CN210678754U - Slice adsorption structure, screening device and installation system - Google Patents

Abstract

The utility model provides a thin slice adsorption structure, sieving mechanism and installing the system, thin slice adsorption structure adopt the negative pressure to adsorb the pore structure, the negative pressure adsorbs the pore structure and is stepped adsorption structure, and the drill way in absorption hole is located the boss that sets up on negative pressure thin slice sieving mechanism surface. A sheet screening device comprising an adsorption array; the adsorption array comprises more than two adsorption devices and can adsorb the arranged thin slices corresponding to the adsorption array; the adsorption device structure adopts the sheet adsorption structure; the device also comprises a rotating mechanism which can rotate at a set angle and speed and throw off the redundant slices which cannot be adsorbed and fixed. Compared with the prior art, the technical scheme of the utility model separate unnecessary thin slice more easily, be convenient for improve thin slice installation effectiveness.

Description

Slice adsorption structure, screening device and installation system

Technical Field

The utility model relates to a small part equipment field, in particular to thin slice adsorption structure, sieving mechanism and installing the system.

Background

With the development of industry, many industrial products are miniaturized and lightened. More and more products require many tiny parts to be assembled together in a small or extremely thin space. For example, in the lens industry of mobile phone lenses, diaphragm plates are all very thin and small sheet parts, and the traditional manual installation from picking up to installation has great difficulty and low efficiency.

In screening and mounting processes of thin sheets with light weight and small volume, the thin sheets can be mutually adhered and bonded together, certain obstruction is brought to efficient mounting, and in screening processes of the thin sheets, the thin sheets adhered and bonded together are separated based on a traditional adsorption structure, so that certain difficulty exists.

SUMMERY OF THE UTILITY MODEL

The utility model provides a thin slice adsorption structure has the detached characteristics of more easily with unnecessary thin slice.

The utility model also provides a thin slice sieving mechanism has the characteristics of be convenient for improve thin slice installation effectiveness.

The utility model also provides a thin slice installing the system, have the high efficiency of being convenient for and realize the characteristics of thin slice installation.

According to the utility model provides a pair of thin slice adsorption structure adopts the negative pressure to adsorb pore structure, the negative pressure adsorbs pore structure and is stepped adsorption structure, and the drill way in absorption hole is located the boss that sets up on negative pressure thin slice sieving mechanism surface.

The negative pressure adsorption pore structure is provided with three adsorption pores which are arranged in a triangular shape.

The three adsorption holes are all arranged on the same boss.

According to the utility model, the thin slice screening device comprises an adsorption array; the adsorption array comprises more than two adsorption devices and can adsorb the arranged thin slices corresponding to the adsorption array; the adsorption device structure adopts the sheet adsorption structure; the device also comprises a rotating mechanism which can rotate at a set angle and speed and throw off the redundant slices which cannot be adsorbed and fixed.

The negative pressure sheet screening device is made of a conductive material.

The negative pressure sheet screening device comprises a second stepping device and can drive the rotating mechanism to move in the direction perpendicular to the rotating plane.

The rotating mechanism rotates for 180 degrees.

According to the utility model, the sheet installation system comprises the negative pressure sheet screening device, a material tray, a carrying mechanism and an assembly tray;

the material tray comprises a sheet display array; the display array comprises more than two sheet display grooves; the shape and the size of the display groove are matched with those of the slices, so that the alignment and the positioning of the slices placed in the display groove are conveniently realized;

the carrying mechanism comprises a sucker array; the suction head array comprises more than two suction heads, corresponds to the display array of the material tray and can absorb the slices in the slice display groove onto the suction heads; the suction head array corresponds to the adsorption array of the negative pressure sheet screening device and can adsorb the sheets on the adsorption device onto the suction heads;

the assembly tray comprises an assembly opening array, more than two assembly openings, corresponds to the suction head array of the carrying mechanism, and can be loaded with sheets carried by the carrying mechanism.

The suction head array of the carrying mechanism is a negative pressure type suction head array, and the thin sheet is adsorbed on the suction head in a negative pressure mode.

The conveying mechanism is provided with a first stepping device which can control the conveying mechanism to move up and down and horizontally.

An adsorption mechanism is arranged in the assembling opening; the adsorption mechanism can adsorb and fix the sheets conveyed by the conveying mechanism.

The adsorption mechanism is a negative pressure type adsorption mechanism, and the thin sheet is adsorbed on the adsorption mechanism in a negative pressure mode.

Compared with the prior art, the technical scheme of the utility model separate unnecessary thin slice more easily, be convenient for improve thin slice installation effectiveness.

Drawings

Fig. 1 is a schematic view of an adsorption hole structure according to an embodiment of the present invention.

Fig. 2 is a schematic structural view of a negative pressure sheet screening device according to an embodiment of the present invention.

Fig. 3 is a schematic structural diagram of a sheet mounting system according to an embodiment of the present invention.

Fig. 4 is a schematic structural view of a material tray according to an embodiment of the present invention.

Fig. 5 is a schematic structural diagram of a carrying mechanism according to an embodiment of the present invention.

Fig. 6 is a schematic structural diagram of an assembly tray according to an embodiment of the present invention.

Fig. 7 is a structural schematic diagram of an application example of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention 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 invention.

Any feature disclosed in this specification (including any accompanying drawings) may be replaced by alternative features serving equivalent or similar purposes, unless expressly stated otherwise. That is, unless expressly stated otherwise, each feature is only an example of a generic series of equivalent or similar features.

According to the utility model provides a pair of thin slice adsorption structure, as shown in FIG. 1, adopt the negative pressure to adsorb pore structure, the negative pressure adsorbs pore structure and is step adsorption structure, and the drill way in adsorption hole is located the boss that sets up on negative pressure thin slice sieving mechanism surface to it separately to be easier with absorbent unnecessary thin slice.

As an embodiment of the utility model, the negative pressure adsorbs pore structure has three absorption hole, is the triangle-shaped setting for adsorb more stably.

As an embodiment of the present invention, the three adsorption holes are all disposed on the same boss. In other embodiments, three suction holes may be respectively disposed on the respective bosses to form one suction device.

According to the utility model, as shown in fig. 2, the thin slice screening device comprises an adsorption array; the adsorption array comprises more than two adsorption devices 3-1 which can adsorb the arranged thin slices corresponding to the adsorption array; the structure of the adsorption device 3-1 adopts the sheet adsorption structure; the device also comprises a rotating mechanism 3-2 which can rotate at a set angle and speed and throw off the redundant slices which cannot be adsorbed and fixed.

In the screening and mounting process of the light-weight and small-volume sheets, due to the characteristics of small volume and light weight, the sheets are mutually adhered and attached together, and certain obstruction is brought to high-efficiency mounting. Therefore, the sheets are firstly transferred to the negative pressure sheet screening device, the sheets adsorbed on the adsorption device 3-1 by the negative pressure sheet screening device are conveniently thrown off by the rapid rotation of the rotating mechanism 3-2, so that only one sheet is arranged on each adsorption device 3-1, and the position of each sheet is kept unchanged under the action of the adsorption device 3-1 on the negative pressure sheet screening device. Therefore, the adsorption array structure of the negative pressure sheet screening device ensures that only one sheet is arranged on each assembly interface before the sheets are transferred to the assembly.

As an embodiment of the present invention, the negative pressure sheet screening device is made of a conductive material. When the sheets contact the negative pressure sheet screening device, the static electricity of the sheets is immediately eliminated, and the sheets are prevented from being adhered together due to the static electricity. As an embodiment of the utility model, negative pressure thin slice sieving mechanism adopts electric conductive property good and anticorrosive copper material, can resist external environment pollution to can effectively eliminate the defect of the static that the thin slice part produced because of the friction, thereby can further guarantee to throw away unnecessary laminating thin slice together.

As an embodiment of the utility model, negative pressure thin slice sieving mechanism includes second step device, can drive rotary mechanism and remove to the direction of perpendicular to rotation plane.

As an embodiment of the present invention, the rotating mechanism 3-2 rotates by an angle of 180 degrees. The rotating mechanism 3-2 can also rotate fast 360 degrees or other angles when rotating.

According to the utility model, as shown in fig. 3, the sheet installation system comprises the negative pressure sheet screening device 3, a material tray 2, a carrying mechanism 1 and an assembly tray 4;

the material tray 2 comprises a sheet display array; the display array comprises more than two sheet display grooves 2-1; the shape and the size of the display groove 2-1 are matched with those of the slices, so that the alignment and the positioning of the slices placed in the display groove are conveniently realized;

the carrying mechanism 1 comprises a suction head array; the suction head array comprises more than two suction heads 1-1, corresponds to the display array of the material tray 2, and can absorb the slices in the slice display grooves 2-1 onto the suction heads 1-1; the suction head array corresponds to the adsorption array of the negative pressure sheet screening device and can adsorb sheets on the adsorption device onto the suction head 1-1;

the assembly tray 4 comprises an assembly opening array, comprises more than two assembly openings 4-1, corresponds to the suction head array of the conveying mechanism, and can be loaded with sheets conveyed by the conveying mechanism.

As shown in FIG. 4, the material tray 2 is provided with a plurality of sheet display grooves 2-1 or holes, which are matched in shape and size with the sheets, for example, if the sheets are circular, the display grooves 2-1 or holes are matched in circular; if the sheet is square, the display groove 2-1 or the holes are matched to be square; and on the other hand, the sizes are matched, so that the alignment and the positioning of the sheets placed in the device are conveniently realized. Based on the structure, the thin slices with small volume and light weight are placed in the material tray 2, and the thin slices can be placed in each array groove 2-1 through rough manual vibration and/or machine vibration, at least one thin slice, generally a plurality of thin slices, in each array groove 2-1 is stacked in one array groove 2-1.

The conveying mechanism 1 can transfer sheets. As shown in fig. 5, the suction head array on the carrying mechanism 1 corresponds to the display array on the material tray 2, so that when the carrying mechanism 1 adsorbs the sheets placed on the material tray 2, the suction heads 1-1 can be aligned with the display grooves 2-1 of the material tray one by one, thereby facilitating the one-to-one aligned adsorption of the sheets.

As shown in FIG. 2, the absorption arrays on the negative pressure sheet screening device correspond to the suction head arrays on the carrying mechanism 1 one by one, so that on one hand, the carrying mechanism 1 transfers the absorbed sheets to the absorption device 3-1 of the negative pressure sheet screening device, and the absorption device 3-1 can be aligned with the suction head 1-1 one by one, thereby facilitating the sheet to be placed on the absorption device 3-1 in alignment. In the actual transferring process, due to the characteristics of small size and light weight of the sheets, when the carrying mechanism 1 adsorbs the sheets from the material tray 2, more than two sheets adsorbed on each suction head may exist, so that the sheets are transferred to the negative pressure sheet screening device 3 first, the sheets adsorbed on the adsorption device 3-1 by the negative pressure sheet screening device 3 are thrown off by the rapid rotation of the rotating mechanism 3-2, and thus, only one sheet is arranged on each adsorption device 3-1, and the position of each sheet is kept unchanged under the action of the adsorption device 3-1 on the negative pressure sheet screening device 3. Therefore, the adsorption array structure of the negative pressure sheet screening device 3, on the other hand, enables the suction heads 1-1 to be aligned with the adsorption devices 3-1 of the negative pressure sheet screening device one by one when the carrying mechanism 1 adsorbs the sheets placed on the negative pressure sheet screening device 3, thereby facilitating the one by one aligned adsorption of the sheets, and ensuring that only one sheet is on each suction head 1-1 before the carrying mechanism 1 transfers the sheets to the assembly tray 4.

As shown in fig. 6, the array of assembly openings on the assembly tray 4 corresponds to the array of suction heads on the carrying mechanism 1, so that when the carrying mechanism 1 transfers and places the adsorbed sheets to the assembly openings 4-1, the assembly openings 4-1 can be aligned with the suction heads 1-1 one by one, thereby facilitating the alignment and placement of the sheets into the assembly openings 4-1 one by one.

The embodiment efficiently solves the process that the thin sheet-shaped part with small volume is taken up and transported to the target position, and realizes the high-efficiency operation of a plurality of similar parts.

As an embodiment of the present invention, the suction head array of the carrying mechanism 1 is a negative pressure type suction head array, and the sheet is adsorbed on the suction head 1-1 by means of negative pressure.

As an embodiment of the present invention, the carrying mechanism is provided with a first stepping device, and can control the carrying mechanism to move up and down and horizontally. The transfer of the sheets can also be realized by controlling the movement of the material tray 2, the negative pressure sheet screening device 3 and the assembly tray 4.

As an embodiment of the present invention, an adsorption mechanism is disposed in the assembly opening 4-1; the suction mechanism can suck and fix the sheets conveyed by the conveying mechanism 1.

As an embodiment of the present invention, the adsorption mechanism is a negative pressure adsorption mechanism, and the sheet is adsorbed on the adsorption mechanism by a negative pressure mode.

As shown in fig. 7, the structure of the diaphragm mounting system in the mobile phone lens industry according to the present invention is schematically illustrated. Adopt the utility model discloses the scheme has solved small lamellar part from picking up, transporting the defect of installing to the target location inefficiency, and the installation is realized to the high efficiency to there is antistatic absorption at the process, prevents that the multi-disc from folding the effect of pressing the emergence.

Claims (10)

1. The utility model provides a thin slice adsorption structure which characterized in that adopts negative pressure adsorption hole structure, negative pressure adsorption hole structure is step adsorption structure, and the drill way in adsorption hole is located the boss that sets up on negative pressure thin slice sieving mechanism surface.

2. The sheet adsorption structure of claim 1, wherein the negative pressure adsorption hole structure has three adsorption holes arranged in a triangle.

3. The sheet adsorption structure of claim 2, wherein the three adsorption holes are all provided on the same boss.

4. A sheet screening apparatus comprising an adsorption array; the adsorption array comprises more than two adsorption devices and can adsorb the arranged thin slices corresponding to the adsorption array; the adsorption device structure adopts a sheet adsorption structure as claimed in one of claims 1 to 3; the device also comprises a rotating mechanism which can rotate at a set angle and speed and throw off the redundant slices which cannot be adsorbed and fixed.

5. The flake screening apparatus of claim 4, wherein the flake screening apparatus employs a conductive material.

6. The apparatus for screening sheets as claimed in claim 4, wherein the apparatus for screening sheets comprises a second stepping means capable of moving the rotating mechanism in a direction perpendicular to the plane of rotation.

7. The sheet screening apparatus according to claim 4, wherein the rotation mechanism performs an angular rotation of 180 degrees when rotating.

8. The sheet mounting system is characterized by comprising the sheet screening device, a material tray, a carrying mechanism and an assembling tray;

the material tray comprises a sheet display array; the display array comprises more than two sheet display grooves;

the shape and the size of the display groove are matched with those of the slices, so that the alignment and the positioning of the slices placed in the display groove are conveniently realized;

the carrying mechanism comprises a sucker array; the suction head array comprises more than two suction heads, corresponds to the display array of the material tray and can absorb the slices in the slice display groove onto the suction heads; the suction head array corresponds to the adsorption array of the sheet screening device and can adsorb the sheets on the adsorption device onto the suction heads;

the assembly tray comprises an assembly opening array, more than two assembly openings, corresponds to the suction head array of the carrying mechanism, and can be loaded with sheets carried by the carrying mechanism.

9. The foil mounting system of claim 8 wherein a suction mechanism is disposed within the mounting opening; the adsorption mechanism can adsorb and fix the sheets conveyed by the conveying mechanism.

10. The sheet mounting system according to claim 9, wherein the suction mechanism is a negative pressure type suction mechanism, and the sheet is sucked to the suction mechanism by a negative pressure.

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