CN220575036U - Supporting platform and displacement mechanism - Google Patents

Abstract

The application provides a supporting platform and displacement mechanism, a supporting platform includes: a tray for supporting a workpiece, and provided with a clearance structure capable of exposing the workpiece in a vertical direction; and the supporting table is provided with an adsorption plane, the adsorption plane is provided with a containing groove, and the containing groove is used for placing the tray, so that the adsorption plane can adsorb the workpiece through the clearance structure. The supporting platform can feed the thin workpiece, and can prevent the workpiece from being broken in the feeding process.

Description

Supporting platform and displacement mechanism

Technical Field

The application belongs to the technical field of brittle material splinters, and more particularly relates to a supporting platform and a displacement mechanism.

Background

At present, most brittle materials such as glass and the like are cut and split by adopting laser processing equipment. However, the support platform on the current laser processing equipment is not suitable for feeding materials such as thin glass.

Disclosure of Invention

The present application provides a support platform and a displacement mechanism to solve at least one technical problem mentioned in the background art.

The technical scheme that this application adopted is a supporting platform, includes:

a tray for supporting a workpiece, the tray being provided with a clearance structure capable of exposing the workpiece in a vertical direction; and

the supporting table is provided with an adsorption plane, the adsorption plane is provided with a containing groove, and the containing groove is used for containing the tray, so that the adsorption plane can adsorb the workpiece through the clearance structure.

That is, when the workpiece is fed, the workpiece can be fed onto the tray, and then transferred onto the adsorption plane of the supporting table through the tray, meanwhile, the tray is provided with a clearance structure capable of exposing the workpiece in the vertical direction, and the adsorption plane is provided with a containing groove for containing the tray, so that when the tray is transferred into the containing groove, the adsorption plane on the supporting table can adsorb the workpiece through the clearance structure, and feeding of the workpiece is realized. According to the mode, when the thin workpiece is fed, the tray is used for supporting, so that the workpiece can be prevented from being broken in the feeding process.

Optionally, the accommodating groove divides the adsorption plane into a plurality of adsorption areas, and the tray is provided with the empty-avoiding structure corresponding to each adsorption area.

Optionally, the thickness of the tray in the accommodating groove is smaller than or equal to the depth of the accommodating groove, so that the adsorption plane can be in contact with the workpiece.

Optionally, the size of the accommodating groove is matched with the size of the tray, so that the accommodating groove can just accommodate the tray, and the tray is positioned.

Optionally, the accommodating groove comprises a plurality of grooves connected with each other, and at least part of the grooves are arranged corresponding to the processing positions of the workpiece.

Optionally, the tray includes carrier and carrier, the carrier is used for supporting the work piece, be provided with on the carrier keep away empty structure, the carrier set up in on the carrier.

Optionally, the carrying piece is arranged on two opposite sides of the bearing piece, and the adsorption plane is provided with a clearance groove for accommodating the carrying piece.

Optionally, the void-avoiding groove extends towards the edge of the supporting table, an opening is formed at the edge of the supporting table, and the carrying piece extends out of the opening.

Optionally, the tray further comprises a support member, and the support member is disposed at an end of the carrier member far away from the workpiece, so that at least part of the edge of the carrier member can be suspended.

The displacement mechanism comprises a displacement structure and the supporting platform of any one of the above, wherein the displacement structure is in transmission connection with the supporting platform so as to drive the supporting platform to move.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are required for the embodiments or the description of the prior art will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural diagram of a support platform according to an embodiment of the present disclosure;

FIG. 2 is an exploded view of the support platform provided by the embodiment of FIG. 1;

fig. 3 is a schematic structural diagram of a displacement mechanism according to an embodiment of the present application.

Reference numerals:

10. a support platform;

100. a tray; 110. a clearance structure; 120. a carrier; 130. a carrying member; 140. a support;

200. a support table; 210. an adsorption plane; 211. an adsorption zone; 220. a receiving groove; 221. a groove; 230. an empty-avoiding groove;

20. and a displacement structure.

DETAILED DESCRIPTION OF EMBODIMENT (S) OF INVENTION

In order to make the technical problems, technical schemes and beneficial effects to be solved by the present application more clear, the present application is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the present application.

It should be noted that when a meta-structure is referred to as being "fixed" or "disposed" on another meta-structure, it may be directly on the other meta-structure or indirectly on the other meta-structure. When a meta-structure is referred to as being "connected to" another meta-structure, it can be directly connected to the other meta-structure or indirectly connected to the other meta-structure.

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 or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the present application and simplify description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present application.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of some applications, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

At present, most brittle materials such as glass and the like are cut and split by adopting laser processing equipment.

However, the supporting platform in the current laser processing equipment is not suitable for feeding materials such as thin glass and the like, and the glass is easily broken in the feeding process.

To this end, referring to fig. 1 and 2, the present application provides a support platform including a tray 100 and a support table 200. The tray 100 is used for supporting a workpiece, which may be a thin product such as thin glass, and feeding the workpiece onto the support table 200. The support table 200 is used for supporting and fixing the tray 100 and the workpieces on the tray 100 in the vertical direction, and further supporting and fixing the workpieces is achieved.

Specifically, referring to fig. 2, the tray 100 may be provided with a space-avoiding structure 110 capable of exposing the workpiece in a vertical direction, and the space-avoiding structure 110 may expose a portion of the workpiece supported on the tray 100 at a position corresponding to the space-avoiding structure 110, so that the support table 200 may contact the workpiece through the space-avoiding structure 110 to support the workpiece when the tray 100 is placed on the support table 200.

For example, the space avoiding structure 110 may include through holes disposed on the tray 100, where the through holes enable the part of the workpiece supported on the tray 100 at the position corresponding to the through holes to be exposed in the vertical direction, and the number of the through holes may be plural, that is, the number of the space avoiding structures 110 may be plural, for example, the number of the through holes may be determined according to the number of products to be cut and formed by the workpiece, that is, each through hole may correspond to one product forming part of the workpiece, so that the supporting table 200 can support the product forming part, and stability and precision of cutting the part are ensured.

The space avoiding structure 110 may also include a portion removed from the edge of the tray 100, so that the workpiece may protrude from the edge of the tray 100 in the horizontal direction, in some embodiments, the area of the workpiece may be larger than that of the tray 100, so that the portion of the workpiece protruding from the edge of the tray 100 may be exposed in the vertical direction, and the supporting table 200 may support the portion of the workpiece protruding from the edge of the tray 100.

Of course, the space-avoiding structure 110 may also include a through hole formed on the tray 100 and a portion removed from the edge of the tray 100.

The support table 200 has an adsorption plane 210, and the adsorption plane 210 is used for adsorbing the workpieces on the tray 100.

The adsorption plane 210 may be provided with a receiving groove 220, and the receiving groove 220 is used for receiving the tray 100. When the tray 100 is placed in the accommodating groove 220, the adsorption plane 210 can adsorb the workpiece through the empty-avoiding structure 110 on the tray 100.

During loading, the tray 100 supporting the workpiece is loaded onto the adsorption plane 210 of the supporting table 200, and the tray 100 is accommodated in the accommodating groove 220 on the adsorption plane 210, so that the adsorption plane 210 can adsorb the workpiece through the clearance structure 110 on the tray 100.

That is, when the workpiece is loaded, the workpiece can be loaded onto the tray 100, and then transferred onto the adsorption plane 210 of the supporting table 200 through the tray 100, meanwhile, the tray 100 is provided with the empty-avoiding structure 110 capable of exposing the workpiece in the vertical direction, and the adsorption plane 210 is provided with the accommodating groove 220 for accommodating the tray 100, so that when the tray 100 is transferred into the accommodating groove 220, the adsorption plane 210 on the supporting table 200 can adsorb the workpiece through the empty-avoiding structure 110, and loading of the workpiece is realized. In this embodiment, when a thin workpiece is loaded, the tray 100 supports the thin workpiece, and the workpiece can be prevented from being broken during loading.

Referring to fig. 2, in some embodiments, the accommodating groove 220 may divide the adsorption plane 210 into a plurality of adsorption areas 211, and a clearance structure 110 is disposed on the tray 100 corresponding to each adsorption area 211, so that each adsorption area 211 can adsorb a workpiece through the corresponding clearance structure 110, thereby ensuring the adsorption effect on the workpiece.

For example, as shown in fig. 2, the receiving groove 220 may divide the adsorption plane 210 into an adsorption region 211 of the outer ring portion and an adsorption region 211 of the inner portion surrounded by the receiving groove 220. In addition, the accommodating groove 220 may further divide the suction area 211 of the inner portion into a plurality of independent suction areas 211, so that the suction areas 211 can be provided at each position of the workpieces on the tray 100 as much as possible, and the accuracy of the division can be ensured in the process of dividing the workpieces into a plurality of products.

In some embodiments, the thickness of the portion of the tray 100 located in the accommodating groove 220 is less than or equal to the depth of the accommodating groove 220, so that the adsorption plane 210 of the support table 200 can contact with the workpiece through the clearance structure 110, and the adsorption effect on the workpiece is ensured.

For example, when the thickness of the portion of the tray 100 located in the receiving groove 220 is exactly equal to the depth of the receiving groove 220, the work pieces on the tray 100 can exactly contact the tray 100 and the adsorption plane 210 after the tray 100 is placed in the receiving groove 220.

When the thickness of the portion of the tray 100 located in the receiving groove 220 is smaller than the depth of the receiving groove 220, after the tray 100 is placed in the receiving groove 220, the workpiece on the tray 100 is supported by the adsorption plane 210, and the tray 100 is separated from the workpiece, in such a manner that the adsorption plane 210 can be ensured to be in contact with the workpiece.

In some embodiments, the size of the accommodating groove 220 is adapted to the size of the tray 100, so that the accommodating groove 220 can just accommodate the tray 100, so as to position the tray 100, improve the precision of feeding the tray 100 onto the supporting table 200, and further improve the precision of feeding the workpiece.

For example, referring to fig. 2, the width of the receiving groove 220 may be the same as the width of the portion of the tray 100 located in the receiving groove 220 to position the tray 100 and prevent the tray 100 from moving in the receiving groove 220.

Specifically, referring to fig. 3, the receiving groove 220 includes a plurality of grooves 221 connected to each other, and at least a portion of the grooves 221 are disposed corresponding to a processing position of the workpiece, so that the cutting device can be prevented from damaging the suction plane 210 when the cutting device cuts or splits the workpiece.

For example, referring to fig. 2, the plurality of grooves 221 may be connected to form an annular structure that may divide the adsorption plane 210 into an adsorption region 211 of the outer ring portion and an adsorption region 211 of the inner portion surrounded by the annular structure. In addition, the inner part may be further provided with grooves 221, and the grooves 221 are connected with the grooves 221 of the ring structure to subdivide the suction area 211 of the inner part into a plurality of independent suction areas 211.

It can be appreciated that, since the groove 221 is used for accommodating the tray 100, the tray 100 is used for contacting with and supporting the workpiece, when the groove 221 exactly corresponds to the processing position of the workpiece, it means that the portion of the tray 100 located in the groove 221 also exactly corresponds to the processing position of the workpiece, so when the cutting device processes the processing position of the workpiece, it corresponds to the position of the tray 100, and damage to the adsorption plane 210 can be well avoided.

Referring to fig. 2, the tray 100 may further include a carrying member 120 and a carrying member 130, the carrying member 120 is used for supporting a workpiece, the carrying member 120 is provided with a clearance structure 110, the carrying member 130 is disposed on the carrying member 120, and a worker can carry the tray 100 through the carrying member 120.

For example, the handling member 130 may be disposed opposite sides of the carrier 120, or the handling member 130 may be disposed on a surface of the carrier 120 on a side near the workpiece.

When the carrying member 130 is disposed on two opposite sides of the carrier 120, the carrying member 130 is prevented from interfering with the workpiece on the carrier 120, and at this time, the suction plane 210 may be provided with a void slot 230 for accommodating the carrying member 130.

When the tray 100 is loaded onto the adsorption plane 210 of the supporting table 200, the carrier 120 is accommodated in the accommodating groove 220, and the transporting member 130 is accommodated in the empty avoiding groove 230. The carrying member 130 may be a handle, or the carrying member 130 may include an extension portion extended from a side of the carrier 120 and a handle disposed on the extension portion.

Referring to fig. 2, in some embodiments, the empty-avoiding groove 230 extends toward the edge of the support table 200, and an opening is formed at the edge of the support table 200, and the carrying member 130 extends out of the opening, in a manner that facilitates the placement of the tray 100 into the receiving groove 220 by a worker, and the removal of the tray 100 from the receiving groove 220.

Referring to fig. 2, the tray 100 may further include a supporting member 140, where the supporting member 140 is disposed at an end of the carrier 120 away from the workpiece, for supporting the carrier 120, so that at least a portion of the edge of the carrier 120 can be suspended, so as to facilitate the operator to carry the carrier 120 through the suspended portion.

For example, referring to fig. 2, the supporting member 140 may be disposed at four corners of the end of the supporting member 120 away from the workpiece, so as to ensure smooth supporting of the supporting clamp, and at the same time, enable the edge portion of the supporting member 140 to be suspended. Wherein the support 140 may be a cylindrical structure.

It is understood that, in some embodiments, when the thickness of the tray 100 located in the receiving groove 220 is less than or equal to the depth of the receiving groove 220, the thickness formed by connecting the bearing 120 and the supporting member 140 correspondingly located in the receiving groove 220 should be said to be less than or equal to the depth of the receiving groove 220.

In addition, referring to fig. 3, the present application further provides a displacement mechanism, which includes a displacement structure 20 and the support platform 10 in the above embodiment, where the displacement structure 20 is in transmission connection with the support platform 10 to drive the support platform 10 to move.

For example, after the workpiece is fed onto the support platform 10, the displacement structure 20 can drive the support platform 10 to drive the workpiece to move to the corresponding station. Wherein displacement structure 20 may be a motion platform.

The foregoing description of the preferred embodiments of the present utility model is not intended to limit the utility model to the particular forms disclosed, but on the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the utility model.

Claims (10)

1. A support platform, comprising:

a tray for supporting a workpiece, the tray being provided with a clearance structure capable of exposing the workpiece in a vertical direction; and

the supporting table is provided with an adsorption plane, the adsorption plane is provided with a containing groove, and the containing groove is used for containing the tray, so that the adsorption plane can adsorb the workpiece through the clearance structure.

2. The support platform of claim 1, wherein the receiving slot separates the suction plane into a plurality of suction areas, and the tray is provided with the clearance structure corresponding to each suction area.

3. The support platform of claim 1, wherein a thickness of the tray in the receiving groove is less than or equal to a depth of the receiving groove to enable the suction plane to contact the workpiece.

4. The support platform of claim 1, wherein the receiving slot is sized to fit the tray such that the receiving slot is just capable of receiving the tray to position the tray.

5. The support platform of any one of claims 1 to 4, wherein the receiving slot comprises a plurality of interconnected grooves, at least some of the grooves being disposed corresponding to a processing location of the workpiece.

6. The support platform of any one of claims 1 to 4, wherein the tray comprises a carrier for supporting the workpiece, the carrier being provided with the clearance structure, and a carrier disposed on the carrier.

7. The support platform of claim 6, wherein the handling members are disposed on opposite sides of the carrier, and the suction plane is provided with a void for receiving the handling members.

8. The support platform of claim 7, wherein the void-avoidance slot extends in a direction toward an edge of the support platform and forms an opening in the edge of the support platform, the carrier extending beyond the opening.

9. The support platform of claim 6, wherein the tray further comprises a support member disposed at an end of the carrier remote from the workpiece to enable at least a portion of an edge of the carrier to be suspended.

10. A displacement mechanism comprising a displacement structure and a support platform according to any one of claims 1 to 9, the displacement structure being in driving connection with the support platform to drive the support platform to move.