KR20130103860A - Using a disposable plastic bottles turbo thermal pot - Google Patents

Abstract

PURPOSE: A turbo thermal pot using a disposable plastic bottle is provided to prevent contents in the disposable plastic bottle from deteriorating because the turbo thermal pot is not heated and to improve the portability by being separated from the disposable plastic bottle. CONSTITUTION: A turbo thermal pot using a disposable plastic bottle comprises a plastic bottle connecting unit case, a water pressure spring plate, a connecting unit sensor, a heater unit, a pot liquid blocking plate film spring for the spring tension, a pot liquid discharge silicone, a pot liquid discharge blocking film, and a pot pressure valve spring fixing plate. The disposable plastic bottle is used as components of the turbo thermal pot, is connected to the turbo thermal pot, and beverages in the plastic bottle can be supplied to the turbo thermal pot by putting the liquid in the turbo thermal pot. The turbo thermal pot is directly heated by using a heating plate and the desired temperature can be made by being directly heated as the liquid is automatically supplied to a hot water pipe inside the heating plate and a convection current is occurred when a temperature is increased.

Description

Using a disposable plastic bottles Turbo thermal pot}

The present invention relates to a liquid coffee pot structure for supplying and heating and storing a liquid in a PET bottle by combining a liquid in a PET bottle (water, bottled water, coffee, milk, tea, etc.) with a turbo insulation pot body. .

In the prior art, as shown in Fig. 11, the heater 6 is mounted on the side of the pot lower side 3 of the coffee pot.

The heater 6 was heated to boil the liquid in the coffee pot.

Conventional coffee pots are heated by a single hotplate, requiring more than 1500W of power to heat them up quickly. Safety devices, bimetals (temperature switches) and temperature stops due to the use of large power, are very important. It is difficult to control electronic power more than expensive 1500W, so many methods using electric contact bimetal are widely used. And the coffee pot does not have a thermal insulation function.

However, the prior art has a structure in which the heater 6 is placed on the side of the lower pot 3 of the coffee pot so that the heater 6 is heated to boil the liquid in the coffee pot.

Since a conventional coffee pot is heated by a single hot plate, a power of 1500 W or more, which is a large amount of power, is required for heating in a general manner. And the coffee pot has no warming effect.

That is, the inlet 1 directly radiates heat, and the case 2 discharges heat to the single-ply iron plate so that the temperature of 100 degrees of water falls below 70 degrees or less than about 10 minutes.

And the heating amount of the liquid in the coffee pot can not be divided.

In other words, the liquid (milk, coffee, bottled water) that must be used once heated should be discarded if the taste changes.

The present invention is a turbo heating (secondary liquid circulation heating) in order to warm the beverage in the shortest time as much as the amount of liquid used in the PET bottle, a short enough heating can be raised to 100 degrees, and divided into the inner skin and the outer shell for a long time, In the middle of the vacuum treatment to further maintain the temperature of the contents to prevent liquid deterioration.

In the present invention, the turpo insulation pot is connected to [FIG. 9-1] in [FIG. 9] and inverted as shown in [FIG. 9-2], and then put back in liquid as shown in [FIG. 9-3]. In order to confirm that the sensor to check the presence of the liquid in the sensor (0058) to determine the power supply.

2, the present invention is a turbo thermal insulation port inverted in a state in which the turbo thermal insulation port and the PET bottle is connected to the PET bottle connection part for receiving a liquid bottle; And when the liquid is supplied from the PET bottle part from the PET bottle (0060) and put the liquid into the port portion (0030) to heat the liquid to the electric heater unit (0040) the air pressure is increased and the pressure of the internal hot water pipe inside the heater unit [FIG. 6] the liquid is circulated from the heater unit (0040) to the hot water pipe (0043) in the heater unit is formed the effect of the liquid rises more quickly, such as turbo heating (secondary liquid circulation heating).

In Figure 5 port portion (0030) is made of a double fold for the warming effect and the bottom surface is a one-ply to heat the heater. In addition, when the liquid reaches a certain temperature, the sensor in the circuit detects and cuts off the power, and the insulating port part acts as a foot soldier.

And it is a structure for giving hot water flow to the port hot water pipe long axis (0033), short port hot water pipe (0034).

In addition, there is a port lower pipe portion so that the liquid is supplied to the bottom surface of the port portion (0030) for easy keeping and heating, and the upper portion is composed of a port upper pipe portion (0031).

When you want to use the liquid to the port stopper [Fig. 4] port stopper (0020) port water discharge switch (0021) vertically and put the liquid in the cup (0010) in Figure [2] It is characterized by including.

As described above, by using the disposable PET bottle according to the present invention as a turbo insulation port part, the liquid is put into the turbo insulation port by fastening the liquid to the turbo insulation port, and the beverage of the PET bottle is supplied to the turbo insulation port, and directly heated by a hot plate on the bottom. The liquid is automatically supplied to the hot water pipe inside the hot plate, and convection occurs when the temperature rises, so that it can be directly heated, making it possible to make the shortest time to the desired temperature and to achieve the minimum power. It is possible to prevent the deterioration of the contents because it is not added, and the contents in the turbo thermal pot are heated and heated like a thermos, and the movement is miniaturized and separated from PET bottles, and it is highly active and recycles PET bottles. Reduce waste

Representative view is a perspective view of the turboport device and the PET bottle coalescence according to an embodiment of the present invention,
1 is a perspective view of a turboport device according to an embodiment of the present invention,
Figure 2 is a perspective view when disassembling the turboport device (0000) according to an embodiment of the present invention,
3 is a perspective view of a cup of a turboport according to an embodiment of the present invention,
Figure 4 is a perspective view of cutting the stopper of the turboport according to an embodiment of the present invention,
5 is a perspective view of a cut port portion of the turboport according to an embodiment of the present invention,
Figure 6 is a perspective view of a heater portion of the turboport according to an embodiment of the present invention,
Figure 7 is a perspective view of a PET bottle connecting portion of the turboport according to an embodiment of the present invention,
8 is a perspective view of the PET bottle of the turboport according to an embodiment of the present invention,
9 is a perspective view of the turboport set operation cut according to an embodiment of the present invention,
10 is a perspective view of the turbo hot water deformation of the turboport according to an embodiment of the present invention,
11 is an existing product drawing for reference.

  Hereinafter, with reference to the accompanying drawings, preferred embodiments of a turbo thermal insulation port using a disposable PET bottle according to the present invention will be described in detail.

This turbo thermal insulation port device can be used by integrating the turbo thermal insulation port and a standardized PET bottle as shown in the [representative diagram], and using only the turbo thermal insulation port after receiving liquid as shown in FIG.

Turbo insulation port function includes heating, cooling, and insulation.

Turbo thermal port device using a disposable PET bottle according to the present invention is a cup (0010), a port cap portion (0020), a port portion (0030), a heater portion (0040), PET bottle connection portion (0050), PET bottle ( 0060).

This turbo heat pot apparatus [Fig. 3] is used to protect the part and the material to be kept warm in the cup and pot stopper.

The turbo thermal port device as shown in Figure 4 port plug portion (0020) is to discharge the liquid in the port and consists of a structure to prevent the rise in air pressure when heating the liquid.

Adjust this air pressure to an appropriate level.When the air pressure is low, the port pressure valve OFF (002A)

When the air pressure rises, it automatically operates with the port pressure valve ON (002B).

The port liquid discharge switch (0021A) is for a switch for closing and opening up and down the port liquid discharge blocking film (0026). The method is as follows.

In FIG. 4, when the port liquid discharge switch (0021A) of the port stopper operation 1 (0020A) is tilted like the port liquid discharge switch (0021A) of the port stopper operation 2 (0020B), the port liquid discharge switch The interlocking (0021B) is inclined toward the center of the port liquid ejection switch interlocking axis (0021C), and is interlocked diagonally and horizontally from the port liquid ejection switch cam (0021D) vertically to the center of the port liquid ejection switch cam axis (0021E) and vertically. The port liquid discharge barrier membrane (0026) is moved or closed by the position difference when it is switched horizontally and horizontally, and the port water barrier valve silicon (0025) is used to prevent liquid leakage during operation, and the port liquid barrier valve spring (0021H) The port liquid discharge blocking film was fixed using tension.

In order to prevent the leakage of contents due to the increase in air pressure during heating, the pressure adjusting valve is configured as follows.

When the liquid boils, when the air pressure increases, the (002A) block, which is fixed to the port pressure valve silicon (0026A) and the port pressure valve shaft (0026B) in the port liquid discharge blocking film (0026) by the port pressure valve spring (0026C), When it rises up, it turns into (002B) and when it is opened, the air pressure decreases. When the air pressure drops, it returns to prevent warmth and loss of contents.

Explanatory drawing [FIG. 4] It is the part represented by port pressure valve OFF (002A) and port pressure valve ON (002B), and is comprised as follows.

Port Water Pressure Shaft (0026B), Port Water Pressure Silicon (0026A), Port Water Pressure Spring (0026C), Port Water Pressure Spring Fixing Plate (0026D), Port Water Pressure Action OFF (002A), Port Water Pressure Action ON (002B) It is composed.

This turboport device has a port portion (0030) as shown in Figure 5, port upper pipe portion (0031), port lower pipe portion (0032), port hot water pipe length axis (0033), port hot water pipe shortening (0034), When the heater boils water in the pot heater fixing plate (0035), the liquid enters the pot hot water pipe shortening (0034) for secondary circulation heating (turbo heating), and the hot water pipe lengthening axis (0033) is a structure that circulates as a hot liquid. .

This turboport device is a heater unit (0040), the heater unit case (0041), the heater unit heater (0042), the heater unit hot water pipe (0043), the heater unit hot water pipe connector (0044) as shown in FIG. The heater unit, a temperature fuse or a temperature sensor (0045), the bimetal in the heater unit (0046), the heater plate consists of a fixed plate (0047).

This turboport device is a PET bottle connector (0050), PET bottle connector case (0051), PET bottle connector hydraulic shaft (0052), PET bottle connector hydraulic silicone (0053), PET bottle connector hydraulic spring (0054), PET bottle connector hydraulic pressure Spring plate (0055), PET bottle connection operation indicator (0056), PET bottle connection PCB (0057), PET bottle connection sensor (0058), PET bottle connection power input (0059), PET bottle (0060) and the operation is as follows.

[0060] PET bottle connection part hydraulic pressure operation OFF (005A), PET bottle connection hydraulic pressure operation ON (005B) after filling the contents into the structure when entering the contents into the bottle [0060] [9] of [9] -3], the hydraulic pressure is formed in the opposite direction to keep the liquid leaks.

In addition, to check whether there is a content in the port using a sensor of [0058] and confirm this check item in the PCB circuit to determine whether to heat and this is indicated by (0056).

     861 0061: PET bottle cap

This turboport device is inverted in the state connecting the turboport and the PET bottle (0060) plug portion for connecting a PET bottle for receiving liquid; And received from the PET bottle part (0060) and put the liquid back to the port portion of the [Fig. 5] by turning the liquid back to the desired amount of the liquid into the electric water heater tube inside the electric heater part [0040] When the liquid is heated, the pressure of the hot water pipe port part is increased, and the pressure of the liquid circulates into the hot water pipe (0041) inside the heater unit, thereby creating an effect of increasing the temperature of the liquid more quickly as a turbo principle.

In FIG. 2, when the liquid of the heater unit 4040 reaches a predetermined temperature, a sensor in the circuit is sensed to cut off the power supply, and the insulation port unit 0030 serves as a guard bottle.

When you want to use the liquid relates to a structure that can be drunk by pressing the valve of the port stopper.

3] 010: Cup
4020 0020: Port stopper
0020A: Port Plug Operation 1
0020B: Port Plug Operation 2
0021: Port Liquid Discharge Switch Cover
0021A: Port Liquid Discharge Switch
0021B: Interlocking Port Liquid Discharge Switch
0021C: Port Liquid Discharge Switch Interlocking Shaft
0021D: Port Liquid Discharge Switch Cam
0021E: Port Liquid Discharge Switch Cam Shaft
0021F: Port Liquid Barrier Valve
0021G: Port Liquid Block Valve Reference Shaft
0021H: Port Liquid Barrier Spring
0022: port liquid discharge external fixing part
0023: Port Liquid Discharge Case
0024: Port Liquid Discharge Base
0025: Port Liquid Discharge Silicone
0026: port liquid discharge blocking film
0026A: Port Pressure Valve Silicone
0026B: Port Pressure Valve Shaft
0026C: Port Pressure Valve Spring
0026D: Port Pressure Valve Spring Retaining Plate
002A: Port Pressure Valve OFF
002B: Port Pressure Valve ON
5030 0030 Port portion
0031: Port upper piping
0032: Port bottom side piping
0033: hot water pipe length axis
0034: hot water pipe shortening
0035: Port Heater Fixing Plate
[Fig. 6] 0040: Hitabu
0041: Heater Case
0042: Heater in the heater
0043: Hot water pipe in the heater
0044: Hot water pipe connector in the heater
0045: Temperature fuse or temperature sensor in heater unit
0046: Bimetal in heater part
0047: fixing plate in the heater unit
Figure 7 0050: PET bottle connection
0051: PET bottle connection case
0052: PET bottle joint hydraulic shaft
0053: PET Bottle Connection Hydraulic Pressure Silicone
0054: PET bottle connection hydraulic spring
0055: PET bottle connection hydraulic spring plate
0056: PET bottle connection part operation display part
0057: PET Bottle Connection PCB
0058: PET bottle connection sensor
0059: PET bottle connection power input
005A: PET bottle connection hydraulic pressure OFF
005B: PET bottle connection hydraulic pressure ON
8060: Bottles
0061: PET bottle stopper

Claims (10)

It is mounted on a PET bottle, [FIG. 2] PET bottle connection portion (0050) and the heater portion (0040), the port portion (0030), the port stopper portion (0020), the cup (0010); and
Mounted on a plastic bottle,
7 has a screw thread (00510) and a silicone ring (00511) of the PET bottle connecting portion (0050), the outer shape is a PET bottle connecting case (0051);
PET bottle connection hydraulic pressure preventing the liquid from entering the PET bottle (0053) and PET bottle connection hydraulic pressure axis using a spring tension to operate when the liquid pressure of the PET bottle above a certain level, PET bottle connection pressure spring (0054), PET bottle connection pressure Spring plate (0055); and
[Fig. 7] PET bottle for checking whether the liquid is contained in the port [0030]
Connection sensor (0058); and
PET bottle connection PCB for processing the determination; PET bottle connection unit operation display unit for displaying the status; and a power input unit PET bottle connection unit power input unit (0059);
2 is a heater unit for supplying heat to the port unit (0030) is mounted
6 in the heater unit case (0041) for the secondary heating, the heater in the heater (0042), the heater in the hot water pipe (0043), the heater in the hot water pipe connecting pipe (0044); and
Temperature fuse in the heater unit for safety, bimetal in the heater unit (0046); and
Fixing plate in the heater unit for fixing the heater unit (0047); And
The structure consisting of the inner shell and the outer shell to keep the liquid and keep the liquid, and the heater portion and the connection portion for facilitating the heating is made of one layer [Fig. 5] port portion; and a pot heater for fixing the heater portion Fixing plate (0035); and
Port upper pipe portion (0031) when using the liquid; and port lower pipe portion for injecting liquid; and
Liquid inlet port hot water pipe shortening (0034) to the structure for the secondary heating; and liquid outlet port hot water pipe lengthening axis (0033); and
[4] port stopper for ease of use and to protect the liquid outflow due to the liquid insulation and external shock and shaking and lowering the pressure when the internal constant pressure is higher than [Fig. 4]; and operation selection for using and managing the liquid Port liquid discharge switch (0021A); and port liquid discharge switch interlock (0021B); reference axis port liquid discharge switch interlocking axis (0021C) for interlocking; port liquid discharge switch cam for operation (0021D) ; Port liquid discharge switch cam shaft (0021E); and port liquid barrier valve (0021F) serving as a liquid gateway (outlet); and port liquid barrier valve reference shaft (0021G) serving as a moving ring of the barrier valve; and liquid Spring tension port liquid barrier valve spring (0021H) to prevent leakage; and
Port liquid discharge switch cover for liquid insulation and liquid leakage protection due to external impact and shaking, port liquid discharge external fixing portion (0022), port liquid discharge case (0023), port liquid discharge base (0024), port Liquid discharge silicon (0025), port liquid discharge blocking film (0026); and
Port pressure valve silicon (0026A) for blocking the outside and the outside in a structure that lowers the pressure when the predetermined pressure in the port portion more than; A port pressure valve spring fixing plate (0026D) for fixing with a spring (0026C); and
Turbo warm pot device, characterized in that it comprises a cup to receive the liquid. The method of claim 1, wherein
PET bottle, [Fig. 2] PET bottle connection part (0050) and the heater part (0040) and the port part (0030) stayed in a set, the port stopper (0020), the cup (0010) can be separated into four parts by the user wash Turbo insulation pot featuring this convenient function. The method of claim 1, wherein
In the PET bottle connection portion (0050) [Fig. 9] in [FIG. 9-2] to prevent the liquid from entering [Fig. 7] PET bottle connection water pressure silicone (0053) and the liquid pressure of the PET bottle than the spring tension when a certain level or more Turbo insulation port characterized in that the PET bottle connection hydraulic shaft (0052), PET bottle connection hydraulic spring (0054), PET bottle connection hydraulic spring plate (0055) is moved from (005A) to (005B) to enter the liquid of the PET bottle. The method of claim 1, wherein
9-1 in FIG. 9-1 has no contents of the port portion 0030 and air, and FIGs. 9-3 is for distinguishing that there are contents of the port portion 3030.
Capacitive reactance, inductance reactance, [FIG. 7] using a PET bottle connection sensor (0058), etc., characterized in that to determine whether to supply power to the heater [0040]
Turbo insulation port. 6 in the structure of the hitter portion
The arrangement in the heater part case (0041) for heating the primary [Fig. 2] port part (0030)
[FIG. 2] The structure in which the heater part in the heater part is positioned toward the surface of the port part (0030) and the hot water pipe (0043) is positioned in the heater part on the opposite side for the secondary heating (turbo). Including and the temperature fuse or temperature sensor in the heater portion toward the hot water pipe for measuring the temperature of the liquid; and a thermal insulation port comprising a bimetal (0046) in the heater portion The structure of the inner shell and the outer shell to keep the liquid in the [FIG. 5] and the heater portion and the connection portion for facilitating heating the pot portion consisting of one layer; and a port for fixing the heater portion Heater fixing plate (0035); and the upper port pipe portion (0031) when using the liquid; and the port lower pipe portion for injecting the liquid; and the liquid inlet port hot water piping in the structure for the secondary heating Cubo thermal port container comprising a single axis; and a liquid outlet port hot water pipe length axis (0033). [0010] The heater portion and the connection portion for easy heating and the structure consisting of the inner shell and the outer shell to keep the liquid in the [Fig. 10] and the heating portion [Fig. Port heater fixing plate (0035) for fixing; and the upper pipe portion (0031) when using the liquid; and the port lower pipe portion (0032) for injecting the liquid; and the liquid in the structure for the secondary heating Turbo insulated pot container consisting of an inlet port hot water pipe shortening (0034A); and a liquid outlet port hot water piping long axis (0033A). [4] in the liquid insulation and liquid leakage protection due to external impact and shaking and lowering the pressure when the internal pressure over a certain pressure and port plug for ease of use; and
Port liquid discharge switch interlocking shaft (0021C); and Port liquid discharge switch interlocking shaft (0021B) for selecting an operation for using and managing the liquid; Port liquid discharge switch interlocking shaft (0021C); Joint for operation Port liquid discharge switch cam (0021D); and port liquid discharge switch cam shaft (0021E); and port liquid blocking valve (0021F) serving as a liquid gateway (outlet); and port liquid blocking serving as a moving ring of the blocking valve. And a valve reference shaft (0021G); and a spring tension port liquid blocking valve spring (0021H) to prevent liquid leakage. [Port 4] port pressure valve silicon (0026A) inside the port liquid discharge blocking film (0026) for blocking the outside with a structure that lowers the pressure when a certain pressure or more in the port portion (0030) in the [0030]; A port pressure valve shaft (0026B); and a port pressure valve spring (0026C) for determining a constant pressure; and a port pressure valve spring fixing plate (0026D) for fixing; constitute a port pressure valve ON (002A), and a port pressure valve OFF Turbo insulation port characterized by the operation configuration (002B). This turboport device is inverted in the state connecting the turboport and the PET bottle [0060] plug portion (0050) for connecting a PET bottle for receiving a liquid; And when the liquid is supplied from the PET bottle part (0060) and put the liquid back to the port portion to the desired amount and flips the liquid back into the electric water heater inside the water heater after the liquid is heated to the electric heater part air pressure port portion air pressure At high pressure
6, the liquid is circulated to the hot water pipe (0043) in the heater portion, characterized in that the effect of increasing the temperature of the liquid faster than the turbo principle is formed
Turbo insulation port.

Images