CN213009690U - Plastic sucking disc suitable for industrial automation piles up - Google Patents

Abstract

The application discloses plastic sucking disc suitable for industrial automation piles up relates to plastic sucking disc technical field, including plastic sucking disc body, plastic sucking disc body is including enclosing fender and flange, the crisscross shaping of flange constitutes the holding tank that is used for holding the product part, it has outer boss structure to enclose the shaping on the fender, the shaping has interior boss structure on the flange, when plastic sucking disc body superpose, outer boss structure supports on the fender of enclosing of the plastic sucking disc body of lower floor, interior boss structure supports on the flange of the plastic sucking disc body of lower floor. Enclose outer boss structure on the fender and cooperate with the interior boss structure on the flange and realize that the stability of plastic sucking disc body piles up to make the plastic sucking disc body after piling be applicable to industrial automation's assembly line and transport, and remote commodity circulation transportation, have better commodity circulation transport stability and security.

Description

Plastic sucking disc suitable for industrial automation piles up

Technical Field

The application relates to a blister tray technical field especially relates to a blister tray suitable for industrial automation piles up.

Background

The plastic sucking disc is also called as a plastic sucking tray or a plastic tray, a plastic hard sheet is made into a plastic disc body structure with a specific groove shape by adopting a plastic sucking process, and a product is placed in the groove of the plastic sucking disc so as to play a role in bearing, transporting and protecting the product, and the plastic sucking disc is widely applied to the industry fields of electronics, toys, stationery, cosmetics, health care products and the like.

During the actual transfer and transport of the product parts, the blister trays containing the product parts are generally handled in stacks. In the above related art, the inventor believes that there is a defect that the blister trays deform after being stacked, even extrusion misalignment occurs, so that two adjacent blister trays are "locked" and normal turnover and transportation of the blister trays are affected.

SUMMERY OF THE UTILITY MODEL

In order to solve the plastic sucking plate and take place deformation, dislocation and the problem of the dead phenomenon of card easily when piling up, this application provides a plastic sucking plate suitable for industrial automation piles up.

The application provides a blister tray suitable for industrial automation piles up adopts following technical scheme:

a plastic sucking disc suitable for industrial automatic stacking comprises a plastic sucking disc body, wherein the plastic sucking disc body comprises a surrounding baffle formed along the peripheral side of the plastic sucking disc body and flanges formed in the surrounding baffle, the flanges are formed in a staggered mode to form a containing groove for containing product parts, an outer boss structure is formed on the surrounding baffle, and when the plastic sucking disc bodies are stacked, the outer boss structure is supported on the surrounding baffle of the plastic sucking disc body on the lower layer; an inner boss structure is formed on the retaining edge, and when the plastic sucking disc bodies are overlapped, the inner boss structure is supported on the retaining edge of the lower-layer plastic sucking disc body.

Through adopting above-mentioned technical scheme, when piling up the plastic sucking plate, the outer boss structure and the interior boss structure overlap joint of upper strata plastic sucking plate body enclose on fender and the flange corresponding in lower floor's plastic sucking plate body. Because the fender and the flange that enclose of plastic sucking disc body are thin wall structure, take place deformation under the exogenic action easily, and outer boss structure and the outstanding fender and the flange of enclosing of interior boss structure to constitute hard overlap joint cooperation structure with the fender and the flange that enclose of lower floor plastic sucking disc body, compare in the soft overlap joint of thin wall between the pure plastic sucking disc body and have better support stability and structural strength, so be favorable to improving the stability that plastic sucking disc piles up, the security of turnover and transportation.

Preferably, the inner parts of the surrounding baffle and the retaining edge are both formed into cavity structures, and the cavity structures extend to the bottom of the plastic sucking disc body to form openings; the side walls of the enclosing barrier and the retaining edges extend towards the cavity structure to form the outer boss structure and the inner boss structure, and when the plastic sucking disc bodies are overlapped, the outer boss structure and the inner boss structure are supported on the enclosing barrier and the retaining edges of the lower-layer plastic sucking disc body through the openings.

By adopting the technical scheme, the corresponding outer boss structure and inner boss structure are formed in the cavity structures of the surrounding baffle and the retaining edge in a protruding mode, so that the forming processing is facilitated, the change of the original structure of the plastic sucking disc body is reduced on the premise that the two adjacent plastic sucking discs are in lap joint, supporting and fixing, and the new forming die can be obtained by performing modification processing on the basis of the original forming die; meanwhile, the outer boss structure and the inner boss structure are formed in the cavity structure, so that the outer boss structure and the inner boss structure are hidden, and the appearance integrity of the plastic sucking disc body cannot be damaged.

Preferably, the outer boss structure and the inner boss structure are formed on the thin wall on any side of the corresponding surrounding baffle and the retaining edge.

By adopting the technical scheme, the outer boss structure and the inner boss structure are formed on the thin wall at one side of the surrounding baffle and the flange, namely, the plastic suction tray body is stacked in a one-side lap joint mode; the mold is suitable for the enclosure and the retaining side with smaller cavity space, and is beneficial to simplifying a molding mold and a molding process.

Preferably, the surrounding baffles of the two adjacent plastic sucking disc bodies after being stacked are in inserted connection and matching.

Through adopting above-mentioned technical scheme, after the plastic sucking disc body piles up, the fender that encloses of two adjacent plastic sucking disc bodies can form the cooperation of pegging graft, and what the plastic sucking disc body enclosed promptly keeps off for under the narrow width structure, adopts this structure to pile up the plastic sucking disc, can reduce the overall height that the plastic sucking disc piled up to further improve the accuracy and the stability that the plastic sucking disc piled up.

Preferably, the enclosure is formed with an opening structure, and the outer boss structure is formed at the opening structure of the enclosure.

By adopting the technical scheme, when a user stacks or takes the plastic suction discs, the plastic suction disc body can be carried by hand through the opening structure, so that the plastic suction disc has better practicability and operation convenience; and the outer boss structure is formed at the opening structure so as to realize the lap joint support matching of the outer boss structure and the enclosure.

Preferably, the thickness of the thin walls of the surrounding baffle and the flange of the plastic sucking disc body for product part turnover is set to be 0.9-1.1 mm.

By adopting the technical scheme, the plastic sucking disc body of the turnover product part is generally repeatedly utilized for many times in automatic production, so that the thin wall thickness of the enclosure and the flange is thicker.

Preferably, the thickness of the thin walls of the enclosing baffle and the flange of the plastic sucking disc body for product part transportation is set to be 0.5-0.7 mm.

By adopting the technical scheme, the plastic sucking disc body for transporting product parts after production is generally disposable and can not be recycled, so that the thin wall thickness of the enclosure and the flange is thinner.

Preferably, the plastic sucking disc body is of a square structure, and the enclosure comprises a long enclosure edge and a short enclosure edge; the retaining sides comprise long side edges and short side edges which are formed in an orthogonal mode, the long side edges are arranged in parallel with the long surrounding edges, the short side edges are arranged in parallel with the short surrounding edges, the short side edges comprise end edges close to the short surrounding edges and middle edges located between the two end edges, and the inner boss structure is formed on the middle edges.

By adopting the technical scheme, the flange at the middle position of the plastic sucking disc body is easier to deform under the action of the outside, so that the inner boss structure is formed on the middle edge instead of each short side; on the premise of meeting the lap joint support, the number of the inner boss structures is reduced, and the forming die and the forming process of the plastic sucking disc are facilitated to be simplified.

Preferably, the long side divides the short side into a plurality of unit sections, and the inner boss structure is formed on the unit sections arranged at intervals.

By adopting the technical scheme, the inner boss structures are formed on the unit sections of the middle edge at intervals, so that the number of the inner boss structures is further reduced, and the forming die and the forming process of the plastic sucking disc are further simplified.

Preferably, the tank bottom surface of holding tank is including the district that sinks corresponding to product part big face to and the step district corresponding to product part protruding structure, product part protruding structure overlap joint in on the step district, just the plane height in district that sinks is less than the plane height 2.5-3.5mm in the step district.

By adopting the technical scheme, the plane height of the subsidence area corresponding to the product component needs to be lower than the plane height of the step area, so that the horizontal erection of the product component is realized, and the product component can be taken or placed by an operator conveniently.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the surrounding baffle and the retaining edge of the plastic sucking disc body are thin-walled structures and are easy to deform under the action of external force, the outer boss structure and the inner boss structure protrude out of the surrounding baffle and the retaining edge and form a hard lap joint matching structure with the surrounding baffle and the retaining edge of the lower-layer plastic sucking disc body, and compared with the thin-wall soft lap joint between the pure plastic sucking disc bodies, the plastic sucking disc has better supporting stability and structural strength and is beneficial to improving the stacking stability, turnover and transportation safety of the plastic sucking discs;

2. the outer boss structure and the corresponding surrounding baffle form a lap joint supporting structure, and the inner boss structure and the corresponding flange form the lap joint supporting structure, so that stable stacking of the plastic suction discs is realized, and further stacking and carrying operation suitable for factory assembly line operation or turnover processing is realized;

3. the forming position of the outer boss structure, the forming position of the inner boss structure and the number of the inner boss structures are limited, and the forming process of the plastic sucking disc body is simplified to the greatest extent on the basis of realizing stable stacking of the plastic sucking discs.

Drawings

Fig. 1 is a schematic diagram of a stacking structure suitable for industrial automation stacking of blister trays according to an embodiment of the present application.

Fig. 2 is a schematic structural diagram of an industrial automation stacking blister tray suitable for use in the embodiment of the application.

Fig. 3 is a schematic bottom structure diagram of an industrial automation stacking blister tray suitable for use in the embodiments of the present application.

Description of reference numerals: 1. a plastic suction disc body; 11. a gap structure; 2. a tray body; 3. fencing; 31. a long surrounding edge; 32. a short surrounding edge; 4. blocking edges; 41. a long side; 42. a short side; 421. an end edge; 422. a middle edge; 5. accommodating grooves; 51. a sinking zone; 52. a step area; 6. a cavity structure; 7. an outer boss structure; 8. an inner boss structure; 9. and (5) unit sections.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses plastic sucking disc suitable for industrial automation piles up. Referring to fig. 1, a plastic uptake dish suitable for industrial automation piles up, including the plastic uptake dish body 1 of square structure, plastic uptake dish body 1 is including disk body 2, and the shaping of the square week side of disk body 2 has and encloses fender 3, and the upper surface shaping of disk body 2 has a plurality of flanges 4, and 4 cross quadrature shaping of flange constitute holding tank 5, and holding tank 5 is used for holding the product part. Referring to fig. 1 and 3, because the plastic tray is similar to a thin-walled tray body structure after the shell is taken out, the interiors of the enclosure 3 and the rib 4 are both cavity structures 6, and the cavity structures 6 extend to the bottom surface of the plastic tray body 1 and form openings. Referring to fig. 1, the thin-walled side wall of the enclosure 3 extends towards the cavity structure 6 to form an outer boss structure 7, and the thin-walled side wall of the flange 4 extends towards the cavity structure 6 to form an inner boss structure 8; when two plastic sucking disc bodies 1 are horizontally overlapped, the outer boss structure 7 of the upper plastic sucking disc body 1 is supported on the enclosure 3 of the lower plastic sucking disc body 1 through the opening lap joint, and the inner boss structure 8 of the upper plastic sucking disc body 1 is supported on the enclosure 3 of the lower plastic sucking disc body 1 through the opening lap joint, so that stable stacking of the plastic sucking discs is realized, and the plastic sucking disc is suitable for industrial automatic stacking.

Referring to fig. 1, the outer boss structure 7 and the inner boss structure 8 are both formed into a structure similar to a bullet head, that is, the outer thin wall of the enclosure 3 and the outer thin wall of the rib 4 are concave bullet head structures, the inner thin wall of the enclosure 3 and the inner thin wall of the rib 4 facing the cavity structure 6 are convex bullet head structures, and the outer boss structure 7 and the inner boss structure 8 are formed on the inner thin wall of any one side of the corresponding enclosure 3 and rib 4.

Referring to fig. 1 and 2, the blister tray is of an approximately square structure, the barrier 3 includes a long surrounding edge 31 and a short surrounding edge 32 which are long sides and short sides of the square, the rib 4 includes a long side 41 arranged in parallel with the long surrounding edge 31 and a short side 42 arranged in parallel with the short surrounding edge 32, the long side 41 and the short side 42 are orthogonally formed to form the accommodating groove 5, the short side 42 is divided by the long side 41 to form a plurality of unit sections 9, and the inner boss structures 8 are formed on the unit sections 9 at intervals. The short side edge 42 and the long side edge 41 are uniformly formed along the respective forming directions, and the short side edge 42 includes two end edges 421 formed close to the short peripheral edge 32 and a middle edge 422 formed in the middle of the two end edges 421, and the inner boss structure 8 is formed on the unit section 9 of the middle edge 422 in addition to the unit section 9 at intervals. On the basis of meeting the requirement that the two plastic sucking disc bodies 1 are horizontally and stably stacked, the number of the inner boss structures 8 is reduced to the greatest extent, so that the purposes of simplifying a forming die, a forming process and forming cost are achieved.

Referring to fig. 1 and 2, the enclosure 3 of the plastic sucking disc body 1 is of a ladder-like structure with a narrow top and a wide bottom in the height direction; when the two plastic sucking disc bodies 1 are horizontally superposed, the surrounding baffle 3 of the lower plastic sucking disc body 1 is partially inserted into the opening of the surrounding baffle 3 of the upper plastic sucking disc body 1. The outer side thin wall of the enclosure 3 is uniformly provided with opening structures 11 along the peripheral side, the opening structures 11 are symmetrically arranged on the short surrounding edge 32 and the long surrounding edge 31 of the enclosure 3, and the outer boss structure 7 is arranged at the opening structures 11; when two plastic sucking disc bodies 1 level piled up promptly, the fender 3 parts of enclosing of lower floor are pegged graft in the fender 3 that encloses of upper strata, and this moment, the outer boss structure 7 that the opening structure 11 department that the upper strata enclosed fender 3 overlap joint just supports on the fender 3 that encloses of the plastic sucking disc body 1 of lower floor, and the loose mouth structural component of the plastic sucking disc body 1 of lower floor exposes outside, and operating personnel accessible both sides opening structure 11 snatchs plastic sucking disc body 1.

Referring to fig. 1, the receiving groove 5 includes a sinking zone 51 and a stepped zone 52, the sinking zone 51 corresponds to a large surface of the product part, the stepped zone 52 corresponds to a protruding structure of the product part, and a plane height of the sinking zone 51 is 2.5-3.5mm lower than a plane height of the stepped zone 52; when the product part is placed in the receiving groove 5, the protruding structures on both sides of the product part overlap the two step areas 52, and the large surface in the middle of the product part is suspended above the sunken area 51. In the automated production process, processing protection fluid such as cutting fluid can be remained on the surface of product part, adopts the mode of above-mentioned interval placement, is favorable to preventing that the big face of product part and holding tank 5's tank bottom face from taking place the adsorption, and then reaches the purpose that the operating personnel of being convenient for take and place.

The plastic suction disc comprises two different use environments, wherein one of the two different use environments is a circulation disc which is repeatedly used for many times in a production and processing workshop, and the other one of the two different use environments is a disposable transport disc which is transported to other places after the production and processing are finished; the thickness of the thin wall of the enclosure 3 and the thickness of the thin wall of the rib 4 are different, the thickness of the thin wall of the enclosure is generally set to be 0.9-1.1mm, and the thickness of the thin wall of the rib is generally set to be 0.5-0.7 mm.

The utility model is further explained by combining the specific actions as follows:

when two plastic sucking disc bodies 1 are horizontally stacked, the part of the surrounding baffle 3 of the lower plastic sucking disc body 1 is inserted into the surrounding baffle 3 of the upper plastic sucking disc body 1, the outer boss structure 7 at the notch structure 11 of the upper plastic sucking disc body 1 is in lap joint with the surrounding baffle 3 of the lower plastic sucking disc body 1, and the inner boss structure 8 on the middle edge 422 of the upper plastic sucking disc body 1 is in lap joint with the baffle edge 4 of the lower plastic sucking disc body 1.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides a plastic sucking disc suitable for industrial automation piles up, including plastic sucking disc body (1), plastic sucking disc body (1) is including enclosing fender (3) along its week side fashioned to and flange (4) of shaping in enclosing fender (3), just flange (4) crisscross shaping constitutes holding tank (5) that are used for holding the dress product part, its characterized in that: an outer boss structure (7) is formed on the surrounding baffle (3), and when the plastic sucking disc bodies (1) are overlapped, the outer boss structure (7) is supported on the surrounding baffle (3) of the plastic sucking disc body (1) at the lower layer; an inner boss structure (8) is formed on the flange (4), and when the plastic sucking disc bodies (1) are overlapped, the inner boss structure (8) is supported on the flange (4) of the lower plastic sucking disc body (1).

2. A blister tray suitable for industrial automation stacking according to claim 1, characterized in that: the inner parts of the surrounding baffle (3) and the retaining side (4) are both formed into cavity structures (6), and the cavity structures (6) extend to the bottom of the plastic sucking disc body (1) to form openings; the side walls of the enclosing barrier (3) and the retaining edges (4) extend towards the cavity structure (6) to form the outer boss structure (7) and the inner boss structure (8), and when the plastic sucking disc bodies (1) are overlapped, the outer boss structure (7) and the inner boss structure (8) are supported on the enclosing barrier (3) and the retaining edges (4) of the lower plastic sucking disc body (1) through the openings.

3. A blister tray suitable for industrial automation stacking according to claim 2, characterized in that: the outer boss structure (7) and the inner boss structure (8) are formed on the thin wall of any side of the corresponding surrounding baffle (3) and the baffle edge (4).

4. A blister tray suitable for industrial automation stacking according to claim 2, characterized in that: the surrounding baffles (3) of the two adjacent plastic sucking disc bodies (1) after being stacked are in inserting fit.

5. A blister tray suitable for industrial automation stacking according to claim 4, characterized in that: enclose and keep off (3) go up the shaping and have opening structure (11), just outer boss structure (7) shaping is in enclosing opening structure (11) department of keeping off (3).

6. A blister tray suitable for industrial automation stacking according to claim 2, characterized in that: the thin wall thickness of the surrounding baffle (3) and the flange (4) of the plastic sucking disc body (1) for product part turnover is set to be 0.9-1.1 mm.

7. A blister tray suitable for industrial automation stacking according to claim 2, characterized in that: the thin wall thicknesses of the surrounding baffle (3) and the flange (4) of the plastic sucking disc body (1) for product part transportation are set to be 0.5-0.7 mm.

8. A blister tray suitable for industrial automation stacking according to claim 1 or 2, characterized in that: the plastic sucking disc body (1) is of a square structure, and the enclosure (3) comprises a long enclosure edge (31) and a short enclosure edge (32); the rib (4) comprises a long side edge (41) and a short side edge (42) which are formed in an orthogonal mode, the long side edge (41) is arranged in parallel with the long surrounding edge (31), the short side edge (42) is arranged in parallel with the short surrounding edge (32), the short side edge (42) comprises an end edge (421) close to the short surrounding edge (32) and a middle edge (422) located between the two end edges (421), and the inner boss structure (8) is formed on the middle edge (422).

9. A blister tray suitable for industrial automation stacking according to claim 8, characterized in that: the long side (41) divides the short side (42) into a plurality of unit sections (9), and the inner boss structure (8) is formed on the unit sections (9) arranged at intervals.

10. A blister tray suitable for industrial automation stacking according to claim 1, characterized in that: the tank bottom surface of holding tank (5) is including sinking district (51) corresponding to the product part big face to and step district (52) corresponding to product part protruding structure, product part protruding structure overlap joint in on step district (52), just the plane height that sinks district (51) is less than the plane height 2.5-3.5mm of step district (52).

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