• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    An integrated solar cladding strip (1) comprising a substrate (2) of a roofing membrane, a first layer of an encapsulant (3), a single electric circuit (4) comprising strings of solar cells (5) connected to a single inand outlet, a second layer of an encapsulant (11), a single sheet of a transparent foil (12) covering the entire circuit (4), a third layer of a hot-melt adhesive encapsulant (13) and a plurality of rigid transparenttiles (14) characterized by that said tiles are positioned over one or more cells (5) forming rigid groups spaced from each other with flexible gaps (15) that are positioned over tab wires (6) that run alone between the cells.
    公开号:DK201700051A1
    申请号:DKP201700051
    申请日:2017-01-25
    公开日:2018-09-12
    发明作者:Ursing Jakob
    申请人:Ursing Jakob;
    IPC主号:
    专利说明:

    ( 19 ) DENMARK (10)
    DK 201700051 U3
    (12)
    USE MODEL WRITING
    Registered utility model without testing
    Danish Patent and Trademark Office lnt.CI .: F24F11 / 04 (2006.01) F24F11 / 02 (2006.01)
    Application number: BA 2017 00051
    Submission date: 2017-05-05
    Running day: 2017-05-05
    Aim. available: 2018-08-05
    The registration bkg. and published on: 2018-09-18
    Utility model holder:
    Thermex Scandinavia A / S, Farøvej 30, 9800 Hjørring, Denmark
    Produces:
    Christian Klitgaard, Majsvænget 7 Bjergby, 9800 Hjørring, Denmark
    Clerk: Otello Advokatanpartsselskab, Skt. Clemens Torv 9.1. sal, 8000 Århus C, Denmark
    Title: Ventilation system and elements thereof
    Summary: The invention relates to a ventilation system (100) comprising: 1. Ventilation system (100) comprising: - a centrally located exhaust pump (2), comprising an inlet opening (4) and an outlet opening (6); - a hood (8), comprising an inlet opening (10) and an outlet opening (12) - optionally one or more additional exhaust ducts (14,14 '), each comprising an inlet opening (16) and an outlet opening (18); - wherein the outlet opening (12) of the hood and the outlet opening (18) of one or more additional exhaust ducts via pipe connections (20) is connected to the inlet opening (4) of the centrally located extraction pump (2); - where the ventilation system is new in that a damper (22) is inserted in the pipe connection between the extraction opening of the hood and the suction opening of the centrally located extraction pump , which is configured to be able to switch between an open configuration, where an air flow through the damper is open for passage, and a fully or partially closed configuration, where the passage is completely or partially closed b of an air flow through the damper, the damper comprising an inlet connection and an outlet connection; - wherein the ventilation system further comprises a control unit (24) which is configured, by activating the electrical contact (26), to be able to keep the damper in the open configuration in a predetermined period of time, after which the damper changes configuration to the fully or partially closed configuration.
    To be continued...
    DK 201700051 U3
    FIG. 2
    DK 201700051 U3
    Ventilation system and elements therefor
    Area of production
    The present invention relates to the field of ventilation in dwellings. More specifically, in a first aspect, the present invention relates to a ventilation system. In another aspect, the present invention relates to a ventilation regulator. In a third aspect, the invention provides a use of a ventilation system according to the first aspect or of a ventilation regulator according to the second aspect for controlling the degree of extraction from a hood in a kitchen.
    Background of the production
    However, in order to maintain a healthy indoor climate and to avoid odor nuisances, it is common to provide a kitchen with a hood. A hood is a suction device that is typically arranged above an oven and / or above a stove. Traditionally, a hood has been fitted with an exhaust pump as well as an outlet duct for air that is removed via the exhaust pump. An electrical switch enables the setting of the suction efficiency as well as enables the suction pump to be switched on and off.
    In newer residential buildings, both single-family houses and multi-storey properties, it is becoming more and more common to install a central ventilation system, which, among other things, can be connected to a cooker hood for the purpose of being able to make an extractor in a kitchen. The central ventilation system thus comprises a centrally located exhaust pump as well as one or more pipe connections which connect the centrally located exhaust pump to one or more exhaust grilles.
    In such systems, the hood itself forms a trap which, when activated, causes the opening of the pipe system to increase (also called forced operation), whereby the centrally located exhaust pump increases the air exhaust to maintain the negative pressure in the pipe system connecting the hood to the centrally located exhaust pump . In addition, the hood is included as a ventilation unit to ensure the necessary air exchange in the individual home (also called basic ventilation)
    DK 201700051 U3
    Similarly, there are decentralized systems where the individual home's ventilation system functions and is managed as an independent unit. In these systems, it must be possible to disconnect the hood from the system when it is not in use, as this is not necessarily included to ensure the general air exchange in the home.
    Thus, there is a need for an improved ventilation system which includes a range hood which can operate in both types of systems and which provides improved exhaust control.
    It is an object of the present invention to provide a solution to the above-mentioned problem.
    Brief description of the creation
    This object is achieved according to the present invention in its first, second and third aspect.
    Accordingly, according to a first aspect of the present invention, there is provided a ventilation system comprising:
    a centrally located extraction pump comprising an inlet opening as well as an outlet opening;
    a hood comprising an inlet opening as well as an outlet opening;
    optionally one or more additional exhaust ducts, each comprising an inlet opening as well as an outlet opening;
    where the outlet opening of the hood and the outlet opening of one or more additional extraction channels via pipe connections are connected to the inlet opening of the centrally located extraction pump;
    where the ventilation system is new in that a damper is inserted in the pipe connection between the extractor opening of the hood and the intake opening for the centrally located exhaust pump, which is configured to be able to switch between an open configuration where an air flow through the damper and a fully or partially closed configuration, in which the flow of an air flow through the damper is completely or partially closed, the damper comprising an inlet connection as well as an outlet connection;
    DK 201700051 U3
    wherein the ventilation system further comprises a control unit configured to, upon activation of an electrical switch, be able to hold the damper in the open configuration for a predetermined period of time, after which the damper changes configuration to the fully or partially closed configuration.
    In another aspect according to the invention, there is provided a ventilation regulator for insertion into an exhaust duct between a hood and a centrally located exhaust pump connected thereto with a pipe connection, the ventilation regulator comprising:
    a damper configured to be able to switch between an open configuration, where an air flow through the damper is open for passage, and a completely or partially closed configuration, where an air flow through the damper is completely or partially closed, the damper comprising an inlet connection and an outlet connection;
    wherein the ventilation controller further comprises a control unit configured, upon activation of an electrical switch, to be able to hold the damper in the open configuration for a predetermined period of time, after which the damper changes configuration to the fully or partially closed configuration.
    Finally, in a third aspect of the invention, there is provided a use of a ventilation system according to the first aspect of the invention or of a ventilation regulator according to the second aspect of the invention for controlling the degree of extraction from a hood in a kitchen.
    Where a known cooker hood containing dampers and dedicated control is to be procured for the known systems, the user with the present invention achieves full freedom of choice in the choice of cooker hood (for external motor), as the signal for controlling the exhaust motor can be reconfigured to an opening time for the damper.
    The ventilation system and the ventilation regulator according to the invention will thus be able to function together with both decentralized and central systems.
    Furthermore, with the generation in its various aspects, it can be achieved that the user can achieve a power saving, as the ventilation system and the ventilation regulator sleeve make sure to shut down after a certain period of time. This prevents unnecessary power consumption in the event that a user forgets to turn off the hood.
    DK 201700051 U3
    Brief description of figures
    FIG. 1 is a principle diagram showing the operation of a venting system according to the prior art, in which a centrally located extraction pump is used.
    FIG. 2 is a schematic diagram showing the operation of a ventilation system according to the present invention using a centrally located exhaust pump.
    FIG. 3 is a schematic diagram showing an example of a damper for use with a ventilation system or a ventilation regulator according to the present invention;
    Detailed description of the production
    The invention relates in its first aspect to a ventilation system comprising:
    a centrally located extraction pump comprising an inlet opening as well as an outlet opening;
    a hood comprising an inlet opening as well as an outlet opening;
    optionally one or more additional exhaust ducts, each comprising an inlet opening as well as an outlet opening;
    where the outlet opening of the hood and the outlet opening of one or more additional extraction channels via pipe connections are connected to the inlet opening of the centrally located extraction pump;
    where the ventilation system is new in that a damper is inserted in the pipe connection between the extractor opening of the hood and the intake opening for the centrally located exhaust pump, which is configured to be able to switch between an open configuration where an air flow through the damper and a fully or partially closed configuration, in which a flow of air flow through the damper is completely or partially closed, the damper comprising an inlet connection and an outlet connection;
    wherein the ventilation system further comprises a control unit configured to, upon activation of an electrical switch, be able to hold the damper in the open configuration for a predetermined period of time, after which the damper changes configuration to the fully or partially closed configuration.
    DK 201700051 U3
    With the ventilation system according to the first aspect of the production, it is thus possible to regulate the extent of the extraction from a cooker hood by regulating the time during which an extraction takes place through a cooker hood, where this extraction is greater than any basic setting which provides a constant but small extraction from the hood.
    In the enclosed utility model requirements and in this description, the term “fully or partially closed configuration” is to be understood as a configuration in which the damper in the ventilation system is either completely closed or not completely closed. By the term "not completely closed" in the appended utility model requirements and in this description it is to be understood that the air passage in the damper is reduced by more 50% or more, such as 60% or more, for example 70% or more, such as 80% or more, or 90% or more, compared to the open configuration.
    Thus, it should be understood that when the damper is in an open configuration, greater air flow through the damper is allowed than when it is in a closed or partially closed configuration.
    The term "air passage" in the appended utility model requirements and in this description preferably means the cross-sectional area of the air passage in the damper.
    In an embodiment of the ventilation system according to the first aspect of the invention, the damper comprises an inlet connection as well as an outlet connection, both of which comprise a circular cross-section.
    This facilitates the connection of extraction hoses to the damper.
    In an embodiment of the ventilation system according to the first aspect of the invention, the inlet and / or outlet connection of the damper covers a cross-sectional area of 50 cm 2 or more, such as 75 cm 2 or more, such as 100 cm 2 or more, for example 150 cm 2 or more, such as 200 cm 2 or more, for example 250 cm 2 or more, such as 300 cm 2 or more, for example 350 cm 2 or more; or 400 cm 2 or more.
    These dimensions are similar to conventional exhaust hoses for exhaust systems.
    In an embodiment of the ventilation system according to the first aspect of the invention, one or more of the pipe connections are flexible hoses, such as of the type comprising a metal coil, around which a plastic foil is wound and attached.
    These types of hoses are flexible, inexpensive to procure as well as easy to install.
    DK 201700051 U3
    In an embodiment of the ventilation system according to the first aspect of the invention, the control unit is configured to enable selection between two or more time intervals in which the damper is kept open by activating the electrical contact.
    This provides greater flexibility with regard to the degree of extraction desired.
    In an embodiment of the ventilation system according to the first aspect of the invention, the control unit is configured to enable selection of time intervals with a length of 1 - 120 min., Such as 2 - 100 min., For example 5-90 min., Such as 10 - 80 min. such as 15-70 minutes, for example 20-60 minutes, such as 25-50 minutes, or 30-40 minutes.
    These intervals correspond well to the typical needs for extraction that are encountered during the preparation of food in a kitchen.
    In one embodiment of the ventilation system according to the first aspect of the invention, the control unit is configured to allow selection between two or more settings for the degree of opening of the damper when the damper is set in the open configuration.
    This provides greater flexibility with regard to the degree of extraction desired.
    In an embodiment of the ventilation system according to the first aspect of the invention, the damper is configured to be able to open and close by mechanically rotating a regulator plate in an inner air duct in the damper.
    This design is a simple construction that is inexpensive to manufacture and that easily enables control of the degree of opening of the damper.
    In an embodiment of the ventilation system according to the first aspect of the invention, the regulator plate is configured to be rotatable so that it is substantially aligned with the direction of flow defined by the geometry of the air duct when the damper is configured to be in an open configuration; and wherein the regulator plate can be rotated so that it completely or partially blocks the flow of air when the damper is configured to be in the fully or partially closed configuration.
    In an embodiment of the ventilation system according to the first aspect of the invention, the control unit is further configured to be adjustable in a setting representing a basic ventilation, the ventilation system in this basic ventilation causing a minor extraction through the inlet opening of the hood,
    DK 201700051 U3 as the damper in a basic ventilation setting represents a passage in the damper with a size between fully open and fully closed.
    This ensures that the ventilation system continuously ensures a limited, small extraction through the hood.
    In an embodiment of the ventilation system according to the first aspect of the invention, the hood is a hood without an independent, integrated extraction motor.
    An independent, integrated extraction motor in a cooker hood is not necessary, as the centrally located extraction pump provides the necessary extraction.
    In an embodiment of the ventilation system according to the first aspect of the invention, the control unit is configured, when the damper is set in an open configuration, to generate a signal, such as an electrical or electromagnetic signal, which can be sent wirelessly or via a cable to the centrally located exhaust pump and thereby increasing the power of the suction for this centrally located extraction pump.
    This ensures sufficient extraction as the passage in the damper increases.
    In an embodiment of the ventilation system according to the first aspect of the invention, the control unit and the hood are integrated.
    In another aspect according to the invention, there is provided a ventilation regulator for insertion into an exhaust duct between a hood and a centrally located exhaust pump connected thereto with a pipe connection, the ventilation regulator comprising:
    a damper configured to be able to switch between an open configuration, where an air flow through the damper is open for passage, and a completely or partially closed configuration, where an air flow through the damper is completely or partially closed, the damper comprising an inlet connection and an outlet connection;
    wherein the ventilation controller further comprises a control unit configured, upon activation of an electrical switch, to be able to hold the damper in the open configuration for a predetermined period of time, after which the damper changes configuration to the fully or partially closed configuration.
    In an embodiment of the ventilation regulator according to the second aspect of the invention, the damper comprises an inlet connection as well as an outlet connection, both of which comprise a circular cross-section.
    DK 201700051 U3
    This facilitates the connection of extraction hoses to the damper.
    In an embodiment of the ventilation regulator according to the second aspect of the invention, the inlet connection and / or outlet connection of the damper covers a cross-sectional area of 50 cm 2 or more, such as 75 cm 2 or more, such as 100 cm 2 or more, for example 150 cm 2 or more, such as 200 cm 2 or more, for example 250 cm 2 or more, such as 300 cm 2 or more, for example 350 cm 2 or more; or 400 cm 2 or more.
    These dimensions are similar to conventional exhaust hoses for exhaust systems.
    In an embodiment of the ventilation regulator according to the second aspect of the invention, the control unit is configured to enable selection between two or more time intervals in which the damper is kept open by activating the electrical contact.
    This provides greater flexibility with regard to the degree of extraction desired.
    In an embodiment of the ventilation regulator according to the second aspect of the invention, the control unit is configured to enable selection of time intervals with a length of 1 - 120 minutes, such as 2 - 100 minutes, for example 5-90 minutes, such as 10 - 80 minutes. such as 15-70 minutes, for example 20-60 minutes, such as 25-50 minutes. or 30 - 40 min.
    These intervals correspond well to the typical needs for extraction that are encountered during the preparation of food in a kitchen.
    In an embodiment of the ventilation regulator according to the second aspect of the invention, the control unit is configured to allow selection between two or more settings for the degree of opening of the damper when the damper is set in the open configuration.
    This provides greater flexibility with regard to the degree of extraction desired.
    In an embodiment of the ventilation regulator according to the second aspect of the invention, the damper is configured to be able to open and close by mechanically rotating a regulator plate in an inner air duct in the damper.
    This design is a simple construction that is inexpensive to manufacture and that easily enables control of the degree of opening of the damper.
    DK 201700051 U3
    In an embodiment of the ventilation regulator according to the second aspect of the invention, the regulator plate is configured to be rotatable so as to be substantially aligned with the direction of flow defined by the geometry of the air duct when the damper is configured to be in an open configuration; and wherein the regulator plate can be rotated so that it completely or partially blocks the flow of air when the damper is configured to be in the fully or partially closed configuration.
    In an embodiment of the ventilation regulator according to the second aspect of the invention, the control unit is further configured to be adjustable in a setting representing a basic ventilation, the ventilation regulator in this basic ventilation causing a permanent extraction through the damper, the damper in a basic ventilation setting representing a passage in the damper with a size between fully open and fully closed.
    This ensures that the vent regulator continuously ensures a limited, small extraction through a hood.
    In an embodiment of the ventilation regulator according to the second aspect of the invention, the control unit is configured, when the damper is set in an open configuration, to generate a signal such as an electrical or an electromagnetic signal which can be sent wirelessly or via a cable to a centrally located exhaust pump and thereby increasing the power of the suction for this centrally located extraction pump.
    This ensures sufficient extraction as the passage in the damper increases.
    Finally, in a third aspect of the invention, there is provided a use of a ventilation system according to the first aspect of the invention or of a ventilation regulator according to the second aspect of the invention for controlling the degree of extraction from a hood in a kitchen.
    For the purpose of describing the present invention in detail, reference is now made to the figures, in which fig. 1 schematically shows a ventilation system according to the prior art. FIG. 1 shows the ventilation system 300. The ventilation system 300 comprises a centrally located extraction pump 2, a hood 8 and two further extraction ducts 14,14 '.
    The ventilation system 300 in FIG. 1 is, for example, useful for use in a dwelling. The hood is located in the kitchen of the home and each of the two additional exhaust ducts 14,14 'is located in its own bathroom.
    DK 201700051 U3
    As seen in FIG. 1, the centrally located extraction pump 2 comprises an inlet opening 4 and an outlet opening 6. Each of the two further extraction channels 14, 14 'comprises an inlet opening 16 and an outlet opening 18. Likewise, the hood comprises an inlet opening 10 and an outlet opening 12,
    All outlet openings 12,18 are connected to the inlet opening of the centrally located extraction pump with pipe connections 20, which may be in the form of flexible hoses.
    When the centrally located extraction pump is running, a suction will take place through the hood and each of the two additional extraction ducts 14,14 '.
    It is therefore not possible to regulate the extraction through the hood independently.
    FIG. 2 is a schematic diagram showing the operation of a ventilation system according to the present invention using a centrally located exhaust pump.
    The ventilation system shown in fig. 2, comprises the same elements as that shown in FIG.
    1.
    Also included is the ventilation system shown in FIG. 2 shows a damper 22 which is controlled by a control unit 24.
    The damper 22 is inserted into the pipe connection 20, which connects the hood 8 to the centrally located extraction pump 2.
    In this way it will be possible to shut off the extraction of air through the hood 8, e.g. when the hood is not in use, the damper 22 being configured to be able to switch between an open configuration where an air flow through the damper is open and a fully or partially closed configuration where an air flow is completely or partially closed through the damper.
    This switch between an open configuration and a fully or partially closed configuration of the damper is controlled by the control unit 24. The control unit is configured to, by activating an electrical switch 26, be able to keep the damper in the open configuration for a predetermined period of time, after which the damper changes configuration to a fully or partially closed configuration. This control takes place via the control cable 38, which connects the control unit 24 to the damper 22.
    DK 201700051 U3
    This allows you to avoid extracting air from a kitchen when such extraction is not necessary. This is the case, for example, during all the hours when no food is prepared in the kitchen. Alternatively, the ventilation system or ventilation regulator can provide a small, basic ventilation when the damper is set in the non-open configuration.
    In FIG. 2, the control unit 24 is shown in a manner in which the electrical switch 26 has four settings, namely setting 0, 1,2 and 3.1 setting 0, the control unit ensures that the damper is in closed configuration so that no extraction is made through the hood 8.1 positions 1, 2 and 3 for the electrical switch 26, the control unit is configured to keep the damper 22 open at different time intervals, for example 115 minutes in setting 1, for 45 minutes in setting 2 and for 90 minutes in setting 3.
    The damper itself can, as shown in fig. 3 be formed in a manner where it is configured to be able to open and close by mechanically rotating a regulator plate 32 in an inner air duct 34 in the damper.
    In FIG. 3 shows in cross section the damper 22, which comprises a housing with an inner air duct 34. The air duct 34 has an inlet connection 28 and an outlet connection 30. The damper comprises a regulator plate arranged in the air duct 34. the regulator plate is mounted on a shaft 42 for a stepper motor 40. The stepper motor 40 is controlled by signals supplied via the control cable 38. Thus, the regulator plate 32 can be rotated so that it is substantially aligned with the direction of flow defined by the geometry of the air duct 34 when the damper is configured to be in an open configuration. . Likewise, the regulator plate 32 can be rotated to block the flow of air when the damper is configured to be in a closed configuration.
    DK 201700051 U3
    Figure references
    Centrally located exhaust pump
    Inlet opening for exhaust pump
    Output opening for extraction pump
    Extractor hood
    Grease filter in hood
    Entrance opening for hood
    Exit opening for hood
    14.14 'Exhaust duct
    Inlet opening for exhaust duct
    Exit opening for exhaust duct
    Pipe connection
    Damper
    Control unit
    Electrical contact
    Inlet connection for damper
    Outlet connection for damper
    Swivel regulator plate in damper
    Internal air duct in damper
    Cable
    Control cable for damper
    Stepper motor in damper
    Shaft of stepper motor in damper
    DK 201700051 U3
    100 Ventilation system according to the invention 200 Ventilation regulator according to the invention 300 Ventilation system according to prior art
    DK 201700051 U3
    权利要求:
    Claims (24)
    [1]
    Utility model requirements
    A ventilation system (100) comprising:
    - a centrally located extraction pump (2), comprising an inlet opening (4) and an outlet opening (6);
    a hood (8) comprising an inlet opening (10) and an outlet opening (12);
    - optionally one or more additional exhaust ducts (14,14 '), each comprising an inlet opening (16) and an outlet opening (18);
    where the outlet opening (12) of the hood and the outlet opening (18) of the one or more additional extraction channels are connected via pipe connections (20) to the inlet opening (4) of the centrally located extraction pump (2);
    - where the ventilation system is new in that a damper (22) is configured in the pipe connection between the extractor opening of the hood and the intake opening for the centrally located exhaust pump, which is configured to be able to switch between an open configuration where an air flow is open through the damper and a fully or partially closed configuration, wherein a flow of air flow through the damper is completely or partially closed, the damper comprising an inlet connection (28) and an outlet connection (30);
    wherein the ventilation system further comprises a control unit (24) configured to, upon activation of an electrical switch (26), be able to hold the damper in the open configuration for a predetermined period of time, after which the damper changes configuration to the fully or partially closed configuration.
    [2]
    The ventilation system (100) of claim 1, wherein the damper comprises an inlet connection (28) and an outlet connection (30), both of which comprise a circular cross-section.
    [3]
    Ventilation system (100) according to claim 2, wherein the inlet connection (28) and / or outlet connection (30) of the damper covers a cross-sectional area of 50 cm 2 or more, such as 75 cm 2 or more, such as 100 cm 2 or more, for example 150 cm 2 or more, such as 200 cm 2 or more, for example 250 cm 2 or more, such as 300 cm 2 or more, for example 350 cm 2 or more; or 400 cm 2 or more.
    DK 201700051 U3
    [4]
    A ventilation system (100) according to any one of claims 1-3, wherein one or more of pipe connections (20) are flexible hoses, such as of the type comprising a metal coil, around which a plastic foil is wound and attached.
    [5]
    A ventilation system (100) according to any one of claims 1-4, wherein the control unit (24) is configured to allow selection between two or more time intervals in which the damper (22) is kept open by activating the electrical contact (26). ).
    [6]
    The ventilation system (100) of claim 5, wherein the control unit (24) is configured to allow selection of time intervals of a length of 1 - 120 minutes, such as 2-100 minutes, for example 5-90 minutes, such as 10 80 minutes, such as 15-70 minutes, for example 20-60 minutes, such as 25-50 minutes, or 30-40 minutes.
    [7]
    A ventilation system (100) according to any one of claims 1-6, wherein the control unit (24) is configured to allow selection between two or more settings for the degree of opening of the damper when the damper is set in the open configuration.
    [8]
    A ventilation system (100) according to any one of claims 1-7, wherein the damper (22) is configured to be able to open and close by mechanically rotating a regulator plate (32) in an inner air duct (34) in the damper.
    [9]
    The ventilation system (100) of claim 8, wherein the regulator plate (32) is configured to be rotatable so as to be substantially aligned with the direction of flow defined by the geometry of the air duct (34) when the damper is configured to be in an open configuration; and wherein the regulator plate (32) can be rotated so that it completely or partially blocks the flow of air when the damper is configured to be in a fully or partially closed configuration.
    [10]
    A ventilation system (100) according to any one of claims 1-9, wherein the control unit (24) is further configured to be adjustable in a setting representing a basic ventilation, wherein the ventilation system in this basic ventilation causes a continuous less exhaust through the hood opening (10), the damper in a basic ventilation setting representing a passage in the damper (22) with a size between fully open and fully closed.
    [11]
    A ventilation system (100) according to any one of claims 1 - 10, wherein the hood (8) is a hood without an independent, integrated extraction motor.
    DK 201700051 U3
    [12]
    A ventilation system (100) according to any one of claims 1-11, wherein the control unit (24) is configured, when the damper is set in an open configuration, to generate a signal such as an electrical or an electromagnetic signal that is wireless. or via a cable (36) can be sent to the centrally located exhaust pump (2) and thereby increase the power of the suction for this centrally located exhaust pump.
    [13]
    Ventilation system according to any one of claims 1 - 12, wherein the control unit (24) and the hood (8) are integrated.
    [14]
    Ventilation regulator (200) for insertion into an exhaust duct between a hood (8) and a centrally located exhaust pump (2) connected to it with a pipe connection, the ventilation regulator comprising:
    a damper (22) configured to be able to switch between an open configuration where an air flow through the damper is open and a fully or partially closed configuration where an air flow is completely or partially closed. through the damper, the damper comprising an inlet connection (28) and an outlet connection (30);
    wherein the ventilation controller further comprises a control unit (24) configured to, upon actuation of an electrical switch (26), be able to hold the damper in the open configuration for a predetermined period of time, after which the damper changes configuration to the fully or partially closed configuration .
    [15]
    The ventilation regulator (200) of claim 14, wherein the damper comprises an inlet connection (28) and an outlet connection (30), both of which comprise a circular cross section.
    [16]
    A ventilation regulator (200) according to claim 15, wherein the inlet connection (28) and / or outlet connection (30) of the damper covers a cross-sectional area of 50 cm 2 or more, such as 75 cm 2 or more, such as 100 cm 2 or more, for example 150 cm 2 or more, such as 200 cm 2 or more, for example 250 cm 2 or more, such as 300 cm 2 or more, for example 350 cm 2 or more; or 400 cm 2 or more.
    [17]
    A ventilation regulator (200) according to any one of claims 14-16, wherein the control unit (24) is configured to allow selection between two or more time intervals in which the damper is kept open by activating the electrical switch (26).
    [18]
    The ventilation controller (200) of claim 17, wherein the control unit (24) is configured to allow selection of time intervals of a length of 1 - 120 minutes, such as 2-100 minutes, for
    DK 201700051 U3 example 5-90 min., Such as 10 - 80 min., Such as 15-70 min., For example 20 - 60 min., Such as 25 - 50 min. Or 30 - 40 min.
    [19]
    A ventilation controller (200) according to any one of claims 14-18, wherein the control unit (24) is configured to allow selection between two or more settings for the degree of opening of the damper when the damper is set in the open configuration.
    [20]
    A ventilation regulator (200) according to any one of claims 14-19, wherein the damper (22) is configured to be able to open and close by mechanically rotating a regulator plate (32) in an inner air duct (34) in the damper.
    [21]
    The ventilation regulator (200) of claim 20, wherein the regulator plate (32) is configured to be rotatable so as to be substantially aligned with the direction of flow defined by the geometry of the air duct (34) when the damper is configured to be in an open configuration; and wherein the regulator plate (32) can be rotated so that it completely or partially blocks the flow of air when the damper is configured to be in the fully or partially closed configuration.
    [22]
    A ventilation regulator (200) according to any one of claims 14-21, wherein the control unit (24) is further configured to be adjustable in a setting representing a basic ventilation, wherein the ventilation regulator (200) in this basic ventilation causes permanently a small extraction is allowed through the damper, the damper in a basic ventilation setting representing a passage in the damper (22) with a size between fully open and fully closed.
    [23]
    A ventilation controller (200) according to any one of claims 14 - 22, wherein the control unit (24) is configured, when the damper is set in an open configuration, to generate a signal such as an electrical or an electromagnetic signal which is wireless or via a cable (36) can be sent to a centrally located extraction pump (2) and thereby increase the power of the suction for this centrally located extraction pump.
    [24]
    Use of a ventilation system (100) according to any one of claims 1-13 or of a ventilation regulator (200) according to any one of claims 14 - 23 for controlling the degree of extraction from a hood in a kitchen.
    DK 201700051 U3
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    同族专利:
    公开号 | 公开日
    SE1830010A1|2018-07-26|
    SE541929C2|2020-01-07|
    DK179442B1|2018-09-12|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    法律状态:
    2018-09-12| PME| Patent granted|Effective date: 20180912 |
    2018-09-12| PAT| Application published|Effective date: 20180726 |
    2020-10-13| PBP| Patent lapsed|Effective date: 20200125 |
    优先权:
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    SE1830010A| SE541929C2|2017-01-25|2018-01-14|A hot-melt laminated solar cladding strip and methods of manufacture|
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