RU2786754C1 - Thermostat method for aquavending apparatus including a body and aquare reservoir located in the body, and thermostat for implementing this method - Google Patents

Abstract

FIELD: aqua vending machines.

SUBSTANCE: inventions relate to aqua vending machines, i. e. to water vending machines by means of automatically controlled dispensing of water into the container of the water buyer. Thermostating is carried out using two simultaneously carried out processes of heating the air inside the body: controlled heating of the air by means of on-off control of the operation of the electric heater and the process of unregulated heating of this air by transferring thermal energy to this air from the water in this tank through the wall of this tank, made of non-thermo-insulated metal, by continuous circular blowing of this aquareservoir with the help of a continuously operating fan. The thermostat contains a body thermal insulation, an electric heater for heating the air inside the body and a fan. The water tank is made of metal without thermal insulation of this metal and is installed in the lower part of the body at a distance from the bottom with the formation of lower horizontal and side vertical air ducts, providing the possibility of circular airflow of the water tank by the specified fan. The electric heater is made with the possibility of its on-off regulation based on feedback signals from a temperature sensor installed in the housing above the water reservoir.

EFFECT: use of three sources of thermal energy, one of which is automatically controlled by a feedback signal from a temperature sensor, and two are unregulated sources, which include drinking water, which is always in the tank.

3 cl, 1 dwg

Description

The field of technology to which the inventions belong

The inventions relate to aqua-vending devices (drinking water vending machines) designed to operate at negative ambient temperatures in a wide range of these temperatures, and to such devices that are connected to the water supply network, and drinking water is obtained by appropriate treatment of tap water (filtration, separation into permeate and concentrate, modification and disinfection of permeate) and temporary accumulation of the resulting drinking water (modified permeate) in a storage-flowing aquatic tank located in the lower part of the body of the aqua vending machine to make this machine stable due to the low location of its center of gravity. State of the art

Aqua vending machines (water vending machines) are known, containing a body with thermal insulation and an aquarium tank located in the body, so that the thermostat of such devices contains a means for heating the air inside the body of the aqua vending machine and a means for controlling the temperature of this air (see, for example, the description utility model according to patent RU 113043 U1, IPC G07F 13/00, published on January 27, 2012 Bull. Bull. No. 25, patent holder: Reshetnikov M.V.).

As prototypes in relation to the claimed method of temperature control and the corresponding device (thermostat), a technical solution according to the above patent RU 173506 U1 was chosen. The method of temperature control of an aqua vending apparatus presented in this well-known technical solution consists in continuously heating the air inside the heat-insulated housing of the aqua vending apparatus using an electric heater; and the corresponding thermostat shown therein comprises a thermal insulation of the body, a means for heating the air inside the body of the aqua vending machine (electric heater), and a means for controlling the temperature of this air inside the body of the aqua vending machine.

The reason preventing the prototypes (method and device) from obtaining the claimed technical result is the continuous use of electrical energy to maintain a positive air temperature inside the body of the aqua vending apparatus during its operation.

The technical problem to be solved by the patented inventions (method and device) is the need to minimize power consumption during the operation of the aqua vending machine at negative temperatures of the surrounding air in a wide range of changes in this temperature while maintaining the minimum required positive air temperature inside the housing. aqua vending machine. Disclosure of the essence of inventions

The technical result, which mediates the solution of the specified technical problem, and its causal connection with the features of the formulas of the claimed method and device, are as follows.

In the technical solutions (method and device) claimed for patenting, the minimum necessary positive temperature of the internal air of the aqua-vending apparatus case is guaranteed to be provided when the negative temperature of the external (ambient) air changes in a wide range of changes in this temperature. This is achieved through the use of three sources of thermal energy, one of which is automatically controlled by a feedback signal from a temperature sensor (regulated source, namely, an adjustable electric heater) and two are unregulated sources, which include, first of all, drinking water, always located in the water tank and at the same time systematically updated during the operation of the apparatus, as well as a constantly operating source of ultraviolet radiation located in this water. At the same time, these unregulated sources are, figuratively speaking, “free”, since the owner of the device does not pay anything for their use for the purpose of heating the internal air of the aqua vending apparatus body; after all, he has already paid for their use in connection with their direct purpose, and more than that, he owes no more. And he owes only for electricity for the electric heater, which, thanks to the use of these unregulated sources and the use of feedback signals from the temperature sensor, turns on only sporadically and only for some time, necessary and sufficient for additional heating of the internal air of the aqua vending machine body to the minimum required positive temperature. Thus, on the one hand, the very fact of using an electric heater guarantees a positive temperature of the internal air in a wide range of negative temperatures of the outside air, when the thermal energy of water and a source of ultraviolet radiation will not be enough, and on the other hand, it is the controllability (two-position) of the electric heater according to signals feedback from the temperature sensor allows the electric heater to be used sporadically and only as a source of some addition of thermal energy to that which the internal air receives from water and a source of ultraviolet radiation through this water. Under such circumstances, a significant minimization of the consumption of electricity, designed specifically for heating the internal air of the housing, is achieved, while guaranteeing a positive temperature of the internal air of the aqua vending apparatus housing. As for the location of the electric heater above the water tank, namely in the middle part of the body, this arrangement is due to the fact that, firstly, the lower part of the body is occupied by the water tank, which is located there to ensure the gravitational stability of the device by lowering its center of gravity, and also by the fact that, secondly, such an arrangement of the electric heater in the best way helps to reduce the temperature difference between the internal air in different parts of the case, which simplifies the provision of the required thermal stabilization.

A technical result is achieved in the method of thermostating an aqua vending apparatus, which includes a housing and an aqua reservoir located in the housing, by heating the air inside the thermally insulated housing using an electric heater, and said thermostating is carried out using two simultaneous processes of heating the air inside the housing, namely , the process of controlled heating of this air by means of on-off control of the operation of the electric heater located above the water reservoir, according to feedback signals from the temperature sensor located above the water reservoir, and the process of unregulated heating of this air by transferring thermal energy to this air from the water located in this water reservoir through the wall of this aqua-reservoir, made of non-thermo-insulated metal, by continuous circular blowing of this aqua-reservoir, placed at the same time in the lower part of the body, with the help of continuous an externally operating fan with additional heating of this water from a continuously operating source of ultraviolet radiation located in the tank.

A technical result is achieved in the thermostat of an aqua vending apparatus, which includes a housing and an aqua reservoir located in the housing, in that the specified thermostat contains a thermal insulation of the housing, an electric heater for heating the air inside the housing, installed above the aqua reservoir, and a fan installed in the housing above the aqua reservoir, while the aqua reservoir is equipped with a source of ultraviolet radiation, made of metal without thermal insulation of this metal and installed in the lower part of the housing at a distance from the bottom with the formation of the lower horizontal and side vertical ducts, providing the possibility of circular blowing of the aqua reservoir by the specified fan, and the electric heater is made with the possibility of its on-off control according to feedback signals. communication from a temperature sensor installed in the housing above the tank. The technical result in the claimed thermostat is also achieved by the fact that the specified electric heater and temperature sensor are located in the middle part of the housing of the aqua vending apparatus. Brief description of the drawings

The attached figure (without number) shows a schematic representation of a section of the aqua vending machine with a plane perpendicular to the front panel 2 and the bottom 3 of the body 1 of the aqua vending machine.

Implementation of inventions

The aqua vending machine contains a thermally insulated body 1, which is a hollow rectangular parallelepiped with side panels, so that one of them is the front panel 2 of the aqua vending machine. The body 1 also includes a bottom 3. At the same time, the front panel 2 is made in the form of a door, on which a chamber 4 for pouring water into the container 5 of the water buyer is installed, located in the middle part of the body 1, as well as user interface elements (not shown).

In the lower part of the housing 1 is installed aquareservoir 6 for drinking water, made of metal without thermal insulation. In this case, the aqua reservoir 6 is a hollow rectangular parallelepiped with side panels 7 and a bottom 8. In it (aqua reservoir 6) in the area of its bottom 8 there is a source 9 of ultraviolet radiation for water disinfection (this is the main purpose of the source 9), and in the bottom 8 there is an outlet branch pipe 10 for supplying water from the water reservoir 6 to the filling chamber 4 by means of a pump 11 included in the break of the pipeline 12. A window 13 with an ultraviolet filter is installed in the cover of the water reservoir 6 for visual safe control of the internal space of the water reservoir 6, as well as a filter 14 for aerodynamic non-polluting interaction of the internal air space of the aqua reservoir 6 with the air surrounding this aqua reservoir. In addition, the aquatic tank 6 is installed in the body 1 in its lower part supported on the bottom 3 of the body by means of supports 15 with the formation of a lower horizontal air vent 16 (the space between the bottom 3 of the body 1 and the bottom 8 of the water tank 6) and two vertical side air vents 17 and 18 ( corresponding spaces between the respective side panels of the housing 1 and the aquatic tank 6).

In the middle part of the housing 1 (above the aqua reservoir 6), a horizontally oriented fan 19, an electric heater 20 (they can be a single fan heater with separate power supply) and a temperature sensor 21 (i.e., the primary temperature converter into an electrical signal) are installed. At the same time, the electric heater 20 is made with the possibility of its on-off control according to feedback signals from the temperature sensor 21 due to the fact that the electric heater 20 and the temperature sensor 21 are included in the automatic on-off temperature control circuit using a regulator (controller).

In addition, in the housing 1 in its middle part or higher (i.e. above the specified fan, electric heater and temperature sensor) there are means for preparing drinking water from tap water (filters, membrane, etc.), hydraulically connected, on the one hand, with an external source of tap water, and on the other hand - with an aqua reservoir 6, as well as controls for the entire operation of the aqua vending apparatus (not shown).

The operation of the aqua vending apparatus thermostat and an exemplary implementation of the aqua vending apparatus thermostating method is as follows.

Water from the water supply, which has a certain positive temperature provided by the supplier of tap water, passes through the aqua vending apparatus through the means of cleaning, disinfection and water conditioning (filters, membrane, etc.) and, thereby becoming potable, enters the aqua reservoir 6, in which a source 9 of ultraviolet radiation is located. In this case, the main function of source 9 is the disinfection of drinking water, but within the framework of temperature control, source 9 performs the function of an additional source of thermal energy for the water in the tank 6. As the sale of drinking water, which is taken from the tank 6 for this, compensating these water new intake of drinking water in the tank 6, obtained from tap water, which always has a positive temperature. Thanks to this more or less regular renewal of drinking water in the aquatic reservoir 6, there is always water in it and, at the same time, it always has a positive temperature, set by the positive temperature of tap water. Moreover, a constantly operating source of ultraviolet radiation additionally heats the water in the tank 6. At the same time, the fan 19 is constantly turned on and thus the circular blowing of the tank 6 is carried out through the aerodynamically "switched on" air vents 16, 17 and 18 (in Fig. the movement of the blowing air is shown by dashed lines). wavy arrows). As a result, through the wall of the water tank 6, the thermal energy of the water is transferred to this air blowing over the water tank. Under such circumstances, the air inside the body 1 receives from the aqua reservoir 6 the "free" thermal energy of the water of the aqua reservoir 6. However, it (this "free" thermal energy), with significant variations in the negative temperatures of the air surrounding the apparatus, may not be enough to sustainably maintain a positive air temperature inside the body 1 Then the electric heater 20 comes to the rescue, which, at the signal of the sensor 21, automatically turns on for the minimum required time in order to “pull up” the air temperature inside the housing 1 to the minimum required positive level. Thus, the electric heater 20 performs only an additional function, which makes it possible to significantly reduce power consumption to ensure the necessary temperature control of the aqua vending apparatus.

Claims (3)

1. A method of temperature control of an aqua vending apparatus, including a housing and an aqua reservoir located in the housing, by heating the air inside the thermally insulated housing using an electric heater, characterized in that the specified temperature control is carried out using two simultaneously carried out processes of heating the air inside the housing, namely the process of controlled heating this air by means of on-off regulation of the operation of an electric heater located above the aqua reservoir, according to feedback signals from a temperature sensor located above the aqua reservoir, and the process of unregulated heating of this air by transferring thermal energy to this air from the water located in this aqua reservoir through the wall of this aqua reservoir, made of non-thermo-insulated metal, by continuous circular blowing of this aqua reservoir, located in the lower part of the case, with the help of a continuously operating fan with additional heating of this water from a continuously operating source of ultraviolet radiation located in the tank. 2. The thermostat of an aqua vending machine, which includes a housing and an aqua reservoir located in the housing, so that this thermostat contains a thermal insulation of the housing and an electric heater for heating the air inside the housing, characterized in that the thermostat also contains a fan installed in the housing above the aqua reservoir, while the aqua reservoir is equipped with an internal source of ultraviolet radiation, is made of metal without thermal insulation of this metal and is installed in the lower part of the housing at a distance from the bottom of the housing with the formation of lower horizontal and side vertical air vents, providing the possibility of circular airflow of the aquareservoir by the specified fan, and the electric heater is made with the possibility of its on-off control by signals feedback from a temperature sensor installed in the housing above the tank. 3. Thermostat according to claim 2, characterized in that said electric heater and temperature sensor are located in the middle part of the body of the aqua vending machine.

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