CN112388353B

CN112388353B - CNC numerical control machining platform convenient to transport

Info

Publication number: CN112388353B
Application number: CN202011203785.4A
Authority: CN
Inventors: 文洁
Original assignee: Jiangsu Paiwei Intelligent Technology Co ltd
Current assignee: Jiangsu Paiwei Intelligent Technology Co ltd
Priority date: 2020-11-02
Filing date: 2020-11-02
Publication date: 2022-10-21
Anticipated expiration: 2040-11-02
Also published as: CN112388353A

Abstract

The invention discloses a CNC (computer numerical control) machining platform convenient to transport, wherein a control motor drives an adjusting screw to rotate, the adjusting screw drives a limiting slide block to slide on a horizontal slide rail, the side end of the limiting slide block is close to a transverse transport belt and slides to the position of the origin of coordinates under the driving of the adjusting screw, a transport driving assembly drives the transverse transport belt to slide on the transverse transport rail, and further drives a workpiece to move towards the limiting slide block until the workpiece is in contact with the limiting slide block, so that the workpiece accurately reaches the position of the origin of coordinates of a machining station, and the machining precision is higher.

Description

CNC numerical control machining platform convenient to transport

Technical Field

The invention relates to the field of numerical control machining platforms, in particular to a CNC machining platform convenient to transport.

Background

The current feed machining route of the numerically controlled lathe refers to a path through which a turning tool starts to move from a tool setting point (or a fixed origin of a machine tool) until the turning tool returns to the tool setting point and a machining program is finished, and the path comprises a cutting machining path and a non-cutting idle stroke path such as cutting-in and cutting-out of the tool.

Because numerical control processing is the original point of fixing the work piece accuracy at the coordinate system to the lathe tool just can process the work piece along the route of setting for, nevertheless at the in-process of transporting the work piece, place the work piece on the transmission band through the manual work, because the transmission band can only move along the direction of feeding, thereby the horizontal position of unable adjustment work piece, and then lead to the work piece can't be transported to the original point position of processing station by the accuracy in the transportation, influence the precision of processing.

Disclosure of Invention

The invention aims to provide a CNC (computer numerical control) machining platform convenient to transport, and aims to solve the problem that in the prior art, a workpiece is manually placed on a conveying belt, and the horizontal position of the workpiece cannot be adjusted due to the fact that the conveying belt can only move in the feeding direction, so that the workpiece cannot be accurately transported to the original position of a machining station in the transporting process, and machining precision is affected.

In order to achieve the purpose, the CNC numerical control machining platform convenient to transport comprises a transport platform, a transport conveyor belt and an adjusting device; the transfer conveyor belt is connected with the transfer platform in a sliding mode and is positioned on one side of the transfer platform; the adjusting device comprises a transverse transfer rail, a transverse transfer belt, a transfer driving assembly and a limiting assembly, the transverse transfer rail is fixedly connected with the transfer conveyor belt and is positioned on one side, away from the transfer platform, of the transfer conveyor belt, the transverse transfer belt is slidably connected with the transverse transfer rail and is positioned on one side, away from the transfer conveyor belt, of the transverse transfer rail, and the transfer driving assembly is fixedly connected with the transverse transfer rail and is rotatably connected with the transverse transfer belt; spacing subassembly includes horizontal slide rail, spacing slider, adjusting screw and control motor, horizontal slide rail with transport conveyer belt fixed connection, and be located the transport conveyer belt is close to one side of horizontal transfer rail, spacing slider with horizontal slide rail sliding connection, and with horizontal transfer rail sliding connection, and be located horizontal slide rail is close to one side of horizontal transfer rail, adjusting screw with horizontal slide rail rotates to be connected, and with spacing slider rotates to be connected, and is located horizontal slide rail is close to one side of spacing slider, control motor with horizontal slide rail fixed connection, and the output shaft with adjusting screw fixed connection, and be located horizontal slide rail is close to one side of adjusting screw.

The limiting assembly further comprises a connecting bearing, the connecting bearing is fixedly connected with the horizontal sliding rail and is rotatably connected with the adjusting screw rod, and the connecting bearing is located on one side, close to the adjusting screw rod, of the horizontal sliding rail.

Wherein, spacing subassembly still includes the outrigger, outrigger's one side with horizontal slide rail fixed connection to the opposite side with horizontal transfer rail fixed connection, and be located horizontal transfer rail with between the horizontal slide rail.

The adjusting device further comprises a mounting clamp, and the mounting clamp is fixedly connected with the transverse transfer belt and is positioned on one side, away from the transverse transfer rail, of the transverse transfer belt.

Wherein, transport convenient CNC numerical control processing platform still includes drive motor, drive motor with transport platform fixed connection, and the output shaft with the transportation conveyer belt rotates to be connected, and is located the transportation platform is close to one side of transporting the conveyer belt.

According to the CNC numerical control machining platform convenient to transport, the adjusting screw rod is driven to rotate through the control motor, the adjusting screw rod drives the limiting slide block to slide on the horizontal slide rail, the side end of the limiting slide block is close to the transverse transport belt and slides to the position of the origin of coordinates under the driving of the adjusting screw rod, the transport driving assembly drives the transverse transport belt to slide on the transverse transport rail, and further drives a workpiece to move towards the limiting slide block until the workpiece is in contact with the limiting slide block, so that the workpiece accurately reaches the position of the origin of coordinates of a machining station, and machining precision is higher.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic structural diagram of an adjusting device of the present invention.

Fig. 2 is a schematic structural view of the spacing assembly of the present invention.

Fig. 3 is a schematic diagram of the structure of the transfer drive assembly of the present invention.

In the figure: the device comprises a 1-transferring platform, a 2-transferring conveyor belt, a 3-adjusting device, a 4-transmission motor, a 31-transverse transferring rail, a 32-transverse transferring belt, a 33-transferring driving component, a 34-limiting component, a 35-mounting clamp, a 100-transferring CNC numerical control machining platform which is convenient and fast to transfer, a 331-transmission shaft, a 332-transferring motor, a 341-horizontal sliding rail, a 342-limiting sliding block, a 343-adjusting screw rod, a 344-control motor, a 345-connecting bearing and a 346-stable supporting frame.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the invention and are not to be construed as limiting the invention.

In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships illustrated in the drawings, and are used merely for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to be construed as limiting the present invention. In addition, in the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

Referring to fig. 1 to 3, the present invention provides a CNC numerical control processing platform 100 with convenient transferring, which includes a transferring platform 1, a transferring conveyor belt 2 and an adjusting device 3; the transfer conveyor belt 2 is connected with the transfer platform 1 in a sliding mode and is positioned on one side of the transfer platform 1; the adjusting device 3 comprises a transverse transfer rail 31, a transverse transfer belt 32, a transfer driving assembly 33 and a limiting assembly 34, wherein the transverse transfer rail 31 is fixedly connected with the transfer conveyor 2 and is positioned at one side of the transfer conveyor 2 away from the transfer platform 1, the transverse transfer belt 32 is slidably connected with the transverse transfer rail 31 and is positioned at one side of the transverse transfer rail 31 away from the transfer conveyor 2, and the transfer driving assembly 33 is fixedly connected with the transverse transfer rail 31 and is rotatably connected with the transverse transfer belt 32; the limiting component 34 includes a horizontal sliding rail 341, a limiting slider 342, an adjusting screw 343 and a control motor 344, the horizontal sliding rail 341 is fixedly connected to the transfer conveyor 2 and is located on one side of the transfer conveyor 2 close to the transverse transfer rail 31, the limiting slider 342 is slidably connected to the horizontal sliding rail 341 and is slidably connected to the transverse transfer rail 31 and is located on one side of the horizontal sliding rail 341 close to the transverse transfer rail 31, the adjusting screw 343 is rotatably connected to the horizontal sliding rail 341 and is rotationally connected to the limiting slider 342 and is located on one side of the horizontal sliding rail 341 close to the limiting slider 342, the control motor 344 is fixedly connected to the horizontal sliding rail 341 and has an output shaft fixedly connected to the adjusting screw 343 and is located on one side of the horizontal sliding rail 341 close to the adjusting screw 343.

In this embodiment, the transfer platform 1 is connected to an execution device, the execution device is installed on a side surface of the transfer platform 1, and processes the workpiece on the transfer platform 1 through a mechanical arm, the transfer conveyor 2 is installed through a rotating shaft along a long direction of the transfer platform 1, a bottom of the transfer conveyor 2 is installed inside the transfer platform 1, a top of the transfer conveyor 2 extends out of a top surface of the transfer platform 1, the transverse transfer rails 31 are installed on the transverse short direction of the transfer conveyor 2 by threads, a plurality of transverse transfer rails 31 are arranged in sequence along the long direction of the transfer conveyor 2, the transverse transfer belts 32 are installed on the transverse transfer rails 31 through the transfer driving components 33, and the transverse transfer belts 32 are controlled by the transfer driving components 33 to move the workpiece transversely, so as to transfer the workpiece transversely to an original point position of a processing station; the horizontal sliding rail 341 is installed at a position of the transfer conveyor 2 close to the transverse transfer rail 31, the installation direction of the horizontal sliding rail 341 is parallel to the installation direction of the transverse transfer rail 31, so that the sliding direction of the limit slider 342 is the same as the sliding direction of the transverse transfer belt 32, the outer side surface of the adjusting screw 343 is threaded and penetrates through the limit slider 342, the control motor 344 is connected with an upper computer through a lead, and is fixed with the adjusting screw 343 through an output shaft, so as to drive the adjusting screw 343 to rotate; in this way, the control motor 344 drives the adjustment screw 343 to rotate, the adjustment screw 343 drives the limit slider 342 to slide on the horizontal slide 341, the side end of the limit slider 342 is close to the transverse transfer belt 32 and slides to the position of origin of coordinates under the driving of the adjustment screw 343, and the transfer driving assembly 33 drives the transverse transfer belt 32 to slide on the transverse transfer rail 31, thereby driving the workpiece to move towards the limit slider 342 until contacting with the limit slider 342, so that the workpiece accurately reaches the position of origin of coordinates of the processing station, thereby enabling the processing precision to be higher.

Further, referring to fig. 3, the transfer driving assembly 33 includes a transmission shaft 331 and a transfer motor 332, the transmission shaft 331 is rotatably connected to the transverse transfer rail 31 and is rotatably connected to the transverse transfer belt 32, and is located on one side of the transverse transfer rail 31 close to the transverse transfer belt 32; the transfer motor 332 is fixedly connected to the transverse transfer rail 31, and an output shaft is rotatably connected to the transmission shaft 331 and located on one side of the transverse transfer rail 31 close to the transmission shaft 331.

In this embodiment, the quantity of conveying axle is two, and installs respectively the both sides of transverse transport area 32, and through the bearing with transverse transport rail 31 rotates and connects, transport motor 332 threaded mounting transverse transport rail 31 is last, and through the output shaft drive the conveying axle rotates, and then drives transverse transport area 32 rotates.

Further, referring to fig. 2, the limiting assembly 34 further includes a connecting bearing 345, and the connecting bearing 345 is fixedly connected to the horizontal sliding rail 341, rotatably connected to the adjusting screw 343, and located at a side of the horizontal sliding rail 341 close to the adjusting screw 343.

In this embodiment, the outer ring of the connecting bearing 345 is fixed on the horizontal sliding rail 341 by a thread and is connected with the end of the adjusting screw 343 by an inner ring, so that the rotation of the adjusting screw 343 and the horizontal sliding rail 341 is more stable.

Further, referring to fig. 2, the limiting assembly 34 further includes a stable supporting frame 346, one side of the stable supporting frame 346 is fixedly connected to the horizontal sliding rail 341, and the other side of the stable supporting frame 346 is fixedly connected to the transverse transfer rail 31 and is located between the transverse transfer rail 31 and the horizontal sliding rail 341.

In this embodiment, two sides of the stable supporting frame 346 are respectively fixed on the horizontal sliding rail 341 and the transverse transfer rail 31 by threads, so that the connection stability of the horizontal sliding rail 341 and the transverse transfer rail 31 is better, and the limiting effect of the limiting sliding block 342 on the workpiece is better.

Further, referring to fig. 2 and fig. 3, the adjusting device 3 further includes a mounting clamp 35, where the mounting clamp 35 is fixedly connected to the transverse transfer belt 32 and is located on a side of the transverse transfer belt 32 away from the transverse transfer rail 31.

In this embodiment, the mounting fixture 35 is screwed on the transverse transfer belt 32, and clamps the outer side surface of the workpiece through a spring buckle, so that the workpiece is kept stable in the transfer process, and the processing effect of the workpiece is better.

Further, please refer to fig. 1, the CNC machining platform 100 for convenient transferring further includes a transmission motor 4, the transmission motor 4 is fixedly connected to the transferring platform 1, and an output shaft is rotatably connected to the transferring conveyor belt 2 and located at one side of the transferring platform 1 close to the transferring conveyor belt 2.

In this embodiment, the transmission motor 4 is fixed in the transfer platform 1 through threads, and the output shaft is connected with the inner side surface of the transfer conveyor belt 2 through threads, so that the transfer conveyor belt 2 is driven to rotate by the transmission motor 4.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention.

Claims

1. A CNC numerical control machining platform convenient to transfer is characterized by comprising a transfer platform, a transfer conveyor belt and an adjusting device;

the transfer conveyor belt is connected with the transfer platform in a sliding mode and is positioned on one side of the transfer platform, the transfer platform is connected with the execution equipment, the execution equipment is installed on the side face of the transfer platform, and the workpiece on the transfer platform is processed through the mechanical arm;

the adjusting device comprises a transverse transfer rail, a transverse transfer belt, a transfer driving assembly and a limiting assembly, the transverse transfer rail is fixedly connected with the transfer conveyor belt and is positioned on one side, away from the transfer platform, of the transfer conveyor belt, the transverse transfer belt is slidably connected with the transverse transfer rail and is positioned on one side, away from the transfer conveyor belt, of the transverse transfer rail, and the transfer driving assembly is fixedly connected with the transverse transfer rail and is rotatably connected with the transverse transfer belt;

the limiting assembly comprises a horizontal sliding rail, a limiting sliding block, an adjusting screw and a control motor, the horizontal sliding rail is fixedly connected with the transferring conveyor belt and is positioned on one side, close to the transverse transferring rail, of the transferring conveyor belt, the limiting sliding block is slidably connected with the horizontal sliding rail and is slidably connected with the transverse transferring rail and is positioned on one side, close to the transverse transferring rail, of the horizontal sliding rail, the adjusting screw is rotatably connected with the horizontal sliding rail and is rotatably connected with the limiting sliding block and is positioned on one side, close to the limiting sliding block, of the horizontal sliding rail, the control motor is fixedly connected with the horizontal sliding rail, an output shaft is fixedly connected with the adjusting screw and is positioned on one side, close to the adjusting screw, of the horizontal sliding rail;

the transfer driving assembly comprises a transmission shaft and a transfer motor, the transmission shaft is rotatably connected with the transverse transfer rail, is rotatably connected with the transverse transfer belt and is positioned on one side of the transverse transfer rail, which is close to the transverse transfer belt; the transfer motor with horizontal transfer rail fixed connection to the output shaft with the transmission shaft rotates to be connected, and is located horizontal transfer rail is close to one side of transmission shaft.

2. A CNC numerically controlled machining platform with convenient transportation according to claim 1,

the limiting assembly further comprises a connecting bearing, the connecting bearing is fixedly connected with the horizontal sliding rail, is rotatably connected with the adjusting screw rod and is located on one side, close to the adjusting screw rod, of the horizontal sliding rail.

3. A CNC numerically controlled machining platform with convenient transportation according to claim 1,

spacing subassembly still includes outrigger, one side of outrigger with horizontal slide rail fixed connection to the opposite side with transverse transfer rail fixed connection, and be located transverse transfer rail with between the horizontal slide rail.

4. A CNC numerically controlled machining platform with convenient transportation according to claim 1,

5. A CNC numerically controlled machining platform with convenient transportation according to claim 1,

transport convenient CNC numerical control processing platform still includes driving motor, driving motor with transport platform fixed connection, and the output shaft with it connects to transport the conveyer belt rotation, and is located it is close to transport the platform transport one side of conveyer belt.