Y-axis mounting plate (21), the two Y-axis guide rail lead screws (22) are symmetrically mounted by taking the Y-axis assembly (8) as the center, the Z-axis mounting plate (23) is mounted at the moving ends of the two Y-axis guide rail lead screws (22), the Z-axis servo motor (14) is mounted on the Z-axis mounting plate (23), the Z-axis assembly (6) is mounted at the driving end of the Z-axis servo motor (14), the two Z-axis guide rail lead screws (24) are mounted on the Z-axis mounting plate (23), and the two Z-axis guide rail lead screws (24) are symmetrically mounted by taking the Z-axis assembly (6) as the center, the main shaft body (5) is arranged at the moving ends of the two Z-axis guide rail screw rods (24), the main shaft shield (9) is sleeved on the main shaft body (5), and the drag chain (11) is arranged on the outer side wall surface of the main shaft shield (9).

3. The teaching type horizontal numerical control boring and milling machine as claimed in claim 1, characterized in that a pneumatic clamp (25) is arranged on the upper wall surface of the tool bottom plate (4).

4. The teaching type horizontal numerical control boring and milling machine as claimed in claim 1, characterized in that the upper wall surface of the table board (1) is provided with a main machine shell cover (13).

5. The teaching type horizontal numerical control boring and milling machine as claimed in claim 1, characterized in that a door (26) is provided on the chassis (15).

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