RU2005965C1 - Thermocontainer - Google Patents

Abstract

FIELD: refrigerating equipment for medicine. SUBSTANCE: front panels 5 and 6 are elongated relative to side panels 7 and 8 which increases removal of heat from chamber through radiator (housing 1 is used as radiator); arranged in space formed by elongated panels 5 and 6 is unit which consists of supply source 17 and thermoregulator 19. EFFECT: enhanced efficiency. 8 cl, 7 dwg

Description

The invention relates to refrigeration and more particularly to a thermoelectric refrigerating devices, and can be used as a portable container for storing and carrying medications, providing a given storage temperature conditions in the range of ambient temperatures from -10 to +50 ^o C.

 Known self-contained refrigerated container for transporting blood tubes [1].

 This container contains a box of two articulated parts and a lid. In the box is an isothermal cap made of two parts, in the cavity of which there are tubes, the tightness of the cap is ensured by a membrane. Cooling is carried out using a module with the Peltier effect, the power of which is provided by batteries controlled by a thermostat. In addition, this container contains a heat sink for heat dissipation.

 The container is bulky and difficult to manufacture, because in it both the box and the refrigerator are made of two parts and a separate membrane is inserted into the refrigerator, which, when functioning and especially when opening the lid, creates conditions for heat exchange with the environment and outflow of cold into the environment.

 Also known stationary or mobile thermal container for cooling insulin [2].

 This thermocontainer contains a chamber insulated on the outer surface for storing the product. Thermal insulation of the chamber, made of a foam layer 20 mm thick, is coated with aluminum foil inside and out. The camera is connected through two adapters and an energy converter operating on the Peltier effect, with a radiator located outside, outside the foil layer; outside the foil layer, a fan is also placed to cool the radiator. A cassette is placed in the chamber in which the insulin ampoules are mounted in a column; the cassette has a lid covering the chamber. The thermal container is equipped with a temperature sensor, electrically connected to the input of the temperature regulator of the power supply, the output of which is electrically connected to the energy converter, the temperature regulator has a light alarm. An annular magnetic strip and four magnets are provided for fixing the lid at the corners of the lid, which, when used repeatedly, reduces the reliability of fixation. To create the necessary thermal protection, an additional seal is also provided between the energy converter and the insulation. The presence of a radiator and a fan for cooling it and their placement outside the case increase the dimensions and complicate the operation of the thermal container and its design. In addition, the schematic diagram of the thermal container includes an electronic device (regulator and network switch), which is made in the form of separate blocks and is included in the kit of the container. At the same time, autonomous power supply requires a car battery. All taken together creates inconvenience in operation. When using it, it is necessary, holding the lid, to remove the entire cartridge from the camera and take out the desired ampoule. This leads to the stay of the entire set of ampoules at ambient temperature, which entails the condensation of moisture on the entire surface of the cartridge and ampoules.

The basis of the invention is to provide a portable cold box for storage of medicines or other products when exposed to ambient temperatures ranging from -10 to +50 ^C in field conditions with the thermal storage mode in combination with ease of use and simplification of the structure.

 The solution to this problem is achieved by the fact that in a thermal container containing a product storage chamber insulated on the outer surface, connected via an adapter and an energy converter operating on the Peltier effect, with a radiator and equipped with a temperature sensor electrically connected to the input of the temperature regulator of the power supply, the output of which is electrically connected to an energy converter, while the temperature regulator has a light alarm, according to the invention, a body with a cover is used as a radiator, internal Thread cavity which is divided by a partition disposed in a plane perpendicular to its longitudinal axis into two parts, one of which is the power supply, the other part is closed with a lid and placed within its insulated chamber, wherein the adapter has a contact directly with the inner surface of the housing. This design allows you to perform a housing with a developed outer surface and its direct connection with the adapter provides efficient heat removal from the outer surface to the environment.

 This embodiment of the housing also allows rationally without protruding outside the housing to place a power supply in it, separating its source from the camera for storing the product.

 Thus, the case, in addition to performing the basic functions as a power element of the design of the thermal container, performs the functions of a radiator, thereby eliminating it as an independent unit.

 It is advisable to store the product in the form of a container open at the top, equipped with a plate in the upper part for mounting it in the housing, and install the bottom on the supports placed on the partition, while the plate and supports should be made of heat-insulating material.

 This design eliminates the heat supply to the chamber both from the environment and from the lower part of the housing where the power supply is located, in addition, it provides ease of use when loading and unloading the product. It is advisable to provide the thermal container with at least one more energy converter with an adapter, which ensures a uniform temperature throughout the chamber volume. It is preferable to provide a cover with a seal and to fix the axis with a groove on the outer surface of the housing on a limited section of the cylindrical surface, while on the axis, rotate the disk with a finger located in the groove and an eccentric groove with respect to the axis with an inlet radial groove for interacting with the protrusion mounted on the outer surface of the cover. This design allows you to increase the reliability of sealing the lid with the housing, providing thermal protection of the camera when opening the lid repeatedly. It is desirable that the case is made of an aluminum alloy with a silver coating. In this case, the operation of the housing as a radiator is significantly improved with increasing reflectivity of the surface. It is preferable to carry out guides in the chamber for installing ampoules and close it by the number of ampoules with transparent rotary plates of heat-insulating material mounted on a common axis fixed in the plate for securing the camera and equipped with lapels from the top. This design provides the convenience of extracting the ampoules by the consumer and protects all other ampoules and the cavity of the chamber from environmental influences when removing one ampoule and prevents moisture loss and maintains sterility.

 It is advisable to place the temperature sensor directly on the outer surface of the chamber outside the zone where the energy converters are located. This eliminates the influence of converters on the reliability of measuring the temperature of the chamber and improves the efficiency of maintaining the thermal regime of the chamber. Advantageously, the temperature controller is additionally equipped with an audible alarm for the discharge of the batteries of the power source. The presence of an audible alarm increases the reliability and ease of use of the thermal container. In general, the design of the thermal container is simple, since all its elements are placed in a single housing, autonomy is ensured, and ease of use is increased.

 Significantly new in the proposed solution is the implementation of the housing with a developed outer surface, which, in conjunction with the adapters in contact with its inner surface and with the camera mounts made in the form of a plate and supports made of heat-insulating material, with a tightly closed lid, can discharge heat into the environment i.e. use the casing as a radiator. In addition, such a housing allows you to place a power supply in it, which generally makes the design compact, independent of a stationary power source and convenient to operate.

 Significantly new are also: the implementation of the seal, which is pressed when closing the lid, which increases the reliability of thermal protection of the chamber; the implementation of the chamber with guides for installing ampoules and closed on top by the number of ampoules with transparent turning plates of heat-insulating material, which ensures hygiene of the chamber and prevents dew from falling in the chamber and on the ampoules; the use of a temperature controller, additionally equipped with an audible alarm for the discharge of the batteries of the power supply, allows the user to recharge the batteries in a timely manner; placing the temperature sensor directly on the outer surface of the chamber on the outer surface of the chamber outside the zone of placement of energy converters, which ensures accurate measurements of the temperature of the chamber; the use of at least one other energy converter with an adapter, which ensures a temperature uniform throughout the chamber.

 In FIG. 1 shows a thermal container, front view; in FIG. 2 - the same side view; in FIG. 3 is a section AA in FIG. 1; in FIG. 4 is a section BB in FIG. 3; in FIG. 5 - thermal container, top view, with the cover removed; in FIG. 6 is a section GG in FIG. 5; in FIG. 7 is a functional diagram of a thermal container.

 The thermal container contains a housing 1, in which there is a chamber 2 for storing the product, protected by thermal insulation 3 and closed by a cover 4. The rectangular housing 1 consists of a front 5, a back 6 and side 7, 8 panels, tightly fitted to each other. Panels 5, 6, 7, 8 are made of silver-coated aluminum alloy. The front 5 and rear 6 panels are elongated with respect to the side panels 7, 8. Between the front 5 and rear 6 panels, a partition 9 is fixed, located in a plane perpendicular to its longitudinal axis and dividing the housing 1 into two parts. In the upper part 10, closed by a lid 4, there is a chamber 2 for storing the product. The chamber 2 is made in the form of a container open at the top, fixed in the housing 1 by means of a plate 11 and resting on the support 12 located on the partition 9. A window 13 is made in the plate 11 into the chamber 2 for storing the product. The plate 11 and supports 12 are made of heat-insulating material.

 The thermal container has four separate Peltier energy converters 14. These transducers 14 are uniformly located on the outer surface of the chamber 2 for storing the product. Each energy converter 14 has an adapter 15 soldered to it. On the other side, the adapter 15 of the energy converters 14 is mounted directly on the inner surface of the front 5 and rear 6 panels, respectively. In the lower part 16 of the housing 1, between the elongated front 5 and rear 6 panels, a power supply unit 17 is inserted, including a power source in the form of batteries 18 and a temperature controller 19. The temperature controller 19 is electrically connected to energy converters 14, with a temperature sensor 20 mounted on the outer surface of the camera 2 for storage of the product outside the zone of placement of energy converters 14. On the side wall of the power supply unit 17, an indicator light 21 for turning on the thermal container, an indicator light 22 for powering the energy converters 14, a toggle switch 23 for turning on the thermal container, a temperature control switch 24, and an electrical connector 25 for recharging the batteries and connecting the thermal container to external power sources are located. On the bottom wall of the power supply unit 17 there is a sound signaling device 26 for discharging the batteries 18.

 In the upper part 10 of the housing 1 on the rear panel 6 there are loops 27 for fastening the cover 4. For reliable thermal protection of the chamber 2 when it is repeatedly opened and closed with the cover 4, the latter has heat insulation 28 and seal 29 inside. For reliable pressing of this seal 29 of the cover 4 to the plate 11 mounting the camera 2 on the outer surface of the housing 1 (on the front panel 5) is fixed with a screw 30 axis 31.

 A groove 32 is made on a limited portion of the cylindrical surface of the axis 31 and a disk 33 is mounted on the axis 31. The disk 33 has a pin 34 located in the groove 32. The disk 33 has a groove 35 with an inward radial groove 36 with an inlet radial groove 36, and on the outer the surface of the cover 4, a protrusion 37 is fixed for interacting with the groove 35 when closing and opening the cover 4. On the outer surface of the disk 33 two points 38 are applied, corresponding to the extreme positions when turning around axis 31, defined by the groove 32 on the cylindrical surface of the 31. The axis 31 is prevented from turning by means of a pin 39. For placement of ampoules 40 in the thermocontainer (Fig. 5) with drugs inside the chamber 2, guides 41 for installing the ampoules are made and on top of the chamber 2 is closed by the number of ampoules 40 with transparent rotary plates 42 made of heat-insulating material. The plates 42 are mounted on a common axis 43, which is fixed in the plate 11 for mounting the camera 2. For ease of removing the ampoules 40, the lamellas 42 have lapels 44. For the convenience of wearing the thermal container, the ears 45 for the belt are fixed on the side panels 7, 8. In this embodiment, a rectangular thermal container, it is possible to perform any cylindrical shape determined by the stored product or consumer convenience.

 The operation of the thermal container is as follows.

 The loading of the product of medical preparations, including ampoules 40 into the capacity of the chamber 2 is carried out with the lid 4 open and the swinging plates 42 folded down under normal temperature conditions, after which the plates 42 are released, and they are tightly attached to the chamber 2 and to each other. After that, close the cover 4. In this case, the protrusion 37 of the cover 4 enters the radial groove 36 and the beginning of the eccentric groove 35 of the disk 33. Then rotate the disk 33 on the axis 31 clockwise. When it is rotated, the finger 34 moves along the groove 32 of the axis 31, and the protrusion 37 of the cover 4 moves along the eccentric groove 35, while the cover 4 is pressed against the housing 1 and presses the seal 29. This ensures a tight fit of the cover 4 to the housing 1. Visually, the closing process the lid 4 is controlled at points 38 (Fig. 1) on the outer surface of the disk 33. This eliminates the compression of the seal 29 (Fig. 3), ensures the same quality of pressing the lid 4 when opening and closing it repeatedly. The inclusion of the thermal container to ensure thermostating is carried out by the toggle switch 23, while the indicator 21 of the light signaling of the inclusion of the thermal container is lit. Changing the temperature control mode (cooling-heating) is carried out by switch 25. In the process of temperature control using energy converters 14, the heat flux from chamber 2 is discharged to the front 5 and rear 6 panels of the housing 1, as well as to the side panels 7 and 8, which are also radiator elements. Due to their elongation and from an aluminum alloy, heat is accumulated by the housing 1, it is evenly distributed over panels 5, 6 and efficiently remove heat (cold) from a large surface area into the environment. In addition, the silver-colored coating of aluminum alloy panels creates a reflection of sunlight from the outer surface, which ensures efficient operation of the radiator. Thus, the case 1 of the thermal container combines two functions: it is a power structure and a radiator at the same time, which eliminates the need to use an independent radiator as a separate unit. The presence of thermal insulation 3 between the camera 2 and the panels 5, 6, 7, 8, thermal insulation 28 of the cover 4, the implementation of the plate 11 for mounting the camera 2 and the supports 12 from the heat-insulating material and the cover 4 together provide the thermal balance of the entire structure of the thermal container. The current temperature value of the chamber 2 is determined using the temperature sensor 20. Since it is installed on the outer surface of the chamber 2 outside the zone of energy converters 14, the obtained measurements of the temperature of the chamber 2 are more accurate, since the effect of the energy converters 14 is minimal. Information about the thermal state of the chamber 2 enters the thermostat 19. In the event that the temperature of the chamber 2 deviates from the set values, the current flowing to the energy converters 14 changes with a corresponding change in the brightness of the indicator 22. When exposed to elevated ambient temperature, the indicator light (lamp) 22 signals the operation of the energy converters 14. Thus, it is possible to maintain in a predetermined temperature range the chamber 2 for storing the product during thermostating. When the voltage of the batteries 18 is lower than the permissible level, the sound signal of the discharge of the batteries 23 is triggered, in this case, it is necessary to recharge the batteries 18. For this, an electrical connector 26 is installed on the case 1 of the thermal container, which also allows power supply of the thermal container from external sources. The thermal container is turned on after the temperature control is completed by the toggle switch 24, and the indicator 21 of the light signaling for turning on the thermal container goes out. When removing the ampoules, it is necessary to turn the disk 33 counterclockwise, open the cover 4, and through the transparent closed plates 42, the ampoules 40 are visible, placed in the container of the chamber 2 for storing the product. After selecting the desired ampoule, the desired plate 42 is turned behind the lapel 44, while the remaining plates 42 remain in the closed position, blocking the chamber 2 from above, thereby eliminating the contact of the remaining ampoules 40 and most of the volume of the chamber 2 with the environment, which ensures the hygiene of the chamber 2 and prevents dew in the chamber 2 and on the ampoules 40.

 The proposed thermal container has a simple design, is technologically advanced to manufacture, compact and convenient to operate. (56) French Application N 2621685, cl. F 25 B 21/02, published. 1989.

 Application EPO N 0248120, cl. F 25 B 21/02, published. 1987.

Claims (8)

 1. THERMO CONTAINER containing a chamber thermally insulated on the outer surface connected through a Peltier thermoelectric converter and an adapter with a radiator and equipped with a temperature sensor electrically connected to the input of the temperature regulator of the power supply, the output of which is electrically connected to the converter, while the temperature regulator has a light alarm, characterized in that as a radiator, a body with a cover is used, the inner cavity of which is divided by a partition located perpendicular to its longitudinal axis, in two parts, in one of which is a thermally insulated chamber equipped with a cover, and in the other there is a power supply, while the adapter has contact directly with the inner surface of the housing.  2. The thermal container according to claim 1, characterized in that the camera is made in the form of a container open at the top, provided with a plate for mounting it in the upper part and mounted on the supports located on the partition, the plate and supports made of heat-insulating material .  3. Thermal container according to paragraphs. 1 and 2, characterized in that it is equipped with at least one other energy converter with an adapter.  4. Thermal container according to paragraphs. 1 - 3, characterized in that the cover is provided with a sealant, and an axis with a groove is fixed on the outer surface of the housing on a limited portion of the cylindrical surface of the axis, while the disk having a finger located in the groove and eccentric with respect to axis a groove with an inlet radial groove for interacting with a protrusion mounted on the outer surface of the lid.  5. Thermal container according to paragraphs. 1 to 4, characterized in that the housing is made of an aluminum alloy with a reflective coating.  6. Thermal container according to paragraphs. 1 - 5, characterized in that inside the chamber there are guides for installing ampoules, and on top of the chamber there are mounted transparent rotary plates made of heat-insulating material, made according to the number of channels formed by the guides, mounted on a common axis, fixed in the plate for mounting the camera, and equipped with lapels.  7. The thermal container according to claim 1, characterized in that the thermal sensor is located directly on the outer surface of the chamber.  8. The thermal container according to claim 1, characterized in that it is equipped with a sound signaling device for discharging the batteries.

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