CN117124261B - Adsorption plate and compound partition adsorption ballast table - Google Patents

Abstract

The invention provides an adsorption plate and a compound partition adsorption platform, wherein the adsorption plate comprises a adsorption plate main body, the adsorption plate main body is divided into a normally open adsorption area and an intelligent adsorption area, and the intelligent adsorption area is arranged to extend outwards from the normally open adsorption area; air holes are formed in the normally open adsorption area and the intelligent adsorption area, wherein air chambers formed by different adsorption areas of the normally open adsorption area and the intelligent adsorption area are not communicated with each other at intervals; the movable blocking block of the bellows with the variable air suction volume is driven by the bellows driving assembly to move in the bellows air chamber, so that the volume of the bellows air chamber is gradually changed and the adsorption plate is sucked; the compound partition suction platform adopts the partition suction plate and the bellows arranged in different directions, is arranged in a partition mode through the suction plate, and the intelligent suction area and the bellows corresponding to the intelligent suction area are driven step by step to change the suction area, so that products of different specifications are adapted, and the compound partition suction platform is convenient to popularize and apply in the field of the platform carrier required by the detection and processing of the boards such as PCBs.

Description

Adsorption plate and compound partition adsorption ballast table

Technical Field

The invention relates to the field of adsorption carriers, in particular to an adsorption plate and a compound partition adsorption carrier.

Background

In the field of high-precision machining or detection, the material carrier is used as a bearing mechanism, has the structural key points of basic difference or systematic deviation, and the precision and the adaptation range determine the application range of the material carrier.

The traditional carrier adsorption positioning needs to be used for positioning and adsorbing the whole surface or positioning and adsorbing the whole surface in blocks or areas, so that the problems of inaccurate positioning and excessive adsorption of nonstandard products to be processed are caused. Therefore, there is a need for a stepless or progressive adsorption positioning stage for processing and inspection of desired stages.

Disclosure of Invention

In order to overcome the defects in the prior art, the invention aims to provide an adsorption plate, an air box and a compound partition ballast sucking table, which can solve the problems.

An adsorption plate comprises an adsorption plate main body, wherein the adsorption plate main body is divided into a plurality of adsorption subareas, air holes are formed in each adsorption subarea, the air holes are formed in the plate surface of the adsorption plate main body vertically or from the side edge of the adsorption plate main body, and spacing convex strips are arranged at the adjacent positions of each adsorption subarea for separation.

Further, the plurality of suction areas are respectively provided with a normally open adsorption area and an intelligent adsorption area, and the intelligent adsorption area is arranged to extend outwards from the normally open adsorption area; the intelligent adsorption zone comprises a first step-by-step adsorption zone and a second step-by-step adsorption zone.

Further, the normally open adsorption zone is provided with normally open air holes, the first step-by-step adsorption zone is provided with a plurality of first direction air holes at equal intervals along a first direction, and the second step-by-step adsorption zone is provided with a plurality of second direction air holes at equal intervals along a second direction.

Further, a plurality of interval groove bodies are arranged in the normally open adsorption area and the intelligent adsorption area, and ventilation grooves formed by adjacent interval groove bodies are communicated with each other and communicated with air holes in the respective areas.

The invention also provides an air box with variable air extraction volume, which comprises an air box driving assembly, a movable plugging block, an air box body and an air extraction pipe joint assembly; the movable blocking block is arranged in the air box body and is in driven connection with the air box driving assembly, the exhaust pipe joint assembly is arranged at the position, close to the end part, of the air box body, and one end of the exhaust pipe joint assembly is communicated with the air box body and is used for exhausting air to the air box body; and an extraction opening is formed in the top of the bellows body.

Further, the air extraction opening is formed by the top opening of the whole air box body, or is formed by a plurality of air extraction holes formed in the top plate of the air box body, and the utilization number of the air extraction holes changes along with the movement of the movable plugging block (24).

The invention also provides a compound partition suction ballast table, which comprises a partition suction plate, a plurality of bellows arranged in different directions, a suction cover plate and a pressing positioning assembly; the partition suction plate adopts the adsorption plate, and the bellows with variable suction volume are adopted as the bellows; the air extraction opening of the air box is controllably communicated with the air holes of the corresponding subareas of the subarea suction plate; the adsorption cover plate is arranged above the partition suction plate.

Compared with the prior art, the invention has the beneficial effects that: the utility model discloses a novel structure adsorbs the board subregion setting, and intelligence adsorbs district and the bellows drive that corresponds step by step changes adsorption area to the product of this adaptation different specifications, be convenient for detect at panel such as PCB, the required carrier field popularization and application of processing scene.

Drawings

FIG. 1 is a schematic view of a zoned suction plate according to the present invention;

FIG. 2 is a schematic illustration of different examples of zoned suction plates;

FIG. 3 is a schematic view of a bellows;

FIG. 4 is a schematic diagram of a composite zoned suction ballast table;

fig. 5 is an exploded view of the compound zone suction ballast table.

In the drawing the view of the figure,

10. partition suction plates; 11. a suction plate main body; 12. a normally open adsorption zone; 13. a first progressive adsorption zone; 14. a second progressive adsorption zone; 15. a normally open air vent; 16. a first direction air hole; 17. air holes in the second direction;

20. a wind box; 21. the bellows drives the motor; 22. a bellows screw rod; 23. bearing seat at the end of bellows; 24. a movable plugging block; 25. a bellows body; 26. an exhaust pipe joint assembly; 27. an extraction opening;

30. an adsorption cover plate;

40. the whole side edge moves the pressing plate module;

50. a side driving unit;

60. a side spinning module;

70. calibrating a ruler;

80. and (5) positioning blocks.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are some embodiments of the present invention, but not all embodiments of the present invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

It should be appreciated that "system," "apparatus," "unit," and/or "module" as used in this specification is a method for distinguishing between different components, elements, parts, portions, or assemblies at different levels. However, if other words can achieve the same purpose, the words can be replaced by other expressions.

Adsorption plate

Referring to fig. 1-5, the adsorption plate comprises a suction plate main body 11, wherein the suction plate main body 11 is divided into a plurality of adsorption subareas, air holes are formed in each adsorption subarea, the air holes are vertically formed in the plate surface of the suction plate main body 11 or are formed in the side edge of the suction plate main body 11, and spacing raised strips are arranged at adjacent positions of each adsorption subarea for separation. Referring to fig. 1, the air chambers formed by the adsorption subareas are not communicated with each other at intervals, and the spacing convex strips are adopted to separate the subareas in the illustration.

When the adsorption device is used, although all the air holes are fixed and normally open, the connected air extraction area is adjustable, so that all or part of the air holes on all the adsorption subareas are utilized step by step.

The plurality of suction areas are respectively provided with a normally open adsorption area 12 and an intelligent adsorption area, and the intelligent adsorption area is arranged to extend outwards from the normally open adsorption area 12; the intelligent adsorption zone comprises a first progressive adsorption zone 13 and a second progressive adsorption zone 14.

In one example, not shown, the plurality of adsorption zones are all intelligent adsorption zones, and can be selectively utilized by gradual adsorption.

The normally open adsorption zone 12 is provided with normally open air holes 15, the first step-by-step adsorption zone 13 is provided with a plurality of first direction air holes 16 at equal intervals along a first direction, and the second step-by-step adsorption zone 14 is provided with a plurality of second direction air holes 17 at equal intervals along a second direction.

The first direction and the second direction are different and can be two vertical directions, for example, the first direction is an X direction and the second direction is a Y direction; it is also possible to have two directions (not shown) at an acute angle, and the two directions are not arranged in the X-direction or the Y-direction.

The positions of the normally open adsorption zone 12 and the intelligent adsorption zone are arranged in various ways, referring to eight schematic diagrams a-h in fig. 2, fig. 2a and 2b adopt the arrangement of the normally open adsorption zone 12 at a corner, and two intelligent adsorption sub-zones are arranged at two adjacent sides of the normally open adsorption zone 12 and extend outwards, which is different in the division forms of different intelligent adsorption zones. In fig. 2c, the normally open adsorption zone 12 is disposed in the middle, and a plurality of intelligent adsorbent sub-zones extend outwards from the periphery of the normally open adsorption zone 12. In fig. 2 d-2 h, the normally open adsorption zones are not divided, and are all gradual adsorption zones; alternatively, in fig. 2d, a normally open adsorption zone 12 may be disposed below, and an intelligent adsorption zone capable of being gradually adjusted and enlarged may be disposed above.

In a preferred example, corresponding to the example in fig. 1 and 2a, the smart adsorption zone comprises a first stepwise adsorption zone 13 and a second stepwise adsorption zone 14 (perpendicular to each other and arranged in X-and Y-directions), both adsorption zones extending outwards from both sides of the normally open adsorption zone 12. The normally open suction area 12 is provided at one corner of the suction plate main body 11, and the first stepwise suction sub-area 13 and the second stepwise suction sub-area 14 extend outwardly from both inner side edges of the normally open suction area 12.

Of course, the normally open adsorption zone 12 may be disposed at any position such as the middle of the suction plate main body 11, and the corresponding first step-by-step adsorption sub-zone 13 and second step-by-step adsorption sub-zone 14 may be disposed singly or in plurality.

In order to realize the division of the regions, referring to fig. 1, the normally open adsorption zone 12, the first step-by-step adsorption sub-zone 13 and the second step-by-step adsorption sub-zone 14 are provided with separation ribs therebetween.

Referring to fig. 1, the normally open adsorption zone 12 is provided with normally open air holes 15, the first step-by-step adsorption zone 13 is provided with a plurality of first direction air holes 16 at equal intervals along the X direction, and the second step-by-step adsorption zone 14 is provided with a plurality of second direction air holes 17 at equal intervals along the Y direction.

For different intelligent adsorption subareas, the open air holes can be arranged at intervals in a straight line, such as in a straight line along one direction, such as in an X direction or a Y direction, and the air holes are aligned; of course, the air holes can also be obliquely arranged and staggered. The interval may be equal, may be gradually smaller or larger, or may be locally changed.

Not shown, a plurality of interval groove bodies are arranged in the normally open adsorption area 12 and the intelligent adsorption area, and ventilation grooves formed by adjacent interval groove bodies are communicated with each other and with air holes in the respective areas. Generally, a plurality of interval groove bodies in each area are arranged in the same direction and are arranged at equal intervals, and certainly, according to the simulation of the adsorption force, the interval can be thickened at the place with weak adsorption force, and the extraction quantity can be increased. The arrangement directions of the spacing groove bodies in different areas can be the same or different, and in order to be convenient for division or easy for distinction, different arrangement directions are preferable.

In fig. 1, the normally open air hole 15, the first direction air hole 16 and the second direction air hole 17 are penetrating through the adsorption plate, alternatively, in the case of arranging a plurality of spaced grooves in the normally open adsorption area 12 and the intelligent adsorption area, the air holes may be formed at the side of the corresponding area of the air channel formed by a plurality of spaced grooves in each area, that is, the side of the adsorption plate corresponding to each air channel is penetrating through.

In specific examples, the air holes are in the form of circles, rectangles, slotted holes with round heads, and the like. The width of the groove body is the same as that of the spacing groove body, and the width of the groove body can be different, so that the groove body is convenient to process, and the same width is selected as a preferable example.

Wherein the directions of the spacing groove bodies of the first step-by-step adsorption subarea 13 and the second step-by-step adsorption subarea 14 are different. In the illustrated example, the directions of the spacing grooves of the first step-by-step adsorption sub-area 13 and the second step-by-step adsorption sub-area 14 are perpendicular, and the directions of the spacing grooves of the second step-by-step adsorption sub-area 14 and the normally open adsorption area 12 are the same, but may be different.

Further, not shown in the figure, a plurality of calibration notches and a compression cylinder mounting notch are formed on the side edge of the suction plate main body 11.

Further, a calibration ruler mounting area is also arranged on the side edge of the suction plate main body 11.

Bellows

A variable bleed volume bellows, see fig. 3 and 5, includes a bellows drive assembly, a movable block 24, a bellows body 25, and a bleed tube joint assembly 26; the movable blocking block 24 is arranged in the air box body 25 and is in driven connection with the air box driving assembly, the exhaust pipe joint assembly 26 is arranged at the position, close to the end part, of the air box body 25, and one end of the exhaust pipe joint assembly 26 is communicated into the air box body 25 and is used for exhausting air to the air box body 25; an air extraction opening 27 is formed in the top of the air box body 25.

The bellows body 25 is internally provided with a bellows air chamber with variable volume from the movable blocking block 24 to the adjacent end of the exhaust pipe joint assembly 26. A movable block 24 is disposed within the bellows air chamber and is connected to the movable end of the bellows drive assembly. The air extraction pipe joint assembly 26 is arranged near the end of the air box body 25, and can be an end plate near the end or a bottom plate or a side plate.

The form of the air suction pipe joint assembly 26 is not limited, and the air suction pipe joint assembly can be connected with an external vacuum source to suck air into the bellows body 25, such as the form of an air pipe and a flange plate, or can be formed by an air suction base and an air suction pipe, and the air suction base is arranged on the bellows body 25.

The movable blocking block 24 is driven by the bellows driving assembly to move in the bellows air chamber, so that the volume of the bellows air chamber is gradually changed, namely, the area of the available pumping hole 27 is correspondingly changed.

The air extraction opening 27 is formed by the top opening of the whole air box body 25, or is formed by a plurality of air extraction holes formed in the top plate of the air box body 25, and the air extraction holes comprise adjustable air extraction holes and air box normally open air extraction holes, wherein the air box normally open air extraction holes are permanently normally open, and the adjustable air extraction holes are moved along with the movable plugging block 24 to select the utilization number of the adjustable air extraction holes corresponding to the air box volume.

The bellows driving assembly adopts any mechanism for realizing linear driving, such as a motor screw mechanism, a linear motor mechanism and the like, wherein the motor screw mechanism comprises a bellows driving motor 21, a bellows screw 22 and a bellows end bearing seat 23, a movable blocking block 24 is arranged on the bellows screw 22, and is driven to move along the bellows screw 22, so that the volume of the bellows is adjusted.

Composite partition suction ballast table

Referring to fig. 4 and 5, the composite partition suction mount comprises a partition suction plate 10, a plurality of bellows 20 arranged in different directions, a suction cover plate 30 and a pressing positioning assembly; wherein, the partition suction plate 10 adopts the adsorption plate, and the bellows 20 adopts the bellows with variable suction volume.

A plurality of bellows 20 are provided below or to the side of the partition suction plate 10. When arranged below, the air extraction opening 27 of the air box 20 is controllably communicated with the air holes of the corresponding subareas of the subarea suction plate 10. When the air suction port 27 is arranged on the side, the air suction port 27 is correspondingly communicated with the side openings of the adsorption areas, namely, the air holes formed on the side of the adsorption plate are correspondingly communicated with the air suction port 27 of the air box 20.

The adsorption cover plate 30 is arranged above the partition suction plate 10; may take the form of a mesh sheet which requires adequate ventilation and a certain degree of surface area.

For the extraction opening 27 formed by the adjustable extraction hole and the normally open extraction hole of the bellows, the normally open extraction hole of the bellows is correspondingly arranged with the normally open air hole 15 of the normally open adsorption zone 12, and the adjustable extraction hole of the bellows 20 is correspondingly arranged with the air hole of the intelligent adsorption zone.

Of course, for the partition suction plate 10 which is an intelligent suction area, no normally open suction area is set, and then the bellows 20 matches each suction area and the suction area is changed step by step.

Wherein the pressing positioning assembly comprises a whole-side moving platen module 40, a side driving unit 50 and/or a plurality of side spinning modules 60; the whole-side movable pressing plate module 40 is in driving connection with the side driving unit 50 and moves along the side position of the partition suction plate 10 in an adjustable way, and the whole-side movable pressing plate module 40 drives the pressing plate to press and position the product below through a lifting cylinder of the whole-side movable pressing plate module; side spinning modules 60 are optionally arranged around the partition suction plate 10, and the side spinning modules 60 drive the pressing plate to spin down to the upper surface of the partition suction plate 10 from the outer side of the partition suction plate 10 through the rotary air cylinder, so that the auxiliary pressing and positioning of the product of the adsorption cover plate 30 are realized.

Further, the compound partition suction platform further comprises a calibration module, and the calibration module comprises a calibration ruler 70 and a plurality of positioning blocks 80. The positioning block 80 includes a light-emitting lamp bead for quick recognition.

The calibration ruler 70 is disposed at one end of the suction plate main body 11, and the positioning block 80 is disposed at a plurality of calibration notches formed on a side edge of the suction plate main body 11.

The rotary cylinder of the side spinning module 60 is installed at a compressing cylinder installation notch formed on the periphery of the suction plate main body 11.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present invention, and are not limiting; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims (8)

1. An adsorption plate, characterized in that: the adsorption plate comprises a suction plate main body (11), wherein the suction plate main body (11) is divided into a plurality of adsorption subareas, air holes are formed in each adsorption subarea, the air holes are vertically formed in the plate surface of the suction plate main body (11) or are formed in the side edge of the suction plate main body (11), and spacing raised strips are arranged at the adjacent positions of each adsorption subarea for separation; the plurality of suction areas are respectively provided with a normally open adsorption area (12) and an intelligent adsorption area, and a plurality of air holes for step-by-step utilization are formed in the plurality of intelligent adsorption areas; the suction areas accessed by the plurality of adsorption subareas are adjustable, so that the air holes on each adsorption subarea are fully utilized or partially utilized step by step;

the intelligent adsorption zone of the adsorption zone is arranged to extend outwards from the normally open adsorption zone (12); the intelligent adsorption zone comprises a first step-by-step adsorption sub-zone (13) and a second step-by-step adsorption sub-zone (14);

a plurality of interval groove bodies are arranged in the normally open adsorption area (12) and the intelligent adsorption area, and ventilation grooves formed by adjacent interval groove bodies are communicated with each other and with air holes in the respective areas.

2. The adsorbent plate of claim 1, wherein: the normally open adsorption zone (12) is provided with normally open air holes (15), the first step-by-step adsorption sub-zone (13) is provided with a plurality of first direction air holes (16) at equal intervals along a first direction, and the second step-by-step adsorption sub-zone (14) is provided with a plurality of second direction air holes (17) at equal intervals along a second direction.

3. The adsorbent plate of claim 2, wherein: a plurality of calibration gaps and a compression cylinder mounting gap are formed on the side edge of the suction plate main body (11).

4. The utility model provides a compound subregion inhale ballast platform which characterized in that: the compound partition suction platform comprises a partition suction plate (10), a plurality of bellows (20) which are arranged in different directions, a suction cover plate (30) and a pressing positioning assembly; wherein the partition suction plate (10) adopts the suction plate as claimed in any one of claims 1 to 3, and the air extraction opening (27) of the air box (20) is controllably communicated with the air holes of the corresponding subareas of the partition suction plate (10); the adsorption cover plate (30) is arranged above the partition suction plate (10).

5. The compound zoned suction ballast table of claim 4, wherein: the bellows (20) adopts bellows with variable pumping volume and comprises a bellows driving assembly, a movable blocking block (24), a bellows body (25) and a pumping pipe joint assembly (26); the movable blocking block (24) is arranged in the air box body (25) and is in driven connection with the air box driving assembly, the exhaust pipe joint assembly (26) is arranged at the position, close to the end part, of the air box body (25), and one end of the exhaust pipe joint assembly (26) is communicated into the air box body (25) and is used for exhausting air to the air box body (25); an extraction opening (27) is formed in the top of the bellows body (25).

6. The compound zoned suction ballast table of claim 5, wherein: the air extraction opening (27) is formed by the top opening of the whole air box body (25) or is formed by a plurality of air extraction holes formed in the top plate of the air box body (25), and the utilization number of the air extraction holes changes along with the movement of the movable blocking block (24).

7. The compound zoned suction ballast table of claim 4, wherein: the pressing positioning assembly comprises a whole-side movable pressing plate module (40), a side driving unit (50) and/or a plurality of side spinning modules (60); the whole-surface side movable pressing plate module (40) is in driving connection with the side driving unit (50) and moves along the side position of the partition suction plate (10) in an adjustable mode, and the whole-surface side movable pressing plate module (40) drives the pressing plate to press and position a product below through a lifting cylinder of the whole-surface side movable pressing plate module; the side spinning module (60) is arranged around the partition suction plate (10) in an optional mode, and the side spinning module (60) drives the pressing plate to descend to the upper surface of the partition suction plate (10) from the outer side spinning of the partition suction plate (10) through the rotary cylinder, and is used for assisting in pressing and positioning of products of the adsorption cover plate (30).

8. The compound zoned suction ballast table of claim 4, wherein: the compound partition ballast absorbing platform further comprises a calibration module, wherein the calibration module comprises a calibration ruler (70) and a plurality of positioning blocks (80).