CN214086607U - Non-contact vacuum chuck tool - Google Patents

Abstract

The utility model relates to the technical field of positioning jigs, in particular to a non-contact vacuum chuck jig; the vacuum suction nozzle comprises a bracket, wherein a reference plate is vertically arranged on the bracket, a bottom plate is arranged on the front side of the reference plate, a positioning mechanism, a vacuum suction nozzle and a plurality of supporting blocks are arranged on the bottom plate, and the supporting blocks are fixedly connected with the bottom plate so as to form a supporting plane arranged at intervals with the bottom plate on the front side of the bottom plate; the vacuum suction nozzle is arranged among the support blocks, the vacuum suction nozzle is fixedly connected with the bottom plate, and the adsorption surface of the vacuum suction nozzle is arranged at intervals with the support plane; the utility model discloses rational in infrastructure, the vertical setting of bottom plate is on the support, and the product blowing is on the supporting plane of bottom plate, and vacuum nozzle adopts non-contact with the product to be connected, and the suction that vacuum nozzle produced makes the product stable on the supporting shoe to under the regulation of horizontal push rod and vertical push rod, make the product contradict with layer board and reference column, guarantee the position accuracy nature of product on the tool.

Description

Non-contact vacuum chuck tool

Technical Field

The utility model relates to a positioning jig technical field specifically indicates a non-contact vacuum chuck tool.

Background

With the development of science and technology and the improvement of industrialization level, in many industrial production scenes, the higher automation degree also means the faster production efficiency. In actual production, a multi-process production line adopts a segmented processing mode more, and process complexity is different among the processes. Because the materials need to flow through a plurality of processing stations in the processes of transmission, carrying, assembly and the like on the production line, and a plurality of working sections have higher requirements for positioning the products, the assembly, the test and the like of the products can be ensured to be carried out smoothly only by ensuring the position precision of the products. The product circulation is generally carried out through transferable tool on the production line, and the tool generally divide into mechanical centre gripping formula and vacuum chuck formula to the fixed mode of product. Product and tool need be placed perpendicularly in some processing links, drop very easily behind the artifical blowing and cause the damage of colliding with of product, still need carry out the accurate positioning after the product is placed, current ordinary sucking disc passes through vacuum adsorption with the product fix on the tool after, because frictional force between product and the tool is too big, the product can not move on the tool and carry out position control, just also can't realize position accuracy and adjust and control. If the position of the whole jig is adjusted, the complexity of the equipment is increased greatly.

Accordingly, the prior art is yet to be improved and developed.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a rational in infrastructure, can carry out position control's non-contact vacuum chuck tool on vertical tool to prior art's defect and not enough.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model discloses a non-contact vacuum chuck tool, including the support, the vertical benchmark board that is equipped with on the support, the front side of benchmark board is equipped with the bottom plate, is equipped with positioning mechanism, vacuum suction nozzle and a plurality of supporting shoe on the bottom plate, and a plurality of supporting shoes and bottom plate fixed connection and then constitute the support plane rather than the interval setting in the front side of bottom plate; the vacuum suction nozzle is arranged among the supporting blocks, fixedly connected with the bottom plate and arranged at intervals between the adsorption surface of the vacuum suction nozzle and the supporting plane.

According to the scheme, the positioning mechanism comprises supporting plates, positioning columns and a correcting mechanism, the supporting plates are arranged on the lower end edge of the bottom plate, and the positioning columns are arranged on one side edge of the bottom plate.

According to the scheme, the correcting mechanism comprises a longitudinal cylinder, a plurality of longitudinal push rods capable of translating along the supporting plane are arranged on the bottom plate, the longitudinal cylinder is fixedly connected with the reference plate, a longitudinal movable frame is arranged on an output shaft of the longitudinal cylinder, the longitudinal push rods are arranged opposite to the supporting plate, and the upper ends of the longitudinal push rods are fixedly connected with the longitudinal movable frame respectively.

According to above scheme, aligning gear still includes horizontal cylinder, is equipped with a plurality of horizontal push rods that can follow the translation of support plane on the bottom plate, horizontal cylinder and benchmark board fixed connection are equipped with horizontal adjustable shelf on the output shaft of horizontal cylinder, and a plurality of horizontal push rods set up with the reference column relatively, and the outer end of a plurality of horizontal push rods respectively with horizontal adjustable shelf fixed connection.

According to the scheme, the reference plate is provided with a plurality of structural blocks, and the structural blocks are respectively and fixedly connected with the bottom plate so as to enable the bottom plate and the reference plate to be arranged at intervals; the vacuum suction nozzle is fixedly arranged on the central through hole, and the vacuum suction nozzle is communicated with the air pipe joint.

According to the scheme, the support is provided with the guide rail and the driving device, the guide rail is provided with the connecting block capable of moving along the guide rail, the connecting block is fixedly connected with the reference plate, and the driving device is connected with the reference plate through the transmission mechanism.

The utility model discloses beneficial effect does: the utility model discloses rational in infrastructure, the vertical setting of bottom plate is on the support, and the product blowing is on the supporting plane of bottom plate, and vacuum nozzle adopts non-contact with the product to be connected, and the suction that vacuum nozzle produced makes the product stable on the supporting shoe to under the regulation of horizontal push rod and vertical push rod, make the product contradict with layer board and reference column, guarantee the position accuracy nature of product on the tool.

Drawings

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

fig. 2 is a schematic view of the overall exploded structure of the present invention.

In the figure:

1. a support; 2. a reference plate; 3. a base plate; 4. a vacuum nozzle; 11. a support; 12. a drive device; 21. a longitudinal cylinder; 22. a longitudinal push rod; 23. a longitudinal movable frame; 24. a transverse cylinder; 25. a transverse push rod; 26. a transverse movable frame; 27. a structural block; 31. a support block; 32. a support plate; 33. a positioning column; 34. a central through hole; 41. a gas pipe joint.

Detailed Description

The technical solution of the present invention will be described below with reference to the accompanying drawings and examples.

As shown in fig. 1, the non-contact vacuum chuck jig of the present invention comprises a support 1, a reference plate 2 is vertically disposed on the support 1, a bottom plate 3 is disposed on the front side of the reference plate 2, a positioning mechanism, a vacuum suction nozzle 4 and a plurality of supporting blocks 31 are disposed on the bottom plate 3, the plurality of supporting blocks 31 are fixedly connected to the bottom plate 3, and a supporting plane is formed on the front side of the bottom plate 3 at intervals; the vacuum suction nozzles 4 are arranged among the support blocks 31, the vacuum suction nozzles 4 are fixedly connected with the bottom plate 3, and the adsorption surfaces of the vacuum suction nozzles 4 are arranged at intervals with the support planes. The supporting blocks 31 form a supporting plane for placing products on the bottom plate 3, the vacuum suction nozzles 4 are arranged at intervals with the supporting plane and are in non-contact connection with the products, the vacuum suction nozzles 4 enable the products to be fixed on the supporting plane through suction, and then the positions of the products on the bottom plate 3 are adjusted through the positioning mechanism, so that the position accuracy of the products on the jig is guaranteed.

Positioning mechanism includes layer board 32, reference column 33 and aligning gear, and the lower extreme edge of bottom plate 3 is equipped with a plurality of layer boards 32, is equipped with a plurality of reference columns 33 on one of them side of bottom plate 3, layer board 32 constitutes 3 vertical ascending bottoms of side of bottom plate spacing, and reference column 33 constitutes 3 ascending side direction spacing of horizontal direction of bottom plate, and the product carries out vertical and horizontal position control under aligning gear's drive to conflict layer board 32 and reference column 33 realize accurate positioning.

The correcting mechanism comprises a longitudinal cylinder 21, a plurality of longitudinal push rods 22 capable of translating along a supporting plane are arranged on the bottom plate 3, the longitudinal cylinder 21 is fixedly connected with the reference plate 2, a longitudinal movable frame 23 is arranged on an output shaft of the longitudinal cylinder 21, the longitudinal push rods 22 are arranged opposite to the supporting plate 32, and the upper ends of the longitudinal push rods 22 are fixedly connected with the longitudinal movable frame 23 respectively. The longitudinal push rod 22 is driven by the longitudinal cylinder 21 to translate along the support plane, and the longitudinal push rod 22 pushes the product to move towards the supporting plate 32 until the two abut against each other so as to complete the longitudinal position adjustment of the product on the bottom plate 3.

The correcting mechanism further comprises a transverse cylinder 24, a plurality of transverse push rods 25 capable of translating along a supporting plane are arranged on the bottom plate 3, the transverse cylinder 24 is fixedly connected with the reference plate 2, a transverse movable frame 26 is arranged on an output shaft of the transverse cylinder 24, the transverse push rods 25 are arranged opposite to the reference column 33, and the outer ends of the transverse push rods 25 are fixedly connected with the transverse movable frame 26 respectively. The transverse push rod 25 is driven by the transverse cylinder 24 to translate along the support plane, and the transverse push rod 25 pushes the product to move towards the positioning column 23 until the two abut against each other, so that the transverse position adjustment of the product on the bottom plate 3 is completed.

The base plate 2 is provided with a plurality of structure blocks 27, and the plurality of structure blocks 27 are respectively and fixedly connected with the bottom plate 3 so as to enable the bottom plate 3 and the base plate 2 to be arranged at intervals; the air pipe connector 41 is arranged on the reference plate 2, the central through hole 34 is formed in the bottom plate 3, the central through hole 34 is arranged at equal intervals with the supporting blocks 31 respectively, the vacuum suction nozzle 4 is fixedly arranged on the central through hole 34, and the vacuum suction nozzle 4 is communicated with the air pipe connector 41. The structure block 27 forms an installation space between the base plate 3 and the reference plate 2 to dispose the longitudinal and lateral cylinders 21 and 24 and the air pipe joint 41.

The support 1 is provided with a guide rail 11 and a driving device 12, the guide rail 11 is provided with a connecting block which can move along the guide rail and is fixedly connected with the reference plate 2, and the driving device 12 is connected with the reference plate 2 through a transmission mechanism. The driving device 12 can drive the reference plate 2 to move longitudinally or transversely through the transmission mechanism, so that the jig moves integrally to convey a product to the next process step.

The above is only the preferred embodiment of the present invention, so all the equivalent changes or modifications made by the structure, features and principles in accordance with the claims of the present invention are included in the claims of the present invention.

Claims (6)

1. The utility model provides a non-contact vacuum chuck tool, includes support (1), vertically on support (1) is equipped with benchmark board (2), its characterized in that: a bottom plate (3) is arranged on the front side of the reference plate (2), a positioning mechanism, a vacuum suction nozzle (4) and a plurality of supporting blocks (31) are arranged on the bottom plate (3), and the supporting blocks (31) are fixedly connected with the bottom plate (3) to form a supporting plane arranged at intervals with the bottom plate (3) on the front side of the bottom plate; the vacuum suction nozzle (4) is arranged among the support blocks (31), the vacuum suction nozzle (4) is fixedly connected with the bottom plate (3), and the adsorption surface of the vacuum suction nozzle (4) and the support plane are arranged at intervals.

2. The non-contact vacuum chuck jig of claim 1, wherein: the positioning mechanism comprises a supporting plate (32), positioning columns (33) and a correcting mechanism, the lower end edge of the bottom plate (3) is provided with the supporting plates (32), and one side edge of the bottom plate (3) is provided with the positioning columns (33).

3. The non-contact vacuum chuck jig of claim 2, wherein: the correcting mechanism comprises a longitudinal cylinder (21), a plurality of longitudinal push rods (22) capable of translating along a supporting plane are arranged on the bottom plate (3), the longitudinal cylinder (21) is fixedly connected with the reference plate (2), a longitudinal movable frame (23) is arranged on an output shaft of the longitudinal cylinder (21), the longitudinal push rods (22) are arranged opposite to the supporting plate (32), and the upper ends of the longitudinal push rods (22) are fixedly connected with the longitudinal movable frame (23) respectively.

4. The non-contact vacuum chuck jig of claim 2, wherein: the correcting mechanism further comprises a transverse cylinder (24), a plurality of transverse push rods (25) capable of translating along a supporting plane are arranged on the bottom plate (3), the transverse cylinder (24) is fixedly connected with the reference plate (2), a transverse movable frame (26) is arranged on an output shaft of the transverse cylinder (24), the transverse push rods (25) are arranged opposite to the reference column (33), and the outer ends of the transverse push rods (25) are fixedly connected with the transverse movable frame (26) respectively.

5. The non-contact vacuum chuck jig of claim 1, wherein: the base plate (2) is provided with a plurality of structure blocks (27), and the plurality of structure blocks (27) are respectively and fixedly connected with the bottom plate (3) so as to enable the bottom plate (3) and the base plate (2) to be arranged at intervals; the vacuum suction nozzle is characterized in that an air pipe connector (41) is arranged on the reference plate (2), a central through hole (34) is formed in the bottom plate (3), the central through hole (34) is arranged at intervals with a plurality of supporting blocks (31) at equal intervals, the vacuum suction nozzle (4) is fixedly arranged on the central through hole (34), and the vacuum suction nozzle (4) is communicated with the air pipe connector (41).

6. The non-contact vacuum chuck jig of claim 1, wherein: the device is characterized in that a guide rail (11) and a driving device (12) are arranged on the support (1), a connecting block capable of moving along the guide rail (11) is arranged on the guide rail and fixedly connected with the reference plate (2), and the driving device (12) is connected with the reference plate (2) through a transmission mechanism.

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