RU2236653C1 - Automobile thermoelectric container for liquids - Google Patents

Abstract

FIELD: refrigerating engineering; small-sized liquid coolers for transport facilities.

SUBSTANCE: proposed thermoelectric container includes casing inside which thermoelectric module with heat sink is arranged; heat sink is made in form of heat-conducting radiator provided with electric fan and heat-conducting plate; container is also provided with cup-shaped heat-conducting insert with cover, thermosensors mounted in heat-conducting plate and heat sink, switch for change-over of polarity of power supply source of thermoelectric module located on casing electric cord with plug at the end extending from casing. Cup-shaped insert is provided with vertical heat-conducting partition which clearance with its bottom. Cover has two holes on either side of partition; flexible tube is connected to one of them. Second electric fan located in partition is separated from first one by means of partition and is connected to one of holes found in the cover. Heat-conducting plate is made in form of bottom of cup-shaped insert with horizontal flat extending from its external lateral surface which is connected with side walls of cup-shaped insert by means of thread.

EFFECT: increased productivity due to reduction of time required for cooling one portion of drink; extended functional capabilities.

6 cl, 6 dwg

Description

The invention relates to refrigeration, and in particular to small-sized liquid coolers, and can be used in transport.

Known thermoelectric cooling devices - US patent No. 5111664, F 25 B 21/02, published in the journal "Inventions of the World" for 1993; international application No. 90/00708, F 25 B 21/02, published in the journal “Inventions of the World” for 1988. These devices are used to store drinks with their cooling in a standard package (bottles, bags, etc.) and are not intended for cooling drinks - liquids without packaging. Known US patent No. 3808825, F 25 In 21/02 for 1974. This device contains a casing, a thermoelectric module with a heat sink, a heat-conducting plate and a heat-conducting cup-shaped insert made with the possibility of vertical movement and removal of it from the casing. A serving of a drink or a serving of any liquid in a cup-shaped insert is cooled by its cold walls and bottom. The middle part of the liquid volume in the cup-shaped insert cools more slowly than the part of the liquid that is in close proximity to the cold walls and bottom. Therefore, the total cooling time of the entire volume of a portion of the drink-liquid in the cup-shaped insert increases. This device does not provide for the possibility of obtaining from a bowl-shaped insert a stream of cooled or heated air saturated with particles of a cooled or heated liquid, nor does it provide for the possibility of obtaining a cooled or heated plate on the surface of the casing.

An analogue of the present invention is a “Thermoelectric container for a drink” - patent of Russia 2128810, F 25 B 21/02 for 1999, designed to cool the drink without packaging. It consists of a casing, a thermoelectric module with a flow-through heat sink, a heat-conducting cup-shaped insert with a cover, temperature sensors located in the bottom of the cup-shaped insert and a heat sink, and a power polarity switch of the thermoelectric module located on the casing. A portion of the drink-liquid is cooled in a bowl-shaped insert from the cold walls and bottom. The middle part of the liquid volume in the cup-shaped insert cools more slowly than that located in the immediate vicinity of the walls and the bottom. This increases the cooling time of the entire volume of the portion of the drink-liquid in the cup-shaped insert and reduces the performance of the thermoelectric container. This container does not provide for the possibility of obtaining from a bowl-shaped insert a stream of chilled or heated air saturated with particles of chilled or heated liquid, nor does it provide for the possibility of obtaining a cooled or heated plate on the surface of the casing.

For the prototype selected US patent No. 5042258, F 25 In 21/02, “Thermoelectric container for a drink”, published in the journal “Inventions of the world” in 1993. It is designed to cool a portion of a drink-liquid without packaging and consists of a casing, inside which has a thermoelectric module with a heat sink made in the form of a heat-conducting radiator with an electric fan and with a heat-conducting plate, a heat-conducting cup-shaped insert with a cover, a power polarity switch of the thermoelectric module located on zhuhe and cord set with a plug on the end, coming out of the casing. The cold side of the thermoelectric module is in contact with the heat-conducting plate and through it with the bottom of the cup-shaped insert. The other heated side of the thermoelectric module is in contact with the heat sink, which is cooled through the radiator by the air flow from the electric fan. A portion of the drink-liquid is cooled from the cold walls and bottom. Therefore, the middle part of the volume of a portion of a drink-liquid in a cup-shaped insert cools more slowly than that located in the immediate vicinity of the walls and bottom. Because of this, the cooling time of the entire volume of the portion of the drink-liquid in the cup-shaped insert increases and the performance of the thermoelectric container decreases. The presence of a power polarity switch of the thermoelectric module located on the casing allows you to switch the thermoelectric container to work in the mode of heating a portion of the drink-liquid. An electric cord with a plug emerging from the casing allows you to connect a thermoelectric container through the car’s cigarette lighter to its on-board power supply with a voltage of I = 12 V. In this thermoelectric container, it is not possible to receive a flow of cooled or heated air saturated with particles of cooled or heated liquid from a bowl-shaped insert, nor is it contemplated that it is possible to obtain a cooled or heated plate on the surface of the casing.

The problem solved by the invention is the improvement of a thermoelectric beverage container. The technical result consists in increasing the performance of the thermoelectric container, by reducing the cooling time of the drink in the cup-shaped insert, and expanding its functionality, namely, providing the possibility of obtaining from the cup-shaped insert a flow of cooled or heated air saturated with particles of cooled or heated liquid, as well as the possibility of obtaining on the surface of the casing of a chilled or heated plate. A stream of chilled or heated air saturated with particles of chilled or heated liquid can be used in the car interior, for example, to conduct a thermo-aerosol massage of the driver’s head while drowsiness while driving, or to warm up with inhalation of the person’s respiratory tract during a cold. A cooled or heated plate allows contact thermal massage of injured areas on the human body, for example, after an accident (traffic accident). Cold with heat at the same time promotes rapid pain relief and accelerates healing (similar to contrast compresses). It should be noted that a particular efficiency lies in the fact that it is possible to consistently produce cold and heat, i.e. use contrast massage.

The specified technical result is achieved in that the heat-conducting cup-shaped insert is made with a vertical heat-conducting partition, forming a gap with its bottom. When cooling a portion of a drink or liquid from the cold walls and the bottom of the cup-shaped insert, the cold partition inside the portion of the liquid is an additional concentrator of cold - due to its walls, the middle part of the volume of liquid in the cup-shaped insert is cooled. And the gap between the partition and the bottom allows the fluid to spread evenly in the cup-shaped insert on both sides of the partition. Additional cooling of the middle part of the liquid volume in the cup-shaped insert from the cold partition reduces the cooling time of the entire volume of the drink-liquid portion and thereby increases the performance of the thermoelectric container. The lid of the cup-shaped insert is made with two holes located on both sides of the partition, one of which is connected by a flexible tube, and in the casing there is a second electric fan, separated by a partition from the first and connected to one of the openings of the lid. This system makes it possible to drive air from the atmosphere using a second electric fan through the cooled or heated walls of the bowl-shaped insert and the cooled or heated portion of the liquid in it. The air flow from the atmosphere is cooled or heated and saturated with particles of a cooled or heated liquid, and then leaves the flexible tube of the lid. Due to its flexibility, the tube can be positioned anywhere in the space and quickly insert various nozzles into it, for example, a shower nozzle for carrying out an aerosol thermal massage of the driver’s head when he is drowsy and tired while driving or a nozzle for a person’s nose and mouth for heating and inhalation of the respiratory tract catarrhal diseases of it in the passenger compartment. Since the connection of the second electric fan with one of the openings of the lid is made by means of a flexible hose and it, like a flexible tube, is fixed in the thermoelectric container with the possibility of quick removal, when using a thermoelectric container only to cool a portion of the drink and for the convenience of manual handling of the container, this flexible hose and flexible tube can be quickly removed from the thermoelectric container. It should be noted that when air flows from the atmosphere through a cooled or heated liquid, effective heat transfer occurs, because a complete contact of air bubbles with a liquid thermal medium is obtained, unlike, for example, when an air stream passes through metal heat exchangers in air conditioning systems, where full contact is much more difficult. Therefore, the efficiency of cooling or heating the air stream when passing through a liquid thermal medium is higher than that of metal heat exchangers. The second fan in the casing of the container is separated from the first by a partition so that it cannot draw in exhausted, heated air from the first fan. It is connected through a flexible hose to one of the holes in the lid of the cup-shaped insert. This allows the flow of air from the atmosphere of the passenger compartment to enter a chilled or heated cup-shaped insert, on one side of a chilled or heated vertical partition, to pass through a chilled or heated portion of liquid and through the gap between the partition and the bottom, to exit through the liquid on the other side of the partition. When an air stream passes through a liquid, it boils on the surface, as it were, and water fog forms. A stream of chilled or heated air saturated with particles of chilled or heated liquid exits from the flexible tube of the lid. In this case, you can use various flavored liquids that improve the atmosphere in the car. The presence of temperature sensors located in the heat sink and the heat-conducting plate-bottom allows you to automatically, for a long time, maintain a constant temperature of the liquid in the bowl-shaped insert while passing through it a stream of air from the atmosphere. The connection of the bottom plate of the cup-shaped insert with its side walls through the thread allows you to remove part of the cup-shaped insert to clean the inner surfaces of the bottom and the partition, and also allows you to conveniently manually use the handle to apply a cooled or heated horizontal bottom of the bottom to the bruised or injured places on the human body. Since the flexible tube and the flexible hose can be removed from the thermoelectric container, a convenient, quick removal of the lid of the cup-shaped insert can be provided when pouring liquid into it. The heat-conducting horizontal platform of the bottom of the cup-shaped insert is covered with heat-conducting rubber, which allows for convenient contact with the human body. Rubber (for example, rubber type of a household heating pad) is fixed on a horizontal platform of the bottom using heat-conducting glue, which allows to reduce the loss of cold-heat. Automobile thermoelectric container is made with a temperature regulator, which allows a person to set their temperature regime of the container. The speed controller of the second electric fan allows you to change the speed of air flow from the flexible tube and the degree of saturation of its particles of liquid. The control knobs of such regulators are located on the casing, which allows a person to quickly and conveniently change the temperature and air flow rate.

Figure 1 shows an automobile thermoelectric liquid container, General view; figure 2 is a General view of the container in section; figure 3 is a General view of the container with the removed flexible tube and flexible hose; figure 4 is a section aa; figure 5 is a General view of the container with the removed part of the cup-shaped insert; figure 6 is a view along arrow B.

Automotive thermoelectric liquid container (Figs. 1-6) consists of: a casing 1, inside of which there is a thermoelectric module 2 (Fig. 2) with a heat sink 3, made in the form of a heat-conducting radiator 4 with an electric fan 5 and a heat-conducting plate 6, a heat-conducting cup-shaped insert 7 with a cover 8, temperature sensors 9 located in the heat-conducting plate 6 and heat sink 3, the switch 10 of the power supply polarity of the thermoelectric module (Figs. 1, 3, 5) located on the casing 1 and the power cord 11 (Fig. 1) with a plug 12 at the end , exit from the casing 1. The heat-conducting cup-shaped insert 7 is made with a vertical heat-conducting partition 13 (Figs. 2, 3, 4), forming a gap 14 (Figs. 2, 3) with its bottom, and the lid 8 is made with two holes 15 and 16, located on both sides of the partition 13, to one of which, for example 15, is attached a flexible tube 17 (Fig.1, 2), and in the casing 1 there is a second fan 18 (Fig.2), separated by a partition 19 from the first 5 and connected a flexible hose 20 (figure 1, 2) with one of the holes of the cover 8, for example 15, and the heat-conducting plate 6 is made in ide bottom of the cup insert 7 with a horizontal platform 21 extending from its outer lateral surface (1, 2, 3, 5) and connected with the walls of the bowl 7 through the thread inserts 22 (Figures 2, 3). The cover 8 can be attached to the side walls of the cup-shaped insert 7 through the same thread 22 (figure 2). The flexible tube 17 and flexible hose 20 are fixed in a thermoelectric container with the possibility of quick removal, for example, by tightness on the bushings 23, 24 and 25. The horizontal platform 21 of the heat-conducting plate-bottom 6 is covered with heat-conducting rubber 26 (Figs. 1, 2, 3, 5, 6) (for example, a type of heating pad rubber) fixed to it using heat-conducting glue (not shown). Automobile thermoelectric container is made with temperature and rotation speed controllers of the second electric fan 18 (not shown), the control knobs of which 27 and 28 are located on the casing 1 (Figs. 1, 2, 3, 5, 6). Figure 2 shows the liquid 30 and air bubbles 37 passing through it. The casing 1 is closed on top by a cover 32 with holes for a cup-shaped insert 7 with a bottom 6 and a sleeve 25. In the casing 1, openings 33 and 34 are made for air inlet and outlet during operation of electric fans 5 and 18 (Fig. 2). Figure 2 shows the nozzle for the nose of a person 35 for conducting heating with inhalation and a “shower” nozzle 36 for contrast (cold-warm) aerosol massage of the driver’s head. These nozzles with interference fit into the flexible tube 17.

Automotive thermoelectric liquid container designed to work in the car (not shown). To operate the container in cooling mode, press the switch 10 to the ON position (Fig. 1, 3), plug 12 (Fig. 1) is inserted into the “cigarette lighter” of the car (not shown), while in the container, on the thermoelectric module 2 and electric fans 5 and 18 (figure 2) sets the voltage And = 12 V, equal to the voltage of the vehicle electrical system. Due to the Peltier effect, one side of the thermoelectric module 2 in contact with the heat-conducting plate-bottom 6 is cooled. The other side of the thermoelectric module 2 is heated, thereby heating the heat sink 3 with the radiator 4, which are cooled by the air flow from the electric fan 5 through the window 34. The air heated from the heat sink then leaves the casing 1, through the window 33. The liquid 30 in the cup-shaped insert 7 and in the bottom 6 at the same time it is cooled from their cold walls and partitions 13. The electric fan 18 can be switched on, for example, at the command of the temperature sensors 9 when the specified temperature of the liquid 30 is reached. Air from the atmosphere of the passenger compartment is drawn in through the windows 34 (f ig. 2) and gets into the flexible hose 20. Since the electric fans 5 and 18 are separated by a partition 19, they can work in parallel. Air through the flexible hose 20 from the electric fan 18 through the hole 16 in the cover 8 enters the chilled cup-shaped insert 7 on one side of the chilled partition 13. It begins to cool from the walls. Then it in the form of bubbles 37 (figure 2) passes through the cooled liquid 30, while additionally cooling. Air exits through the gap 14 between the partition 13 and the bottom. The liquid 30 on the surface, on the other side of the partition, as if “boils”. Water fog is formed and the air stream is already cooled and saturated with particles of cooled liquid, leaves the cup-shaped insert 7 through the hole 15 in the cover 8 and enters the flexible pipe 17. If you insert a “shower” nozzle 36 into the flexible pipe (Fig. 2), then it is possible to get a chilled air-water shower, used, for example, for aerosol massage of the head-face of a car driver when he is drowsy while driving. If you pour flavored liquid into a cup-shaped insert, then you can improve the microclimate in the passenger compartment. In cooling mode, an automotive thermoelectric container can be used only as a cooler for a portion of a drink. To do this, the flexible tube 17 and flexible hose 20 are removed from the container and the electric fan 18 is turned off. One electric fan 5 is working 5. In this form (Fig. 3), it is convenient to remove the lid 8 from the cup-shaped insert 7 for pouring a portion of the drink into the cup-shaped insert and then pour it already chilled. In this case, the cooled heat-conducting partition 13 (Figs. 3 and 4) is an additional cold concentrator inside the volume of a serving of a drink and it cools faster. The gap 14 between the partition 13 and the bottom of the cup-shaped insert allows the drink, when pouring, to evenly spread on both sides of the partition 13. Since the heat-conducting plate 6 is made in the form of the bottom of the cup-shaped insert to which the thermoelectric module 2 is attached (figure 2), the layers drinks located in the bottom of the cup-shaped insert are cooled faster, as if the heat-conducting plate and the bottom of the cup-shaped insert were separated as in the prototype.

The heat-conducting plate-bottom is connected to the side walls of the cup-shaped insert 7 through the thread 22 (figure 2, 3). Therefore, after the operation of the container, part of the cup-shaped insert 7 without bottom 6, tube 17 and flexible hose 20 is conveniently removed from the container to clean the surfaces of the bottom 6, wall 7 and partition 13.

The heat-conducting plate-bottom 6 is made with a horizontal platform 21, protruding from the outer surface (Fig.1, 2, 3, 5, 6). Therefore, in cooling mode, this site can be cooled to sub-zero temperatures and used as an artificial piece of ice, for example, for applying it to bruised, injured areas on the human body, for example, after an accident (traffic accident). It should be noted that for the same purposes, a cooling package is currently provided in the vehicle’s first-aid kit. But it is only for single use and there is no way to change its temperature. In an automotive thermoelectric container, a cooled horizontal pad 21 can be used repeatedly for a long time with a temperature setting in the range 0 - (- 8) ° С and with automatic maintenance of the set temperature using the control knob 27 (Fig. 1). For more comfortable contact of the cooled horizontal platform 21 with human skin, it is covered with rubber 26 (such as rubber of a household heating pad), fixed with heat-conducting adhesive (Figs. 1, 2, 3, 5, 6).

Due to the presence of the switch 10 of the thermoelectric module 2 located on the surface of the casing 1 (Fig. 1), the thermoelectric container can be switched to the “heating” mode. In this case, the side of the thermoelectric module, which was cooled, begins to heat up. All other processes in the container occur similarly to the “cooling” mode. In the “heating” mode, the container can be used to heat a portion of the drink (figure 3). When the electric fan 18 is used (Fig. 2) and with water poured into the cup-shaped insert 7 at the outlet of the flexible tube, a stream of heated air saturated with particles of heated liquid is obtained, which can be used, for example, with a nozzle 35 for heating the respiratory tract and inhalation thereof. At the same time, it is advisable to maintain the temperature of the liquid 30 in the bowl-shaped insert 7 constant during the procedure, since it changes as air passes through it from the atmosphere of the passenger compartment. Using the control knob 27, you can set the required temperature in the range 0 - + 60 ° C, and then the container, independently using temperature sensors 9, automatically maintains it constant for a long time. When using the nozzle 36, you can get a heated air-water shower for aerosol thermal massage of the driver's head. When using sequentially OHL modes. and HEAT. You can get a contrast effect. The horizontal platform 21 with rubber 26 in this mode heats up and can be used in the OHL mode. - HEAT. for contrast thermal massage of injured areas of the human body. Due to the consistent action on the vessels COLD - HEAT, the healing process is accelerated. The handle 29 makes it possible, both in the COOLING mode and in the HEATING mode, to change the speed of the air flow through the liquid 30 in the cup-shaped insert 7 (Fig. 2) and thereby change the level of saturation of the air stream with particles of the liquid. At the exit of the flexible tube 16, at low rotational speeds of the electric fan 18, it is possible to obtain a dry, cooled or heated air stream.

This invention allows the use of an automobile thermoelectric container as a portable medical and household combine for a car interior, where it can be used to cool or heat drinks, as well as to provide primary, first aid to a person in a car with COLD or WARM in the form of a thermo-aerosol head massage , thermo-inhalation of the respiratory tract and contact thermal massage of body parts.

Claims (6)

1. Automotive thermoelectric liquid container, consisting of a casing, inside which there is a thermoelectric module with a heat sink made in the form of a heat-conducting radiator with an electric fan and a heat-conducting plate, a heat-conducting cup-shaped insert with a lid, temperature sensors located in the heat-conducting plate and heat sink, a power polarity switch thermoelectric module located on the casing, and an electric cord with a plug at the end coming out of the casing, characterized in that the neck-shaped insert is made with a vertical heat-conducting partition, forming a gap with its bottom, and its cover is made with two holes located on both sides of the partition, one of which is connected by a flexible tube, and in the casing there is a second electric fan, separated by a partition from the first and connected to one of the openings of the lid, and the heat-conducting plate is made in the form of a bottom of a cup-shaped insert with a horizontal platform protruding from its outer side surface connected to the side Tenkai cup-shaped insert via the threads. 2. Automotive thermoelectric liquid container according to claim 1, characterized in that the second fan in the casing is connected to one of the openings of the lid of the cup-shaped insert with a flexible hose. 3. Automotive thermoelectric liquid container according to claim 1 or 2, characterized in that the flexible tube and flexible hose are fixed in the thermoelectric container with the possibility of quick removal. 4. Automobile thermoelectric liquid container according to claim 1, characterized in that the horizontal platform of the bottom of the cup-shaped insert is coated with heat-conducting rubber, fixed to it with heat-conducting adhesive. 5. Automotive thermoelectric liquid container according to claim 1, characterized in that it is made with temperature and rotation speed controllers of the second electric fan, the control knobs of which are located on the casing. 6. Automotive thermoelectric liquid container according to claim 1, characterized in that it is made with a handle on the casing.

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