CN218963160U - Vacuum adsorption jig for camera module dispensing equipment - Google Patents

Abstract

The utility model relates to the technical field of camera module production, in particular to a vacuum adsorption jig of camera module dispensing equipment, which comprises an adsorption base body and a carrier plate arranged on the adsorption base body, wherein the adsorption base body is provided with an installation groove matched with the carrier plate, a plurality of adsorption holes are arranged in the installation groove in a matrix manner, the carrier plate is provided with a plurality of storage grooves for storing products and are arranged in a matrix manner, through holes right facing the adsorption holes are arranged in the storage grooves, the adsorption base body is provided with an adsorption vacuum inlet, and the inside of the adsorption base body is provided with a vacuum runner for communicating the adsorption holes with the adsorption vacuum inlet. The utility model provides a vacuum adsorption jig for a camera module dispensing device, which not only can reduce labor and equipment cost, but also can reduce damage to products, thereby better meeting actual production requirements.

Description

Vacuum adsorption jig for camera module dispensing equipment

Technical Field

The utility model relates to the technical field of camera module production, in particular to a vacuum adsorption jig of camera module dispensing equipment.

Background

In the prior art, the module point of making a video recording glues equipment and is equipped with the point and glues the tool, and the point glues the tool and passes through the fixed high temperature adhesive tape carrier plate of magnet absorption, is equipped with the high temperature adhesive tape on the high temperature adhesive tape carrier plate, and the product (namely the module of making a video recording) needs to be pasted on the high temperature adhesive tape and fixes when the point is glued, and the module of making a video recording generally needs the manual work to singly put the product on the high temperature adhesive tape carrier plate before peeling singly the point and escaping the gas pocket (namely the point is glued), installs on the point glues equipment again. This solution has the following problems: 1. the products are placed on the high-temperature adhesive tape carrier plates one by one for dispensing, the labor force is increased, the later test post needs to be tested singly, the products need to be peeled singly again and then placed into a material box for the test post, namely, the single swing disc needs to be peeled again in the process of transferring the products to the later stage (test package) after dispensing, and the labor force and the equipment cost are increased; 2. the high-temperature adhesive tape of the high-temperature adhesive tape carrier plate has viscosity, and the product is generally placed on the high-temperature adhesive tape carrier plate manually by using tweezers, so that the risk of damaging the product is caused in the operation process. The present utility model has been made in view of the above-mentioned drawbacks.

Disclosure of Invention

In order to overcome the defects of the background technology, the utility model provides the vacuum adsorption jig for the dispensing equipment of the camera module, which can not only reduce the labor and equipment cost, but also reduce the damage defect of products, thereby better meeting the actual production requirements.

The technical scheme adopted by the utility model is as follows: the utility model provides a make a video recording module point gum equipment vacuum adsorption tool, including adsorb the pedestal and set up in the support plate on the adsorption pedestal, be equipped with on the adsorption pedestal with the mounting groove of support plate adaptation, be equipped with a plurality of absorption holes and absorption hole in the mounting groove and be the matrix arrangement, be equipped with a plurality of holding grooves that are used for holding the product and hold the groove and be the matrix arrangement on the support plate, hold the inslot be equipped with just to the through-hole of absorption hole, be equipped with the absorption vacuum entry on the adsorption pedestal, the inside of adsorption pedestal is equipped with the intercommunication absorption hole and the vacuum runner of absorption vacuum entry.

Preferably, the adsorption seat body is provided with two mounting grooves side by side, the carrier plate is arranged in the mounting grooves, and a separation table is arranged between the two mounting grooves.

Preferably, grooves are formed in two ends of the adsorption seat body, and the grooves are located at one side edge of the mounting groove.

Preferably, the vacuum flow passage comprises a first flow passage and a second flow passage which are perpendicular to each other and are intersected, the first flow passages are provided with a plurality of first flow passages and are parallel to each other, each first flow passage is communicated with a row of adsorption holes, and the second flow passage is communicated with each first flow passage in a penetrating manner.

Preferably, the two ends of the first flow channels at two sides are respectively provided with an air pipe joint to form the adsorption vacuum inlet, the other ends are respectively provided with a machine meter screw, and the other ends of the first flow channels and the two ends of the second flow channels are respectively provided with a machine meter screw.

Preferably, a plurality of countersunk through holes for installing the fixing screws are uniformly formed in the adsorption base body.

Preferably, a plurality of threaded holes for installing leveling screws are uniformly formed in the adsorption base body.

Preferably, the adsorption seat body is provided with a first arrow mark, the carrier plate is provided with a second arrow mark, and the direction of the first arrow mark is consistent with that of the second arrow mark.

Preferably, notches are arranged at four corners of the carrier plate.

Preferably, the adsorption seat body and the carrier plate are of an integrated structure.

In summary, the utility model has the beneficial effects that:

1. the products can be directly placed in the containing groove without singly placing the products on the high-temperature adhesive tape carrier plate by using tweezers, and the step of peeling the products after the step (test package) is not required, so that the labor and equipment cost can be reduced, and the damage defect of the products can be reduced, thereby better meeting the actual production requirements;

2. two carrier plates can be arranged on the adsorption seat body at one time, so that the vacuum adsorption jig can realize two-plate operation, two carrier plates can be replaced at one time, and the production efficiency is effectively improved;

3. the leveling screws are used for finely adjusting the level of the adsorption seat body, a plurality of penetrating threaded holes matched with the leveling screws are uniformly formed in the adsorption seat body, the level of the adsorption seat body can be finely adjusted conveniently through the leveling screws, and the surface height difference of the adsorption seat body can be prevented.

The utility model is further described below with reference to the accompanying drawings.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the utility model, and that other drawings can be obtained according to these drawings without inventive faculty for a person skilled in the art.

FIG. 1 is a schematic perspective view of the overall structure of the present utility model;

FIG. 2 is a schematic perspective view of an adsorption seat according to the present utility model;

FIG. 3 is a schematic perspective view of a carrier plate according to the present utility model;

FIG. 4 is a schematic front view of an adsorption seat according to the present utility model;

FIG. 5 is a schematic view of a back side of an adsorption seat according to the present utility model;

FIG. 6 is a schematic side view of an adsorption seat according to the present utility model;

FIG. 7 is an enlarged view of a portion of FIG. 1 at A;

the marks in the figure: 1-adsorption seat body, 2-carrier plate, 3-mounting groove, 4-adsorption hole, 5-holding groove, 6-through hole, 7-adsorption vacuum inlet, 8-separation table, 9-groove, 10-first runner, 11-second runner, 12-countersunk through hole, 13-screw hole, 14-first arrow mark, 15-second arrow mark, 16-breach.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to fig. 1 to 7 in the embodiments of the present utility model, and it is obvious that the described embodiments are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In order to make the objects, technical solutions and advantages of the present utility model become more apparent, the technical solutions in the embodiments of the present utility model will be described in more detail below with reference to the accompanying drawings in the embodiments of the present utility model.

As shown in fig. 1 to 7, the vacuum adsorption jig for the camera module dispensing device disclosed in this embodiment comprises an adsorption base 1 and a carrier plate 2 arranged on the adsorption base 1, wherein the adsorption base 1 is provided with an installation groove 3 adapted to the carrier plate 2, a plurality of adsorption holes 4 are arranged in the installation groove 3 in a matrix manner, the carrier plate 2 is provided with a plurality of storage grooves 5 for storing products and the storage grooves 5 are arranged in a matrix manner, through holes 6 opposite to the adsorption holes 4 are arranged in the storage grooves 5, an adsorption vacuum inlet 7 is arranged on the adsorption base 1, and a vacuum runner for communicating the adsorption holes 4 with the adsorption vacuum inlet 7 is arranged in the adsorption base 1. In the above technical scheme, the adsorption seat body 1 is fixed on the camera module dispensing device, the adsorption seat body 1 is connected with the device vacuum generator through the adsorption vacuum inlet 7, because the vacuum runner can communicate the adsorption hole 4 and the adsorption vacuum inlet 7, the adsorption hole 4 can generate vacuum adsorption force, the carrier plate 2 can be just installed in the mounting groove 3, the containing groove 5 is used for containing fixed products (namely camera modules), the quantity of the containing grooves 5 is preferably the same as that of the adsorption holes 4, because the containing groove 5 is internally provided with the through holes 6 which are opposite to the adsorption holes 4, the vacuum adsorption force generated by the adsorption holes 4 can well adsorb the carrier plate 2 and the camera modules and prevent movement, the carrier plate 2 and the camera modules are fixed by adopting vacuum adsorption, the fixation is convenient and have a firmer fixing effect, and the product can be directly placed on the high-temperature adhesive tape carrier plate without adopting tweezers, the product is also not only reduced in the containing groove 5, but also the step of transferring back section (test packaging) is not only can reduce the cost of labor and equipment, but also can reduce the bad bruise, and can better satisfy the actual production requirements. After the technical scheme is adopted, products on the carrier plate 2 are single, so that the operator who seals the air holes does not need to strip the single, directly takes the products on the carrier plate 2 by hands (with gloves) and puts the products into a material box of a test post, and the problem that the products are damaged due to collision can be effectively reduced because tweezers are not needed. The vacuum adsorption jig of the camera module dispensing equipment of this embodiment adopts the adsorption seat body 1 to replace the existing dispensing jig of fixed high temperature adhesive tape carrier plate through magnet adsorption, and the adsorption seat body 1 vacuum adsorbs carrier plate 2 and products, replaces the magnet adsorption mode of current high temperature adhesive tape carrier plate and dispensing jig and the pasting fixed mode of high temperature adhesive tape carrier plate and products for the fixation of carrier plate 2 and the fixation of products are all unified to be vacuum adsorption fixed, and is fixed convenient and is convenient for actual processing operation. In specific implementation, the through hole 6 in the accommodating groove 5 facing the adsorption hole 4 is preferably in a round corner square shape, that is, the through hole 6 adopts a square hole, so that the adsorption hole 4 can be aligned better, and the adsorption hole 4 can adsorb the carrier plate 2 and the product better. The vacuum adsorption jig of this embodiment can be used for the production and processing of the A1K8B camera module, and can be applied to the production and processing of other models camera modules after being properly adjusted in practical implementation, and no further explanation is provided herein.

As a preferable technical scheme, the adsorption seat body 1 is provided with two mounting grooves 3 side by side, the carrier plate 2 is mounted in the mounting groove 3, and a separation table 8 is arranged between the two mounting grooves 3. In this embodiment, separating table 8 can separate well and form two mounting grooves 3 that set up side by side, can set up two carrier plates 2 on adsorption seat body 1 once, and vacuum adsorption tool just so can realize two even board operations, can change two carrier plates 2 simultaneously once, has effectively promoted production efficiency.

As a preferable technical scheme, grooves 9 are formed at two ends of the adsorption seat body 1, and the grooves 9 are located at one side edge of the mounting groove 3. Through setting up recess 9 can be convenient for get and put carrier plate 2, in this embodiment, adsorption seat body 1 both ends respectively have two recess 9 that sink, and recess 9 is located the one side edge of mounting groove 3, can be convenient for get and put carrier plate 2, specifically, recess 9 is outwards open from the tip of adsorption seat body 1, and in recess 9's inboard extends to mounting groove 3, can get better from this and put carrier plate 2.

As a preferred solution, the vacuum flow channel includes a first flow channel 10 and a second flow channel 11 that are perpendicular to each other and intersect, the first flow channel 10 is provided with a plurality of first flow channels and parallel to each other, each first flow channel 10 is connected to a row of the adsorption holes 4, and the second flow channel 11 is connected to each first flow channel 10 in a penetrating manner. In this embodiment, each first flow channel 10 is communicated with a row of adsorption holes 4, at least one second flow channel 11 is provided, and each first flow channel 10 is communicated through the second flow channel 11, so that the first flow channel 10 and the second flow channel 11 which are communicated with each other well form a vacuum flow channel, and the vacuum flow channels can be communicated with each adsorption hole 4 well by adopting the design, and the vacuum adsorption force can be conveniently generated. In specific implementation, taking two mounting grooves 3 arranged side by side as an example, three rows of adsorption holes 4 are arranged in each mounting groove 3, correspondingly, six first flow passages 10 are arranged in total, preferably two second flow passages 11 are arranged and respectively arranged at two sides, and the two second flow passages 11 can be better communicated with each first flow passage 10, so that the six first flow passages 10 and the two second flow passages 11 well form a vacuum flow passage in the adsorption seat body 1.

As a preferable technical solution, one end of each of the two first flow channels 10 located at two sides is provided with an air pipe joint to form the adsorption vacuum inlet 7, the other end is provided with a machine meter screw, and the other ends of each of the first flow channels 10 and the two ends of the second flow channel 11 are provided with machine meter screws. In this embodiment, the end portions of the two first flow passages 10 on the same side on both sides are respectively provided with an air pipe joint to form an adsorption vacuum inlet 7, and the two adsorption vacuum inlets 7 are connected with a vacuum generator of the device to better evacuate, so that the adsorption holes 4 can better generate vacuum adsorption force, and the end portions of the first flow passage 10 and the second flow passage 11 are respectively provided with a machine screw seal except for the two end portions provided with the air pipe joints so as to prevent vacuum leakage. In specific implementation, taking two mounting grooves 3 and six first runners 10 and two second runners 11 arranged side by side as examples, the four sides of the adsorption seat body 1 are provided with 16M 8 through holes for vacuum runners, two phi 6 air pipe connectors are arranged in two through holes on the outer side of the upper side, the two phi 6 air pipe connectors are connected with a vacuum generator through the air pipe connectors, and the other 14 through holes are sealed by M8 machine meter screws.

As a preferable technical scheme, the adsorption seat body 1 is uniformly provided with a plurality of countersunk through holes 12 for installing fixing screws. In this embodiment, the fixing screws are used to fix the adsorption seat 1 to the camera module dispensing device, and the adsorption seat 1 is uniformly provided with a plurality of countersunk through holes 12, so that the adsorption seat 1 can be firmly fixed to the camera module dispensing device by the plurality of fixing screws. In specific implementation, 12M 4 countersunk through holes 12 are uniformly formed in the adsorption seat body 1, 12 fixing screws are used for fixing the adsorption seat body 1, four countersunk through holes 12 are formed in the separation table 8 in the embodiment, four countersunk through holes 12 are formed in the edges of the mounting grooves 3 on two sides respectively, three rows of countersunk through holes 12 are aligned with each other, and the adsorption seat body 1 is compact in structure and reasonable in layout and can be well fixed.

As a preferable technical scheme, the adsorption seat body 1 is uniformly provided with a plurality of threaded holes 13 for installing leveling screws. In this embodiment, the leveling screw preferably adopts a jackscrew (i.e. a machine meter screw), the leveling screw is used for fine-adjusting the level of the adsorption seat body 1, a plurality of threaded holes 13 which are matched with the leveling screw are uniformly formed in the adsorption seat body 1, the level of the adsorption seat body 1 can be conveniently fine-adjusted through the plurality of leveling screws, and the surface height difference of the adsorption seat body 1 can be prevented. During the concrete implementation, evenly set up 9M 3 jackscrew screw holes 13 on the adsorption seat body 1, adopt 9 jackscrew screws to realize adsorbing the leveling of seat body 1, this embodiment sets up three jackscrew screw holes 13 on separating the bench 8, sets up three jackscrew screw holes 13 on the step of both sides edge respectively, forms three screw holes 13 promptly, and is rationally distributed, can install the jackscrew fine setting adsorption seat body 1's level well. When in actual installation, leveling is performed firstly, then fixing is performed, namely, the level of the adsorption seat body 1 is finely adjusted through jackscrews firstly, and then the adsorption seat body 1 is fixed through fixing screws.

As a preferable technical scheme, the adsorption seat body 1 is provided with a first arrow mark 14, the carrier plate 2 is provided with a second arrow mark 15, and the direction of the first arrow mark 14 is consistent with that of the second arrow mark 15. In this embodiment, the first arrow mark 14 is engraved on the surface of the adsorption seat 1, and is consistent with the second arrow mark 15 on the carrier plate 2, so that the first arrow mark is well used for marking the placement direction of the carrier plate 2, and an operator can conveniently and correctly place the carrier plate 2 in the mounting groove 3 of the adsorption seat 1. During the implementation, the surfaces of the adsorption seat body 1 and the carrier plate 2 are carved with corresponding product types, so that an indication effect can be well played for an operator.

As a preferable technical solution, notches 16 are provided at four corners of the carrier plate 2. In this embodiment, the notches 16 are all disposed at four corners of the carrier plate 2, so that the carrier plate 2 is conveniently placed in the mounting groove 3, and the carrier plate 2 is conveniently taken out from the mounting groove 3, so that the actual use requirement can be better met.

As a preferable technical scheme, the adsorption seat body 1 and the carrier plate 2 are all integrally formed. In this embodiment, the adsorption base 1 and the carrier plate 2 are all integrally formed, which is convenient for processing, the material is preferably aluminum, and the surface needs hard oxygen treatment.

Parts not involved in this embodiment are the same as or can be implemented using the prior art, and are not further described herein.

The skilled person will know: while the utility model has been described in terms of the foregoing embodiments, the inventive concepts are not limited to the utility model, and any modifications that use the inventive concepts are intended to be within the scope of the appended claims.

Claims (10)

1. Vacuum adsorption jig of camera module dispensing equipment, its characterized in that: including the adsorption seat body and set up in the support plate on the adsorption seat body, be equipped with on the adsorption seat body with the mounting groove of support plate adaptation, be equipped with a plurality of absorption holes and absorption hole in the mounting groove and be the matrix arrangement, be equipped with a plurality of holding grooves that are used for holding the product and hold the groove and be the matrix arrangement on the support plate, hold the inslot and be equipped with just right the through-hole of absorption hole, be equipped with the absorption vacuum entry on the adsorption seat body, the inside of adsorption seat body is equipped with the intercommunication absorption hole and absorption vacuum entry's vacuum runner.

2. The vacuum adsorption jig for camera module dispensing equipment of claim 1, wherein: the adsorption seat body is provided with two mounting grooves side by side, the carrier plate is mounted in the mounting grooves, and a separation table is arranged between the two mounting grooves.

3. The vacuum adsorption jig of a camera module dispensing device according to claim 1 or 2, wherein: grooves are formed in two ends of the adsorption seat body, and the grooves are located at one side edge of the mounting groove.

4. The vacuum adsorption jig of a camera module dispensing device according to claim 1 or 2, wherein: the vacuum flow passage comprises a plurality of first flow passages and second flow passages which are perpendicular to each other and are intersected, the first flow passages are provided with a plurality of first flow passages and are parallel to each other, each first flow passage is communicated with a row of adsorption holes, and each second flow passage is communicated with each first flow passage in a penetrating mode.

5. The vacuum adsorption jig for the camera module dispensing device of claim 4, wherein: two that are located both sides the one end of first runner all installs the air pipe joint and forms adsorb the vacuum entry, and the other end all installs the machine rice screw, other the both ends of first runner and the both ends of second runner all install the machine rice screw.

6. The vacuum adsorption jig of a camera module dispensing device according to claim 1 or 2, wherein: the adsorption seat body is uniformly provided with a plurality of countersunk through holes for installing fixing screws.

7. The vacuum adsorption jig of a camera module dispensing device according to claim 1 or 2, wherein: the adsorption seat body is uniformly provided with a plurality of threaded holes for installing leveling screws.

8. The vacuum adsorption jig of a camera module dispensing device according to claim 1 or 2, wherein: the adsorption seat body is provided with a first arrow mark, the carrier plate is provided with a second arrow mark, and the direction of the first arrow mark is consistent with that of the second arrow mark.

9. The vacuum adsorption jig of a camera module dispensing device according to claim 1 or 2, wherein: notches are formed in four corners of the carrier plate.

10. The vacuum adsorption jig of a camera module dispensing device according to claim 1 or 2, wherein: the adsorption seat body and the carrier plate are of an integrated structure.

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