UA78363C2 - Complex for authorized issue of houshold energy carrier, counting device for that complex and device for energy carrier closing - Google Patents

Abstract

The complex for authorized issue of household energy carrier, counting device for that complex and the device for energy carrier closing relates to measurement technique. The complex includes a measuring unit placed in the case containing a computing machine connected to energy carrier counting device, reader-devices for reception of chip cards, temperature sensors and energy carrier pressure, self-contained power supply, rf modem and a device for covering energy carrier flow electrically connected to reverser drive mechanism. The inlet and outlet fittings include a hermetic housing with the cover with inlet and outlet fittings placed in it where in the channel between them a counter working element is mounted connected to roller calculating unit as well as a pulse former, no contacting converter being mounted over a low-order position roller of the calculating unit and exiting pulse signal elements are placed on the outer face of this roller. The device for energy flow covering contains the reverse drive mechanism, output shaft being connected to the locking unit equipped with cross-shaped stop nut. The sides of one of cylinders are made as fittings and in the cavity of other cylinder a locking unit as locking muff with the walls is tightly conjugated with cross-shaped stop nut. The complex provides independence and improvement of control over using energy carrier.

Description

Description of the invention

The group of inventions refers to measuring equipment and is intended for use in the 2 residential and communal sector of the economy for separate continuous measurement of the consumption and quantity of hydrocarbon gas, hot or cold water supplied to the consumer (further - household | energy carrier) with simultaneous determination of the cost of the consumed energy carrier and its comparison with the amount of the fee previously paid by the consumer or the amount of the loan granted to him, as well as the automatic shutdown of the supply of the energy carrier when the limit of its authorized consumption is exhausted. 70 Measuring complexes and their elements of a similar functional purpose are known and will be successfully applied at the objects of the production and technical sphere. In order for such complexes to be used in the housing and communal economy, unlike the first ones, they must satisfy several difficult conditions. One of these conditions is universality. That is, the same complex, without any transformations, should be suitable for working with any of the above-mentioned types of household energy carrier. 712 Only in that case will its value correspond to the purchasing power of the majority of the population. Another condition is the extremely small dimensions of such measuring complexes. Only when this condition is fulfilled, real opportunities are created to be built in the supply network of energy carriers, located, as a rule, in multi-apartment and private residential buildings. Finally, the power sources of such measuring complexes cannot be used as power sources for safety reasons. The most preferred option is powering the complexes from autonomous power sources of low (up to 12 volts) voltage. With all this, they must ensure the necessary measurement accuracy, enable the consumer to receive information about the amount of authorized use of the household energy carrier at a glance, and the supplier - the opportunity to receive operational information about the volume of the supplied energy carrier. Taking this into account, below are descriptions of those known similar decisions that directly satisfy the conditions set forth in Article 22 or, in the event of their development, provide an opportunity to approach their implementation. Go)

A well-known system of volume accounting of the consumption of one of the domestic energy carriers, hot water, of the "ZAI MEH-O" type, see "Review catalog of products", JV "Invest - premex", Sumy).

This system is formed by serial connection of several functionally separated blocks. It includes a single-stream vane counter with an output pulse signal, a pulse O signal transmitter and a heat calculator. Gee)

At the same time, thermal sensors of the heat calculator are installed on the supply and return pipelines of the energy carrier. The system is powered by an autonomous power source with a nominal voltage of 3.6 volts. Remote transmission of measurement information is carried out by connecting the outputs of the heat calculator through the passive interface of direct switching to the higher-level personal computer or by connecting it to the 3o specialized information network. in

The described SAI MEH-O system is currently used in the housing and communal economy to measure the consumed thermal energy, thermal power and volume of the energy carrier, the duration of the consumption period and the current time of day. In addition, the digital indicator of the heat calculator receives information "about the measured values of volume consumption, temperature of the energy carrier in the supply and return pipelines Z | date of measurement. Measurement results are stored in non-volatile memory for a long time. c Thus, the system is not intended for tariff (cost) accounting of the consumed energy carrier and

From" only after it is connected through a passive interface to another information network, it can be used as a source of information in a higher-level system or tariff accounting, or remote management of energy consumption.

The design of the gas meter is known, which includes the following elements. In the hermetic cavity of the housing and the counter, its working body is placed in the form of two rotors, the axes of which are connected to each other by synchronizing

Ge | gears. Here, one of the rotors is connected kinematically (with the help of a worm pair) to the leading cylindrical half-coupling of the magnetic clutch. The driven semi-coupling, placed concentrically with the driver, with its axis, which extends beyond the hermetic cavity of the housing, is connected kinematically (by a block of lowering gears)

Gee! 20 with a counter axis, roller-type mechanism | see description of the declaratory patent of Ukraine for the invention "Gas meter Мо53189А, class СОТРЗ/00, publication 15.01.2003 |. c" Due to the placement of a magnetic coupling in the area between the rotors of the working body and the use of a worm pair to connect the working body with with a magnetic coupling, the meter of this design is compact and due to its overall dimensions can be used in the housing and communal economy.

HF) of the output pulse signal does not allow its use in tariff (cost) accounting systems for household energy consumption. o A well-known device for blocking the flow of gas, which is used in gas tariff meters. In this device, the closing body is coupled with the saddle surface, the function of which is performed by the internal end surfaces 60 of the functional module of the pressure regulator. A spring is fixed in the cavity of this module isolated by an elastic membrane. The latter interacts through the membrane with a rocker connected to the closing body of the device. The gas path of the meter successively forms the flow chambers of the flow meter, shut-off valve and pressure regulator | see description of the invention to EP Mo0431222, class СО1Е15/14, 1991.

The device for blocking the flow of gas of the described design is not intended for blocking the flow of other types of household energy carriers - hot or cold water. According to their physical (density) and technical (thousands)

parameters of the latter differ significantly from hydrocarbon gas. As a result, devices of this design do not have universal properties and cannot be used to cover all types of household energy carriers. The latter do not satisfy the specific conditions of the housing and communal sphere.

In terms of its technical essence and the achievable result, the system for implementing a method of differentiated tariff accounting and remote control of the use of electricity, gas, steam and water (with the possibility of disconnection) is the closest to the declared complex for the authorized release of household energy carrier on credit or with advance payment using electronic start - cards or remote control devices, see description of the declaratory patent of Ukraine for the invention Mo44467А, class 7/0 ЗО01кК11/56, 2002). This system includes a microprocessor, an energy meter, a non-volatile memory device, a prepayment device, which includes a means of receiving electronic money in the form of electronic start cards. The structure of the system also includes a display, a switching device, a timer, a serial interface, two decoders, keys, a register and galvanic isolation elements. The specified elements are interconnected in accordance with the system algorithm of the implemented method. In this system, with the help of a /5 device for accepting electronic money in the form of electronic cards and other means of tariff accounting, the consumption of energy is carried out by continuous measurement of the consumption of prepaid or loaned energy. At the same time, the measurement process (simplified) begins from the moment of issuing a control signal to the switching device, according to which the latter opens the flow channel for supplying the energy carrier to the consumer. This ensures the authorization of the initial moment of consumption. After that, the 2o system mainly implements the function of active (with the possibility of disconnection) management of the energy consumption process by means of (simplified) constant comparison of the volumes of authorized release and actually released.

When these values are equal, a control signal is again sent to the switching device, and it blocks the supply of the energy carrier to the consumer. This ends the process of authorized release of the energy carrier. When replacing the electronic card, the process is repeated. with

According to the use of the system disclosed above in the housing and communal economy (in houses of individual construction and in apartments of high-rise buildings), it has two attractive qualities. These are i) the possibility of using electronic money and active management of the consumption process, which ends with the interruption of the supply of household energy to one specific consumer. However, active management of the consumption process is carried out remotely and assumes the presence of communication lines between the elements of the village

We are sure that the end is undesirable. In addition, in this case, the large functional capabilities of the system in terms of tariff accounting to win a household energy carrier are largely excessive and will not be required, since the tariffs for the population do not depend on the time of day and there is no need to differentiate them. Under these conditions, the complexity of the system and its rather high cost are unjustified. In addition, the universality of the described system also raises doubts. The system can meet this criterion if its switching device with the necessary degree of reliability is able to equally disconnect the supply of electricity, steam, gas, hot and cold water (these types of resources are directly indicated in the original sources). Taking into account the fact that only electricity for industrial consumers has a tariff differentiated by time of day and that the example of the implementation of the system is given again for the case of electricity consumption, this is its main purpose. In any case, the technical significance of such a universal switching device is not disclosed in the original source. With "0 taking into account the above, such a system is not intended for use in a residential and communal rector for the authorized release of gas, hot or cold water.

In the housing and communal economy, cold or hot water consumption is used to account;" counters of the following design, which is accepted as a prototype. In the hermetic case with a transparent cover (or a transparent window in the cover) there are inlet and outlet pipes for the household energy carrier. In the flow channel of the housing, between the nozzles, which are placed along the common axis, the working body -I of the counter in the form of an impeller is installed. On the axis of the impeller, which is located outside the limits of the flow channel, the driving half-clutch of the magnetic clutch is installed. At the same time, the axis of the driven semi-coupling is kinematically connected to the counting mechanism of the roller tine, with the help of reducing gears. The counter is equipped with a 2) pulse output signal generator. In the case of the formation of an electromagnetic signal, at least one permanent magnet is installed on the disk of the gear, which is mounted on the axis of the driven semi-coupling. And in the middle of the case

Me, of the counter, in the zone of placement of the magnet, fixed reed switch. Thus, when the magnet enters the 4) sensitivity zone of the reed switch, it is closed and the output pulse signal is formed | see "Review catalog of products", JV "Invest-premex", Sumy, Ukraine, 2002.

Counters of this design are intended for use in tariff accounting systems for household energy. They can also be part of the technical means of the system of passive (without the possibility of disconnection) management of household energy consumption. Meanwhile, from a metrological point of view, this is the design of the meter

Ф) does not provide the required measurement accuracy at its lower limit. This is due to the fact that in these counters, between the axis of the driven half-coupling of the magnetic clutch and the axis of the roller counter mechanism, intermediate gears are installed on the respective axes. Costs in these transmissions form a certain inertial threshold. Therefore, when the consumption of a household energy carrier is close to the lower limit of measurement (leaks, etc.), the accuracy of the measurement is significantly reduced.

Among the known ones that are closest both in terms of technical significance and the achievable result to the claimed device for blocking the supply of household energy carrier is the design of the device for blocking the flow of gas that is supplied to the gas meter. The known device contains a stepper micromotor, 65 the output shaft of which is kinematic, with the help of a gear pair, connected to the axis of the locking body. This axis is equipped with a threaded section and is coupled with a thrust nut, which is installed in the hermetic cavity of the device body. Along the axis of the locking body, a nozzle is fixed in the body of the device, which serves as the input nozzle of the meter. The shape of the inner end surface of the nozzle corresponds to the shape of the outer surface of the closing body and is a saddle top. The locking body itself is made in the form of a support ring, installed on an axis with the possibility of rotation relative to it and connected to a membrane, which rests on the fifth axis. The support ring with the membrane is placed in a rigid metal shell of spherical shape, which also rests through the membrane on the fifth axis. Thus, the locking body hinged on the axis has the ability to move linearly in the longitudinal direction relative to the gas flow when the micromotor shaft rotates. At the moment of tight contact with the saddle surface of the nozzle, the shut-off device blocks the 7/0 groove of the nozzle channel and the gas supply stops | see description of the patent of Ukraine for the invention "Device for blocking the flow of gas for a gas meter and a gas meter with such a device", Mo48975, class

СО1Е15/00, published on September 16, 2002.

The known device for blocking the flow is suitable only for blocking the flow of gas, the density of which is 2.2 kg/m and the excessive pressure of which in the distribution network is insignificant, of the order of 0.05-0.1 MPa (0.5-1.0 atm). While other types of household energy carriers, hot and cold water, have a density within 2.5 kg/dm, which is several orders of magnitude higher than the density of gas. In addition, the pressure of liquid energy carriers in the distribution pipelines ranges from 0.16 to 0.5 MPa (1.6-5 atm.) - Therefore, when the shut-off body is moved longitudinally relative to the direction of the flow, it is necessary to apply a significant axial force for its tight contact with the seat. The latter entails an increase in the power of the electric motor, and therefore, its dimensions. Thus, the field of application of the known 2o device for blocking the flow is narrowly specific, and its design in relation to other types of household energy carriers is not universal.

The cumulative analysis of the above-described known technical means allows us to draw the following conclusions. The measurement of the volume consumption of household energy carriers is based on the same principle: the proportional relationship between the speed of the flow and the speed of rotation of the working body of the meter placed in the flow. So, for the separate measurement of volume consumption of different types of household energy carriers, it is possible to use counters of similar designs. There is a fundamental possibility of combining the system of i) tariff accounting of energy consumption with the use of electronic cards and the system of active management of energy consumption. But with regard to the specifics of the residential and communal sphere, this possibility can be realized only when creating a universal design of the device for blocking the flow of the energy carrier. In the final analysis, the described arsenal of technical means of a similar purpose does not satisfy the specific conditions of the housing and communal sector of the economy, and a targeted expansion of the arsenal of such means is necessary. X,

The basis of the development of the group of inventions is the single task of creating, in accordance with the specific conditions of the housing and communal sphere, an autonomous complex for the authorized release of household energy carriers, a pulse meter for this complex with a device for blocking the flow, universal for any type of household energy carriers. uh-

The set goal is achieved by the fact that the complex for the authorized release of the household energy carrier, which contains, as is known before, a measuring unit located in the housing, which contains a computer, the inputs of which are connected to the outputs of the pulse counter of the energy carrier, a reader - a device for receiving chip cards, parametric energy carrier sensors and an autonomous power source, where one of the outputs of the computer "is electrically connected to the reversible drive mechanism of the device for blocking the flow of the energy carrier, and the body of the complex is made detachable with the possibility of sealing and is equipped with an inspection window. according to the invention, the other output of the computer is connected to the radio modem, receiving input and output pipes and? of the pulse counter and the device for blocking the flow of the energy carrier are placed along the common axis, and their adjacent nozzles are connected separately. The solution of the general problem is subordinated to the implementation of the complex, when one of the parametric sensors of the energy carrier is a pressure sensor installed on the input nozzle of the device for -I blocking the flow of the energy carrier, and the other is a temperature sensor of the energy carrier installed on the output nozzle of the pulse counter. The set goal is also achieved by the fact that the pulse meter of the energy carrier for the complex, including, as it is still known, a hermetic case with a cover equipped with a transparent viewing window, inlet and outlet nozzles are placed along the 5or Common axis, in the flow channel between which the established working body

Me, the counter, is kinematically connected to the roller counter mechanism, as well as the pulse signal generator, which contains a non-contact converter and elements that excite the pulse signal, according to another invention, the contactless converter is installed above the roller of the lower stage of the counting mechanism, and the elements that excite the pulse signal are placed on the outer cylindrical surface of the specified roller in mutually perpendicular planes. In addition, if an electromagnetic converter is installed above the roller of the junior category, then permanent micromagnets are fixed on its cylindrical surface. And in the (Ф, case) when an optical converter is installed above the roller of the junior category, then the cylindrical surface of this roller contains microreflectors.

The goal is fully achieved by the fact that the device for blocking the flow of the energy carrier, which contains, as is known, a housing and a reversible micromotor, the output shaft of which is kinematically connected to the hinged axis of the locking body, equipped with a cross-shaped thrust nut, according to the third invention , the body of the device is made in the form of two hollow cylinders, the axes of which are mutually perpendicular, the sides of one of the cylinders, forming the proton channel of the energy carrier, are made in the form of nozzles, and in the cavity of the other cylinder there is a closing body, which is made in the form of a closing sleeve 65, concentrically installed between the adjacent stationary surfaces, the inner one of which is formed by the surface of the glass, in the longitudinal grooves of the left one there is a cross-shaped stop nut, and the walls between the grooves of which are immovably fixed by the housing cover by facing outwards, and in the body of the locking sleeve, longitudinal grooves are also made, offset relative to the grooves of the glass in the plane , perpendicular to the axis of the flow channel, and the walls of the shut-off sleeve between its grooves are tightly coupled with a stop cross-shaped nut by means of a flange in the middle.

Further development of the design of the device for blocking the flow of the energy carrier in the direction of the solution of the given problem is ensured in this way. Guides are installed on the surface adjacent to the outer surface of the stop sleeve, in planes perpendicular to the axis of the flow channel, and longitudinal grooves are made in the stop sleeve for mating with curved guide surfaces, and one of the sides of the guides is coupled to the outer surface of the bottom of the cup. In addition, in the device on the opposite side of the 7/0 relative to the stop nut, the end surface of the locking sleeve is coupled with a spring-loaded stop placed concentrically with respect to the fixed axis installed in the body socket.

The measuring scheme of the complex for the authorized release of household energy carrier, which consists of a counter - flow meter, sensors of temperature and pressure of household energy carrier, allows to provide accounting of volume consumption of one type of household energy carrier in a traditional way. At the same time, in the case of installation of the 7/5 Complex in the gas distribution network, the consumption of the latter is reduced to normal conditions. When installing the same complex in the hot water network, the indicated elements of the measuring circuit form pulse signals about the amount of volume flow of hot water, its temperature and pressure, which are fed to the input of the computer. The tariff accounting of the measured consumption of the household energy carrier is performed by the calculator of the complex, the operating program of which in terms of tariff accounting is strictly individual for each of the 3 types of household 20 energy carrier. A computer, a reader - a device for receiving chip cards and a radio modem together with a device for blocking the flow of the energy carrier perform the function of active control of the consumption of the energy carrier in the complex.

Moreover, this function is implemented in a complex by opening a supply for an individual consumer in case he has a chip card, received by him when pre-paying for the consumption of a certain amount of household energy or processing energy consumption on credit in the established order. In any of these cases, when the consumption limit according to the existing chip card is exhausted, the computer will individually cut off the supply of household energy to the consumer. Thus, the complex implements i) the task of authorized use of a household energy carrier. It is essential that the authorized use of the energy carrier is carried out within the existing distribution networks of the energy carrier and do not require their modification or conversion. Installation of pressure and temperature sensors of the household energy carrier on the meter nozzles and a device for blocking the flow of the energy carrier in combination with an independent power source of the complex ensure complete autonomy of the complex after its insertion into the distribution network. X,

Coextensive placement of the input and output nozzles of the meter and the device for blocking the flow of the energy carrier from a metrological point of view is mainly for the stabilization of the laminar regime of the flow of the energy carrier in the flow channels created by these elements of the complex, which increases the accuracy of the measurement. At the same time, this placement of the nozzles ensures the minimum radial dimensions of the body of the complex, inside which all its structural elements are placed and which, according to metrological requirements, are subject to sealing. In addition, the possibility of visual and impulse recording of energy consumption information on a chip card certified for a certain amount of consumption allows the energy supplier or the consumer to carry out planned metrological checks of the complex both directly at the place of its installation (without dismantling) and at stationary installations re-installation at the former place of installation. Taking into account everything stated in 7) c, metrologically, functionally and structurally, the complex of the declared structure is an autonomous one. a system implementing the functions of volumetric and tariff accounting of energy consumption and active management of its consumption by each individual consumer.

The meter of the energy carrier for the declared complex is practically traditional in terms of its measurement scheme. But its kinematic circuit is significantly simplified due to the unconventional placement of the pulse signal generator. When using the roller of the junior category of the counting mechanism as a carrier of elements, exciting impulse signals, and the placement of the non-contact converter connected with it provides the possibility of reducing the intermediate gears between the working body and the counting mechanism. Due to this, 2) the inertial threshold of the counter decreases, which increases its measurement accuracy at the lower limit of measurement. Exactly the last one

It is quite relevant in the housing and communal sector. In addition, this is the implementation of the pulse signal generator

Me. is optimal when using both an electromagnetic and an optical converter. Thanks to this, 4) the meter of this design is sufficiently versatile and suitable for working with any of the three types of household energy carriers. At the same time, it is important that such a transformation of the design of the pulse counter reduces its overall dimensions again due to the exclusion of intermediate gears and axles. 5B As the main element of active control of energy consumption, the device for blocking the flow of the claimed design is devoid of the main drawback of known devices of a similar purpose. In it (Ф, the closing body moves in a plane perpendicular to the axis of the flow channel. The resulting forces and their dynamics in the process of blocking the flow in this case are significantly redistributed, they reach their maximum smoothly and more gently (over a longer period of time) At the same time, the rigidity of the declared structure in the directional movement of the blocked flow is high, taking into account what the maximum values of the resulting forces are far from critical. All recognizable structural elements of the device are directed to the implementation of this principle. The cruciform shape of the device body, concentric arrangement in one of its cylinders intermediate and locking sleeves, as well as cups, are dictated both by the selected direction of movement of the locking body, and by the formation of stationary saddle surfaces for the latter, between which the movable locking sleeve 65 is placed. At the same time, the mobility of the locking sleeve is ensured by its interconnection with the cross-shaped nut of the axis, the kinematic of combined with the original alum of a reversible micromotor. This relationship is provided by the execution of longitudinal grooves in the locking sleeve and the removal of the walls between the grooves in the middle to the conjugation with the end surfaces of the cross-shaped thrust nut. In turn, the immobility of the glass is ensured in a similar way, but by the separation of the walls between its grooves on the outside and their rigid pinching between the body and its cover.

The subsequent development of the design of the device is already subordinated to the requirements for its universality. The flow of liquid energy carriers is blocked more effectively in the presence of guides, as well as the introduction of a support spring-loaded ring and a fixed axis into the design of the device. In this design, due to the contact with the guide surfaces, the rigidity of the locking sleeve significantly increases, which prevents its deformation and minimizes the possibility of eliminating gaps between its surfaces and the surfaces of fixed seats. And at the expense of the contact with the spring-loaded support ring, along with others, a reduction in the force required at the initial moment to overcome the frictional forces between the surfaces adjacent to the locking sleeve is provided.

The essentiality of the group of inventions is explained by the drawings, which depict: - Fig. 1: structural diagram of the complex for authorized release of household energy carrier; - Fig. 2: a general sectional view of a pulse meter of a household energy carrier with a device for blocking the flow of the energy carrier; - Fig. 3: a general sectional view of the device for blocking the flow of the energy carrier (version with a reversible micro engine); - Fig. 4: section along A-A in Fig. 3; - Fig. 5: section along B-B in Fig. 3; - Fig. 6: a fragment of the general view of the device for blocking the flow of the energy carrier (version with a spring motor); - Fig. 7: section along B-B in Fig.b

The complex for the authorized release of a household energy carrier, for example, hot water, is a case with two 1 (Fig), which is made detachable with the possibility of sealing after the installation of the complex or its verification.

Housing 1 is equipped with an inspection window for visual reading of information and a slot for i) installation of chip cards (the inspection window and slot in Fig. 1 are conditionally not shown). Housing 1 houses a measuring unit that contains an autonomous power source 2, a computer of type ZA MEH-)U, BEMS-1 or

SR-50, reader-device 4 model PKFT 3.069.000 for receiving chip cards, radio modem 5, pulse counter 6 s from the energy carrier and a device for blocking the flow of the energy carrier 7 (Fig. 1). A pressure sensor 9 of the energy carrier is installed on the inlet pipe 8 of the device for blocking the flow 7, and a temperature sensor 11 of the energy carrier is installed on the outlet pipe 10 of the pulse meter 6. At the same time, the inputs of the computer Z are connected to the outputs of the pulse counter 6, the reader device 4, the pressure sensors 9 and the temperature 11 of the energy carrier, as well as to the power source 2, and with its outputs, the computer C is connected to the radio modem 5 and to the reversing device of the drive mechanism 12 of the device for blocking the flow 7. The device for blocking the flow 7 and the pulse counter b are arranged so that their input and output nozzles are located along the common axis, and the output nozzle 13 of the device 7 is removably connected to the input nozzle 14 pulse counter 6.

In turn, the pulse counter 6 of the complex for the authorized release of the household energy carrier contains a sealed housing 15 (Fig. 2) with a transparent cover 16. The housing 15 is equipped with coaxial inlet 14 and outlet 40.10 nozzles, between the cavities of which a proton channel 17 of the energy carrier is formed. In this channel, a working body in the form of a hinged impeller 18 is placed in this channel, which is kinematically connected to the lower-order roller 20 of the counting mechanism 21 by means of a worm or other transmission 19. On the outer surface; permanent micromagnets 22 are installed in mutually perpendicular planes of the roller 20. In addition, on the transparent cover 16 of the housing, directly above the roller 20 of the counting mechanism 21, an electromagnetic converter 23 is installed, the output of which is connected to the input of the computer Z of the complex. The output pipe 10 of the meter -I 6, on which the energy carrier temperature sensor 11 is fixed, is installed in the housing 1 of the complex. The pulse counter is coaxially connected with its input nozzle 14 to the output nozzle 13 of the device for blocking the flow of the energy carrier 7. In this design, the electromagnetic principle of 2) pulse signal formation is used. The optical principle of forming a pulse signal is practically equivalent. In this case, instead of the electromagnetic converter 23, an optical one is installed in the counter b

Me, the converter, and the outer surface of the roller 20 contains microreflectors, for example, in the form of a polished end surface 4) of pins installed in the roller 20 instead of magnets 22.

The device for blocking the supply of the energy carrier of the pulse counter b contains the body 24 (Fig. 3), which is made in the shape of a cross - two hollow cylinders, the axes of which are mutually perpendicular. It is preferable to use a cast billet of such an element of pipeline fittings as a cross as a body of 24 ov. The inner cavity of one of the cylinders of the housing 24 forms a flow channel 25 for supplying the energy carrier, as a result of which

F) the sides of this cylinder are made in the form of nozzles 8 and 13, respectively, inlet 8 and outlet 13. In the cavity of the other cylinder of the housing 24, which is made of a hollow one, the device's closing body is placed. The latter is kinematically connected by its axis 26 to the output shaft of the reversible drive mechanism 12. As such a drive mechanism, both a mechanical drive in the form of a spring motor and an electric drive in the form of a micromotor can be used. In the design presented here, a micromotor (12) with a gearbox is used, and the design features associated with the use of a spring motor are given separately below. The closing body itself is a structure that includes, for example, a sleeve 27 tightly seated in the cavity of the body 24 with an opening along the diameter of the flow channel 25, a closing sleeve 28, which is concentrically installed in the sleeve 27 with a gap necessary for its longitudinal movement, a cup 29, concentrically placed in the cavity of the locking sleeve 28 with a minimum gap that allows longitudinal movement of the latter. In the socket of the bottom of the glass 29, the axis 26 of the locking body is hingedly installed. In addition, in the cup 29, longitudinal grooves ZO (Fig. 3 and 4) are made for the length of the stroke of the closing body, placed crosswise in mutually perpendicular planes relative to the axis of the dropper 25. In the longitudinal grooves ZO, the ends of the cross-shaped nut 31, coupled with a thread to the axis 26, are placed. Moreover, the tongues of the glass (the body between the grooves) are mounted on the end surface of the sleeve 27 (that is, outside) and immovably fixed by the cover 32 of the body 24, in which the other end of the axis 26 of the locking body is hinged. In turn, longitudinal grooves 33 are made in the locking sleeve 28 (Fig. 3 and 4).

The latter are placed in a plane perpendicular to the axis of the locking sleeve 28. Thus, the ends of the cross-shaped 70 nut 31 are coupled to the inner surfaces of the tongues of the locking sleeve 28, and after the latter are removed in the middle until they are fully coupled with the end surfaces of these ends, conditions are created for transmitting the necessary force from the nut 31 on the locking sleeve 28 (Fig. 3). On the opposite side from the grooves 33, a shaped spacer ring 34 is rigidly fixed in the locking sleeve 28, as a result of which a cavity is formed between the bottom of the cup 29 and this ring in the locking sleeve. Within the length of this cavity on the inner surface of the sleeve 27 rigidly fixed /5 guides 35 with cylindrical working surfaces (Fig. 3 and 5). At the same time, the rectilinear surfaces of these guides lie in planes parallel to the axis of the flow channel 25. In addition, the locking sleeve 28 has longitudinal grooves Zb (Fig. 5), oriented relative to the flow channel 25 in the same way as the guides 35. Thus along the length of the circle of the flow channel, the locking sleeve 28 is coupled in the initial position with the inner surface of the sleeve 27 and with the working surfaces of the guides 35, which collectively perform the functions of the saddle surfaces. It is best if, in the initial position, the bottom of the cup 29 (Fig. 3) is structurally connected to the upper side surfaces of the guides 35. In addition, the spacer ring 34 is connected with its outer surface to the sleeve 27 moving in the cavity, thanks to the compression spring 37, the support ring 38.

Concentric to the axis of the sleeve 27, a fixed axis 39 is installed in it, which passes through the hole in the support Z8 and spacer 34 rings. With its output pipe 13, the device for blocking the flow of the energy carrier 7 is coaxially connected to the input pipe 14 of the pulse counter 6 (Fig. 2). And the inlet pipe 8 of the device is installed in the housing 1 (Fig. 1) of the complex and is connected to the energy supply pipeline. In the process of assembling i) device 7, the cavities under the support ring 38, above and below the cross-shaped nut 31 are filled with lubricant of the required consistency. Sealing of the working surfaces of the subhole sleeve 28 in this case is provided by the pressure drop of the lubricant over the cross-shaped nut 31, which is created in the cavities when the locking sleeve 28 is moved from side to side.

As a functionally integral object, a complex for the authorized release of household energy carrier, its i.e.) pulse energy carrier counter with a device for blocking the flow of the energy carrier work as follows. co

The pre-paid or loaned chip card is inserted by the consumer through the slot in the housing 1 of the complex into the reader device 4 (Fig. 1). At the same time, in the reader device, the ciphers of the chip card are checked, and after its complete identification, the corresponding signal is sent to the input of the computer Z of the complex. According to this signal, the computer Z simultaneously starts the programs for the tariff accounting of the energy carrier and the control of the operation of the reversible micromotor 12 of the device for blocking the flow 7. According to the last program, the electronic reversible switch of the micromotor 12 will be sent by the computer Z, according to which the micromotor is started to work with the direction rotation of the shaft counterclockwise. In this case, due to the rotation in the same direction of the axis 26 (Fig. 3), the cross-shaped nut 31 together with the locking sleeve 28 with c are moved up translationally (according to Fig. 3). In the same direction, the elastic force of the compression spring 37 acts, which is transmitted to the locking sleeve 28 through the rings 34 and 38. This achieves a relative reduction of the torque by ;" shaft of the micromotor 12, necessary for the initial movement of the locking sleeve at the time of start-up. At the same time, the full opening of the spring 37 does not occur, since further movement of the support ring 38 is prevented by the lower lateral sides of the guides 35. After the micromotor 12 has worked out the estimated -I number of revolutions of the output shaft, which corresponds to the required amount of travel of the locking sleeve 28, the micromotor 12 is turned off by the computer Z from the source power supply 2 (Fig. 1), and the flow channel 25 of the device 7 (Fig. 3) as a result is completely open for the flow of the energy carrier. Later, when the consumer consumes household 2) energy under the influence of the flow of the energy in the flow channel 17 (Fig. 2) of the pulse counter 6, its impeller 18 begins to rotate with an angular velocity proportional to the volume consumption of the energy. With

Me, the pulse signals of the electromagnetic converter 23 of the counter, proportional to the angular velocity 4) of the rotation of the lower stage roller 20 of the counting mechanism 21 of the counter, enter the input of the calculator of the complex. Correcting signals from energy carrier temperature 11 and energy carrier pressure sensors 9 (Fig. 1) also arrive here at the same time. On the basis of the signals received about the mode and parameters of energy carrier consumption, the Z calculator calculates the volume consumption of a specific energy carrier reduced to normal (standard) conditions, as well as a constant tariff

F) calculation of the amount of current consumption of the energy carrier. In addition, the calculator Z of the complex continuously sums up the number of discrete values of the current consumption of the energy carrier in the tariff calculation and compares it with the limit value of the release of the energy carrier, embedded in the form of analog discrete values in the chip card placed in the reader device 4 of the complex. If the indicated values are equal, the calculator Z of the complex sends an executive signal to the micromotor 12, according to which the micromotor starts working with the direction of rotation of its output shaft clockwise. In this case, due to the rotation of the axis 26 (Fig. 3) in the same direction, the cross-shaped nut 31, together with the locking sleeve, is progressively moved down (Fig. 3) until the latter completely covers the flow channel 25 of the device for blocking the flow of the energy carrier 7. Thus 65 Ends the process of authorized (paid in advance or provided on credit) release of household energy carrier. It is possible to renew the supply of household energy to the consumer only if the supplier issues him a new chip card on mutually agreed terms. At the same time, it is extremely important, first of all from a social point of view, that such a principle of authorized release of household energy carrier allows to actively manage the consumption process of one or several types of energy carrier for individual consumption. At the same time, it does not matter how and to which networks it is connected, what is the state with payment for the use of energy carriers of other consumers adjacent to it on the distribution networks.

An equally significant variant of the design of the device 7 for blocking the flow of the energy carrier is its use as a reversible drive mechanism 12 (Fig. 1) of the spring motor 40 (Fig. 6b). In this case, axis 41 of the clock spring 42 is connected to the axis 26 of the locking device and 7/0 is equipped with a handle 43 for winding the spring. Two ratchets are installed on the axis 41: 44 - rotation of the axis on the wound spring 42, and also 45 - rotation of the axis on the opening (closing) of the flow channel 25 (Fig. 3). Each of these ratchets is engaged with the teeth of the lever latches, respectively 46 and 47 (Fig. 7). One of the arms of each of these latches is installed between the permanent magnet 48 and the electromagnet 49, which is electrically connected to the output of the calculator Z (Fig. 1) of the complex. In addition, the axis 41 is additionally equipped with a permanent 7/5 micromagnet 50 of the counter of the number of revolutions interacting with the sensor 51 of the number of revolutions of the axis 41 (Fig. 6). At the same time, due to the latch 52, the handle 43 works to wind the spring 42 with free rotation of the spring when the latch 47 is activated.

With this implementation of the device for blocking the flow of the energy carrier, in contrast to the previously described in the work of the complex, the process of executing the command signals of the calculator C (Fig. 1) is carried out in a slightly different way

Opening (overlap) of the flow channel 25 (Fig. 3). After installing the chip card, in this case, the control signal of the calculator C is applied to both electromagnets 49 of the lever latches 46 and 47 (Fig. b6). Due to the interaction of the magnetic fields of the magnets 48 and 49, both lever latches 46 and 47 are removed from engagement with the teeth of the ratchets 44 and 45, thus removing the blocking of their rotation. Then the consumer manually turns the knob 43, as a result of which both the spring 42 is wound and the axis 26 of the locking body of the device rotates in the direction corresponding to the opening of the flow channel 25. After turning the axis 41 by a given number of revolutions according to the signal of the sensor 51, the lever latches again are introduced into engagement with ratchet teeth. With i) the opening of the flow channel 25, the accounting of the amount and cost of the consumed energy carrier is carried out by the complex in the previously described manner. When the limit of the use of the energy carrier embedded in the chip card is fully used, the control signal of the computer Z again enters the electromagnets 49 and the lever latches 46 and c 41 are disengaged. In this case, the spring 42, untwisting, rotates in the opposite direction of the axis 41 and the axis 26 of the locking device kinematically connected to it, which leads to the blocking of the flow channel 25. The rotation of the axes 41 and 26 ends according to the signal of the sensor 51 of the number of revolutions by blocking c lever locking devices for rotation of ratchets 44 and 45. p

Zo

Claims (7)

Formula of the invention - 1. A complex for the authorized release of a household energy carrier, which includes a measuring unit placed in the housing, which contains a computer, the inputs of which are connected to the outputs of the energy carrier pulse counter, a reader device for receiving chip cards, energy carrier temperature and pressure sensors, and an autonomous with a power source, and one of the outputs of the computer is electrically connected to the reversible drive mechanism of the device for blocking the flow of the energy carrier, and the body of the complex is made detachable with the possibility of "z" sealing and is equipped with an inspection window, which differs in that the other output of the computer is connected to the radio modem, and the input and output nozzles of the pulse counter and the device for blocking the flow of the energy carrier are placed along the common axis, and their adjacent nozzles are connected separately, while the pressure sensor - the energy carrier is installed on the input nozzle of the device for blocking the flow of the energy carrier, and the sensor the temperature of the energy carrier is installed on the outlet pipe named after pulse counter. for 2. The pulse meter of the energy carrier, which includes a hermetic housing with a cover equipped with a transparent viewing window, the inlet and outlet nozzles of the housing are placed along the common axis, in the flow channel between 5r, which is a movably installed working body of the meter, kinematically connected to the roller meter ( 22) mechanism, as well as a pulse signal generator, which contains a non-contact transducer and elements that excite the "Fo" pulse signal, which is characterized by the fact that the non-contact transducer is installed above the roller of the junior digit of the counting mechanism, and the elements that excite the pulse signal are placed on the outer surface of the specified roller in mutually perpendicular planes. 3. The pulse counter according to claim 2, which is characterized by the fact that an electromagnetic converter is installed above the roller of the junior category, and the outer surface of this roller is equipped with permanent micromagnets. (F) 4. The pulse counter according to claim 2, which differs in that a GI optical converter is installed above the roller of the junior category, and the outer surface of this roller contains microreflectors. 5. A device for blocking the flow of an energy carrier, which contains a housing and a reversible drive mechanism, the output shaft of which is kinematically connected to the hinged axis of the locking body, equipped with a cross-shaped thrust nut, which is distinguished by the fact that the housing of the device is made in the form of two hollow cylinders , the axes of which are mutually perpendicular, the sides of one of the cylinders, which forms the flow channel of the energy carrier, are made in the form of nozzles, and in the cavity of the other cylinder there is a closing body, which is made in the form of a closing sleeve concentrically installed between adjacent fixed surfaces, the inner of which formed by the surface of the glass, in the longitudinal grooves of which a cross-shaped stop nut is placed, and the walls between the grooves of which are immovably fixed by the body cover by being folded outwards, moreover, longitudinal grooves are also made in the body of the closing sleeve, offset relative to the grooves of the cup in a plane perpendicular to the axis of the flow channel, and the walls of the closing sleeve between the grooves are tightly coupled with a cross-shaped stop nut by means of a flange. 6. Device for blocking the flow of the energy carrier according to claim 5, which is characterized by the fact that guides are installed on the surface adjacent to the outer surface of the closing sleeve in a plane perpendicular to the axis of the flow channel, and longitudinal grooves are made in the closing sleeve for mating with curved guide surfaces , and one of the lateral sides of the guides is connected to the outer surface of the bottom of the glass. 7. The device for blocking the flow of the energy carrier according to claim 5 or b, which differs in that from the opposite side of the 7/o relative to the stop nut, the end surface of the locking sleeve is coupled with a spring-loaded stop, concentrically placed relative to the stationary axis installed in the housing socket. 6) (ze) (Se) (ze) (ee) and - - and? -i (ee) (95) (o) syu» ime) 60 b5