RU122370U1 - AUTOMATED THERMOSTABILIZED CONTAINER (OPTIONS) - Google Patents

Abstract

1. An automatic temperature-stabilized container, including a thermally insulated body with an inner chamber, a cover with a seal, a thermoelectric installation, a power supply unit, a temperature control unit with a temperature sensor, characterized in that the body contains a connected to an on-off means, an indication means, a power supply unit, an internal chamber a control unit that includes a heating control unit connected by means of switching means, a directly connected temperature measuring means, as well as an internal power supply and a charge control unit connected to the power supply unit, while the thermoelectric installation made in the form of a winding made of conductive material simultaneously represents a temperature sensor 2. Automatic thermostabilized container according to claim 1, characterized in that the cover is removable or hinged. Automatic thermostabilized container according to claim 1, characterized in that the body and the inner chambers have a cylindrical shape. Automatic heat-stabilized container according to claim 1, characterized in that the body and the lid are made of a polymer material, for example, polypropylene. An automatic heat-stabilized container according to claim 1, characterized in that the body is additionally equipped with a carrying device, for example, a belt. An automatic heat-stabilized container according to claim 1, characterized in that the inner chambers are made of a heat-conducting material, for example, a thin-walled stainless pipe, in particular, grade 12X18H10T or glass. Automatic t

Description

The inventive utility model relates to the field of veterinary medicine, in particular, to devices designed for transporting biomaterial, mainly tools with sperm material used for artificial insemination of cattle (cattle).

In accordance with GOST 26030-83 “Bull sperm frozen”, the temperature of the biomaterial after thawing should not differ from the set by more than ± 0.5 ° C. Non-compliance with this requirement leads to a decrease in the percentage of successful inseminations, which, in turn, leads to significant financial losses.

The thermal container is known from the prior art, which includes a thermally insulated body with a lid and at least one thermo-accumulating element, while the body is made of heat-resistant material that is good or poorly conductive, heat insulation is made of non-conductive or poorly conductive material, the lid is removable, or reclining, or closing. The inner container of the thermal container is divided by longitudinal and / or transverse solid and / or perforated partitions, and the thermal storage elements made of chamotte, porcelain, and ceramics are evenly distributed on the inner surface of the thermal container (see application for invention No. 99106765 “Thermal container”, filing date 25.03.1999 g., publication date 01/20/2001).

Known thermal container containing a detachable composite housing, a lid and a bottom made of flexible (foamed) heat-insulating material and covered from the outside with a single fabric cover, as well as incompletely ring zippers located on the side surface of the cover, while a cavity for containers with the product and at least one cavity for heat and cold elements, separated by at least one mesh partition sewn around the perimeter in the case, and one zipper is located on the wall of the cavity for the container with the product the bottom of which is a mesh partition, and the other at the edge of this cavity with the possibility of folding part of the cover with the cavity for heat and cold elements (see RF patent for utility model No. 108025 "Thermocontainer", filed date 04/22/2011 published on 09/10/2011).

The device “Thermostat - biological thawer” is known, manufactured by NPO TiSa, which contains a body connected to a power source with an aluminum cylinder placed inside it and connected to an external heater, while a straw with biomaterial is placed in the cylinder separated from the body by a channel with water ( see http://npo-tisa.ru/products.html).

The principle of operation of this device is based on stabilizing the temperature inside the cylinder body using a local heater controlled by the signals of the temperature sensor placed on the body. To reduce the thermal field gradients arising in such a design, a highly conductive housing is used.

A biological universal thermostat is known - a thawer of straws, open and facing granules, containing a housing equipped with the device’s means of operation — green and red LEDs, as well as a heat-stabilizing chamber separated from the housing by an aqueous medium in which uniform thawing of the entire sperm dose occurs (see http : //www.gameta.ru/product/? eid = 277).

In addition, the QuickLock heater is known in which insemination tools are transported at a stable temperature, including a case in the form of a cover made of easily cleanable textile material, equipped with a charger and a belt, while the charger is powered from the cigarette lighter (12 V DC) or from a wall outlet (220 V AC), the set temperature is 35 ° C, the battery power is about 8 hours. Two working chambers made of aluminum alloy are mounted inside the housing, to which temperature sensors are connected, while the uniformity of the temperature field is ensured by the high thermal conductivity of the walls of the working chambers. To maintain the set temperature, high-precision temperature sensors are used (see http://www.minitube.de/DE rus / Produkty-Servis / KRS).

The closest technical solution to the claimed device is a thermal container comprising a case with thermal insulation, an inner chamber and a cover with a seal, a thermoelectric installation and a power supply unit, the case being equipped with a handle and a bracket connected by two rods, the cover is hollow and filled with thermal insulation material, the inner chamber is equipped with a removable sealed cassette for a heat transfer medium containing at least one cell for accommodating containers for thermostatic material, the thermoelectric installation contains two thermocouples mounted on a bracket and is equipped with a temperature control unit with a temperature sensor (see application for invention No. 2002119744 Thermocontainer, filing date July 26, 2002, publication date of the application March 27, 2004).

The technical result to which the claimed utility model is directed is to simplify the design, increase the reliability and accuracy of determining the temperature.

The specified technical result according to the first embodiment is achieved by the fact that an automatic thermostabilized container, including a thermally insulated housing with an inner chamber and a cover with a seal, a thermoelectric installation, a power supply unit, a temperature control unit with a temperature sensor, according to a utility model, is connected to the on-off means indicating means, power supply unit, internal camera, control unit including bloc connected by means of switching means a heating control related directly to temperature measuring means, and connected between an internal power source connected to the power supply charge control unit, wherein the thermoelectric plant, designed as a winding of conductive material simultaneously is a temperature sensor.

The specified technical result according to the second embodiment is achieved in that an automatic thermally stabilized container comprising a thermally insulated housing with an inner chamber, a cover with a seal, a thermoelectric installation, a power supply unit, a temperature control unit with a temperature sensor according to a utility model in a housing with at least two internal chambers placed associated with the on-off means, indicating means, power supply unit, internal cameras, a control unit comprising heating control units connected directly to it by means of switching and temperature measuring devices directly connected, as well as interconnected internal power supply and a charge control unit connected to the power supply unit, with each internal chamber equipped with its own heating control unit and temperature measuring device, and thermoelectric the installation, made in the form of a winding of conductive material, at the same time is a temperature sensor.

To measure the temperature, the central part of the winding is used.

A thermoelectric installation is a heating wire made, for example, of a copper single-core winding wire having a high and stable temperature coefficient of electrical resistivity.

The cover with a seal can be made removable or reclining.

The body and inner chambers are cylindrical.

The case and cover are made of a polymeric material, for example, polypropylene.

The housing may additionally be equipped with a device for carrying, for example, a belt.

The inner chambers are made of a heat-conducting material, for example, a thin-walled stainless pipe, for example, grade 12X18H10T, while the diameter of the tube is commensurate with the parameters of the tool - a syringe with biomaterial.

The container is equipped with a disinfection device made, for example, in the form of a brush.

No technical solutions coinciding with the set of essential features of the claimed utility model have been identified, which allows us to conclude that the claimed utility model meets such a patentability condition as “novelty”.

The patentability condition "industrial applicability" is confirmed by the example of a specific implementation of the claimed device.

The inventive utility model is illustrated by drawings, where

Figure 1 - General diagram of an automated thermostabilized container according to the first embodiment;

Figure 2 is a functional diagram of an automated thermostabilized container according to the first embodiment;

Figure 3 - General diagram of an automated thermostabilized container according to the second embodiment;

Figure 4 is a functional diagram of an automated thermostabilized container according to the second embodiment.

The implementation of the utility model is confirmed by examples of specific performance.

Example No. 1.

The inventive device according to the first embodiment contains thermally insulated housing 1 with removable or hinged covers 2.1, 2.2, while thermal insulation 3 is used, for example, polystyrene, synthetic winterizer. Inside the housing 1 there is an internal working chamber 4 made of corrosion-resistant material that can be easily processed with disinfectants, for example, thin-walled stainless steel grade 12X18H10T or glass. The housing 1 and the working chamber 4 are usually cylindrical in shape, and the internal dimensions of the chamber 4, diameter and length, are commensurate with the parameters of a standard tool used for artificial insemination of cattle

On the outer surface of the inner working chamber 4 there is a thermoelectric installation 5, which is a continuous winding of conductive material, for example, a copper single-core winding wire.

The control unit 6 in the form of an electric board is placed in the housing, connected with the on-off means 7, made in the form of a button, the means of indicating the device’s operation 8, which is an LED, and an external power supply unit 9. The LED indication is displayed on the surface of the housing using a light guide made from translucent material, for example, plexiglass (not shown in the drawing).

In addition, the control unit 6 through the switching means 10 is connected to the heating control unit 11 and directly to the temperature measuring means 12, which are connected to the working chamber 4. The control unit 6 is equipped with an internal power source 13, which is at least one battery associated with the charge control unit 14, which, in turn, is connected to the board 4 and the external power supply unit 9. As a rule, use a power source 13, which consists of an assembly comprising 3 batteries.

For ease of transportation, the housing 1 is equipped with a carrying device, for example, a belt, and is also equipped with a disinfection device, for example, with a brush (not shown in the drawing).

On the inner end surfaces of the covers 2.1, 2.2, recesses (grooves) are made in which the working chambers are fixed, inside which a tool with biomaterial is placed.

On the housing there is a connector for connecting an external power source (not shown in the drawing).

Example No. 2.

The device according to the second embodiment is characterized in that the housing contains at least two working chambers 4.1, 4.2, each of which is equipped with a temperature measuring device 12.1, 12.2 and a heating control unit 11.1, 11.2, connected to the control unit 4 by means of switching means 10.1, 10.2.

An analysis of the temperature field gradients of cylindrical chambers of the indicated functional purpose with a large ratio of length and diameter showed that the main heat leakage occurs through their end inlets. Such heat losses through the ends are inevitable and are due to the functional purpose of the device.

Reducing the longitudinal thermal conductivity along the axis of the working chamber due to the small cross section of the walls of the inner working chamber (chambers) and the low thermal conductivity of the material used, reduce the effect of heat leakage through the end inlets on the temperature field in the central zone of the working chamber. The axial redistribution of heat through the air enclosed inside the chamber is also very small, since in working condition the space is filled with a tool with biomaterial, while the air gaps are less than 0.5 mm, the resistance to air movement in such a gap eliminates intense heat transfer. In addition, in working condition, one end hole of the housing is closed by a lid, and the other by a tool. In this case, the temperature from the ends of the inner chamber (chambers) is lower than the set temperature, but at a distance of 30-40 mm from the chamber inlet, isothermality is ensured.

The temperature inside the chamber is usually measured by a temperature sensor, which is part of the thermostatic control unit. Thanks to the claimed design, the temperature is measured using a thermoelectric installation in the form of a winding made of a heating wire, for example, a copper single-core winding wire having a high and stable temperature coefficient of electrical resistivity. The winding wire has a close thermal contact with the surface of the inner working chamber. To determine the temperature for a short period of time, a current of a given value is passed through the wire. The voltage drop determines the resistance value, the temperature dependence of which is reliably known. To increase the accuracy of determining the temperature, a current of a given value is passed only through that portion of the winding that is placed on the side surface of the chamber, thereby eliminating the influence of the thermal field gradients of the end zones on the temperature measurement result. The device operates as follows.

The device is turned on by connecting it to the power supply unit 9, while the charge control unit 14 of the battery 13 analyzes its state and controls the charge current until the battery is fully charged, and information about the degree of charge is supplied to the control unit 6, which On the basis of the information received, it generates and gives a signal to the indicator 8, which, in turn, informs the user about the degree of charge of the battery by glowing red.

At the same time, the heating control unit 11, using the switching means 10, generates heating pulses of the thermoelectric installation 5. In the intervals between the heating pulses, a calibrated current is supplied at the command of the control unit 6. The voltage occurring on the working part of the thermoelectric installation is recorded by means of temperature measurement. Depending on the result of the measurement received by the control unit 6, and in accordance with a predetermined algorithm, the control unit generates the duration of the next heating pulse. Upon reaching the specified temperature range, the control unit 6 gives a signal of readiness for operation to the indicator 8 in the form of a green indicator light. In this state, when the internal power source 13 is fully charged and the internal chamber is warmed up to a predetermined temperature, the container can be unlimited time.

After the tools for artificial insemination of cattle with sperm material are placed in a container, the user disconnects the device from the external power supply unit, while the charge control unit automatically detects the absence of external power and from this moment the device is powered by an internal power source 13 - battery unit , allowing you to maintain the thermal stability of the internal working chamber, as well as the operation of the indicator.

After the completion of the work cycle, the user disconnects the container with the button to prevent the batteries from completely discharging. In the event that the battery charge ends during the working cycle, the control unit 3-5 minutes before shutting down signals the user about this with the help of an indicator in the form of a continuous glow of red. When a critical charge of the batteries is reached, the device automatically shuts off to prevent a complete discharge, which will destroy the batteries.

If the temperature goes beyond the specified range, the means for indicating also signals to the user about it.

It should be noted that loading of tools with biomaterial for artificial insemination of cattle occurs from one end exit of the housing, and the disinfection of internal chambers from the other.

The inventive utility model has advantages over known devices, in particular, allows you to reliably and accurately maintain and determine a given temperature.

In addition, the design is simple and easy to use.

Claims (20)

1. Automatic thermally stabilized container, comprising a thermally insulated housing with an internal chamber, a lid with a seal, a thermoelectric installation, a power supply unit, a thermostatic control unit with a temperature sensor, characterized in that the housing contains an on-off means, an indication means, an electric power supply unit, an internal camera a control unit including a heating control unit connected by means of a switching means, a temperature measuring means directly connected, and also connected to each other an internal power source and a charge control unit connected to the power supply unit, while the thermoelectric installation, made in the form of a winding of conductive material, is at the same time a temperature sensor. 2. Automatic thermostabilized container according to claim 1, characterized in that the lid is removable or reclining. 3. The automatic thermostabilized container according to claim 1, characterized in that the housing and inner chambers are cylindrical. 4. The automatic thermostabilized container according to claim 1, characterized in that the housing and the lid are made of a polymeric material, for example polypropylene. 5. The automatic thermostabilized container according to claim 1, characterized in that the housing is additionally equipped with a carrying device, for example a belt. 6. The automatic thermostabilized container according to claim 1, characterized in that the inner chambers are made of heat-conducting material, for example, a thin-walled stainless pipe, in particular, grade 12X18H10T or glass. 7. The automatic thermostabilized container according to claim 1, characterized in that the thermoelectric installation is made of a heating wire, for example, single-core copper. 8. Automatic thermostabilized container according to claim 1, characterized in that the container is equipped with a device for disinfection. 9. The automatic thermostabilized container according to claim 1, characterized in that the indicating means is made in the form of a two-color LED. 10. The automatic thermostabilized container according to claim 1, characterized in that the central part of the winding is used to measure the temperature. 11. An automatic thermostabilized container, including a thermally insulated body with an internal chamber, a cover with a seal, a thermoelectric installation, a power supply unit, a temperature control unit with a temperature sensor, characterized in that in the case with at least two internal chambers placed connected with the means of inclusion switching off, by means of indication, power supply unit, internal cameras, a control unit including heating control units connected to it by means of switching PTO and directly connected temperature measuring instruments, as well as interconnected internal power supply and a charge control unit connected to the power supply unit, with each internal chamber equipped with its own heating control unit and temperature measuring device, and a thermoelectric installation made in the form of a conductive winding material at the same time is a temperature sensor. 12. Automatic thermostabilized container according to claim 11, characterized in that the lid is removable or reclining. 13. The automatic thermostabilized container according to claim 11, characterized in that the housing and inner chambers are cylindrical. 14. Automatic thermostabilized container according to claim 11, characterized in that the housing and the lid are made of a polymeric material, such as polypropylene. 15. The automatic thermostabilized container according to claim 11, characterized in that the housing is additionally equipped with a carrying device, such as a belt. 16. The automatic thermostabilized container according to claim 11, characterized in that the inner chambers are made of heat-conducting material, for example, a thin-walled stainless pipe, in particular, grade 12X18H10T or glass. 17. The automatic thermostabilized container according to claim 11, characterized in that the thermoelectric installation is made of a heating wire, for example, single-core copper. 18. Automatic thermostabilized container according to claim 11, characterized in that the container is equipped with a device for disinfection. 19. The automatic thermostabilized container according to claim 11, characterized in that the indicating means is made in the form of a two-color LED. 20. The automatic thermostabilized container according to claim 11, characterized in that the central part of the winding is used to measure the temperature.