CN112294067B - Environment-friendly plane straw structure - Google Patents

Abstract

The invention discloses an environment-friendly plane sucker structure, which comprises: the flexible film is in a plane state, the front surface and the back surface of the flexible film are provided with an outer pipe wall surface and an inner pipe wall surface, the length direction of the outer pipe wall surface and the inner pipe wall surface is provided with a first side edge and a second side edge, and a winding edge and a suction edge which are connected with the first side edge and the second side edge, the winding edge of the outer pipe wall surface is provided with an outer pipe winding rib, the outer pipe winding rib is provided with a first reinforcing rib from the second side edge to the suction edge, the side edge of the first reinforcing rib is provided with a second reinforcing rib, the suction edge is provided with a suction rib, a junction of the suction rib and the first reinforcing rib extends outwards to form a bunch, a user can mark and wind according to different directions to obtain different lengths of pipes (straws), and the diameter of the pipes (straws) can be determined by adjusting different winding widths during winding, so that the flexible film is suitable for various drinks.

Description

Environment-friendly plane straw structure

Technical Field

The invention relates to a diet appliance device, in particular to an environment-friendly plane sucker structure.

Background

Based on the rising global environmental awareness, many proposals have been made to replace plastic materials for straws with large usage, such as bamboo straws, straw straws, sugar cane fiber straws, paper straws, seaweed straws (the straws are edible), stainless steel straws, and glass straws.

These straws are environmentally friendly in material, but still have many problems to overcome. For example, the straw made of plant material needs to consume a lot of energy to clean, sterilize, remove worm eggs, remove odor … and so on. The edible seaweed straw is high in price due to the limitation of the manufacturing process and the material selection, and is difficult to popularize to the market. The stainless steel and glass suction pipe has the problems that the interior of the pipe body is not easy to clean and needs to be cleaned by matching with a special brushing tool; in addition, stainless steel straws are not manufactured in large quantities with large pipe diameters at present due to the consideration of material cost and selling price, and the stainless steel straws have the potential danger of being punctured in use, and the glass straws are also punctured, cut and inconvenient to carry due to the fragile materials.

Disclosure of Invention

In view of the above problems, the present inventors have made extensive studies and developments, and therefore, the present invention is directed to provide an environmental protection flat straw structure, which is suitable for various situations without the risk of scratching or inserting the steel straw; can be conveniently cleaned without dead angles, and cleaning tools do not need to be additionally matched.

To achieve the above object, the present invention provides an environmental protection flat sucker structure, which comprises:

when a flexible film is in a plane state, the front side and the back side of the flexible film are provided with an outer pipe wall surface and an inner pipe wall surface, the length direction of the flexible film on the outer pipe wall surface and the inner pipe wall surface is provided with a first side edge and a second side edge, the width direction of the flexible film is provided with a winding edge and a suction port edge, the top sides of the first side edge and the second side edge are respectively connected with the winding edge, the bottom sides of the first side edge and the second side edge are respectively connected with the suction port edge, the winding edge of the outer pipe wall surface is provided with a first winding reinforcing rib, the second side edge of the outer pipe wall surface is provided with a second reinforcing rib, the suction port edge of the outer pipe wall surface is provided with an outer pipe surface suction rib, the joint of the outer pipe surface suction port rib and the first reinforcing rib extends outwards to form a bunch, the bunch is provided with a plurality of beam spots, the winding edge of the inner pipe wall surface is provided with a third winding reinforcing rib, the third winding reinforcing rib extends inwards in parallel to form a fourth winding reinforcing rib, the first side edge of the inner pipe wall surface is provided with a third reinforcing rib, the side edge of the third reinforcing rib is provided with a fourth reinforcing rib in parallel, the suction port edge of the inner pipe wall surface is provided with an inner pipe surface suction rib, the tail end of the fourth reinforcing rib is connected with the third winding reinforcing rib, and the front end of the fourth reinforcing rib extends to the middle section of the inner pipe surface suction port rib in parallel.

In some embodiments, the first winding stiffener is provided with a plurality of direction indicating indicia and an inwardly extending second winding stiffener.

In some embodiments, the outer tubular surface suction ribs have a plurality of interlaced ribs extending inwardly from the front and rear ends thereof.

In some embodiments, when the flexible film is in a tube state, the outer tube wall and the inner tube wall form a mutually overlapped surface, the first reinforcing rib and the second reinforcing rib on the outer tube wall can reinforce the joint force of the outer tube wall and the inner tube wall, and the third reinforcing rib and the fourth reinforcing rib on the inner tube wall can reinforce the outward supporting force of the inner tube wall, so that the tube is tightly supported by the first reinforcing rib, the second reinforcing rib, the third reinforcing rib and the fourth reinforcing rib in a winding manner after the straw is formed, and the mutually overlapped surfaces are completely sealed, thereby avoiding air leakage when drinking, effectively enhancing the strength of the tube and facilitating drinking.

In some embodiments, the bunch is provided with a plurality of beam spots, the front end of the bunch is provided with a reinforcing spot and a reinforcing piece to prevent the bunch from being broken, the bunch is fixed on the bottom side of the suction opening side around the tube body (suction tube) when the flexible film is in a tube body state, the beam spots are bound on the wall surface of the outer tube along with the bunch winding to prevent the bunch from loosening, and the flexible film in the tube body (suction tube) state is fixed.

In some embodiments, the flexible film is wound in the length direction in a storage state.

In some embodiments, the flexible film in the storage state can be stored in a storage box, and the storage box further comprises a plastic film cutting sheet for cutting a seal of a beverage cup.

In some embodiments, the first side edge of the outer tube wall may be provided with a fifth reinforcing rib, the fifth reinforcing rib is combined with the third reinforcing rib of the inner tube wall to form a water-drop shape, and when the flexible film is in a tube shape, the inclined end of the fifth reinforcing rib is abutted against the inner tube wall of the outer layer, so that the overlapped surfaces enhance the air tightness.

In some embodiments, the second side of the inner tube wall may be provided with a sixth rib, the sixth rib is combined with the first rib of the outer tube wall to form a water-drop shape, and when the flexible film is in a tube state, the inclined end of the sixth rib is abutted against the inner tube wall to enhance the air tightness of the overlapped surfaces. In some embodiments, the front end of the wire harness is provided with a reinforcing point and a reinforcing sheet.

In some embodiments, the flexible film can be wound along different directions to obtain different tube lengths, and the diameter of the tube (straw) can be determined by adjusting different winding widths, so that straws with different tube diameters and lengths can be formed.

After the structure is adopted, the flexible film of the environment-friendly flat sucker structure is made of a silica gel material, is high-low temperature resistant and non-toxic, is an environment-friendly material with a long life cycle, and is suitable for various situations; the flexible material is soft in texture, and the risk of scratching or inserting of the steel suction pipe is avoided; the flexible material can be tightly attached after being specially designed, and no liquid leakage is possible; when the flexible film is in a plane state, the flexible film is unfolded from the tube body state, so that the flexible film can be conveniently cleaned without dead angles, and cleaning tools do not need to be additionally matched;

in addition, different lengths of the tube body (straw) can be obtained by marking and winding according to different directions, and the diameter of the tube body (straw) can be determined by adjusting different winding widths during winding so as to be suitable for various beverages; the coiling and storage are carried out in the direction parallel to the long strip, the volume is small, the coiled strip can be placed in an airtight storage box, and the coiled strip is sanitary and convenient to carry; the storage box can be additionally provided with a plastic film cutting sheet body which can cut off a plastic film on the beverage cup so as to solve the problem of inserting the opening of the beverage cup seal; in addition, the wire harness can be fixed when the flexible film is wound into a tube, and the fixing mode or means can be achieved by matching the known technical means with the flexible film, so that the flexible film can be more conveniently carried and stored.

Drawings

FIG. 1 is a front perspective view of an environmentally friendly planar drinking straw structure according to the present invention;

FIG. 2 is a schematic perspective view of the back of the environmentally friendly planar straw structure of the present invention;

FIG. 3 is a schematic plan view of the outer wall of the environmental protection flat straw structure of the present invention;

FIG. 4 is a schematic plan view of the inner wall of the environmentally friendly planar drinking straw structure of the present invention;

FIG. 5 is a schematic view of the environmental flat straw structure of the present invention, shown in partial section A-A;

FIG. 6 is a schematic cross-sectional view of the environment-friendly flat straw structure in the state of the straw body;

FIG. 7 is a schematic view of a first embodiment of the environmentally friendly planar drinking straw structure of the present invention;

FIG. 8 is a schematic view of a second embodiment of the environmentally friendly planar drinking straw structure of the present invention;

FIG. 9 is a schematic view of the environmental flat straw structure in a storage state;

FIG. 10 is a schematic view of the top reinforcing rib of the eco-friendly flat drinking straw structure of the present invention shown in B-B;

FIG. 11 is a schematic view of the sixth strengthening rib of the eco-friendly planar drinking straw structure of the present invention;

FIG. 12 is a schematic view showing the reinforcement ribs of another embodiment of the present invention having drop-shaped diagonal ends to enhance airtightness of overlapping surfaces;

FIG. 13 is a schematic view of the environmental flat straw structure in the storage state and placed in a storage box.

Description of the symbols:

10 Flexible film

11 outer tube wall surface

12 first side edge

13 second side

14 winding edge

141 first winding reinforcing rib

142 third winding stiffener

143 fourth winding stiffener

15 suction port side

151 outer pipe surface suction rib

152 interweave ribs

153 inner pipe surface suction rib

16 direction indication note

161 second winding stiffener

17 first reinforcing rib

18 second reinforcing rib

19 wire harness

191 beam spot

192 strengthening point

193 reinforcing sheet

20 mutually overlapped surfaces

31 inner tube wall surface

32 third stiffener

33 fourth stiffening rib

36 fifth strengthening Rib

361 at the oblique end

37 sixth strengthening rib

371 oblique end

50 storage box

51 storage body

52 storage cover

53 plastic film cut sheet.

Detailed Description

The technical means for achieving the above object of the present invention is described in detail below with reference to the following embodiments.

Referring to fig. 1 to 4, when a flexible film 10 is in a flat state, the front and back surfaces of the flexible film have an outer tube wall 11 and an inner tube wall 31, the outer tube wall 11 and the inner tube wall 31 have a first side 12 and a second side 13 along the length direction, a winding edge 14 and a suction edge 15 along the width direction, the first side 12 and the second side 13 have top sides connected to the winding edge 14 and bottom sides connected to the suction edge 15, the winding edge 14 of the outer tube wall 11 has a first winding reinforcing rib 141, the first winding reinforcing rib 141 has a plurality of directional winding marks 16 and a second winding reinforcing rib 161 extending inward, the second side 13 of the outer tube wall 11 has a first reinforcing rib 17, the first reinforcing rib 17 has a second reinforcing rib 18 along the side, the suction edge 15 of the outer tube wall 11 has an outer tube suction rib 151, the front end and the end of the outer tube suction rib 151 have a plurality of interlaced ribs 152 extending inward, a bunch 19 extends outwards from the joint of the outer pipe surface suction rib 151 and the first reinforcing rib 17, a plurality of beam spots 191 are arranged on the bunch 19, and a reinforcing point 192 and a reinforcing sheet 193 are arranged at the front end of the bunch 19 to avoid breakage.

The winding edge 14 of the inner pipe wall surface 31 is provided with a third winding reinforcing rib 142, the third winding reinforcing rib 142 is provided with a fourth winding reinforcing rib 143 extending inwards in parallel, the first side edge 12 of the inner pipe wall surface 31 is provided with a third reinforcing rib 32, the side edge of the third reinforcing rib 32 is provided with a fourth reinforcing rib 33 in parallel, the suction port edge 15 of the inner pipe wall surface 31 is provided with an inner pipe suction rib 153, the tail end of the fourth reinforcing rib 33 is connected with the third winding reinforcing rib 142, and the front end extends to the middle section of the inner pipe suction rib 153 in parallel.

The first winding reinforcing rib 141 is provided with a plurality of direction marking marks 16, pipe bodies (straws) with different lengths can be wound according to the different direction marking marks, the diameter of the pipe body (straw) can be determined by adjusting different winding widths during winding, and a user can use the corresponding direction marking marks 16 and the proper winding width according to the required thickness and length of the straw.

The bunch 19 is fixed to the bottom side of the suction side by being wound around a tube body (suction pipe) when the flexible film 10 is in a tube body state, and the bunch 19 is provided with a plurality of anti-loosening beam spots 191, and the beam spots 191 are wound around the outer tube wall surface 11 along with the bunch to prevent the bunch 19 from loosening and fix the flexible film 10 in the tube body (suction pipe) state.

Referring to fig. 5 and 6, when the flexible film 10 is in a tube state, the outer tube wall 11 and the inner tube wall 31 form a mutually overlapped surface 20, and the first reinforcing rib 17 and the second reinforcing rib 18 on the outer tube wall 11 can reinforce the adhesion force between the upper inner tube wall 31 and the lower outer tube wall 11, and the third reinforcing rib 32 and the fourth reinforcing rib 33 on the inner tube wall 31 can reinforce the outward supporting force of the inner tube wall 31, so that the tube is tightly supported by the first reinforcing rib 17, the second reinforcing rib 18, the third reinforcing rib 32 and the fourth reinforcing rib 33 after being wound and formed, and the mutually overlapped surface 20 is completely sealed, thereby preventing air leakage when drinking, effectively enhancing the strength of the tube body, and facilitating drinking.

Referring to fig. 7 to 8, when the flexible film 10 is in a tubular state, the outer tube surface suction rib 151, the inner tube surface suction rib 153 (see fig. 2) and the plurality of interlaced ribs 152 extending inward on the suction port side 15 enhance the strength of the top of the straw aperture, so that the straw aperture is not easily flattened by suction pressure when a user sucks a beverage, and the first winding reinforcing rib 141, the second winding reinforcing rib 161, the third winding reinforcing rib 142 and the fourth winding reinforcing rib 143 (see fig. 1 and 2) on the winding side 14 enhance the strength of the bottom of the straw aperture during winding, so that the straw aperture is not deformed during winding and sealing when the straw is inserted into a beverage cup.

Referring to fig. 9, in some embodiments, the flexible film 10 of the present invention is wound in the length direction to be in a storage state.

Referring to fig. 10 to 12, a fifth reinforcing rib 36 may be disposed on the first side 12 of the outer tube wall 11, the fifth reinforcing rib 36 is combined with the third reinforcing rib 32 of the inner tube wall 31 to form a droplet shape, a slanted end 361 of the fifth reinforcing rib 36 is abutted against the outer tube wall 31 to reinforce the adhesion between the outer tube wall 31 and the inner tube wall 11, so that the overlapped surface 20 is reinforced with air tightness, a sixth reinforcing rib 37 may be disposed on the second side 13 of the inner tube wall 31, the sixth reinforcing rib 37 is combined with the first reinforcing rib 17 of the outer tube wall 11 to form a droplet shape, the slanted end 371 of the sixth reinforcing rib 37 is abutted against the inner tube wall 11 to reinforce the inward screwing force of the outer tube wall 11, so that the overlapped surface 20 is reinforced with air tightness.

Referring to fig. 13, the flexible film 10 in the storage state shown in fig. 7 can be stored in a storage box 50, the storage box 50 can be cylindrical and has a storage body 51 and a storage cover 52 that can be closed with each other, and the storage box 50 can further include a plastic film cutting sheet 53 that can be disposed in the storage body 51 and can be used to cut the seal of a beverage cup.

The flexible film 10 of the present invention can be made of a flexible material, such as silica gel or other non-toxic environmental friendly materials, and the flexible material is made into a strip-shaped film, and the thickness and hardness of the film can be adjusted according to the product requirements, which is not limited to this.

By means of the structure, the flexible film 10 can be made of silica gel materials, is high-low temperature resistant and non-toxic, is an environment-friendly material with a long life cycle, and is suitable for various situations; the flexible material is soft in texture, and the risk of scratching or inserting of the steel suction pipe is avoided; the specially designed flexible material can be tightly attached after being wound, and no liquid leakage is possible; when the flexible film 10 is in a planar state, the flexible film can be unfolded from the tube state, so that the flexible film can be conveniently cleaned without dead angles, and no extra cleaning tools are needed; in addition, different lengths of the tube body (straw) can be obtained by winding according to different direction marking marks 16, and the diameter of the tube body (straw) can be determined by adjusting different winding widths during winding so as to be suitable for various beverages; the coiling and storage are carried out in the direction parallel to the long strip, the volume is small, the coiled strip can be placed in an airtight storage box, and the coiled strip is sanitary and convenient to carry; the storage box can be further provided with a plastic film cutting sheet body 53, and the seal of the beverage cup can be cut off, so that the problem of inserting the mouth of the beverage cup is solved.

Claims (9)

1. An environmental protection flat sucker structure, its characterized in that includes: when a flexible film is in a flat state, the front side and the back side of the flexible film are provided with an outer pipe wall surface and an inner pipe wall surface, the flexible film can form a suction pipe when being in a pipe body state through winding, the length direction of the flexible film is provided with a first side edge and a second side edge, the width direction of the flexible film is provided with a winding edge and a suction port edge, the top sides of the first side edge and the second side edge are respectively connected with the winding edge, the bottom side of the first side edge and the second side edge are respectively connected with the suction port edge, the winding edge of the outer pipe wall surface is provided with a first winding reinforcing rib, the second side edge of the outer pipe wall surface is provided with a second reinforcing rib, the suction port edge of the outer pipe wall surface is provided with an outer pipe surface suction port rib, the joint of the outer pipe surface suction port rib and the first reinforcing rib extends outwards to form a bunch, the bunch is provided with a plurality of beam spots, and when the flexible film is in a pipe body state, the bunch is fixed at the bottom side of the suction port edge around the flexible film, the beam spot is bound on the wall surface of the outer pipe along with the winding of the beam line to prevent the beam line from loosening and fix the flexible film in a pipe body state, a third winding reinforcing rib is arranged on the winding edge of the wall surface of the inner pipe, a fourth winding reinforcing rib is arranged on the third winding reinforcing rib in a parallel and inward extending mode, a third reinforcing rib is arranged on the first side edge of the wall surface of the inner pipe, a fourth reinforcing rib is arranged on the side edge of the third reinforcing rib in a parallel mode, an inner pipe surface suction rib is arranged on the suction port edge of the wall surface of the inner pipe, the tail end of the fourth reinforcing rib is connected with the third winding reinforcing rib, and the front end of the fourth reinforcing rib extends to the middle section of the inner pipe surface suction port rib in a parallel mode.

2. The environmentally friendly planar drinking straw structure of claim 1, wherein: the first winding reinforcing rib is provided with a plurality of direction indication marks and a second winding reinforcing rib extending inwards.

3. The environmentally friendly planar drinking straw structure of claim 1, wherein: the front end and the tail end of the outer pipe surface suction rib extend inwards to form a plurality of interweaving ribs.

4. The environmentally friendly planar drinking straw structure of claim 1, wherein: when the flexible film is in a tube body state, the wall surface of the outer tube and the wall surface of the inner tube form a mutually overlapped surface, the first reinforcing rib and the second reinforcing rib on the wall surface of the outer tube can reinforce the attaching force of the wall surface of the inner tube at the outer layer and the wall surface of the outer tube at the inner layer, and the third reinforcing rib and the fourth reinforcing rib on the wall surface of the inner tube can reinforce the outward supporting force of the wall surface of the inner tube.

5. The environmentally friendly planar drinking straw structure of claim 1, wherein: the front end of the wire harness is provided with a strengthening point and a strengthening sheet to avoid fracture.

6. The environmentally friendly planar drinking straw structure of claim 1, wherein: the flexible film is wound in the longitudinal direction to be in a storage state.

7. The environmentally friendly planar drinking straw structure of claim 6, wherein: the flexible film in the storage state can be stored in a storage box, and the storage box also comprises a plastic film cutting sheet body used for cutting the seal of a beverage cup.

8. The environmentally friendly planar drinking straw structure of claim 1, wherein: the first side edge of the outer pipe wall surface can be provided with a fifth reinforcing rib, the fifth reinforcing rib is combined with the third reinforcing rib on the inner pipe wall surface to be in a water-drop shape, and when the flexible film is in a pipe body state, the inclined end of the fifth reinforcing rib in the water-drop shape abuts against and is attached to the outer layer inner pipe wall surface, so that the overlapped surfaces strengthen the air tightness.

9. The environmentally friendly planar drinking straw structure of claim 1, wherein: the second side edge of the inner pipe wall surface can be provided with a sixth reinforcing rib, the sixth reinforcing rib is combined with the first reinforcing rib of the outer pipe wall surface to form a water drop shape, and when the flexible film is in a pipe body state, the inclined end of the sixth reinforcing rib in the water drop shape abuts against and is attached to the inner layer outer pipe wall surface, so that the mutually overlapped surfaces strengthen the air tightness.

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