CN223643257U - A processing platform with a support structure - Google Patents

Abstract

The utility model discloses a processing platform with a supporting structure, which comprises a rotatable workpiece carrying platform and a supporting assembly, wherein the supporting assembly comprises a supporting base, a supporting sliding seat and a driving piece, the supporting sliding seat is arranged on the supporting base and can move along a sliding direction, the top end of the supporting sliding seat is provided with a supporting plane, and the driving piece is used for driving the supporting sliding to move along the sliding direction so as to enable the supporting plane to be close to or far away from the bottom end of the workpiece carrying platform, so that the workpiece carrying platform is prevented from swinging up and down. According to the processing platform with the supporting structure, the supporting slide seat can slide on the supporting base, so that the bottom end of the workpiece carrying platform can be supported at different positions, and swing in the processing process is reduced.

Description

Processing platform with supporting structure

Technical Field

The utility model relates to the technical field of processing equipment, in particular to a processing platform with a supporting structure.

Background

At present, in the field of machining, a workpiece is usually placed on a machining platform, and the workpiece on the machining platform is machined by a machining component above the machining platform, so that the machining platform can be rotatably installed for machining different positions of the workpiece conveniently, and the machining platform has a rotational degree of freedom. When the machining is not needed, the rotation freedom degree of the machining platform can swing under the action of the machining knife, so that the machining precision of the workpiece is low.

Disclosure of utility model

In order to overcome at least one of the above-mentioned drawbacks of the prior art, the present utility model provides a processing platform with a supporting structure, which can support the bottom end of a workpiece carrier at different positions by sliding a supporting slide on a supporting base, so as to reduce swinging during processing.

The utility model adopts the technical proposal for solving the problems that:

The processing platform with the supporting structure comprises a rotatable workpiece carrying platform and a supporting assembly, wherein the supporting assembly comprises a supporting base and a supporting sliding seat and a driving piece, the supporting sliding seat is installed on the supporting base and can move along a sliding direction, a supporting plane is arranged at the top end of the supporting sliding seat, and the driving piece is used for driving the supporting sliding seat to move along the sliding direction so as to enable the supporting plane to be close to or far away from the bottom end of the workpiece carrying platform, so that the workpiece carrying platform is prevented from swinging up and down.

The power output end of the driving piece extends along the inclined mounting surface and drives the support sliding seat to slide along the inclined mounting surface, and the sliding direction is consistent with the inclined mounting surface.

Further, the inclined mounting surface is provided with an inclined mounting plate, the driving piece is mounted on the inclined mounting plate, and the supporting sliding seat is slidably mounted on the inclined mounting plate.

The driving piece comprises a driving air cylinder, a guide plate is arranged at the end part of the inclined mounting plate, a cylinder body of the driving air cylinder is mounted on the guide plate, a guide hole is formed in the guide plate, a piston rod of the driving air cylinder penetrates out of the guide hole and extends along the inclined direction of the inclined mounting surface, and the supporting sliding seat is connected with the piston rod of the driving air cylinder.

The inclined mounting plate is provided with a guide sliding rail, the guide sliding rail extends along the inclined direction of the inclined mounting surface, the bottom end of the support sliding seat is provided with a guide sliding groove, and the guide sliding rail is in sliding fit with the guide sliding groove.

Further, a supporting protruding block is arranged at the top end of the supporting sliding seat, and the top end of the supporting protruding block is formed into the supporting plane.

Further, the supporting lug is used for supporting the engagement of the inclined plane and the supporting sliding seat.

Further, a positioning assembly is arranged on the workpiece carrying platform and used for positioning the workpiece.

The positioning assembly comprises a plurality of first positioning blocks and a plurality of second positioning blocks, wherein the top end surfaces of the first positioning blocks are formed into a first positioning surface together, the top end surfaces of the second positioning blocks are formed into a second positioning surface together, the first positioning blocks are distributed on two sides of the second positioning blocks, and the heights of the first positioning blocks and the second positioning blocks are different.

Further, the height of the second positioning block is larger than that of the first positioning block.

In summary, the utility model has the following technical effects:

After the workpiece carrying table rotates in place, the driving piece drives the supporting sliding seat to slide along the supporting base, so that the supporting plane of the supporting sliding seat abuts against the bottom end surface of the workpiece carrying table, a larger supporting surface is formed at the bottom end of the workpiece carrying table by the plane, and therefore shaking or swinging conditions of the workpiece carrying table in the machining process are reduced, and therefore the workpiece can be stably supported in the machining process, and machining precision is improved.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of another view angle structure of the present utility model;

fig. 3 is a schematic structural view of the support assembly of the present utility model.

The numerical control machine tool comprises 10 parts of a workpiece carrying platform, 11 parts of a first positioning block, 12 parts of a second positioning block, 21 parts of a supporting base, 211 parts of an inclined mounting plate, 212 parts of a guide plate, 22 parts of a supporting sliding seat, 221 parts of a supporting protruding block, 23 parts of a driving cylinder, 231 parts of a piston rod of the driving cylinder.

Detailed Description

For a better understanding and implementation, the technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the drawings in the embodiments of the present utility model.

In the description of the present utility model, it should be noted that the terms "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 shown in the drawings, only for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the apparatus or elements to be referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this utility model belongs. The terminology used herein in the description of the utility model is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model.

Referring to fig. 1, 2 and 3, the utility model discloses a processing platform with a supporting structure, which comprises a workpiece carrying platform 10 and a supporting component, wherein the workpiece carrying platform 10 is rotatably arranged on processing equipment, and a workpiece is driven by a driving piece such as a motor.

The support assembly comprises a support base 21 and a support slide 22, wherein the support slide 22 is arranged on the support base 21 by a driving piece, the support slide 22 can move along a sliding direction, and a support plane is arranged at the top end of the support slide 22. The driving member can drive the support slide to move along the sliding direction, so that the support plane is close to or far away from the bottom end of the workpiece carrier 10, and the workpiece carrier is prevented from swinging up and down.

On the basis of the structure, since the workpiece carrying platform 10 is rotatably arranged on the machine body of the processing equipment, when a workpiece is processed, the driving motor on the machine body can drive the workpiece carrying platform 10 to rotate to different processing stations for processing.

Since the workpiece carrier 10 rotates to the corresponding station, the machining tool of the machining apparatus machines the workpiece on the workpiece carrier 10, so that the acting force applied to the workpiece by the machining tool or the like can cause the workpiece carrier 10 to shake or swing, and the like, so that the workpiece on the workpiece carrier 10 is unstable in the machining process, thereby affecting the machining precision.

Therefore, in the present application, after the workpiece carrier 10 rotates in place, the driving member drives the supporting slide 22 to slide along the supporting base 21, so that the supporting plane of the supporting slide 22 abuts against the bottom end surface of the workpiece carrier 10, so that a larger supporting surface is formed at the bottom end of the workpiece carrier 10 by the plane, and thus, the shaking or swinging condition of the workpiece carrier 10 in the processing process is reduced, and the workpiece can be stably supported in the processing process, thereby improving the processing precision.

Further, specifically, an inclined mounting surface is provided at the top end of the support base 21, the support slide 22 is slidably mounted on the inclined mounting surface, and the driving member is mounted on the inclined mounting surface, so that the power output end of the driving member extends along the inclined mounting surface, and drives the support slide 22 to slide along the inclined mounting surface, and the sliding direction is consistent with the inclined mounting surface.

On the basis of the structure, the power output end of the driving piece drives the supporting slide seat 22 to slide along the inclined direction, the supporting plane of the supporting slide seat 22 is positioned at the top end position of the supporting slide seat 22, and the supporting is realized after the supporting slide seat 22 slides to be contacted with the bottom end surface of the workpiece carrying platform 10.

Because the driving force provided by the driving member is inclined upwards, the acting force in the inclined direction can drive the supporting slide seat 22 upwards and drive the supporting slide seat 22 forwards, and after the supporting plane of the supporting slide seat 22 is abutted against the workpiece carrying platform 10, the forward acting force provided by the driving member can keep being applied to the side part of the supporting slide seat 22, and the upward acting force provided by the driving member can keep the supporting slide seat 22 upwards, so that the rollback condition occurring after the workpiece carrying platform 10 is stressed can be effectively prevented.

More specifically, in order to enable the driving member and the supporting slider 22 to be mounted in an inclined state, an inclined mounting plate 211 may be provided on the inclined mounting surface, the inclined mounting plate 211 is consistent with the inclined mounting surface, the supporting slider 22 is slidably mounted on the inclined mounting plate 211, and the driving member is mounted on the inclined mounting plate 211, so that the driving member can drive the supporting slider 22 to slide in an inclined direction after driving the supporting slider 22 to move.

Specifically, the driving member in the present embodiment includes a driving cylinder 23, a guide plate 212 is provided at an end portion of the inclined mounting plate 211, and a cylinder body of the driving cylinder 23 is mounted to the guide plate 212. A guide hole is provided in the guide plate 212, a piston rod 231 of the driving cylinder is inserted through the guide hole and extends in the direction of inclination of the inclined mounting surface, and the support slider 22 is connected to the piston rod 231 of the driving cylinder.

On the basis of the structure, when the supporting slide seat 22 is driven, the supporting slide seat 22 is driven to move along the inclined mounting plate 211 after the piston rod 231 of the driving cylinder stretches out, meanwhile, the piston rod 231 of the driving cylinder passes through the guide hole, and the guide hole can guide the piston rod 231 of the driving cylinder to slide along the inclined direction, so that the moving direction of the supporting slide seat 22 is more stable.

Of course, in this embodiment, the output air pressure of the driving air cylinder 23 is used to extend the piston rod, so the output supporting force of the piston rod is determined by the air pressure of the driving air cylinder 23, so the air pressure of the driving air cylinder 23 can be reasonably adjusted by the weight of the workpiece to be processed and the acting force of the processing strength on the workpiece carrying table 10, so that the supporting force of the supporting slide seat 22 can be better kept balanced.

Specifically, a first pressure sensor is disposed on the top end surface of the workpiece carrier 10, a second pressure sensor is disposed on the bottom end surface of the workpiece carrier 10, the first pressure sensor is used to detect the pressure applied to the workpiece carrier 10 when the workpiece carrier 10 is processed by a processing knife or the like, in order to make the forces applied to the workpiece carrier 10 up and down equal, the shaking or swinging of the workpiece carrier 10 due to unbalanced up and down forces is prevented, the second pressure sensor is used to detect the pressure applied to the workpiece carrier 10 by the support slide 22 in lifting support, and when the lower pressure value is greater than or less than the upper pressure value, the shaking of the workpiece carrier 10 is caused, so the driving cylinder 23 can provide the pressure value according to the pressure value provided by the second pressure sensor and the first pressure sensor, even if the air pressure is adjusted, the up and down forces are balanced.

Of course, the driving member may be a driving cylinder of the related art, and the driving cylinder may be adapted to adjust the output force according to the pressure applied to the work carrier 10 when the machining tool or the like performs the machining.

Further, a guide rail may be provided on the inclined mounting plate 211, and the guide rail may extend in an inclined direction of the inclined mounting surface. A guiding chute is arranged at the bottom end of the supporting slide seat 22 correspondingly, and the guiding slide rail is in sliding fit with the guiding chute. Thus, when the support slide 22 moves along the inclined mounting plate 211, the support slide 22 can be slidingly guided through the sliding fit of the guide chute and the guide slide rail, so that the support slide 22 is prevented from moving and shifting.

Further, the top end of the supporting slider 22 is provided with a supporting projection 221, and the top end of the supporting projection 221 is formed as a supporting plane, so that when the supporting slider 22 moves toward the workpiece stage 10 in the sliding direction, the bottom end of the workpiece stage 10 can be plane-supported by the supporting plane of the top end of the supporting projection 221.

In this way, the supporting projection 221 is used for supporting, the driving piece drives the supporting sliding seat 22 to move along the inclined direction, the travel of the supporting projection 221 does not need to be too large, and the supporting projection 221 can be contacted with the bottom end of the workpiece carrying table 10, so that the supporting is realized.

Further, the supporting bump 221 is engaged with the supporting slide 22 by the supporting inclined plane, so that when the supporting bump 221 receives the reaction force when being processed on the workpiece carrying platform 10, the supporting inclined plane can be used for decomposing the longitudinal stress into the transverse force, and the longitudinal force directly applied to the supporting slide 22 is reduced, thereby effectively preventing the back-off condition of the supporting slide 22 along the sliding direction, and ensuring that the supporting process is more stable.

Further, a positioning assembly is provided on the workpiece carrier 10, and the positioning assembly is used for positioning the workpiece.

Further, the positioning assembly comprises a plurality of first positioning blocks 11 and a plurality of second positioning blocks 12, wherein top end surfaces of the first positioning blocks 11 are formed into a first positioning surface together, top end surfaces of the second positioning blocks 12 are formed into a second positioning surface together, the first positioning blocks 11 are distributed on two sides of the second positioning blocks 12, and the heights of the first positioning blocks 11 and the second positioning blocks 12 are different.

On the basis of this structure, after the workpiece is placed on the workpiece carrier 10, since the heights of the plurality of first positioning blocks 11 and the plurality of second positioning blocks 12 are different, the positions of the first positioning surfaces formed by the plurality of first positioning blocks 11 and the positions of the second positioning surfaces formed by the plurality of second positioning blocks 12 on the workpiece carrier 10 are different, and when the workpiece is placed, the first positioning surfaces and the second positioning surfaces can abut against different end surfaces of the workpiece, so that the positioning structure is more stable.

In this embodiment, the height of the second positioning block 12 is greater than that of the first positioning block 11, so that when the middle position of the workpiece is relatively high and the positions of the two sides are relatively low, the workpiece is placed on the workpiece carrying table 10, the second positioning surface with relatively high position is positioned and abutted against the middle high position, and the first positioning surface with relatively low position can be positioned and abutted against the lower positions of the two sides, so that the positioning structure is stable.

Of course, the height of the second positioning block 12 may be set smaller than that of the first positioning block 11, so that the second positioning block can be adapted to a workpiece with a low middle position and high two side positions, and the second positioning block is specifically selected according to actual needs.

The technical means disclosed by the scheme of the utility model is not limited to the technical means disclosed by the embodiment, and also comprises the technical scheme formed by any combination of the technical features. It should be noted that modifications and adaptations to the utility model may occur to one skilled in the art without departing from the principles of the present utility model and are intended to be within the scope of the present utility model.

Claims (10)

1. The processing platform with the supporting structure is characterized by comprising a rotatable workpiece carrying platform and a supporting assembly, wherein the supporting assembly comprises a supporting base, a supporting sliding seat and a driving piece, the supporting sliding seat is arranged on the supporting base and can move along a sliding direction, a supporting plane is arranged at the top end of the supporting sliding seat, and the driving piece is used for driving the supporting sliding seat to move along the sliding direction so as to enable the supporting plane to be close to or far away from the bottom end of the workpiece carrying platform, so that the workpiece carrying platform is prevented from swinging up and down.

2. The processing platform with the supporting structure according to claim 1, wherein an inclined mounting surface is arranged at the top end of the supporting base, the supporting sliding seat is slidably mounted on the inclined mounting surface, the driving piece is mounted on the inclined mounting surface, the power output end of the driving piece extends along the inclined mounting surface and drives the supporting sliding seat to slide along the inclined mounting surface, and the sliding direction is consistent with the inclined mounting surface.

3. The processing platform with support structure according to claim 2, wherein the inclined mounting surface is provided with an inclined mounting plate, the driving member is mounted on the inclined mounting plate, and the support slider is slidably mounted on the inclined mounting plate.

4. The processing platform with the supporting structure according to claim 3, wherein the driving piece comprises a driving air cylinder, a guide plate is arranged at the end part of the inclined mounting plate, a cylinder body of the driving air cylinder is mounted on the guide plate, a guide hole is arranged on the guide plate, a piston rod of the driving air cylinder penetrates out through the guide hole and extends along the inclined direction of the inclined mounting surface, and the supporting sliding seat is connected with the piston rod of the driving air cylinder.

5. The processing platform with the supporting structure according to claim 3, wherein the inclined mounting plate is provided with a guide sliding rail, the guide sliding rail extends along the inclined direction of the inclined mounting surface, the bottom end of the supporting sliding seat is provided with a guide sliding groove, and the guide sliding rail is in sliding fit with the guide sliding groove.

6. The processing platform with support structure according to any one of claims 2-5, wherein the top end of the support slide is provided with a support bump, and the top end of the support bump is formed as the support plane.

7. The processing platform with support structure of claim 6, wherein the support tab is configured to support engagement of a ramp with the support slide.

8. A processing platform with support structure according to any one of claims 1-5, characterized in that a positioning assembly is provided on the workpiece carrier for positioning the workpiece.

9. The processing platform with the supporting structure according to claim 8, wherein the positioning assembly comprises a plurality of first positioning blocks and a plurality of second positioning blocks, top end surfaces of the plurality of first positioning blocks are formed into a first positioning surface in a common mode, top end surfaces of the plurality of second positioning blocks are formed into a second positioning surface in a common mode, the plurality of first positioning blocks are distributed on two sides of the plurality of second positioning blocks, and the heights of the first positioning blocks and the second positioning blocks are different.

10. The tooling platform with support structure of claim 9, wherein the height of the second positioning block is greater than the height of the first positioning block.