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CN-224211484-U - Lamination-proof structure of plastic suction box

CN224211484UCN 224211484 UCN224211484 UCN 224211484UCN-224211484-U

Abstract

The utility model relates to a lamination prevention structure of a plastic suction box, which belongs to the technical field of packaging of plastic suction boxes and comprises a first plastic suction box assembly, wherein the first plastic suction box assembly is provided with a containing cavity, a plurality of containing cavities are at least a first containing cavity, a second containing cavity and a third containing cavity, the second plastic suction box assembly is arranged on the first plastic suction box assembly and is provided with an adapting cavity, the plurality of adapting cavities are at least a first adapting cavity, a second adapting cavity and a third adapting cavity, the distance between the first containing cavity and the second containing cavity is L1, the distance between the second containing cavity and the third containing cavity is L2, the distance between the first adapting cavity and the second adapting cavity is L3, and the distance between the second adapting cavity and the third adapting cavity is L4. The lamination preventing structure of the plastic suction box disclosed by the utility model effectively avoids the problems of adhesion between different layers, difficult taking and even product damage through the L1 not equal to L3 and the L2 not equal to L4.

Inventors

  • LEI KAI
  • WANG QIANG

Assignees

  • 广东尚研电子科技股份有限公司

Dates

Publication Date
20260508
Application Date
20250527

Claims (10)

  1. 1. A plastic uptake box lamination-preventing structure, characterized by comprising: The first plastic sucking box assembly (1), wherein the first plastic sucking box assembly (1) is provided with a plurality of accommodating cavities, the accommodating cavities are at least a first accommodating cavity (101), a second accommodating cavity (102) and a third accommodating cavity (103), and the first accommodating cavity (101), the second accommodating cavity (102) and the third accommodating cavity (103) are sequentially arranged along the width direction of the first plastic sucking box assembly (1); The second plastic sucking box assembly (2), the second plastic sucking box assembly (2) is arranged on the first plastic sucking box assembly (1), the second plastic sucking box assembly (2) is provided with a plurality of adapting cavities, the plurality of adapting cavities are at least a first adapting cavity (201), a second adapting cavity (202) and a third adapting cavity (203), and the first adapting cavity (201), the second adapting cavity (202) and the third adapting cavity (203) are sequentially arranged along the width direction of the second plastic sucking box assembly (2); The distance between the first accommodating cavity (101) and the second accommodating cavity (102) is L1, the distance between the second accommodating cavity (102) and the third accommodating cavity (103) is L2, the distance between the first adapting cavity (201) and the second adapting cavity (202) is L3, and the distance between the second adapting cavity (202) and the third adapting cavity (203) is L4; The L1 is greater than the L3 and the L2 is less than the L4, or the L1 is less than the L3 and the L2 is greater than the L4.
  2. 2. The plastic uptake box lamination-preventing structure according to claim 1, characterized in that the first plastic uptake box assembly (1) is provided with a fourth accommodation cavity (104), the first accommodation cavity (101), the second accommodation cavity (102), the fourth accommodation cavity (104) and the third accommodation cavity (103) are sequentially arranged along the width direction of the first plastic uptake box assembly (1), the second plastic uptake box assembly (2) is provided with a fourth adaptation cavity (204), and the first adaptation cavity (201), the second adaptation cavity (202), the fourth adaptation cavity (204) and the third adaptation cavity (203) are sequentially arranged along the width direction of the second plastic uptake box assembly (2).
  3. 3. The plastic uptake box lamination-preventing structure according to claim 2, characterized in that, The distance between the fourth accommodating cavity (104) and the third accommodating cavity (103) is L5, and the distance between the fourth adapting cavity (204) and the third adapting cavity (203) is L6; the L1 is greater than the L3 and the L2 is less than the L4 and the L5 is less than the L6, or the L1 is less than the L3 and the L2 is greater than the L4 and the L5 is greater than the L6.
  4. 4. The plastic suction box lamination prevention structure according to claim 1, wherein two ends of the first plastic suction box component (1) are provided with first hand grabbing spaces (105), the number of the first hand grabbing spaces (105) arranged at one end of the first plastic suction box component (1) is a1, the number of the first hand grabbing spaces (105) arranged at the other end of the first plastic suction box component (1) is b1, two ends of the second plastic suction box component (2) are provided with third hand grabbing spaces (205), the number of the third hand grabbing spaces (205) arranged at one end of the second plastic suction box component (2) is a2, a2 is larger than a1 or a2 is smaller than a1, the number of the third hand grabbing spaces (205) arranged at the other end of the second plastic suction box component (2) is b1, b1 is larger than b1 or b1 is smaller than b1, a2 is a1, b1 is a2 is a1, and b1 is a positive integer.
  5. 5. The plastic suction box lamination prevention structure according to claim 1, wherein two sides of the first plastic suction box component (1) are provided with second hand grabbing spaces (106), the number of the second hand grabbing spaces (106) arranged on one side of the first plastic suction box component (1) is c1, the number of the second hand grabbing spaces (106) arranged on the other side of the first plastic suction box component (1) is d1, two sides of the second plastic suction box component (2) are provided with fourth hand grabbing spaces (206), the number of the fourth hand grabbing spaces (206) arranged on one side of the second plastic suction box component (2) is c2, c2 is larger than c1 or c2 is smaller than c1, the number of the fourth hand grabbing spaces (206) arranged on the other side of the second plastic suction box component (2) is d2, d2 is larger than d1 or d2 is smaller than d1, c1, d2 is an integer, and d1 is positive.
  6. 6. The plastic uptake box lamination-preventing structure according to claim 1, characterized in that, The number of the first plastic sucking box components (1) is multiple, the first plastic sucking box components (1) are sequentially arranged along the height direction, the number of the second plastic sucking box components (2) is multiple, the second plastic sucking box components (2) are sequentially arranged along the height direction, and the first plastic sucking box components (1) and the second plastic sucking box components (2) are alternately arranged; And/or the first plastic sucking box component (1) and the second plastic sucking box component (2) have the same structure; And/or the second blister pack assembly (2) can be formed by one hundred eighty degrees of rotation of the first blister pack assembly (1).
  7. 7. The plastic suction box lamination prevention structure according to claim 1, characterized in that the first plastic suction box assembly (1) comprises a support shell (11) and an isolation shell (12), the second plastic suction box assembly (2) is arranged on the isolation shell (12), the isolation shell (12) is provided with the accommodating cavity, the support shell (11) is arranged on the isolation shell (12), the support shell (11) is provided with a first grip space (105), and the first grip space (105) is positioned at the end part of the support shell (11).
  8. 8. The plastic uptake box lamination-preventing structure according to claim 7, characterized in that, The isolation shell (12) comprises a plurality of first isolation shell pieces (121), a plurality of second isolation shell pieces (122) and containing shell pieces (123), wherein the first isolation shell pieces (121) are arranged on the support shell (11), the first isolation shell pieces (121) are sequentially arranged along the width direction of the support shell (11), the second isolation shell pieces (122) are arranged on the first isolation shell pieces (121), the second isolation shell pieces (122) are sequentially arranged along the length direction of the support shell (11), and the containing shell pieces (123) are arranged on the first isolation shell pieces (121) and/or the second isolation shell pieces (122), and the first isolation shell pieces (121), the second isolation shell pieces (122) and the containing shell pieces (123) are enclosed to form a containing cavity; and/or the support housing (11) is arranged around the insulation housing (12).
  9. 9. The plastic uptake box lamination-preventing structure according to claim 7, characterized in that, The two ends of the supporting shell (11) are respectively provided with the first hand grabbing spaces (105), the number a1 of the first hand grabbing spaces (105) arranged at one end of the supporting shell (11) is b1, the number a1 of the first hand grabbing spaces (105) arranged at the other end of the supporting shell (11) is greater than b1 or the number b1 is greater than a1, and the number a1 and the number b1 are positive integers; and/or both sides of supporting shell (11) all are equipped with second tongs space (106), the quantity in one side of supporting shell (11) be equipped with second tongs space (106) be c1, the quantity in the opposite side of supporting shell (11) be equipped with second tongs space (106) be d1, c1 is greater than d1 or d1 is greater than c1, c1 with d1 is positive integer.
  10. 10. The plastic uptake box lamination-preventing structure according to claim 1, characterized in that, The first plastic suction box assembly (1) is provided with a plurality of grooves (107), the grooves (107) are arranged along the circumferential direction of the cavity wall of the accommodating cavity, and the grooves (107) are communicated with the accommodating cavity; and/or the number of the first accommodating cavities (101) is a plurality of, and the plurality of the first accommodating cavities (101) are sequentially arranged along the length direction of the first plastic sucking box assembly (1); And/or the number of the second accommodating cavities (102) is a plurality of, and the plurality of the second accommodating cavities (102) are sequentially arranged along the length direction of the first plastic sucking box assembly (1); and/or the number of the third accommodating cavities (103) is multiple, and the multiple third accommodating cavities (103) are sequentially arranged along the length direction of the first plastic sucking box assembly (1).

Description

Lamination-proof structure of plastic suction box Technical Field The utility model relates to the technical field of plastic sucking box packaging, in particular to an anti-lamination structure of a plastic sucking box. Background In the field of blister packaging, stacking and storing of multiple layers of blister packs often faces the problem of lamination caused by nesting between different layers during transportation. The upper and lower layers of the traditional blister package are often stacked in sequence in the height direction by adopting identical blister boxes, and the upper layer blister boxes are easily sunk into the cavity of the lower layer blister box for placing products due to the action of gravity, so that adhesion between different layers, difficult taking and even product damage are caused. Disclosure of utility model Based on this, it is necessary to provide a lamination preventing structure for a conventional upper layer blister box, which is easy to sink into a cavity for placing products of a lower layer blister box due to gravity, resulting in adhesion between different layers, difficulty in taking and even damage of products. The lamination preventing structure of the plastic sucking box comprises a first plastic sucking box component, wherein the first plastic sucking box component is provided with a plurality of accommodating cavities, the accommodating cavities are at least a first accommodating cavity, a second accommodating cavity and a third accommodating cavity, and the first accommodating cavity, the second accommodating cavity and the third accommodating cavity are sequentially arranged along the width direction of the first plastic sucking box component; the second plastic sucking box assembly is arranged on the first plastic sucking box assembly, the second plastic sucking box assembly is provided with a plurality of adapting cavities, the number of the adapting cavities is the number of the adapting cavities, the adapting cavities are at least a first adapting cavity, a second adapting cavity and a third adapting cavity, the first adapting cavity, the second adapting cavity and the third adapting cavity are sequentially arranged along the width direction of the second plastic sucking box assembly, the distance between the first accommodating cavity and the second accommodating cavity is L1, the distance between the second accommodating cavity and the third accommodating cavity is L2, the distance between the first adapting cavity and the second adapting cavity is L3, the distance between the second adapting cavity and the third adapting cavity is L4, L1 is larger than L3 and L2 is smaller than L4, or L1 is smaller than L3 and L2 is larger than L4. The application discloses an anti-lamination structure of a plastic suction box, which is characterized in that through the fact that L1 is not equal to L3 and L2 is not equal to L4, an adaptation cavity of a second plastic suction box component on an upper layer and a containing cavity of a first plastic suction box component on a lower layer are distributed in a staggered mode in the horizontal direction, so that the bottom of the containing cavity on the upper layer cannot vertically fall into the adaptation cavity on the lower layer, and the problem of interlayer lamination caused by the action of gravity is avoided. The design can effectively avoid the problems that the upper layer plastic sucking box is sunk into the cavity of the lower layer plastic sucking box for placing products due to the action of gravity, so that different layers are adhered, the taking is difficult and even the products are damaged. The design structure is simple and reliable, the lamination problem of the traditional plastic suction box during stacking is effectively solved on the premise of not increasing the production cost, and the practicability and reliability of the package are improved. Through L1 is greater than L3 then L2 is less than L4, and L1 is less than L3 then L2 is greater than L4 for the overall dimension of first plastic uptake box subassembly and second plastic uptake box subassembly is roughly the same, avoids leading to stacking the process more complicated because the size difference is too big, can guarantee moreover that stacking appearance is whole harmonious and pleasing to the eye. In one embodiment, the first plastic uptake box assembly is provided with a fourth accommodating cavity, the first accommodating cavity, the second accommodating cavity, the fourth accommodating cavity and the third accommodating cavity are sequentially arranged along the width direction of the first plastic uptake box assembly, the second plastic uptake box assembly is provided with a fourth adapting cavity, and the first adapting cavity, the second adapting cavity, the fourth adapting cavity and the third adapting cavity are sequentially arranged along the width direction of the second plastic uptake box assembly. Through increasing fou