RU2738208C1 - Climatic control of dispenser assembly of aqua-vending apparatus - Google Patents

Abstract

FIELD: physics.

SUBSTANCE: invention relates to aqua-vending devices (water selling machines) intended for operation at negative temperatures of ambient air, and directly relates to dispenser assembly of aqua vending apparatus comprising a filling chamber and pipelines connected to said chamber, specifically, corresponding climate control of dispensing assembly to enable its operation in conditions of negative ambient air temperature. Technical problem consists in necessity to increase energy efficiency of climate control of distributing unit of aqua-vending device (assurance of reliable operability of unit at negative temperatures of ambient air at minimum costs of electric energy for heating). Climate-control of distributing unit represents a system of automatic two-position temperature control of three temperature-critical zones of distributing unit. These zones include chamber 1 bottom 4 and pipelines 6 and 7 together with corresponding branch pipes 3 and 5. Climate control comprises control unit, heating element and temperature sensor. Heating element provides heating of temperature-critical zones of distributing unit and functionally is made in the form of three sections 8, 9, 10 of heating cable electrically connected to control unit. Section 8 is intended for heating of bottom 4 of filling chamber 1. Section 9 is intended for heating of inlet pipeline 6. Section 10 is intended for heating of outlet pipeline 7. Bottom 4 and section 8 are placed in heat-insulating trough-shaped cover 12. Pipeline 6 with section 9 is placed in heat-insulating hose 13. Pipeline 7 with section 10 is placed in heat-insulating hose 14. Temperature sensor is installed on branch pipe 3 above cover 2 of chamber 1.

EFFECT: technical result consists in allocation in dispensing assembly of temperature-critical zones (bottom of filling chamber and connected to it inlet and outlet pipelines), in thermal insulation of said zones from ambient air and providing relatively uniform and automatically controlled heating of these zones during operation of dispensing assembly in conditions of negative ambient air temperature.

1 cl, 8 dwg

Description

The technical field to which the invention relates

The invention relates to aqua vending machines (water vending machines) designed to operate at negative ambient temperatures, and directly relates to the dispensing unit of the aqua vending apparatus, including a loading chamber and pipelines associated with this chamber, and specifically, to the corresponding climate control of the dispensing unit for ensuring the possibility of its (node) work in conditions of negative ambient temperature.

State of the art

Known kiosk machine for selling water, designed to operate at negative ambient temperatures and containing the appropriate climate control system (climate control of the kiosk machine), including thermal insulation of the case, as well as a unit for thermal control and heating (see, for example, a description of the useful models under the patent RU No. 113043 U1, IPC G07F 13/00, published on January 27, 2012 Bulletin No. 3, patentee Bakaleiko V.V .; description of the utility model under the patent RU No. 173506 U1, IPC G07F 13/00, published on August 29, 2017 Bulletin No. 25, patentee Reshetnikov MV).

The features of the well-known automatic kiosk, which are common with the features of the claimed technical solution, consist in the presence of a thermal control and heating unit.

The reason that prevents the technical result in the known kiosk-machine from being obtained, which is provided by the technical solution claimed for patenting, is that the said thermal control and heating unit carries out controlled heating of the entire internal cavity of the kiosk-machine body, including the dispensing unit (camera loading and associated pipelines), as a result of which there is a large consumption of electricity to maintain the dispensing unit in operation at negative ambient temperatures.

Known climate control of the dispensing unit of the aqua vending apparatus (prototype), containing a control unit and a temperature sensor and a heating element electrically connected to it, made with the possibility of maintaining a given positive temperature value inside the water filling chamber (see the description of the utility model to patent RU No. 121382 U1 , IPC G07F 7/00, published on 20.10.2012 Bulletin No. 29, patent holder LLC "Aquapost").

Signs of the known climate control (prototype), common with the features of the claimed technical solution, are that it contains a control unit and a temperature sensor and a heating element electrically connected to it.

The reason that prevents the technical result obtained in the known aqua vending apparatus, which is provided by the technical solutions declared for patenting, is that structurally and functionally, this climate control carries out controlled heating of the entire inner cavity of the filling chamber of the dispensing unit of the aqua vending apparatus and does not carry out controlled heating pipelines of the specified dispensing unit, as a result of which there is a low efficiency of maintaining the operable (positive) temperature of the dispensing unit under conditions of its operation at negative ambient temperatures. Thus, in the known technical solution (prototype), on the one hand, there is an excessive and ineffective power consumption for heating the loading chamber, and on the other hand, the lack of heating the pipelines (inlet and outlet), which is critical to ensure the operability of the dispensing unit when negative ambient temperatures.

The technical problem to be solved by the technical solution declared for patenting is the need to increase the energy efficiency of the climate control of the dispensing unit of the aqua vending machine (ensuring the reliable operation of the unit at negative ambient temperatures with minimal electricity consumption for heating).

Disclosure of the essence of the invention

The technical result, mediating the solution of this technical problem, consists in the allocation of temperature-critical zones in the dispensing unit (the bottom of the loading chamber and the associated inlet and outlet pipelines), in the thermal insulation of these zones from the ambient air and in providing a relatively uniform and automatically controlled heating these zones during the operation of the dispensing unit in conditions of negative ambient temperature.

The technical result is achieved in that the climate control of the dispensing unit of the aqua vending apparatus contains a control unit and a temperature sensor and a heating element electrically connected to it, while the dispensing unit includes a water filling chamber and associated inlet and outlet pipelines, the first of which is designed to supply water into the water filling chamber, and the second one - to drain the spilled water from the water filling chamber, the heating element is made in the form of heating cable segments installed with fixing directly outside both on the indicated pipelines and on the bottom of the water filling chamber, so that the said pipelines their length and the indicated bottom along its area are in direct thermal contact with the corresponding sections of the heating cable, and at the same time these pipelines, together with the heating cable sections heating them, are placed in heat-insulating hoses, the indicated bottom, together with the heating cable section heating its area, is placed in a thermal insulation a trough-shaped cover, and the temperature sensor is installed with the possibility of converting into an electrical signal of the temperature of the inlet pipeline in the region of that end of this pipeline, with which this pipeline is connected to the water filling chamber.

Brief Description of Drawings

FIG. 1 shows a functional diagram of the dispensing unit of the aqua vending machine; in fig. 2 shows a functional diagram of an arbitrary section of the inlet pipeline of the dispensing unit together with a section of the corresponding heating cable and heat-insulating hose; in fig. 3 shows a functional diagram of an arbitrary section of the outlet pipeline of the dispensing unit, together with a section of the corresponding heating cable and heat-insulating hose; in fig. 4 shows a photograph of a fragment of an aqua vending apparatus (prototype) with climate control of a dispensing unit, which shows from the rear side and from above the upper part of the loading chamber with an inlet pipeline to which a heating cable is attached (without a heat-insulating hose); in fig. 5 shows a photograph of a fragment of an aqua vending machine with climate control of a dispensing unit, which shows from the rear and from above the lower part of the loading chamber with an outlet pipeline to which a heating cable is attached (without a heat-insulating hose and without a heat-insulating trough-shaped cover); in fig. 6 shows a photograph of a fragment of the filling chamber, which shows from the back of the chamber and from below the lower part of this chamber with a heat-insulating substrate with a heating cable attached to the bottom of the chamber (the cable is not visible) and a fragment of the output pipeline with a heating cable closed with a heat-insulating hose (a heat-insulating red hose is visible colors, piping and heating cables are not visible; at the same time, the reference designations taken in dashed ovals indicate structural elements that are not visible in the photo, but they are present); in fig. 7 shows a photograph of a heat-insulating substrate with a piece of the corresponding heating cable laid on top of it and glued to it; in fig. 8 shows a photograph of a fragment of an aqua vending apparatus with the declared climate control of the dispensing unit, which shows from the back and from below the lower part of the loading chamber, closed from below with a heat-insulating trough-shaped cover, also shows a fragment of the outlet pipeline to which the corresponding section of the heating cable is attached, while the pipeline and a piece of cable are covered with a heat-insulating hose (a red hose is visible, the pipeline and heating cables are not visible; the reference designations taken in dashed ovals indicate structural elements that are not visible in the photo, but they are present).

Implementation of the invention

The dispensing unit of the aqua vending apparatus (Fig. 1) contains a water filling chamber 1 with a cover 2, in which an inlet pipe 3 is installed, and a bottom 4, in which an outlet pipe 5 is installed, as well as an inlet pipe 6, designed to supply water to chamber 1 through branch pipe 3, and outlet pipeline 7, designed to drain spilled water from chamber 1 through branch pipe 5 into the sewer. The inlet pipeline 6 is smooth-walled, which excludes the formation of even minimal stagnant water zones inside this pipeline, in which pathogenic microorganisms can linger and develop. The outlet pipeline 7 is corrugated, which is due to the requirement for its increased flexibility due to the fact that the loading chamber is installed on the door of the body of the aqua vending apparatus and is periodically opened for maintenance of the aqua vending apparatus. At the same time, the outlet pipeline through which spilled water is discharged into the sewer is not critical to the formation of stagnant zones. As for the flexibility of the inlet pipeline 6, because of its smooth-walled design, its flexibility is limited and this limitation in the design of the aquavending apparatus is compensated by the special location of this pipeline, namely, its vertically oriented arrangement with some deviation from the vertical, not exceeding 30 °.

Climate control of this dispensing unit is a system of automatic two-position temperature control of three temperature-critical zones of the dispensing unit. These zones include the bottom 4 of the chamber 1 and pipelines 6 and 7 together with the corresponding branch pipes 3 and 5 (Fig. 1).

Climate control considered in more detail includes the following structural elements.

The control unit (not shown) can be made in the form of a separate unit (analog or digital) or can be functionally included in the controller of the aqua vending machine, which fully controls the aqua vending machine, including the specified temperature control of the specified critical zones.

The heating element provides heating of temperature-critical zones of the dispensing unit and is functionally made in the form of three sections 8, 9, 10 of the heating cable, electrically connected to the control unit (Figs. 1-3). In this section 8 (Fig. 1, 7) is intended for heating the bottom 4 of the loading chamber 1. Section 9 (Fig. 2, 4) is intended for heating the inlet pipeline 6. Section 10 (Fig. 3, 5) is intended for heating the outlet pipeline 7. All three sections can be physically (structurally) autonomous, so that each of them is independently connected to the control unit. But it may also be the case that segments 8 and 10 physically represent one piece of heating cable. However, even in this case, they are considered (within the framework of the declared patent claims) as functionally different.

A temperature sensor (not shown) continuously converts the temperature of the inlet 3 or the inlet pipeline 6 in the region of its end connected to the inlet 3 into an analog electrical signal. For example, a resistance thermometer can be used as a temperature sensor, which is electrically connected to the control unit either directly or through an analog-to-digital converter (depending on the design of the control unit). In this case, the temperature sensor is installed on the branch pipe 3 above the cover 2 of the chamber 1, ensuring direct thermal contact with this branch pipe.

Section 8 of the heating cable, intended for heating the bottom 4 of the loading chamber 1, is located on a heat-insulating substrate 11, which is a piece of self-adhesive rolled energy flex (foamed polyethylene) cut to the shape and size of the bottom 4 with a hole in the center for the branch pipe 5. In this case, the section 8 laid on the substrate 11 in the form of a snake, and it is glued to the substrate 11 from above using an adhesive layer of the substrate itself (Fig. 1, 7). The shape of the snake makes it possible to heat the entire bottom area 4. For this, the substrate 11 is glued to the bottom 4 from below using the same adhesive layer, so that the section 8 of the heating cable is directly pressed against this bottom. In addition, a heat-insulating trough-shaped cover 12, made, for example, of a piece of self-adhesive roll energy flex, is put on the lower part of the filling chamber 1 (together with a substrate 11 fixed on the bottom 4 with a heating cable segment 8). The cover has the shape of a trough with its own bottom and side walls, made with the possibility of covering the chamber 1 along its perimeter from the outside and from the bottom, so that with its side walls the cover is glued to the side wall of the chamber 1 with the corresponding pressing of the substrate 11 with cable 8 to the bottom 4 of the chamber 1 ( Fig. 1, 8).

The segment 9 of the heating cable is located directly on the outer surface of the inlet pipeline 6 along the entire length of this pipeline, including the branch pipe 3 (wrapping it around), and is fixed on the pipeline 6 using fixing elements 15 (tape, clamps, etc.) contact of this cable with this pipeline (Fig. 2, 4). In this case, the pipeline 6, together with the corresponding section 9 of the heating cable, is placed in a thermal insulating hose (sleeve, tube) 13, made, for example, in the form of a ready-made tube made of energoflex, produced by the industry in a wide range, or made of pieces of self-adhesive rolled energoflex (Fig. 2 ).

The section 10 of the heating cable is located directly on the outer surface of the outlet pipeline 7 along the entire length of this pipeline, including the branch pipe 5 (wrapping it around), and is fixed on the pipeline 7 using fixing elements 15 (tape, clamps, etc.) to ensure a tight contact of this cable with this pipeline (Fig. 3, 5). In this case, the pipeline 7, together with the corresponding section 10 of the heating cable, is placed in a heat-insulating hose (sleeve, tube) 14, made, for example, in the form of a ready-made tube made of energoflex, produced by the industry in a wide range, or made of pieces of self-adhesive rolled energoflex (Fig. 3 , 6, 8).

The work of the climate control of the dispensing unit is as follows.

In the control unit, in advance (i.e. before the onset of cold weather), the required positive temperature value of the critical zones of the dispensing unit is set (the bottom 4 of the loading chamber 1, inlet 6 and outlet 7 pipelines with corresponding nozzles 3 and 5). In this case, the temperature sensor continuously converts the temperature of the nozzle 3 (or the pipeline 6 in the area of the nozzle 3) into an electrical signal, which, being relevant (due to the location of the sensor) with respect to the current temperature regime of these critical zones, enters the control unit. In the control unit, an almost continuous comparison of the signals coming from the temperature sensor with a given positive temperature value is carried out, and on the basis of this comparison, two-position regulation of the temperature of the bottom 4 and pipes 6 and 7 (including nozzles 3 and 5) is carried out, so that as a result the temperature of this the bottom and these pipelines fluctuates around a given positive value, without passing into the area of its negative values.

Claims (1)

Climate control of a dispensing unit of an aqua vending machine, containing a control unit and a temperature sensor and a heating element electrically connected to it, while the dispensing unit includes a water filling chamber and associated inlet and outlet pipelines, the first of which is designed to supply water to the water filling chamber , and the second - to drain spilled water from the water filling chamber, characterized in that the heating element is made in the form of heating cable sections installed with fixing directly outside both on the specified pipelines and on the bottom of the water filling chamber, so that these pipelines the length and the indicated bottom along its area are in direct thermal contact with the corresponding sections of the heating cable, and at the same time, these pipelines, together with the heating cable sections heating them, are placed in heat-insulating hoses, the indicated bottom, together with the heating cable section heating it, is placed in a heat-insulating trough a case, and the temperature sensor is installed with the possibility of converting into an electrical signal of the temperature of the inlet pipeline in the region of that end of this pipeline, with which this pipeline is connected to the water filling chamber.

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