CN112998530B

CN112998530B - Embedded heating device for bottled beverage

Info

Publication number: CN112998530B
Application number: CN202110231021.4A
Authority: CN
Inventors: 潘森鹿
Original assignee: Anhui Yili Arctic Food Co ltd
Current assignee: Anhui Yili Arctic Food Co ltd
Priority date: 2021-03-02
Filing date: 2021-03-02
Publication date: 2023-02-03
Anticipated expiration: 2041-03-02
Also published as: CN112998530A

Abstract

The invention discloses an embedded heating device for bottled beverage, which comprises: the heating pipe is used for filling hot water, the upper end of the heating pipe is provided with an opening, and the lower end of the heating pipe is sealed; the liquid inlet pipe is divided into a heat conduction area and a non-heat conduction area along the circumferential direction of the liquid inlet pipe, and the heat conduction performance of the heat conduction area is superior to that of the non-heat conduction area; the rotating ring is rotatably sleeved on the liquid inlet pipe, a plurality of driving cavities are formed in the rotating ring at equal intervals along the circumferential direction of the rotating ring, magnetic fluid is filled in the driving cavities, the lower side face of the rotating ring is fixedly connected with the upper end face of the heating pipe, and the heating pipe can freely rotate along the axis of the liquid inlet pipe under the driving of the rotating ring. According to the invention, the rotating ring continuously rotates to drive the heating pipe to rotate, and the heating pipe rotates to cause the beverage in the bottle to rotationally flow, so that the heat conduction efficiency is accelerated, and the beverage in the bottle can be heated to a required temperature more quickly.

Description

Embedded heating device for bottled beverage

Technical Field

The invention belongs to the technical field of liquid heating, and particularly relates to an embedded heating device for bottled beverages.

Background

Since the world, bottled beverages are popular with consumers, the bottled beverages sold on the market are eight-flower, and the bottled beverages consumed worldwide every year are recorded in billions, but according to investigation, the sales volume of the beverages in summer is obviously higher than that in other three seasons in four seasons of the year, and on the contrary, the sales volume of the beverages in winter is obviously lower than that in other three seasons. The main reason for influencing the sales of the beverages in winter is that the bottled beverages cannot be conveniently heated due to cold air temperature in winter, so that few consumers can drink the bottled beverages in winter.

Generally need to pour the beverage into other heating wares among the prior art and heat, still lack the device that can directly conveniently heat bottled drink.

Disclosure of Invention

Based on the technical problems in the background art, the invention provides an embedded heating device for bottled beverages.

The invention provides an embedded heating device for bottled beverage, which comprises:

the heating pipe is used for filling hot water, the upper end of the heating pipe is arranged in an opening mode, and the lower end of the heating pipe is arranged in a sealing mode;

the liquid inlet pipe is divided into a heat conduction area and a non-heat conduction area along the circumferential direction of the liquid inlet pipe, and the heat conduction performance of the heat conduction area is superior to that of the non-heat conduction area;

the rotating ring is rotatably sleeved on the liquid inlet pipe, a plurality of driving cavities are formed in the rotating ring at equal intervals along the circumferential direction of the rotating ring, magnetic fluid is filled in the driving cavities, the lower side surface of the rotating ring is fixedly connected with the upper end surface of the heating pipe, and the heating pipe can freely rotate along the axis of the liquid inlet pipe under the driving of the rotating ring;

the fixing ring is rotatably sleeved on the outer side of the rotating ring and is fixedly connected with the liquid inlet pipe, the magnetic sheet is arranged on the inner wall of the fixing ring, and the dividing point of the heat conducting area and the non-heat conducting area of the liquid inlet pipe and the magnetic sheet are positioned on the same diameter line of the liquid inlet pipe.

Preferably, a cooling cavity is formed in the fixed ring, cooling liquid is filled in the cooling cavity, the inner side wall of the cooling cavity is a heat conducting wall, the heat conducting wall is made of heat conducting materials, and the cooling cavity is located in a fan-shaped area formed by outwards extending liquid inlet pipeline radial lines at two ends of the non-heat conducting area.

Preferably, an agitating roller is arranged on the side wall of the heating pipe.

Preferably, the stirring roller is rotatably arranged on the outer wall of the heating pipe, an installation pipe horizontally penetrating through the heating pipe is arranged in the heating pipe, a pair of piston blocks is symmetrically arranged in the installation pipe in a sealing and sliding manner, a deformation piece is arranged between the two piston blocks, the deformation piece has a contraction property at high temperature, and the piston blocks are connected with the upper side of the stirring roller through a connection rope.

Preferably, the deformation piece is a memory alloy spring, and a water through hole is formed in the middle of the installation pipe.

Preferably, the upper end of the heating pipe is rotatably sleeved at the lower end of the liquid inlet pipe through a sealing bearing.

Preferably, a sealing plug is arranged at the upper end of the liquid inlet pipe.

Compared with the prior art, the invention has the beneficial effects that:

1. when the beverage bottle is used, the heating pipe extends into the beverage bottle, the heating pipe is in direct contact with beverage in the bottle, the diameter of the fixing ring is larger than that of the bottle opening of the beverage bottle, then hot water is added into the heating pipe through the liquid inlet pipe, the heat of the hot water in the heating pipe is diffused into the beverage all around to heat the beverage, meanwhile, the rotating ring continuously rotates to drive the heating pipe to rotate, the heating pipe rotates to cause the beverage in the bottle to rotate and flow, and further, the heat conduction efficiency is accelerated, so that the beverage in the bottle can be heated to the required temperature more quickly;

2. by arranging the rotatable stirring roller and the deformation piece, when the heating pipe is filled with hot water, the deformation piece is in an initial state, and the downward swinging state of the stirring roller is parallel to the heating pipe, so that a user can conveniently stretch the heating pipe into a beverage bottle through a beverage bottle opening; after hot water is added, the deformation piece is heated and contracted, the two piston blocks are pulled to slide inwards, and then the stirring roller is pulled to rotate upwards through the connecting rope, so that the stirring roller and the heating pipe are in a vertical state, and further beverage in the stirring bottle is better.

Drawings

FIG. 1 is a schematic vertical sectional view of an inline heater for bottled beverages according to the present invention with a stirring roller in a downward swinging state;

FIG. 2 is an enlarged view of the upper end of the in-line heating apparatus for bottled beverages in FIG. 1;

FIG. 3 is a schematic view of a horizontal cross-section of an inline heating apparatus for bottled beverages according to the present invention;

FIG. 4 is a schematic horizontal sectional view of the rotating ring and the liquid inlet pipe of the in-line heating device for bottled beverages according to the present invention;

FIG. 5 is an enlarged view of a lower portion of the in-line heating apparatus for bottled beverages of FIG. 1;

FIG. 6 is a schematic vertical sectional view of the stirring roller of the in-line heater for bottled beverages according to the present invention.

In the figure: 1 heating pipe, 2 fixed rings, 3 liquid inlet pipes, 31 heat conducting areas, 32 non-heat conducting areas, 4 rotating rings, 5 driving cavities, 6 magnetic sheets, 7 cooling cavities, 71 heat conducting walls, 8 bearings, 9 stirring rollers, 10 mounting pipes, 11 memory alloy springs, 12 piston blocks and 13 connecting ropes.

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.

Referring to fig. 1-6, an in-line heating device for bottled beverages includes:

the heating pipe 1 is used for filling hot water, the upper end of the heating pipe 1 is open, the lower end of the heating pipe 1 is sealed, and the heating pipe 1 is made of food health-grade materials;

the liquid inlet pipe 3 is divided into a heat conduction area 31 and a non-heat conduction area 32 along the circumferential direction of the liquid inlet pipe 3, and the heat conduction performance of the heat conduction area 31 is superior to that of the non-heat conduction area 32;

the rotating ring 4 is rotatably sleeved on the liquid inlet pipe 3, a plurality of driving cavities 5 are formed in the rotating ring 4 at equal intervals along the circumferential direction of the rotating ring 4, magnetic fluid is filled in the driving cavities 5, the lower side surface of the rotating ring 4 is fixedly connected with the upper end surface of the heating pipe 1, and the heating pipe 1 can be driven by the rotating ring 4 to rotate freely along the axis of the liquid inlet pipe 3;

the fixed ring 2 is sleeved outside the rotating ring 4 in a rotating mode, and is fixedly connected with the liquid inlet pipe 3, the fixed ring 2 does not limit the rotation of the rotating ring 4 around the liquid inlet pipe 3, the magnetic sheet 6 is arranged on the inner wall of the fixed ring 2, and the boundary point of the heat conducting area 31 and the non-heat conducting area 32 of the liquid inlet pipe 3 and the magnetic sheet 6 are located on the same diameter line of the liquid inlet pipe 3.

When the embodiment of the technical scheme is applied, the heating pipe 1 is firstly extended into the beverage bottle, the heating pipe 1 is directly contacted with the beverage in the bottle, the diameter of the fixing ring 2 is larger and is lapped on the bottle mouth of the beverage bottle, then hot water is added into the heating pipe 1 through the liquid inlet pipe 3, the heat of the hot water in the heating pipe 1 is diffused into the beverage to heat the beverage;

meanwhile, when hot water is added, the liquid level of the hot water is required to be positioned above the rotating ring 4, at the moment, part of the driving cavity 5 is opposite to the heat conducting area 31 of the liquid inlet pipe 3, other driving cavities 5 are opposite to the non-heat conducting area 32, the temperature of the magnetic fluid in the driving cavity 5 opposite to the heat conducting area 31 is higher due to the difference of heat transfer efficiency, the temperature of the magnetic fluid at two sides of the magnetic sheet 6 is different, the magnetized strength is lower as the temperature is higher according to the characteristics of the magnetic fluid, the attraction force of the magnetic sheet 6 to the magnetic fluid at two sides is different, the attraction force to two sides of the rotating ring 4 is different, and the rotating ring 4 rotates to one side with small attraction force due to poor action force; after the rotation, the high-temperature magnetic fluid is transferred to the area corresponding to the non-heat-conducting area 32, the temperature is gradually reduced, and the low-temperature magnetic fluid is transferred to the area corresponding to the heat-conducting area 31, the temperature is gradually increased, so that the temperature difference between the two sides always exists, and finally the continuous rotation of the rotating ring 4 can be realized;

the rotating ring 4 continuously rotates to drive the heating pipe 1 to rotate, the heating pipe 1 rotates to cause the beverage in the bottle to rotationally flow, and then the heat conduction efficiency is accelerated, so that the beverage in the bottle can be heated to the required temperature more quickly.

In the preferred technical scheme in this embodiment, a cooling cavity 7 is formed in the fixing ring 2, cooling liquid is filled in the cooling cavity 7, the inner side wall of the cooling cavity 7 is a heat conducting wall 71, the heat conducting wall 71 is made of a heat conducting material, and the cooling cavity 7 is located in a sector area formed by extending the radial line of the liquid inlet pipe 3 at the two ends of the non-heat conducting area 32; specifically, when the magnetic fluid in the driving cavity 5 rotates to the area opposite to the non-heat-conducting area 32, the magnetic fluid is just opposite to the cooling cavity 7, and the cooling cavity 7 greatly accelerates the heat dissipation rate of the magnetic fluid in the area, so that the formation of the temperature difference on the two sides of the rotating ring 4 is further accelerated.

According to the optional technical scheme in the embodiment, stirring rollers 9 are arranged on the side wall of the heating pipe 1; specifically, the stirring roller 9 is arranged, so that the heating pipe 1 can better stir the beverage when rotating, and the heat exchange efficiency is further improved;

according to a further preferable technical scheme, the stirring roller 9 is rotatably arranged on the outer wall of the heating pipe 1, an installation pipe 10 horizontally penetrating through the heating pipe 1 is arranged inside the heating pipe 1, a pair of piston blocks 12 are symmetrically, hermetically and slidably arranged in the installation pipe 10, a deformation piece is arranged between the two piston blocks 12, the deformation piece has a contraction property at high temperature, and the piston blocks 12 are connected with the upper side of the stirring roller 9 through connecting ropes 13; specifically, when the heating pipe 1 is filled with hot water, the deformation piece is in an initial state, the two piston blocks 12 are in positions relatively far away from each other, and at the moment, the stirring roller 9 is in a downward swinging state and is parallel to the heating pipe 1, so that a user can conveniently stretch the heating pipe 1 into a beverage bottle through a beverage bottle opening, after the hot water is added, the deformation piece is heated and contracted, the two piston blocks 12 are pulled to slide inwards, and then the stirring roller 9 is pulled to rotate upwards through the connecting rope 13, so that the stirring roller 9 and the heating pipe 1 are in a vertical state, and the beverage in the bottle is stirred better;

further preferably, the deformation member is a memory alloy spring 11, and a water through hole is formed in the middle of the mounting pipe 10; specifically, after the heating pipe 1 is filled with hot water, the hot water enters the mounting pipe 10 through the water through hole, the memory alloy spring 11 is heated to shrink, and the hot water cannot overflow due to the arrangement of the piston block 12.

In the preferred technical scheme in the embodiment, the upper end of the heating pipe 1 is rotatably sleeved at the lower end of the liquid inlet pipe 3 through a sealing bearing 8; specifically, through set up sealed bearing 8 between heating pipe 1 and feed liquor pipe 3, can avoid hot water to spill over, simultaneously in order to realize better heat preservation effect, 3 upper ends of feed liquor pipe are provided with the sealing plug.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims

1. A method of using an in-line heating device for bottled beverages, the device comprising:

the heating pipe (1) is used for filling hot water, the upper end of the heating pipe (1) is provided with an opening, and the lower end of the heating pipe is sealed;

the liquid inlet pipe (3) is divided into a heat conduction area (31) and a non-heat conduction area (32) along the circumferential direction of the liquid inlet pipe (3), and the heat conduction performance of the heat conduction area (31) is superior to that of the non-heat conduction area (32);

the rotating ring (4) is rotatably sleeved on the liquid inlet pipe (3), a plurality of driving cavities (5) are formed in the rotating ring (4) at equal intervals along the circumferential direction of the rotating ring (4), magnetic fluid is filled in the driving cavities (5), the lower side surface of the rotating ring (4) is fixedly connected with the upper end surface of the heating pipe (1), and the heating pipe (1) can freely rotate along the axis of the liquid inlet pipe (3) under the driving of the rotating ring (4);

the fixing ring (2) is rotatably sleeved on the outer side of the rotating ring (4) and is fixedly connected with the liquid inlet pipe (3), a magnetic sheet (6) is arranged on the inner wall of the fixing ring (2), and the dividing point of the heat conducting area (31) and the non-heat conducting area (32) of the liquid inlet pipe (3) and the magnetic sheet (6) are positioned on the same diameter line of the liquid inlet pipe (3);

a cooling cavity (7) is formed in the fixing ring (2), cooling liquid is filled in the cooling cavity (7), the inner side wall of the cooling cavity (7) is a heat conduction wall (71), the heat conduction wall (71) is made of heat conduction materials, and the cooling cavity (7) is located in a fan-shaped area formed by extending the radial lines of the liquid inlet pipes (3) at the two ends of the non-heat conduction area (32) outwards;

a stirring roller (9) is arranged on the side wall of the heating pipe (1);

the stirring roller (9) is rotatably arranged on the outer wall of the heating pipe (1), an installation pipe (10) horizontally penetrating through the heating pipe (1) is arranged in the heating pipe (1), a pair of piston blocks (12) are symmetrically arranged in the installation pipe (10) in a sealing and sliding manner, a deformation piece is arranged between the two piston blocks (12), the deformation piece has a contraction property at high temperature, and the piston blocks (12) are connected with the upper side of the stirring roller (9) through connecting ropes (13);

when the beverage bottle is used, the heating pipe (1) is firstly stretched into the beverage bottle, the heating pipe (1) is directly contacted with the beverage in the bottle, the diameter of the fixing ring (2) is larger and is lapped on the bottle mouth of the beverage bottle, then hot water is added into the heating pipe (1) through the liquid inlet pipe (3), and the heat of the hot water in the heating pipe (1) is diffused into the beverage to heat the beverage; meanwhile, when hot water is added, the liquid level of the hot water is required to be positioned on the rotating ring (4), at the moment, part of the driving cavities (5) are opposite to the heat conducting area (31) of the liquid inlet pipe (3), other driving cavities (5) are opposite to the non-heat conducting area (32), the temperature of the magnetic fluid in the driving cavities (5) opposite to the heat conducting area (31) is higher due to the difference of heat transfer efficiency, the temperatures of the magnetic fluids at two sides of the magnetic sheet (6) are different, the higher the temperature is, the lower the magnetized strength is according to the characteristics of the magnetic fluid, the attraction of the magnetic sheet (6) to the magnetic fluids at two sides is different, the attraction to the two sides of the rotating ring (4) is different, and the rotating ring (4) rotates to the side with the small attraction due to the poor action force; after the rotation, the high-temperature magnetic fluid is transferred to the area corresponding to the non-heat-conducting area (32), the temperature is gradually reduced, and the low-temperature magnetic fluid is transferred to the area corresponding to the heat-conducting area (31), the temperature is gradually increased, so that the temperature difference between the two sides always exists, and finally the continuous rotation of the rotating ring (4) can be realized; the rotating ring (4) continuously rotates to drive the heating pipe (1) to rotate, the heating pipe (1) rotates to cause the beverage in the bottle to rotationally flow, and then the heat conduction efficiency is accelerated, so that the beverage in the bottle can be heated to the required temperature more quickly;

when the magnetic fluid in the driving cavity (5) rotates to the area opposite to the non-heat-conducting area (32), the magnetic fluid is just opposite to the cooling cavity (7), when the heating pipe (1) is filled with hot water, the deformation piece is in an initial state, the two piston blocks (12) are in positions relatively far away, the stirring roller (9) is in a downward-swinging state at the moment and is parallel to the heating pipe (1), so that a user can conveniently stretch the heating pipe (1) into a beverage bottle through a beverage bottle opening, after the hot water is added, the deformation piece is heated and contracted, the two piston blocks (12) are pulled to slide inwards, the stirring roller (9) is pulled to rotate upwards through the connecting rope (13), the stirring roller (9) and the heating pipe (1) are in a vertical state, after the heating pipe (1) is filled with the hot water, the heating pipe enters the mounting pipe (10) through the water through holes, the memory alloy spring (11) is heated to contract, and the hot water cannot overflow due to the arrangement of the piston blocks (12).

2. The method of claim 1, wherein the deformable member is a memory alloy spring (11), and the mounting tube (10) has a water hole in the middle.

3. The use method of the in-line heating device for bottled beverages according to claim 1, wherein the upper end of the heating pipe (1) is rotatably sleeved on the lower end of the liquid inlet pipe (3) through a sealing bearing (8).

4. The use method of an in-line heating device for bottled beverages according to claim 1, wherein the upper end of the liquid inlet pipe (3) is provided with a sealing plug.