阅读说明：本技术 一次性咖啡循环杯的使用方法 (Use method of disposable coffee circulating cup ) 是由 林智勇 于 2020-10-31 设计创作，主要内容包括：一次性咖啡循环杯的使用方法,一次性咖啡循环杯包括有杯筒、格子盒、杯盖和搅拌匙,格子盒的格子内密封有咖啡冲剂,格子设有散热通道,散热通道与大气连通；冲咖啡时,利用搅拌匙将密封盖勾开,然后向杯内倒入热水,该溶解的咖啡冲剂饮用后,将搅拌匙放回杯内,并将杯盖盖住杯口；下次再饮用咖啡时,重复上述操作,直到将全部格子内的咖啡冲剂喝完,使一次性杯得到多次使用,减少一次性杯材料的耗用；在打开格子向杯内倒入热水时,未打开格子的密封盖的隔热垫将热水的热量与未冲的咖啡冲剂隔开,并利用散热通道将热量散发到空气中,减少热量对封闭格子内的咖啡冲剂的影响。(The use method of the disposable coffee circulating cup comprises a cup cylinder, a grid box, a cup cover and a stirring spoon, wherein coffee granules are sealed in grids of the grid box, the grids are provided with heat dissipation channels, and the heat dissipation channels are communicated with the atmosphere; when coffee is brewed, the sealing cover is hooked by using the stirring spoon, then hot water is poured into the cup, after the dissolved coffee granules are drunk, the stirring spoon is put back into the cup, and the cup cover covers the cup opening; when the coffee is drunk again next time, the operation is repeated until all the coffee granules in the lattices are drunk, so that the disposable cup can be used for multiple times, and the consumption of the material of the disposable cup is reduced; when the grid is opened and hot water is poured into the cup, the heat of the hot water is separated from coffee granules which are not brewed by the heat insulation pad of the sealing cover without opening the grid, and the heat is dissipated into the air by the heat dissipation channel, so that the influence of the heat on the coffee granules in the closed grid is reduced.)

1. The using method of the disposable coffee circulating cup comprises a cup cylinder (1), a grid box (2), a cup cover (3) and a stirring spoon (4), wherein the stirring spoon (4) is sealed in a cup (7) of the cup cylinder (1), the grid box (2) is provided with a plurality of grids (8), a granule (11) is sealed in a grid cavity (10) of each grid (8), each sealing cover (9) is provided with a cover opening traction lug (12), and the sealing cover (9) is provided with a heat insulation pad (15); a lattice wall (16) of the lattice (8) is provided with a heat dissipation channel (17), the heat dissipation channel (17) is communicated with the atmosphere, a cup foot (18) of the cup barrel (1) is provided with an upper vent hole (19) and a lower vent hole (20), and the upper vent hole (19) and the lower vent hole (20) are communicated with the heat dissipation channel (17); the method is characterized in that: the using method of the disposable coffee circulating cup comprises the following steps: when the coffee cup is used, particularly when coffee needs to be drunk in a journey, the cup cover (3) is opened, the opening hook (14) of the stirring spoon (4) is used for hooking the traction hole (13) of the opening traction lug (12) of one sealing cover (9) of the lattice box (2), the sealing cover (9) is separated from the lattice (8) hook by the opening hook (14) of the stirring spoon (4), and the coffee granules (11) in the lattice (8) are exposed in the cup (7); meanwhile, the sealing cover (9) is hooked out of the cup (7) by utilizing the grid-opening hook (14) of the stirring spoon (4); after the sealing cover (9) is hooked out of the cup (7), pouring hot drinking water into the cup (7), and stirring by using a stirring spoon (4) to dissolve the coffee granules (11) in the hot drinking water; after the dissolved coffee granules (11) are drunk, the stirring spoon (4) is put back into the cup (7), the cup cover (3) covers the cup opening (6) of the cup cylinder (1), and the cup (7) is kept clean and sanitary so as to be recycled; when coffee needs to be drunk next time, the operation is repeated, and the circulation is continuously carried out until all the coffee granules (11) in the lattices are drunk, so that the cup tube (1) is recycled for a plurality of times, the consumption of the cup tube material is reduced, and the aim of being beneficial to environmental protection is fulfilled; when a first cup of coffee is brewed and drunk, after drinking hot water is poured into the cup (7) of the cup tube (1), the drinking hot water enters the grid cavity (10) of the grid (8) from the opened grid (8), and coffee granules (11) in the opened grid cavity (10) are dissolved; the other grids (8) of the sealing cover (9) are not opened, the sealing cover (9) and the grids (8) are kept in a sealed state, and the heat insulation pad (15) of the sealing cover (9) separates the heat of the drinking hot water from the coffee granules (11) in the grid cavity (10); meanwhile, external air enters the heat dissipation channel (17) of the grid box (2) through the upper vent hole (19) and the lower vent hole (20) of the cup barrel (1), heat of drinking hot water is dissipated to the external air, and the influence of the heat of the drinking hot water on the coffee granules (11) in the grid cavity (10) is reduced.

2. Method of use of a disposable coffee recycling cup according to claim 1, characterized in that: when the disposable coffee circulating cup is used, the cup foot (18) of the disposable coffee circulating cup is placed on the table top, or the cup foot (18) is positioned below the cup opening (6); when drinking hot water is poured into the cup (7) after the sealing cover (9) of a certain cell (8) is opened, the coffee granules (11) in the cell cavities (10) of the cells (8) of other unopened sealing covers (9) are positioned at the bottom (21) of the cell cavities (10), and the coffee granules (11) in the cells (8) of the unopened sealing covers (9) are in a non-contact state with the sealing covers (9) of the cells (8), so that the drinking hot water can not transfer heat to the coffee granules (11) in the cells (8) of the unopened sealing covers (9) through the sealing covers (9); when drinking hot water is poured into the cup (7) after the sealing covers (9) are opened, the coffee granules (11) in the grid cavities (10) of the grids (8) of the sealing covers (9) which are not opened are positioned at the bottom (21) of the grid cavities (10), and the coffee granules (11) in the grids (8) of the sealing covers (9) which are not opened are in a non-contact state with the sealing covers (9) of the grids (8) thereof, so that the drinking hot water cannot transfer heat to the coffee granules (11) in the grids (8) of the sealing covers (9) which are not opened through the sealing covers (9).

3. Method of use of a disposable coffee recycling cup according to claim 2, characterized in that: when the disposable coffee circulating cup is used, after drinking hot water is poured into the cup (7), the heat of the hot water transferred to the coffee granules (11) is blocked by the heat insulation pad (15) of the sealing cover (9) and the space between the heat insulation pad (15) and the coffee granules (11), the heat of the hot water transferred to the coffee granules (11) through the grid wall (16) is continuously cooled by the air of the heat dissipation channel (17), the air in the heat dissipation channel (17) is continuously exchanged with the external air through the upper vent hole (19) and the lower vent hole (20) of the cup foot (18), the heat of the hot water is dissipated to the external air, and the heat of the hot water is blocked or reduced to be transferred to the coffee granules (11).

4. Method of use of a disposable coffee recycling cup according to claim 3, characterized in that: when the disposable coffee circulating cup is used, after drinking hot water is poured into the cup (7), the hot water conducts heat to the inner lattice wall (25) of the lattice wall (16), and the outer channel (29) of the heat dissipation channel (17) dissipates the heat of the outer circular arc wall (27) of the inner lattice wall (25) to the outside air; the inner channel (30) of the heat dissipation channel (17) dissipates the heat of the inner wall (28) of the inner grid wall (25) to the outside air, reducing the heat transfer of the hot water to the coffee granules (11).

5. Method of use of a disposable coffee recycling cup according to claim 4, characterized in that: when the disposable coffee circulating cup is used, after drinking hot water is poured into the cup (7), the coffee granules (11) of the grids (8) of the residual unopened sealing cover (9) are sealed in the grid cavity (10) formed by the sealing cover (9), the outer circular arc wall (27), the inner wall (28) of the grid wall (16) and the bottom plate (26) of the grid wall (16), the grids (8) of the opened sealing cover (9) and the grids (8) of the residual unopened sealing cover (9) are separated by the inner channel (30) of the heat dissipation channel (17), so that the heat of the outer circular arc wall (27) and the inner wall (28) of the opened grids (8) can not be directly conducted to the outer circular arc wall (27) and the inner wall (28) of the unopened grids (8), the heat is prevented from being directly conducted through the outer arc wall (27) and the inner wall (28) of the open lattice (8) to the outer arc wall (27) and the inner wall (28) of the unopened lattice (8).

6. Method of use of a disposable coffee recycling cup according to claim 5, characterized in that: when the disposable coffee circulating cup is used, after drinking hot water is poured into the cup (7), the grid cavity (10) of the grid (8) of the sealing cover (9) is opened and is filled with the hot water, the outer circular arc wall (27) and the inner wall (28) of the grid (8) of the sealing cover (9) are opened and are directly contacted with the hot water, and the temperature of the outer circular arc wall (27) and the inner wall (28) of the grid (8) is increased; the passage partition plates (32) of the grids (8) separate the inner wall (28) with the increased temperature from the inner wall (28) of the grids (8) without opening the sealing cover (9), so that the inner passages (30) of the grids (8) soaked by hot water and the inner passages (30) of the grids (8) without opening the sealing cover (9) are independent and isolated from each other, and heat conduction and transfer to the grids (8) with the sealing cover (9) opened are reduced.

7. Method of use of a disposable coffee recycling cup according to claim 6, characterized in that: when the disposable coffee circulating cup is used and coffee with common concentration needs to be drunk, the sealing cover (9) of a certain grid (8) is opened, and coffee is brewed by using the coffee granules (11) of one grid (8); when coffee with different concentration needs to be drunk, the sealing covers (9) of the two grids (8) are opened, and the coffee granules (11) of the two grids (8) are used for making coffee, so that the requirements of different consumers are met.

8. Method of use of a disposable coffee recycling cup according to claim 7, the grid (8) being provided with passage partitions (32), characterized in that: when the disposable coffee circulating cup is used, after drinking hot water is poured into the cup (7) when a first sealing cover (37) of a first grid (33) of a grid (8) is opened, the inner wall (28) of the first grid (33) is separated from the inner wall (28) of a second grid (34) through a first partition plate (41) of a channel partition plate (32), the inner wall (28) of the first grid (33) is separated from the inner wall (28) of a fourth grid (36) through a fourth partition plate (44) of the channel partition plate (32), and heat of the first grid (33) is reduced from being conducted to the adjacent second grid (34) and the adjacent fourth grid (36); when the second sealing cover (38) of the second grid (34) of the grid (8) is opened, after drinking hot water is poured into the cup (7), the inner wall (28) of the second grid (34) is separated from the inner wall (28) of the third grid (35) through the second partition (42) of the channel partition (32), and heat of the second grid (34) is reduced from being conducted to the adjacent third grid (35); when the third sealing cover (39) of the third grid (35) of the grid (8) is opened, after drinking hot water is poured into the cup (7), the inner wall (28) of the third grid (35) is separated from the inner wall (28) of the fourth grid (36) through the third partition (43) of the channel partition (32), and heat of the third grid (35) is reduced from being conducted to the adjacent fourth grid (36).

9. Method of use of a disposable coffee recycling cup according to claim 8, characterized in that: when the disposable coffee circulating cup is used, when the first sealing cover (37) of the first grid (33) of the grid (8) is opened, drinking hot water is poured into the cup (7), and heat of the outer circular arc wall (27) of the first grid (33) is radiated to the external atmosphere through the outer channel (29) of the heat radiation channel (17) between the outer circular arc wall (27) and the outer circular wall (24); when the second sealing cover (38) of the second grid (34) of the grid (8) is opened, after drinking hot water is poured into the cup (7), the heat of the outer circular arc wall (27) of the second grid (34) is radiated into the external atmosphere through the outer channel (29) of the heat radiation channel (17) between the outer circular arc wall (27) and the outer circular wall (24); when the third sealing cover (39) of the third grid (35) of the grid (8) is opened, after drinking hot water is poured into the cup (7), the heat of the outer circular arc wall (27) of the third grid (35) is radiated into the external atmosphere through the outer channel (29) of the heat radiation channel (17) between the outer circular arc wall (27) and the outer circular wall (24); when the fourth sealing cover (40) of the fourth grid (36) of the grid (8) is opened, and drinking hot water is poured into the cup (7), the heat of the outer circular arc wall (27) of the fourth grid (36) is radiated to the external atmosphere through the outer channel (29) of the heat radiation channel (17) between the outer circular arc wall (27) and the outer circular wall (24).

10. Method of use of a disposable coffee recycling cup according to claim 9, characterized in that: when the disposable coffee circulating cup is used, after drinking hot water is poured into the cup (7), when the heat of the drinking hot water is transferred to the inner grid wall (25), partial heat is absorbed by the air of the heat dissipation channel (17), the inner grid wall (25) transfers the heat to the bottom plate (26), the heat is dissipated into the air by the heat dissipation groove (45) of the bottom plate (26), and the influence of the heat on coffee granules (10) in the unopened grid (8) is reduced.

Technical Field

The invention relates to a use method of a coffee cup, in particular to a use method of a disposable coffee circulating cup.

Background

At present, coffee granules are placed in a disposable coffee cup in the market, and the cup can be drunk after a cup cover of the cup is opened and the cup is filled with hot water and stirred, so that the cup is particularly suitable for traveling; the disadvantage is that the coffee cup is disposable, which is not beneficial to environmental protection, and the use method of the disposable coffee circulating cup which can be recycled becomes the requirement of environmental protection.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide a using method of a disposable coffee circulating cup, which is used for increasing the recycling times of disposable coffee and reducing the consumption of materials of the disposable coffee cup so as to achieve the aim of protecting the environment.

The technical scheme adopted by the invention is as follows: the disposable coffee circulating cup comprises a cup cylinder, a lattice box, a cup cover and a stirring spoon, wherein the lattice box is fixed at the cup bottom of the cup cylinder, the lattice box is hermetically connected with the cup cylinder, the cup cover is hermetically connected with the cup opening of the cup cylinder, and the stirring spoon is hermetically connected with the inside of the cup cylinder; the grid box is provided with a plurality of grids, each grid is independent and separated from each other, and each grid is provided with an independent sealing cover; the initial state of the lattice box is: the sealing cover is connected with the lattices in a sealing way, and the lattice cavity of each lattice is sealed with granules which comprise coffee, or a mixture of coffee and milk powder, or a mixture of coffee, milk powder and sugar; each sealing cover is provided with an uncovering traction lug, the uncovering traction lug and the sealing cover are made of integrated materials, and the uncovering traction lug is provided with a traction hole; the stirring spoon is provided with a grid opening hook, the grid opening hook and the stirring spoon are made of an integrated material, and when the stirring spoon is used, the sealing cover is separated from the grid hook by the grid opening hook; in order to increase the heat insulation performance of the lattice box, the sealing cover is provided with a heat insulation pad, and the sealing cover is fixedly connected with the heat insulation pad in an adhesion manner; the lattice wall of the lattice is provided with a heat dissipation channel which is communicated with the atmosphere, the cup leg of the cup barrel is provided with an upper vent hole and a lower vent hole which are communicated with the heat dissipation channel, and the heat dissipation performance of the lattice box is improved.

The using method of the disposable coffee circulating cup comprises the following steps: when the cup is used, particularly when coffee is needed for traveling, the cup cover is opened, the opening grid of the stirring spoon is used for hooking the traction hole of the uncovering traction lug of one sealing cover of the grid box, the sealing cover is separated from the grid hook by the opening grid of the stirring spoon, and coffee granules in the grid are exposed in the cup; meanwhile, the sealing cover is hooked out of the cup by using the grid-opening hook of the stirring spoon; pouring hot drinking water into the cup after the sealing cover is hooked out of the cup, and stirring by using a stirring spoon to dissolve the coffee granules into the hot drinking water; after the dissolved coffee granules are drunk, the stirring spoon is put back into the cup, and the cup cover covers the cup opening of the cup cylinder to keep the inside of the cup clean and sanitary so as to be recycled; when coffee needs to be drunk next time, the operation is repeated, and the circulation is continuously carried out until all the coffee granules in the lattices are drunk, so that the cup cylinder is recycled for multiple times, the consumption of the cup cylinder material is reduced, and the aim of being beneficial to environmental protection is fulfilled; when a first cup of coffee is brewed and drunk, after drinking hot water is poured into the cup 7 of the cup cylinder, the drinking hot water enters the grid cavity of the grid from the opened grid, and coffee granules in the opened grid cavity are dissolved; the sealing cover and the grids are kept in a sealing state, and the heat insulation pad of the sealing cover separates the heat of the drinking hot water from the coffee granules in the grid cavity; meanwhile, the external air enters the heat dissipation channel of the grid box through the upper vent hole and the lower vent hole of the cup cylinder, the heat of the drinking hot water is dissipated to the external air, and the influence of the heat of the drinking hot water on the coffee granules in the grid cavity is reduced.

The invention has the beneficial effects that: the disposable coffee circulating cup comprises a cup cylinder, a grid box, a cup cover and a stirring spoon, coffee granules are sealed in a plurality of grids of the grid box, and heat dissipation channels are arranged on the walls of the grids and communicated with the atmosphere; when coffee is brewed, the grid-opening hook of the stirring spoon is used for hooking the sealing cover of the grid each time, then drinking hot water is poured into the cup, after the dissolved coffee granules are drunk, the stirring spoon is put back into the cup, and the cup cover covers the cup opening; when the coffee is drunk again next time, the operation is repeated until the coffee granules in all the lattices are drunk, so that the disposable cup can be recycled for a plurality of times, the consumption of the material of the disposable cup is reduced, and the environment is protected; when the grid is opened and hot water is poured into the cup, the heat of the hot water is separated from coffee granules which are not brewed by the heat insulation pad of the sealing cover without opening the grid, and the heat of the hot water is dissipated to the air by the heat dissipation channel, so that the influence of the heat of the hot water on the coffee granules in the closed grid is reduced.

Drawings

FIG. 1 is a schematic view of a disposable coffee recycling cup;

fig. 2 is a top view of fig. 1.

Detailed Description

The invention is further described with reference to the following detailed description of embodiments and with reference to the accompanying drawings in which:

as shown in the structural schematic diagram of the disposable coffee circulating cup shown in fig. 1 and the top view of fig. 1 shown in fig. 2, the disposable coffee circulating cup comprises a cup cylinder 1, a lattice box 2, a cup cover 3 and a stirring spoon 4, wherein the lattice box 2 is fixed at the cup bottom 5 of the cup cylinder 1, the lattice box 2 is hermetically connected with the cup cylinder 1, the cup cover 3 is hermetically connected with a cup opening 6 of the cup cylinder 1, and the stirring spoon 4 is hermetically connected with a cup inner 7 of the cup cylinder 1; the lattice box 2 is provided with a plurality of lattices 8, each lattice 8 is independent and separated from each other, and each lattice 8 is provided with an independent sealing cover 9; the initial state of the lattice box 2 is: the sealing cover 9 is connected with the lattices 8 in a sealing way, the lattice cavity 10 of each lattice 8 is sealed with the granules 11, and the granules 11 comprise coffee, or a mixture of coffee and milk powder, or a mixture of coffee, milk powder and sugar; each sealing cover 9 is provided with an uncovering traction lug 12, the uncovering traction lug 12 and the sealing cover 9 are made of integrated materials, and the uncovering traction lug 12 is provided with a traction hole 13; the stirring spoon 4 is provided with a grid opening hook 14, the grid opening hook 14 and the stirring spoon 4 are made of an integrated material and used for separating the sealing cover 9 from the grid 8 hook by utilizing the grid opening hook 14; in order to increase the heat insulation performance of the grid box 2, the sealing cover 9 is provided with a heat insulation pad 15, and the sealing cover 9 is fixedly connected with the heat insulation pad 15 in an adhesion manner; the lattice wall 16 of the lattice 8 is provided with a heat dissipation channel 17, the heat dissipation channel 17 is communicated with the atmosphere, the cup leg 18 of the cup barrel 1 is provided with an upper vent hole 19 and a lower vent hole 20, and the upper vent hole 19 and the lower vent hole 20 are communicated with the heat dissipation channel 17 for increasing the heat dissipation performance of the lattice box 2.

The using method of the disposable coffee circulating cup comprises the following steps: when the cup is used, particularly when coffee needs to be drunk in a trip, the cup cover 3 is opened, the opening hook 14 of the stirring spoon 4 hooks the drawing hole 13 of the opening pulling lug 12 of one sealing cover 9 of the lattice box 2, the opening hook 14 of the stirring spoon 4 separates the sealing cover 9 from the lattice 8 hook, and the coffee granules 11 in the lattice 8 are exposed in the cup 7; meanwhile, the sealing cover 9 is hooked out of the cup 7 by the grid-opening hook 14 of the stirring spoon 4; after the sealing cover 9 is hooked out of the cup 7, pouring drinking hot water into the cup 7, and stirring by using a stirring spoon 4 to dissolve the coffee granules 11 in the drinking hot water; after the dissolved coffee granules 11 are drunk, the stirring spoon 4 is put back into the cup 7, the cup cover 3 covers the cup opening 6 of the cup cylinder 1, and the cup 7 is kept clean and sanitary so as to be recycled; when coffee needs to be drunk next time, the operation is repeated, and the circulation is continuously carried out until all the coffee granules 11 in the lattices are drunk, so that the cup tube 1 is recycled for a plurality of times, the consumption of the cup tube material is reduced, and the aim of being beneficial to environmental protection is fulfilled; when a first cup of coffee is brewed and drunk, after drinking hot water is poured into the cup 7 of the cup tube 1, the drinking hot water enters the grid-shaped cavity 10 of the grid 8 from the opened grid 8, and coffee granules 11 in the opened grid-shaped cavity 10 are dissolved; the other grids 8 of the sealing cover 9 are not opened, the sealing cover 9 and the grids 8 are kept in a sealing state, and the heat insulation pad 15 of the sealing cover 9 separates the heat of the drinking hot water from the coffee granules 11 in the grid cavity 10; meanwhile, the external air enters the heat dissipation channel 17 of the grid box 2 through the upper vent hole 19 and the lower vent hole 20 of the cup cylinder 1, so that the heat of the drinking hot water is dissipated to the external air, and the influence of the heat of the drinking hot water on the coffee granules 11 in the grid cavity 10 is reduced.

In order to achieve the purpose of sealing the grid 8 by using the sealing cover 9 and prevent the heat of drinking hot water in the cup 10 from being directly transferred to the coffee granules 10 which are not brewed after the grid 8 is not opened, the grid 8 of the grid box 2 is connected with the sealing cover 9 in an adhesion way; the initial state of the coffee granules 11 in the grid-shaped cavities 10 of the grid 8 is: the coffee granules 11 in the grid cavity 10 are in a non-filled state, the coffee granules 11 are in a non-contact state with the heat insulation pad 15 of the sealing cover 9, and a gap is reserved between the coffee granules 11 and the heat insulation pad 15.

When hot drinking water is poured into the cup 7, the coffee granules 10 which are not brewed when the grid 8 is not opened are prevented from contacting the heat insulation pad 15 of the sealing cover 9; the volume of the coffee granules 11 in the grid cavity 10 of the grid 8 is equal to or less than two thirds of the volume of the grid cavity 10; the placing state of the disposable coffee circulating cup is as follows: when the cup foot 18 is arranged at the lower part, the cup opening 6 is arranged at the upper part and the cup foot 18 is arranged at the lower part of the cup opening 6, the coffee granules 11 in the grid-shaped cavity 10 and the heat insulation pad 15 of the sealing cover 9 are in a non-contact state, and the distance between the coffee granules 11 and the heat insulation pad 15 is larger than zero; the coffee granules 11 are loose granules or powder granules which fall down on the bottom 21 of the grid-shaped cavity 10 under the action of their gravity.

When the disposable coffee circulating cup is used, the cup foot 18 of the disposable coffee circulating cup is placed on the table top, or the cup foot 18 is positioned below the cup opening 6; when drinking hot water is poured into the cup 7 after the sealing cover 9 of a certain grid 8 is opened, the coffee granules 11 in the grid cavities 10 of the grids 8 of other unopened sealing covers 9 are positioned at the bottom 21 of the grid cavities 10, and the coffee granules 11 in the grids 8 of the unopened sealing covers 9 are in a non-contact state with the sealing covers 9 of the grids 8, so that the drinking hot water can not transfer heat to the coffee granules 11 in the grids 8 of the unopened sealing covers 9 through the sealing covers 9; when drinking hot water is poured into the cup 7 after the plurality of sealing covers 9 are opened, the coffee granules 11 in the grid cavities 10 of the grids 8 of the remaining sealing covers 9 which are not opened are positioned at the bottom 21 of the grid cavities 10, and the coffee granules 11 in the grids 8 of the remaining sealing covers 9 which are not opened are in a non-contact state with the sealing covers 9 of the grids 8, so that the drinking hot water cannot transfer heat to the coffee granules 11 in the grids 8 of the remaining sealing covers 9 which are not opened.

In order to reduce the heat of the drinking hot water to be conducted to the coffee granules 11 which are not brewed when the grids 8 are not opened, the height from the bottom end 22 to the top end 23 of the heat dissipation channel 17 of the grid box 2 is larger than the height of the coffee granules 11 in the grid cavity 10, so that the capacity of reducing the temperature of the grid walls 16 by using the external air is improved; the walls 16 of the grid 8 are made of a non-conductive material or of a material that conducts heat poorly in order to block or reduce the conduction of heat through the walls 16 to the coffee granules 11.

When the disposable coffee circulating cup is used, after drinking hot water is poured into the cup 7, the heat of the hot water is transferred to the coffee granules 11 and is blocked by the heat insulation pad 15 of the sealing cover 9 and the space between the heat insulation pad 15 and the coffee granules 11, the hot water is transferred to the coffee granules 11 through the grid wall 16 and is continuously cooled by the air of the heat dissipation channel 17, the air in the heat dissipation channel 17 is continuously exchanged with the external air through the upper vent hole 19 and the lower vent hole 20 of the cup foot 18, the heat of the hot water is dissipated to the external air, and the heat of the hot water is blocked or reduced to be transferred to the coffee granules 11.

In order to separate adjacent lattices 8 by the heat dissipation channels 17 and to carry out heat dissipation from the lattices 8 by the heat dissipation channels 17; the lattice wall 16 of the lattice 8 comprises an outer circular wall 24, an inner lattice wall 25 and a bottom plate 26, the inner lattice wall 25 comprises an outer circular arc wall 27 and an inner wall 28, the outer circular wall 24, the bottom plate 26, the outer circular arc wall 27 and the inner wall 28 are made of integrated materials, and the lattice cavity 10 of the lattice 8 is made of the bottom plate 26, the outer circular arc wall 27 and the inner wall 28; the circle center of the outer circular wall 24 is the same as that of the outer circular wall 27, and the lattice box 2 is provided with a plurality of lattice cavities 10; the heat dissipation channel 17 comprises an outer channel 29 and an inner channel 30, the outer channel 29 is positioned between the outer circular wall 24 and the outer circular wall 27, the inner channel 30 is positioned between the inner wall 28 of one grid cavity 10 and the inner wall 28 of the other grid cavity 10, and the outer channel 29 and the inner channel 30 are communicated with each other; the top end 23 of the heat dissipation channel 17 is not communicated with the 7-grid cavity 10 in the cup, and the bottom end 22 of the heat dissipation channel 17 is communicated with the atmosphere; the outer grid wall 24 is provided with outer vent holes 31, the outer vent holes 31 are communicated with the upper vent holes 19 of the cup legs 18, the heat dissipation channel 17 is communicated with the upper vent holes 19 of the cup legs 18 through the outer vent holes 31 of the outer grid wall 24, and the upper vent holes 19 are communicated with the atmosphere.

When the disposable coffee circulating cup is used, after drinking hot water is poured into the cup inner 7, the hot water conducts heat to the inner grid wall 25 of the grid wall 16, and the outer channel 29 of the heat dissipation channel 17 dissipates the heat of the outer circular arc wall 27 of the inner grid wall 25 to the outside air; the inner channels 30 of the heat dissipation channels 17 dissipate heat from the inner wall 28 of the inner grid wall 25 to the outside air, reducing the heat transfer of the hot water to the coffee granules 11.

When the disposable coffee circulating cup is used, after drinking hot water is poured into the cup 7, the residual coffee granules 11 which do not open the lattices 8 of the sealing cover 9 are sealed in the lattice-shaped cavity 10 formed by the sealing cover 9, the outer circular arc wall 27, the inner wall 28 and the bottom plate 26, the lattices 8 which open the sealing cover 9 and the lattices 8 which do not open the sealing cover 9 are separated by the inner channel 30 of the heat dissipation channel 17, so that the heat of the outer circular arc wall 27 and the inner wall 28 which open the lattices 8 can not be directly transmitted to the outer circular arc wall 27 and the inner wall 28 which do not open the lattices 8, and the heat is prevented from being directly transmitted to the outer circular arc wall 27 and the inner wall 28 which do not open the lattices 8 through the outer circular arc wall 27 and the inner wall 28 which

In order to isolate and make the adjacent lattices 8 independent from each other, the lattices 8 at different positions have independent heat dissipation channels 17; the grids 8 are provided with channel partitions 32, the channel partitions 32 are formed of an integral material with the outer circular walls 24 and the bottom plate 26, the channel partitions 32 are provided in the inner channels 30 of the heat dissipation channels 17, the inner walls 28 of different grids 8 are separated by the channel partitions 32, and the inner channels 30 of different grids 8 are separated by the channel partitions 32.

When the disposable coffee circulating cup is used, after drinking hot water is poured into the cup 7, the grid cavities 10 of the grids 8 of the sealing cover 9 are opened and filled with the hot water, the outer circular arc wall 27 and the inner wall 28 of the grids 8 of the sealing cover 9 are opened to be directly contacted with the hot water, and the temperature of the outer circular arc wall 27 and the inner wall 28 of the grids 8 is increased; the channel partition 32 of the grid 8 separates the inner wall 28 with the temperature increased from the inner wall 28 of the grid 8 without opening the sealing cover 9, so that the inner channel 30 of the grid 8 soaked by the hot water and the inner channel 30 of the grid 8 without opening the sealing cover 9 are independent and isolated from each other, and the heat conduction and the heat transfer to the grid 8 with the sealing cover 9 opened are reduced.

When the disposable coffee circulating cup is used and coffee with common concentration needs to be drunk, the sealing cover 9 of a certain grid 8 is opened, and coffee is brewed by using the coffee granules 11 of one grid 8; when thick coffee needs to be drunk, the sealing covers 9 of the two grids 8 are opened, and the coffee granules 11 of the two grids 8 are used for making coffee, so that the requirements of different consumers are met.

In order to avoid the sealing cover 9 and the uncovering traction lug 12 from being hooked and cracked by the grid opening hook 13 of the stirring spoon 4, the sealing cover 9 and the uncovering traction lug 12 of the grid 8 are made of an integrated material, and the integrated material comprises a plastic aluminum alloy composite film and a paper aluminum alloy composite film; the position of a traction hole 13 of a cover opening traction lug 12 of the sealing cover 9 is provided with a reinforcing layer, so that the strength of the traction hole 13 is increased.

In order to implement the repeated use of the disposable coffee circulating cup, the packaging of the grid box 2 and the sealing of a plurality of coffee granules 10 are implemented, and the repeated use of the disposable cup is implemented; the lattice 8 of the lattice box 2 includes a first lattice 33, a second lattice 34, a third lattice 35, and a fourth lattice 36, and the sealing cover 9 includes a first sealing cover 37, a second sealing cover 38, a third sealing cover 39, and a fourth sealing cover 40; the first seal cover 37, the second seal cover 38, the third seal cover 39, and the fourth seal cover 40 are bonded and hermetically connected to the first lattice 33, the second lattice 34, the third lattice 35, and the fourth lattice 36, respectively; the passage partition 32 of the grid 8 includes a first partition 41, a second partition 42, a third partition 43, and a fourth partition 44; the first partition 41 is located between the first lattice 33 and the second lattice 34, the second partition 42 is located between the second lattice 34 and the third lattice 35, the third partition 43 is located between the third lattice 35 and the fourth lattice 36, and the fourth partition 44 is located between the fourth lattice 36 and the first lattice 33.

When the disposable coffee circulating cup is used, when the first sealing cover 37 of the first grid 33 of the grid 8 is opened, and drinking hot water is poured into the cup 7, the inner wall 28 of the first grid 33 is separated from the inner wall 28 of the second grid 34 through the first partition 41 of the channel partition 32, the inner wall 28 of the first grid 33 is separated from the inner wall 28 of the fourth grid 36 through the fourth partition 44 of the channel partition 32, and heat of the first grid 33 is reduced to be transmitted to the adjacent second grid 34 and the adjacent fourth grid 36; when the second sealing cover 38 of the second grid 34 of the grid 8 is opened, after drinking hot water is poured into the cup 7, the inner wall 28 of the second grid 34 is separated from the inner wall 28 of the third grid 35 through the second partition plate 42 of the passage partition plate 32, so that the heat of the second grid 34 is reduced to be transmitted to the adjacent third grid 35; when the third sealing cover 39 of the third compartment 35 of the compartment 8 is opened and drinking hot water is poured into the cup 7, the inner wall 28 of the third compartment 35 is separated from the inner wall 28 of the fourth compartment 36 by the third partition 43 of the passage partition 32, reducing the heat transfer of the third compartment 35 to the adjacent fourth compartment 36.

When the disposable coffee recycling cup is used, after drinking hot water is poured into the cup 7 when the first sealing cover 37 of the first lattice 33 of the lattice 8 is opened, the heat of the outer circular arc wall 27 of the first lattice 33 is radiated to the external atmosphere through the outer channel 29 of the heat radiation channel 17 between the outer circular arc wall 27 and the outer circular wall 24; when the second sealing cover 38 of the second grid 34 of the grid 8 is opened, after the drinking hot water is poured into the cup 7, the heat of the outer circular wall 27 of the second grid 34 is radiated to the external atmosphere through the outer channel 29 of the heat radiation channel 17 between the outer circular wall 27 and the outer circular wall 24; when the third sealing cover 39 of the third cell 35 of the cell 8 is opened, and the drinking hot water is poured into the cup 7, the heat of the outer circular wall 27 of the third cell 35 is radiated to the external atmosphere through the outer channel 29 of the heat radiation channel 17 between the outer circular wall 27 and the outer circular wall 24; when the fourth sealing cap 40 of the fourth cell 36 of the cell 8 is opened, the heat of the outer circular wall 27 of the fourth cell 36 is radiated to the external atmosphere through the outer channel 29 of the heat radiation channel 17 between the outer circular wall 27 and the outer circular wall 24 after the drinking hot water is poured into the cup 7.

In order to improve the heat dissipation speed of the bottom plate 26 of the grid 8 and improve the heat dissipation efficiency; the bottom plate 26 of the grid 8 is provided with the heat dissipation grooves 45, the heat dissipation grooves 45 are fully distributed on the whole bottom plate 26, the notches 46 of the heat dissipation grooves 45 are downward, the contact area of the bottom plate 26 and air is increased, and the heat dissipation effect of the bottom plate 26 is improved; when the disposable coffee circulating cup is used, after drinking hot water is poured into the cup 7, when the heat of the drinking hot water is transferred to the inner grid wall 25, part of the heat is absorbed by the air of the heat dissipation channel 17, the heat is transferred to the bottom plate 26 by the inner grid wall 25, the heat is dissipated into the air by the heat dissipation groove 45 of the bottom plate 26, and the influence of the heat on the coffee granules 10 in the unopened grid 8 is reduced.

In order to uniformly distribute the lattices 8 on the cup bottom 5 and facilitate the manufacturing of the lattices 8; the inner wall 28 of the lattice 8 comprises a first straight wall 47, a second straight wall 48 and an inner arc wall 49, the first straight wall 47 and the inner arc wall 49 are connected into a whole, the inner arc wall 49 and the second straight wall 48 are connected into a whole, the second straight wall 48 and the outer arc wall 27 are connected into a whole, and the outer arc wall 27 and the first straight wall 47 are connected into a whole; the lattice cavity 10 of the lattice 8 is composed of an outer circular arc wall 27, a first straight wall 47, a second straight wall 48, an inner circular arc wall 49, and a bottom plate 26, and the outer circular arc wall 27, the first straight wall 47, the second straight wall 48, the inner circular arc wall 49, and the bottom plate 26 are composed of an integrated material; the outer arc wall 27 has the same center as the inner arc wall 49.

For convenience of packaging, the disposable coffee circulating cup comprises a shrink film 50, and the cup cylinder 1, the grid box 2 and the cup cover 3 are packaged in the shrink film 50 by the shrink film 50.