CN114847738A - Heat-insulating water cup with double-cavity structure - Google Patents

Abstract

The invention discloses a heat-insulating water cup with a double-cavity structure, which comprises a cup body, wherein an upper cup is fixedly arranged above the cup body, the top of the cup body is provided with a lower heat-conducting conical cover protruding upwards, and the bottom of the upper cup is provided with an upper heat-conducting conical cover protruding upwards and positioned above the lower heat-conducting conical cover. According to the invention, the heat conduction plate is arranged between the cup body and the upper cup, the cup body is not communicated with the upper cup, hot water is injected into the cup body, the cup body has a heat preservation function, beverages such as fruit juice and the like are injected into the upper cup, the lower heat conduction conical cover is arranged at the top of the cup body, the upper heat conduction conical cover is arranged at the bottom of the upper cup, the heat conduction plate is positioned between the lower heat conduction conical cover and the upper heat conduction conical cover, when the heat conduction plate is contacted with the lower heat conduction conical cover, the heat conduction plate is also contacted with the upper heat conduction conical cover, the heat of the cup body is transferred to the upper cup through the heat conduction plate to further heat the beverages, and when the heat conduction plate is separated from the lower heat conduction conical cover, the cup body is in a heat preservation state, and the heat can not be lost.

Description

Heat-insulating water cup with double-cavity structure

Technical Field

The invention relates to the technical field of heat-preservation water cups, in particular to a heat-preservation water cup with a double-cavity structure.

Background

The thermos cup has the function of preventing the heat loss to hot water heat preservation, the thermos cup inner bag adopts stainless steel material to make usually, present thermos cup function is comparatively single, set up a hot water chamber usually, only play hot water heat retaining effect, be fit for cold weather and use, along with the demand of people to the beverage variety, current single chamber heat preservation drinking cup practicality reduces, when saying so when people want to drink beverages such as the higher fruit juice of temperature when going on a journey when cold weather, current thermos cup can't satisfy and store hot water simultaneously, hot beverage or normal atmospheric temperature beverage's function, that is to say that when people need drink hot beverage or normal atmospheric temperature beverage as required, current thermos cup can't satisfy.

Therefore, the invention provides the heat-preservation water cup with the double-cavity structure.

Disclosure of Invention

The invention aims to: in order to solve the problems mentioned in the background art, an insulating water cup with a double-cavity structure is provided.

In order to achieve the purpose, the invention adopts the following technical scheme:

a heat-insulating water cup with a double-cavity structure comprises a cup body, wherein an upper cup is fixedly arranged above the cup body, a lower heat-conducting conical cover which protrudes upwards is arranged at the top of the cup body, an upper heat-conducting conical cover which protrudes upwards and is positioned above the lower heat-conducting conical cover is arranged at the bottom of the upper cup, a cavity is formed between the lower heat-conducting conical cover and the upper heat-conducting conical cover, a positioning disc is arranged at the top of the lower heat-conducting conical cover, a heat-conducting plate which is positioned in the cavity is fixedly connected to the edge of the positioning disc through a hanging rod, when the positioning disc moves upwards to a limit position, the heat-conducting plate is separated from the conical wall of the lower heat-conducting conical cover, when the positioning disc moves downwards to the limit position, the heat-conducting plate is simultaneously contacted with the lower heat-conducting conical cover and the upper heat-conducting conical cover, a water pipe is fixedly arranged at the top of the lower heat-conducting conical cover, and a driving sleeve which is used for controlling the positioning disc to move upwards and penetrates through the top of the upper heat-conducting conical cover is sleeved on the water pipe, the cup body and the outer wall of lower heat conduction conical cover wrap up the heat preservation gum cover that has the type structure, the direction seam relative with the heat-conducting plate has been seted up to the outer wall of heat preservation gum cover.

As a further description of the above technical solution:

the inner conical wall of the upper heat-conducting conical cover is provided with an upper heat-conducting groove which is sunken in the upper cup, the outer conical wall of the lower heat-conducting conical cover is provided with a lower heat-conducting groove which is sunken in the cup body, and the heat-conducting plate is opposite to the upper heat-conducting groove, the guide seam and the lower heat-conducting groove.

As a further description of the above technical solution:

the positioning disc is of an annular disc structure and is sleeved outside the driving sleeve, and the driving sleeve is in running fit with the water pipe and is connected with the positioning disc in a screwing mode.

As a further description of the above technical solution:

the top of the upper heat conduction conical cover is fixedly provided with a heat insulation sealing pipe sleeved outside the driving sleeve, and a sealing cover used for sealing the opening of the upper cup is screwed outside the heat insulation sealing pipe.

As a further description of the above technical solution:

the top of the water pipe is screwed with a plug positioned above the sealing cover.

As a further description of the above technical solution:

the upper end face of the cup body is fixedly provided with a heat insulation positioning column which is close to the outer periphery and penetrates through the heat insulation rubber sleeve, and the top of the heat insulation positioning column is fixedly connected with the lower end of the upper cup.

In summary, due to the adoption of the technical scheme, the invention has the beneficial effects that:

1. according to the invention, the heat conducting plate is arranged between the cup body and the upper cup, the cup body is not communicated with the upper cup, hot water is injected into the cup body, the cup body has a heat preservation function, beverages such as fruit juice and the like are injected into the upper cup, the lower heat conducting conical cover is arranged at the top of the cup body, the upper heat conducting conical cover is arranged at the bottom of the upper cup, the heat conducting plate is positioned between the lower heat conducting conical cover and the upper heat conducting conical cover, and when the heat conducting plate is contacted with the lower heat conducting conical cover, the heat conducting plate is also contacted with the upper heat conducting conical cover, the heat of the cup body can be transferred to the upper cup through the heat conducting plate, so that the beverages can be heated, and when the heat conducting plate is separated from the lower heat conducting conical cover, the cup body is in a heat preservation state, and the heat can not be lost.

2. According to the invention, the driving sleeve penetrating through the top of the lower heat-conducting conical cover is arranged, the positioning disc positioned at the top of the lower heat-conducting conical cover is arranged, the positioning disc is fixedly connected with the heat-conducting plate through the suspension rod, the driving sleeve and the positioning disc penetrate through and are matched in a screwing manner, the heat-conducting plate can be driven to move up and down when the driving sleeve is manually rotated, the switching function of heating and stopping heating of the beverage is realized, and the operation is convenient.

3. According to the invention, a gap exists between the cup body and the upper cup, the gap is communicated with the heat conducting plate, when hands are required to be warmed, the heat conducting plate is controlled to enter the lower heat conducting conical cover, the heat conducting plate can transmit part of heat to the outside through the gap, and at the moment, the hands are attached to the gap to play a role in warming the hands.

Drawings

FIG. 1 is a schematic structural diagram of the integral combination of a cup body, an upper cup, a heat-insulating rubber sleeve, a heat-conducting plate, a driving sleeve, a sealing cover and a plug of the heat-insulating water cup with a double-cavity structure provided by the invention;

FIG. 2 is a schematic structural diagram of the cup body, the positioning plate, the heat conducting plate, the driving sleeve and the cup body of the heat-insulating cup with the double-cavity structure provided by the invention;

FIG. 3 is a schematic structural view of the cooperation between the upper cup and the heat conducting plate of the thermos cup with a dual-cavity structure according to the present invention;

FIG. 4 is a schematic structural view of the combination of the medium-temperature insulation rubber sleeve and the cup body of the insulation cup with the double-cavity structure according to the present invention;

FIG. 5 is a schematic view showing the structure of the present invention in which a cover, a plug, a water pipe and a heat insulation sealing pipe are engaged.

Illustration of the drawings:

1. a cup body; 11. a lower thermally conductive conical shell; 111. a lower heat conducting groove; 2. putting the cup on; 21. an upper thermally conductive conical shell; 211. an upper heat conducting groove; 212. a heat-insulating sealing tube; 3. positioning a plate; 31. a boom; 4. a heat conducting plate; 5. a water pipe; 6. a drive sleeve; 7. a heat-insulating rubber sleeve; 71. guiding the seam; 8. sealing the cover; 9. plugging; 101. thermal-insulated reference column.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

Referring to fig. 1-5, a heat-insulating cup with a dual-cavity structure comprises a cup body 1, hot water is contained in the cup body 1, the cup body 1 has a heat-insulating function, specifically, a heat-insulating rubber sleeve 7 with a plastic structure is wrapped outside the cup body 1, an upper cup 2 is fixedly arranged above the cup body 1, specifically, a heat-insulating positioning column 101 which is close to the outer periphery and penetrates through the heat-insulating rubber sleeve 7 is fixedly arranged on the upper end surface of the cup body 1, the top of the heat-insulating positioning column 101 is fixedly connected with the lower end of the upper cup 2, the heat-insulating positioning column 101 can be made of plastic materials, two ends of the heat-insulating positioning column 101 are respectively connected with the cup body 1 and the upper cup 2 in an adhesive manner, namely, heat in the cup body 1 is not transferred to the upper cup 2 through the heat-insulating positioning column 101, the top of the upper cup 2 is opened and can contain beverages such as fruit juice, a lower heat-conducting conical cover 11 which is raised upwards is arranged on the top of the cup body 1, an upper heat-conducting conical cover 21 which is arranged on the bottom of the upper cup 2 and is arranged above the lower heat-conducting conical cover 11, a cavity is formed between the lower heat-conducting conical cover 11 and the upper heat-conducting conical cover 21, and the cavity is communicated with the outside through a gap between the cup body 1 and the upper cup 2, so that the hand warming effect is achieved; the top of the lower heat conducting conical cover 11 is provided with a positioning disk 3, the edge of the positioning disk 3 is fixedly connected with heat conducting plates 4 positioned in the cavity through a suspender 31, the number of the heat conducting plates 4 is at least three, and the heat conducting plates are circumferentially and uniformly distributed relative to the positioning disk 3, when the positioning disk 3 moves upwards to the limit position, the heat conducting plates 4 are separated from the conical wall of the lower heat conducting conical cover 11, when the positioning disk 3 moves downwards to the limit position, the heat conducting plates 4 are simultaneously contacted with the lower heat conducting conical cover 11 and the upper heat conducting conical cover 21, specifically, the inner conical wall of the upper heat conducting conical cover 21 is provided with an upper heat conducting groove 211 sunken in the upper cup 2, the outer conical wall of the lower heat conducting conical cover 11 is provided with a lower heat conducting groove 111 sunken in the cup body 1, the heat conducting plates 4 are opposite to the upper heat conducting groove 211 and the lower heat conducting groove 111, the heat conducting plates 4 can be inserted into the lower heat conducting groove 111 and contacted with the lower heat conducting groove 111 when moving downwards, and the heat conducting plates 4 are also positioned in the upper heat conducting groove 211 and contacted with the upper heat conducting groove 211, the heat in the cup body 1 is transferred to the heat conducting plate 4 through the lower heat conducting groove 111, the heat conducting plate 4 transfers the heat to the beverage in the upper cup 2 through the upper heat conducting groove 211, and when the heat conducting plate 4 moves upwards, the heat conducting plate can be separated from the lower heat conducting groove 111, so that the heat transmission is blocked; the top of the lower heat-conducting conical cover 11 is fixedly provided with a water pipe 5, the water pipe 5 is sleeved with a driving sleeve 6 which is used for controlling the positioning disc 3 to move up and down and penetrates through the top of the upper heat-conducting conical cover 21, particularly, the positioning disc 3 is of an annular disc structure and is sleeved outside the driving sleeve 6, the driving sleeve 6 is in running fit with the water pipe 5 and is in screwed connection with the positioning disc 3, a heat-insulating rubber sleeve is nested between the driving sleeve 6 and the water pipe 5, the top of the driving sleeve 6 is provided with a driving head, and the driving sleeve 6 can be driven to rotate by manually holding the driving head to rotate; the outer walls of the cup body 1 and the lower heat-conducting conical cover 11 are wrapped with heat-insulating rubber sleeves 7 with plastic structures, the heat-insulating rubber sleeves 7 play a role in insulating heat of the cup body 1, the outer wall of each heat-insulating rubber sleeve 7 is provided with a guide seam 71 opposite to the heat-conducting plate 4, the heat-conducting plates 4 and the guide seams 71 are opposite, and after the heat-conducting plates 4 are separated from the lower heat-conducting grooves 111, the guide seams 71 are closed by utilizing self elasticity, so that heat in the cup body 1 is blocked from being transmitted outwards; the top of the upper heat conduction conical cover 21 is fixedly provided with a heat insulation sealing pipe 212 which is sleeved outside the driving sleeve 6, specifically, a sealing heat insulation sleeve is sleeved between the heat insulation sealing pipe 212 and the driving sleeve 6, a sealing cover 8 for sealing the opening of the upper cup 2 is screwed outside the heat insulation sealing pipe 212, the sealing cover 8 is of an annular cover structure, a butt joint circular truncated cone with steps can be fixedly arranged outside the heat insulation sealing pipe 212, a hole in the middle of the sealing cover 8 is connected with the butt joint circular truncated cone in a screwing mode, meanwhile, the sealing cover 8 also covers the opening end of the upper cup 2, two rubber rings with different outer diameters are arranged in the sealing cover 8 to achieve the effect that the sealing cover 8 seals the opening of the upper cup 2, a plug 9 which is positioned above the sealing cover 8 is screwed on the top of the water pipe 5, the plug 9 is used for sealing the water pipe 5, and the water pipe 5 is used for drinking and injecting water into the cup body 1.

The working principle is as follows: when the thermos cup is used, hot water is injected into the cup body 1 through the water service pipe 5 by unscrewing the plug 9, then the plug 9 is reset, the hot water in the cup body 1 is in a heat preservation state under the action of the heat preservation rubber sleeve 7, when beverages such as warm fruit juice and the like need to be introduced, the sealing cover 8 is unscrewed and the fruit juice is poured into the upper cup 2, the sealing cover 8 is reset, then the driving sleeve 6 is rotated manually, the driving sleeve 6 drives the positioning disc 3 to move downwards by utilizing the screwing action, at the moment, the heat conduction plate 4 moves downwards and props up the guide seam 71, then the heat conduction groove 111 enters the lower heat conduction groove 111, the heat is transferred into the upper heat conduction groove 211 through the heat conduction plate 4 by the lower heat conduction groove 111, and finally the fruit juice in the upper cup 2 is heated, therefore, the thermos cup meets the requirements of people on the temperature of hot water and the temperature of the beverage by arranging the two beverage cavities which are not communicated with each other.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (6)

1. A heat-preservation water cup with a double-cavity structure comprises a cup body (1) and is characterized in that an upper cup (2) is fixedly arranged above the cup body (1), a lower heat-conducting conical cover (11) protruding upwards is arranged at the top of the cup body (1), an upper heat-conducting conical cover (21) protruding upwards and located above a lower heat-conducting conical cover (11) is arranged at the bottom of the upper cup (2), a cavity is formed between the lower heat-conducting conical cover (11) and the upper heat-conducting conical cover (21), a positioning disc (3) is arranged at the top of the lower heat-conducting conical cover (11), a heat-conducting plate (4) located in the cavity is fixedly connected to the edge of the positioning disc (3) through a hanging rod (31), when the positioning disc (3) moves upwards to a limit position, conical walls of the heat-conducting plate (4) and the lower heat-conducting conical cover (11) are separated, and when the positioning disc (3) moves downwards to the limit position, heat-conducting plate (4) contact with lower heat conduction conical cover (11) and last heat conduction conical cover (21) simultaneously, the fixed water service pipe (5) that is provided with in top of heat conduction conical cover (11) down, the cover is equipped with on this water service pipe (5) and is used for controlling positioning disk (3) up-and-down motion and runs through drive cover (6) at heat conduction conical cover (21) top, cup (1) and the outer wall parcel of lower heat conduction conical cover (11) have heat preservation gum cover (7) of moulding the type structure, direction seam (71) relative with heat-conducting plate (4) have been seted up to the outer wall of heat preservation gum cover (7).

2. The thermos cup with the dual-cavity structure as claimed in claim 1, wherein the inner conical wall of the upper heat-conducting conical cover (21) is provided with an upper heat-conducting groove (211) recessed into the upper cup (2), the outer conical wall of the lower heat-conducting conical cover (11) is provided with a lower heat-conducting groove (111) recessed into the cup body (1), and the heat-conducting plate (4) is opposite to the upper heat-conducting groove (211), the guide slit (71) and the lower heat-conducting groove (111).

3. The thermos cup with the dual-cavity structure as claimed in claim 2, wherein the positioning plate (3) is of an annular plate structure and is sleeved outside the driving sleeve (6), and the driving sleeve (6) is rotatably matched with the water pipe (5) and is screwed with the positioning plate (3).

4. The thermos cup with the dual-cavity structure according to claim 3, wherein a heat insulation sealing tube (212) sleeved outside the driving sleeve (6) is fixedly arranged at the top of the upper heat conduction conical cover (21), and a sealing cover (8) for sealing the opening of the upper cup (2) is screwed outside the heat insulation sealing tube (212).

5. The thermos cup with the double-cavity structure as claimed in claim 4, wherein the top of the water pipe (5) is screwed with a plug (9) above the cover (8).

6. The thermos cup with the dual-cavity structure as claimed in claim 1, wherein the upper end face of the cup body (1) is fixedly provided with a heat insulation positioning column (101) which is close to the outer periphery and passes through the heat insulation rubber sleeve (7), and the top of the heat insulation positioning column (101) is fixedly connected with the lower end of the upper cup (2).

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