SE1050561A1 - Device, plant and method of measuring a quantity - Google Patents

Abstract

A plant for individual measurement of quantity related to energy consumption of a certain type of tenants in a house (1) with several tenants is designed to have for each tenant at least one device for measuring said quantity, which comprises a thermoelectric generator with two electrodes , the first of which is designed to be arranged on the outside of a hollow body inside which a medium is intended to flow, so that the generator generates electrical energy as a result of a temperature difference caused by the flow of medium in the hollow body between the two electrodes and this energy. is fed to and thereby drives a unit (14) included in the device (9) designed to indicate a measure of said energy consumption (Fig. 1).

Description

15 20 25 30 35 teenage children. A water fee that is included in the rental amount and does not take this into account then becomes unfair and incorrect for those tenants who are environmentally conscious and wish to reduce their rental costs or for some other reason consume a small amount of domestic hot water.

SUMMARY OF THE INVENTION The object of the present invention is to provide a device which makes it possible to solve the above-mentioned problems in a smooth manner.

This object is achieved according to the invention by providing a device for measuring a quantity related to energy consumption, which is provided with a thermoelectric generator with two electrodes, a first of which is designed to be arranged on an outer surface of a hollow body inside which a medium is intended to flow and thereby change the temperature of the body wall and thus said surface depending on said energy consumption, and of which a second electrode is designed to be applied to a surface or medium separate from said hollow body, and said generator is designed to generate electrical energy as a result of a temperature difference between said electrodes caused by flow of medium in the hollow body and supply this energy to and thereby drive a unit included in the device designed to indicate a measure of said energy consumption. .

Such a device can be used for measuring a quantity related to energy consumption, such as consumption of hot water, cooling medium or the like, in applications where a battery supply of a said unit is not acceptable for various reasons, such as to it is difficult to perform battery replacement, and consequently where a continuous power supply is therefore normally required, but can be delicate to realize. From an environmental point of view, battery operation is also not desirable. The device according to the invention can "slumber" for a long time, but still when medium flows in said hollow body, usually a conduit, and a said temperature difference is induced to reliably supply energy to the unit which then indicates a measure of energy consumption in question. In addition, by the device using a thermoelectric generator for measuring said energy consumption and generating and supplying energy to the unit, the arrangement thereof becomes simple, since no parts have to be built into any hollow body, such as a conduit, in order to measure the flow of the medium in question in this body. However, it is conceivable that the electrodes of the thermoelectric generator are formed by the walls themselves in the hot and cold pipes, the chamber and the like.

According to an embodiment of the invention, the device comprises means designed to make the magnitude of the supply of said electrical energy to the unit dependent on the magnitude of said temperature difference, and the unit is designed to record the time it is supplied with energy from said generator due to said temperature difference exceeding a threshold value and indicate this time as a mentioned measure of the said energy consumption.

In this way, an adequate value of the energy consumption associated with the flow of said medium in the hollow body can be obtained in a very simple manner. In this case, for example, when applying the first electrode to the outside of a line for domestic hot water, the said threshold value can be set so that time is recorded as long as the pipe has a temperature exceeding + 30 ° C.

According to another embodiment of the invention, which constitutes a further development of the previous embodiment, the device comprises a means designed to supply to said unit a measure of said temperature difference, and the unit is designed to fold periods when indicating said energy consumption when producing said measure. of said time depending on how much the temperature difference during these periods exceeded said threshold. This means increased accuracy in producing said measures of energy consumption, and such a means can be constituted by a temperature sensor, but also by a means 10 which measures the voltage generated between the electrodes of the thermoelectric generator.

According to another embodiment of the invention, the unit comprises a display designed to display said measures of consumed energy and / or cost of consumed energy. This makes it possible, for example, in a shower room for a showering person to display consumed energy and / or costs for consumed energy since the shower started, which can increase the environmental and cost awareness of the person in question. In doing so, the unit could present both a transmitter and a receiver, which can receive current energy price, such as Kwh price, from a remote transmitter.

According to another embodiment of the invention, the unit comprises a transmitter designed to transmit information about said dimensions to a device designed to process the information. This enables an appropriate processing of the information to, for example, produce data to be compared with corresponding information obtained from units of other such devices. In this case, the said institution advantageously comprises means designed to provide a web hotel with information regarding the said energy consumption and thereby enable reading of this via connection to the Internet. In this way, for example, each of the tenants in a house with several tenants can, when it suits them, easily read energy consumption of a certain type, such as, for example, consumption of domestic hot water, and possibly also the cost of this. This information can also be sent to the respective tenant via a router and displayed on a display on e.g. a fridge. The information may include, in addition to consumption and cost, also statistics and other information that provides incentives to waste less.

According to another embodiment of the invention, the device comprises means designed to be arranged on said body for measuring the flow of said medium through the body, and the generator is designed to provide the energy supply also to these means. According to another embodiment of the invention, the thermoelectric generator is designed to be arranged with said first electrode on a hollow body inside which a medium is intended to flow while heating the hollow body, while according to another embodiment of the invention the thermoelectric generator is designed to be arranged with said first electrode on a hollow body inside which a medium is intended to flow during cooling of the hollow body.

According to another embodiment of the invention, the thermoelectric generator is designed to be arranged with said first electrode on a hollow body inside which a medium in the form of tap hot water is intended to flow. The advantages of such an embodiment are apparent from the discussion above.

According to another embodiment of the invention, the second electrode of the thermoelectric generator is designed to be applied to air. In the case of application of the first electrode to a hot water line when a cold water line runs next to it, it would probably be most suitable to arrange the second electrode on the cold water line, but in cases where such a possibility is lacking, the device according to the invention can still be used reliably by applying it. second electrode against air, then preferably via flanges, such as cooling fins.

According to another embodiment of the invention, said thermoelectric generator is designed to be built into a mixer of cold water and hot water with one electrode designed to abut externally against the cold water pipe and the other externally against the hot water pipe. Because the device according to the invention does not require a connection to any energy supply unit, nor does it have a battery that must be replaceable, it is possible to build it into a conventional mixer, such as for a sanitary room, for example in a shower room. As a result, a reliable measure of the energy consumption associated with the flow of water through the mixer can be obtained.

According to another embodiment of the invention, said first electrode of the thermoelectric generator is designed to be applied to an outer surface of a hollow body in the form of a radiator for heating. In this way, devices according to the invention could be used to produce a measure of the energy consumption that takes place for heating a certain room.

The invention also relates to a plant for individual measurement of quantity related to energy consumption of a certain type in tenants in a house with several tenants, which is designed to have at least one device for each tenant according to one of the preceding requirements. In this way, with simple means, the consumption of energy of a certain type, such as related to domestic hot water, in an individual tenant can be measured with the required accuracy.

For example, in the case of devices with a thermoelectric generator built into a mentioned mixer, so many devices can be arranged per tenant that the accuracy sought is achieved.

According to an embodiment of the invention, the plant comprises means designed to measure a quantity attributable to the total consumption of energy of a certain type for the whole house and to send information thereon to a facility included in the plant, the units of the devices are designed to send information about measures of the energy consumption of the installation, and the installation is designed to process the said information from the units in order to obtain for each individual tenant the proportion of the energy consumption communicated by its units and the total energy consumption communicated by the house units and calculate the tenant's energy consumption of the said certain type, assuming that this proportion applies to the said combined consumption of energy of the said type. In this way, the cost that the whole house has for the consumption of energy of a certain type, such as energy attributable to the consumption of domestic hot water, can be fairly distributed to the various tenants. According to an embodiment of the invention, the plant is designed for measuring energy consumption attributable to the tenants' consumption of domestic hot water and has for each tenant one or more devices with a thermoelectric generator built into mixers or coordinated with mixers of cold and hot water, such as for showers and baths, which are judged to be involved in the majority of each tenant's consumption of domestic hot water. In this way, through a strategic placement of the said devices, an acceptable fair picture of each tenant's share of the entire house's consumption of domestic hot water can be obtained.

The invention also relates to a method for individual measurement of quantity related to the consumption of energy of a certain type in tenants in a house with several tenants according to the appended independent procedural patent requirements. The advantages of such a method are apparent with all the desired clarity from the above discussion of the plant according to the invention.

Furthermore, the invention also relates to a mixer of hot and cold water according to the appended independent claims. The function of such a mixer and the advantages thereof appear from the discussion above of the device according to the invention.

Additional advantages and advantageous features of the invention will become apparent from the following description.

BRIEF DESCRIPTION OF THE DRAWINGS Hereinafter, exemplary embodiments of the invention are described with reference to the accompanying drawings, in which: Fig. 1 is a simplified view illustrating a possible embodiment of a plant according to the invention for individual measurement of domestic hot water consumption in a tenant's house. with several tenants, Fig. 2 is a simplified view illustrating a device according to an embodiment of the invention, Fig. 3 is a simplified view of a mixer of cold and hot water provided with a device according to the invention, Fig. 4 is a view illustrating how a device according to the invention can be used for measuring energy consumed to heat a room, and Fig. 5 is a simplified view illustrating a device according to an embodiment of the invention applied to a shower mixer.

DETAILED DESCRIPTION OF EMBODIMENTS OF THE INVENTION Fig. 1 illustrates a house 1 in the form of an apartment building with several tenants. Cold water is delivered to the house via a cold water line 2, and the entire house's consumption of water is measured via a cold water flow meter 3. The main water line 2 branches downstream of the meter 3 for hot water preparation via a hot water heater 4, from where a hot water line 5 via a meter 6 of the house's total hot water consumption leads into the house, and a cold water line 7. The two meters 3 and 6 are designed to send their measurement results to a schematically indicated device 8 designed to process this information.

Each tenant / dwelling is equipped with at least one device 9 for measuring a quantity related to the consumption of hot water by the tenant in order to determine how large a part of the house's total consumption of hot water and tenant is responsible. It is illustrated very schematically how such a device is arranged between the included hot and cold water pipes to each dwelling. This is shown to exemplify the deployment of devices according to the invention in a plant according to the invention, but such devices may instead be coordinated with mixers of cold and hot water which are judged to be involved in the majority of each tenant's consumption of domestic hot water. . In that case, it may be sufficient for such a device to be arranged in connection with a shower or a bathtub in each dwelling, or for such a device to be supplemented with a device at a kitchen counter mixer.

What such a device according to the invention may look like will now be explained with reference also to Fig. 2. The device has a thermoelectric generator 10 with two electrodes, of which a first 11 is designed to be arranged on an outer surface of a hollow body 12a, here a water pipe, within which a medium, here hot water, is intended to flow and thereby change the temperature of the body wall and thus said surface depending on the consumption of energy via hot water consumption. A second electrode 13 is designed to be applied to one from the hollow body 12a separated surface or medium, here a cold water pipe 12b. The electrodes here are metal bodies 50, 51, e.g. of Al or Cu, which abut against a said surface by enclosing the hot water pipe 12a and the cold water pipe 12b, respectively, and thereby obtain a temperature which is affected by the flow in these pipes. The two bodies 50, 51 are clamped against each other via a screw connection 52 with two ceramic plates 53, 54 lying between them and separated by heat-conducting rods 55 (another possibility of compressing the plates against the rods is also available). The plates 53, 54 typically have a dimension of 30 x 30 mm and the rods 55 a length of 3 mm. In this way, heat can be conducted in the rods in the direction from the warmer body 50 towards the colder body. This heat line generates electrical energy (Seebeck effect) which can be passed on to a unit 14 via two connections 56, 57 to the hot side.

Thus, the generator 10 is designed to generate electrical energy as a result of a temperature difference between the two electrodes caused by the flow of domestic hot water in the tube 12a and to supply this energy to and thereby drive the unit 14 designed to indicate a measure of said energy consumption. It is shown how the unit 14 can have a transmitter 15 designed to send information about said dimensions to a device, here the device 8, designed to process the information. In this case, this transmission can go via a number of radio-communicating routers 16 (see Fig. 1), for example placed in the stairwell of the house 1. The device comprises in Fig. 2 schematically indicated means 17 designed to make the magnitude of the supply of the electrical energy to the unit dependent on the magnitude of temperature differences between the two electrodes, and the unit 14 is designed to record the time it is supplied with energy from the generator due to the temperature difference exceeds a threshold value, which can be realized by determining that this threshold value is typically exceeded if the temperature of the hot water line 12a exceeds + 30 ° C. Consequently, it is hot water consumption measures in the form of time indications which are sent via the transmitter 15 and the routers 16 to the device 8. Fig. 2 also shows how the device can have means 18 designed to be arranged on the body, here the hot water pipe, for measuring the flow of hot water through the pipe. , whereby the generator is designed to provide energy supply also to these bodies. When such flow measuring means are arranged, it would be conceivable for the unit to simply send the information from these only to the installation as a measure of hot water consumption.

The installation according to the invention functions as follows: the meter 6 measures the total consumption of domestic hot water in the house and sends information about it to the installation 8. At the same time the units of said devices send information about hot water consumption to the respective tenant via the transmitters 15 and routers 16. times. The institution 8 is designed to process the information from the units in order to obtain for each individual tenant the proportion of hot water consumption reported by its units and the total hot water consumption reported by the units of the house and calculate the tenant's consumption of hot water assuming that this proportion applies to the total consumption. of hot water. In doing so, the device 8 advantageously has means 19 designed to provide a web hotel with information regarding the hot water consumption of each individual tenant for storing this information in a database and enabling each tenant to provide access and password protection via connection to the Internet read their hot water consumption.

Fig. 3 shows a mixer 20 of hot and cold water, the general construction of which is of a conventional type, such as for a shower, with a mixing chamber 21, two in this opening inlet pipes 22, 23 for hot and cold water and a Mixed water pipe 24 emanating therefrom. The mixer has a thermoelectric generator with two electrodes here formed by the ceramic plates of the generator forming the Peltier element 60. A first 25 of the plates is arranged in direct contact with the hot water and a second 26 is arranged in direct contact with the cold water . The generator is designed to generate electrical energy as a result of a flow of water in the hot water pipe induced temperature difference between the two electrodes (plates) and to supply this energy to and thereby drive a schematically indicated unit 27 designed to indicate a measure of consumption of energy as a result of hot water passing through the mixer. The device also has a transmitter 28 of the type described above for transmitting information to a device designed to process it.

One way to increase the accuracy can be achieved by measuring the amount of energy that the generator can deliver, which is a measure of the temperature difference. If the temperature of the hot water is then measured (for example at the ceramic 25), the temperature of the cold water can be calculated (or vice versa if the temperature of the cold water is measured). It is illustrated that the mixer is also provided with a means 29 in the form of a temperature sensor designed to supply the unit 27 with a measure of the actual temperature of the mixed water (the hot water). The mixing ratio between hot and cold water in the tap can be estimated quite well when bottling if the measurement is made at several points as above. The unit 27 is in turn designed to indicate periods of said time when indicating the consumption of hot water when producing said dimensions, depending on temperature differences and / or one or more temperatures. 10 15 20 25 30 35 12 The unit 27 and also the temperature sensor 29 are advantageously built into the mixer housing itself, even if this is not shown in Fig. 3.

This is made possible by the fact that the thermoelectric generator with unit and antenna can have a typical dimension of 30x50x5 mm.

Fig. 4 illustrates a device according to another embodiment of the invention, which is designed for measuring the energy consumed for heating via a radiator 30 and whose thermoelectric generator has its first electrode 31 (ceramic plate) arranged on a surface of the radiator and a second electrode 32 (ceramic plate) via cooling fins 35 arranged against air. The unit 33 and transmitter 34 of this device are schematically indicated. Advantageously, such a device is supplemented with a room temperature sensor.

Finally, Fig. 5 illustrates a device according to another embodiment of the invention, which in principle corresponds to that according to Fig. 3, but here instead of the transmitter or as a complement thereto a display 40 has been connected to the unit not shown and which is designed to present a measure of energy / hot water consumed from a predetermined time, such as from the start of showering via opening of a tap or flow measurement for this, here in the form of cost for the hot water. This time can e.g. is also determined by arranging a water pressure sensor in the faucet of the mixer, which can then also ensure that the "time is temporarily stopped" when the faucet is temporarily closed during the showering, such as for the showering person to soap himself. Thus, during showering, the cost indication made on the display 40 will increase until the showering ceases, which may increase the cost awareness of the person or persons using the shower and cause them to shorten the shower times and thereby save energy. The unit can have a receiver designed to receive information from a router 16 about the current energy price. LEDs 41 are gradually lit from left to right to further illustrate the degree to which the showering person consumes energy. It would also be conceivable for the device to be designed to emit an audible signal when a certain "pain threshold energy level" has been reached, e.g. 1 kWh. The invention is of course not in any way limited to the embodiments described above, but a number of possibilities for modifications thereof should be obvious to a person skilled in the art without departing from the scope of the invention for this purpose. this is defined in the appended claims.

For example, it could very well be that the consumption that is of interest is the consumption of a cooling medium, and that in such a case the first electrode is placed on a hollow body in which such a cooling medium flows.

It is possible to assume that the proportion that an facility according to the invention calculates to apply between different tenants' hot water consumption is also assumed to apply to their cold water consumption and is therefore used as a basis for charging tenants for this consumption.

It appears that in this dissertation "thermoelectric generator with two electrodes" is to be interpreted as meaning that the generator has at least two bodies that can have different temperatures by coming into contact with media with different temperatures, and enables a heat transport due. this temperature difference and the conversion of this heat transport into electrical energy (Seebeck effect). The bodies that form the electrodes can include contact blocks around e.g. a water pipe as a pressed plate in contact therewith, such as a ceramic plate, as shown in Fig. 2, or as in the embodiment in Fig. 4 only such a ceramic plate or even be formed only by the wall itself of a hollow body, such as a pipe or a chamber.

It is possible to make the ceramic plate designed to form the hot side of the generator larger than the generator itself (the surface of the rods) and in / on this plate arrange the electronic components of the device including temperature sensor against the plate which measures the temperature of the hot side. The small module thus formed will then contain a thermoelectric generator, DC / DC converter, microprocessor, transmitter, receiver and temperature sensor.

Claims (1)

Device for measuring a quantity related to energy consumption, characterized in that it comprises a thermoelectric generator (10) with two electrodes (11, 13, 25, 26, 31, 32) , of which a first (11, 25, 31) is designed to be arranged on an outer surface of a hollow body (12, 22) within which a medium is intended to flow and thereby change the temperature of the wall of the body and thereby said surface depending on said energy consumption, and of which a second electrode (13, 26, 32) is designed to be applied to a surface or medium separate from said hollow body, and that said generator is designed to generate electrical energy as a result of a temperature difference between said electrodes induced by the flow of medium in the hollow body and to supply this energy to and thereby drive a unit (14, 27, 33) included in the device designed to indicate a measure of said energy consumption. Device according to claim 1, characterized in that it comprises means (17) designed to make the magnitude of the supply of said electrical energy to the unit dependent on the magnitude of said temperature difference, and that the unit (14) is designed to record the time it is supplied with energy from said generator as a result of said temperature difference exceeding a threshold value and indicating this time as a said measure of said energy consumption. Device according to claim 2, characterized in that it comprises a means (29) designed to supply to said unit (27) a measure of said temperature difference, and that the unit is designed to, when indicating said energy consumption when producing said measured weighted periods of said time depending on how much the temperature difference during these periods exceeded said threshold. Device according to any one of the preceding claims, characterized in that the unit comprises a display (40) designed to display said measures of consumed energy and / or cost of consumed energy. Device according to any one of the preceding claims, characterized in that said unit (14, 27, 33) comprises a transmitter (15, 28, 34) designed to transmit information about said dimensions to a device (8) designed to process the information. Device according to claim 5, characterized in that said device (8) comprises means (19) designed to provide a web hotel with information regarding said energy consumption and thereby enable reading of it via connection to the Internet. Device according to any one of the preceding claims, characterized in that it comprises means (18) designed to be arranged on said body (12) for measuring the flow of said medium through the body, and that the generator is designed to provide the energy supply also to these means . Device according to any one of the preceding claims, characterized in that the thermoelectric generator is designed to be arranged with said first electrode (11, 25, 31) on a hollow body (12, 22) inside which a medium is intended to flow while warming the hollow body. Device according to any one of claims 1-7, characterized in that the thermoelectric generator is designed to be arranged with said first electrode on a hollow body inside which a medium is intended to flow during cooling of the hollow body. Device according to one of the preceding claims, characterized in that the thermoelectric generator is designed to be arranged with said first electrode (11, 25, 31) on a hollow surface. 10. 15 20 25 30 35 11. 12. 13. 14. 15. 16 A body (12, 22) within which a medium in the form of water is intended to flow. Device according to any one of claims 1-8 or 10, characterized in that the thermoelectric generator is designed to be arranged with said first electrode (11, 25) on a hollow body (12, 22) inside which a medium in the form of domestic hot water is intended to flow. Device according to one of the preceding claims, characterized in that the second electrode (32) of the thermoelectric generator is designed to be applied to air. Device according to any one of claims 1-11, characterized in that said thermoelectric generator is designed to be built into a mixer (20) of cold water and hot water with one electrode (26) designed to abut externally against the cold water pipe (23) and the other (25) externally to the hot water pipe (22). Device according to any one of claims 1-8, 10 and 12, characterized in that said first electrode (31) of the thermoelectric generator is designed to be applied to an outer surface of a hollow body in the form of a radiator (30) for heating. Installation for individual measurement of quantity related to consumption of energy of a certain type in tenants in a house (1) with several tenants, characterized in that it is designed to have at least one device (9) for each tenant according to any of the preceding claims. . Plant according to claim 15, characterized in that it comprises means (6) designed to measure a quantity attributable to the total consumption of energy of a certain type for the whole house and to send information thereon to a device (8) included in the plant, that the devices units (14) are designed 10 15 20 25 30 35 17. 18. 19. 18 to send information about said measures of energy consumption to the installation, and that the installation is designed to process said information from the units in order to obtain the proportion for each individual tenant. between the energy consumption communicated by its units and the total energy consumption communicated by the units of the house and calculate the tenant's consumption of energy of the said certain type, assuming that this proportion applies to the said total consumption of energy of the said type. Plant according to claim 15 or 16 designed for measuring energy consumption attributable to the tenants' consumption of domestic hot water, characterized in that it is designed to have at least one device according to claim 11 arranged for each tenant. Plant according to claim 17, characterized in that it is designed to have for each tenant one or more devices according to claim 13 coordinated with mixers (20) of cold and hot water, such as for showers and baths, which are judged to be involved in the main part of the respective tenant's consumption of domestic hot water. Method for individual measurement of quantity related to the consumption of energy of a certain type in tenants in a house (1) with several tenants, characterized by the following steps: o Device, in each tenant, of a device (9) comprising a thermoelectric generator with two electrodes (11, 13) so that a first electrode (11) is applied to an outer surface of a hollow body (12) within which a medium is intended to flow and thereby change the temperature of the body wall and said surface depending on said energy consumption, and so that a second electrode (13) is applied to a surface or medium separate from said hollow body, the generator being designed to generate electrical energy as a result of a given by flowing medium in the hollow body induced temperature difference between said electrode and supplying this energy to and thereby driving a unit (14) included in the device designed to indicate a measure of said energy consumption o measurement of a quantity attributable to the total consumption of energy of a certain type for the whole house, o calculation, on the basis of information on the said measure of energy consumption from said units, for each individual tenant, of the proportion between the of his units communicated the energy consumption and the total of the house units communicated the energy consumption, and o calculation of each individual tenant's consumption of energy of a certain type assuming that said proportion applies to said total consumption of energy of said type. Mixer of hot and cold water with a mixing chamber (21), two inlet mouths (22, 23) for hot and cold water opening therein, and a pipe (24) for mixed water emanating therefrom, characterized in that it comprises a thermoelectric generator with two electrodes, a first (25) of which is arranged on an outer surface of said hot water pipe (22) and a second (26) is arranged on an outer surface of said cold water pipe (23), and that the generator is designed to generate electrical energy as a result of a temperature difference between said electrodes caused by the flow of water in said hot water pipe and to supply this energy to and thereby drive a unit (27) designed to indicate a measure of energy consumption as a result of hot water passing through the mixer.