• 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:
    The invention relates to a device (1) for whipping up at least one substance, in particular basic substances for the production of homeopathic medicaments, with a drive unit (10), a whipping unit (20), a storage unit (30) for receiving and storing at least one substance, the The drive unit (10) is designed for at least intermittent, in particular cyclical, non-positive and / or positive coupling with the bearing unit (30) such that the bearing unit (30) can be moved at least intermittently, in particular cyclically, by means of the drive unit (10). The impact unit (20) is provided for braking a movement, in particular a non-driven movement, preferably decoupled from the drive unit (10), of the bearing unit (30) in such a way that a mechanical force, in particular an essentially kinetic kinetic energy of the bearing unit (30) ) corresponding mechanical force on which at least one substance can be exerted. The invention also relates to a method for whipping at least one substance.
    公开号:CH716652A2
    申请号:CH01205/20
    申请日:2020-09-23
    公开日:2021-03-31
    发明作者:Kaltenhauser Sen Ludwig;Kaltenhauser Jun Ludwig
    申请人:Kaltenhauser Sen Ludwig;Kaltenhauser Jun Ludwig;
    IPC主号:
    专利说明:

    description
    The invention relates to a device for whipping up at least one substance or solution and a method.
    For the production of homeopathic medicines, the basic substances are gradually diluted and made dynamic by specialist staff, such as pharmacists, for example. The dilution and dynamization are repeated until a desired concentration or dilution and dynamization stage is reached in the corresponding ethanol-water mixture or the aqueous solution. The dilution can be done with distilled water or an ethanol-water mixture.
    The process of dynamization is usually carried out by shaking, that is, a manual or machine-automated pivoting of the solution. However, it has been shown that such a process can only achieve insufficient dynamization of the basic substance or the diluted basic substance in the respective dilution stages.
    It is the object of the invention to provide a device that enables a reliable, reproducible encapsulation of at least one substance or solution, in particular of basic substances for homeopathic medicines, ensures simple operation and maintenance and is inexpensive to manufacture. A further object of the invention is to specify a method for mixing substances.
    This object is achieved with a view to the device by the subject matter according to claim 1, with a view to the method according to claim 10. Preferred embodiments are given in the dependent claims.
    According to the present invention, a device for whipping at least one substance or solution, in particular basic substances for the production of homeopathic medicines, is provided with a drive unit, a whipping unit and a storage unit for receiving and storing at least one substance, the drive unit such for at least temporary, in particular cyclical, non-positive and / or positive coupling with the bearing unit, it is designed that the bearing unit can be moved at least temporarily, in particular cyclically, by means of the drive unit. Furthermore, the impact unit is provided for braking a movement, in particular a non-driven movement, preferably decoupled from the drive unit, of the bearing unit in such a way that a mechanical force or impact force, in particular a mechanical force essentially corresponding to the kinetic kinetic energy of the bearing unit, is applied to the at least one substance can be exercised or acts within the substance.
    The invention is based on the idea that a substance or solution can be sufficiently dynamized by mechanical shifting. In particular, the desired dynamization can be ensured by regular, reproducible shifting. The automation of the mechanical encapsulation thus ensures the quality of the resulting mixture or the resulting solution.
    According to the invention, it is therefore provided that substances and in particular substances in aqueous solutions, such as basic substances to be diluted or diluted for the production of homeopathic medicines, can be processed or dynamized.
    The shedding takes place through a cyclical sequence of movements of the storage unit in which the substance to be processed is received or stored. In particular, it is provided that the cyclic movement sequence comprises a coupling of the bearing unit with the drive unit for the driven movement and a force-technical decoupling of the bearing unit from the drive unit. This sequence of coupling and decoupling can be repeated cyclically, so that there is a temporarily driven movement of the bearing unit by means of the drive unit. During the decoupled phase of the movement sequence, the storage unit can continue to move or move freely.
    Furthermore, the impact unit for braking a movement, in particular a non-driven movement, preferably decoupled from the drive unit, of the bearing unit is provided in such a way that a mechanical force or impact force, in particular a mechanical force substantially corresponding to the kinetic kinetic energy of the bearing unit on which at least one substance can be exercised.
    In particular, the storage unit can be stopped or stopped by the impact unit during the decoupled movement phase, in particular brought to a sudden stop.
    It is thus provided that the cyclical sequence of movements of the bearing unit has a driven phase, which takes place in particular after the bearing unit has been stopped by the striking unit from the idle state. Following the coupled, driven movement phase of the storage unit, there is a decoupling or disengagement of a force-fitting and / or form-fitting engagement between the storage unit and the drive unit, so that the storage unit can move at least essentially freely. As part of this free movement, the impact unit can slow down or stop or impact the bearing unit so that the kinetic energy of the decoupled, free movement of the bearing unit can at least partially be transferred or exerted as mechanical energy to the substance within the bearing unit.
    Thus, the kinetic energy can be converted or converted into a mechanical force for encasing the substance or a solution. The effect of the mechanical force or energy generated in this way on the substance or solution brings about a dynamization or activation of the constituents or molecules contained. In particular, a machine, preferably automated, and reproducible encapsulation of the substance or solution for dynamization can thus be provided.
    Furthermore, the device can be provided with a control unit which is used to control the drive unit. The control unit can be designed with operating elements for operation and control by a user of the device. It is thus conceivable that the user switches the device on or off, a frequency of the cyclical movement of the drive unit or the bearing unit can be controlled, or other operating parameters of the device can be set manually by the user.
    According to a preferred embodiment, the drive unit is designed with a motor, in particular a stepping motor, a direct current geared motor or the like, and an eccentric disk, the motor being provided for the continuous or discontinuous drive of the eccentric disk. The eccentric disk is designed for non-positive and / or positive coupling with and decoupling from the bearing unit, so that the bearing unit can be moved temporarily, in particular cyclically, during a complete rotation of the eccentric disk.
    In particular, the eccentric disk can be designed such that the bearing unit for the driven or coupled movement phase can come into engagement with the eccentric disk in a rest state on the striking unit, and this engagement can be released for a free, non-driven or decoupled movement phase can.
    On the basis of the configuration of the eccentric disk, a cyclical movement of the bearing unit, including the coupling with and the decoupling from the bearing unit, can be provided.
    It is envisaged that the drive unit, in particular the eccentric disk, for coupling to the bearing unit engages positively and / or positively so that the bearing unit can be moved at least temporarily, in particular cyclically, in the vertical direction by means of the drive unit.
    The engagement or the coupling of the drive unit or the eccentric disk can take place at a lower reversal point of movement, in particular from a state of rest of the bearing unit on the impact unit. The decoupling or disengagement of the engagement of the drive unit or the eccentric disk from the bearing unit can take place at an upper reversal point.
    Accordingly, a driven, coupled movement of the storage unit is preferably provided in the vertical upward direction. A non-driven, decoupled, free movement of the bearing unit is preferably provided in the vertical downward direction. The free movement of the bearing unit can expediently be braked or stopped using the striking unit in the sense of the invention.
    In one embodiment, the bearing unit is movable by means of the drive unit through a temporary non-positive and / or positive engagement, in particular the eccentric disk, on the bearing unit in the vertical direction upwards, in particular against gravity.
    The free movement of the bearing unit, in particular after the at least force-technical decoupling from the drive unit, can be brought about by the action of the gravitational force or the force of gravity on the bearing unit. An acceleration of the bearing unit by gravity is used to apply the kinetic energy that is to be exerted or should act on the impact unit as a mechanical force or impact force on the substance or the (aqueous) solution.
    According to a further embodiment, the non-positive and / or positive engagement of the drive unit, in particular the eccentric disk, on the bearing unit at an upper reversal point of the vertical movement of the bearing unit is releasable, so that the bearing unit from the drive unit, in particular from the eccentric disk, temporarily is decoupled and is accelerated downward in the vertical direction by the action of an external force, in particular gravity or gravity.
    On the basis of the design of the drive unit or the eccentric disk, the bearing unit can be decoupled from the drive unit. The bearing unit is accelerated by the force of gravity or gravity acting in the vertical direction.
    In particular, the lifting height that is exerted on the bearing unit by means of the coupling with the eccentric disk can be 5 to 20 cm, preferably 5 to 15 cm, particularly preferably 10 to 12 cm.
    Furthermore, the storage unit can in particular have a mass between 2 and 20 kg, preferably a mass between 5 and 15 kg, particularly preferably a mass of 6 kg.
    The kinetic kinetic energy, which corresponds to the previously generated positional energy, is exerted as a mechanical force on the at least one substance or solution by means of the impact unit by sudden braking of the bearing unit. A reproducible, cyclically repeatable shifting can thus take place.
    In one embodiment, the non-positive and / or positive engagement of the drive unit on the bearing unit takes place for temporary, cyclical coupling with an, in particular constant or constant, frequency of 0.1 to 5 Hz, preferably with a frequency of 0 , 1 to 1 Hz, particularly preferably with a frequency of 0.33 Hz.
    [0029] In a preferred manner, the substance or (aqueous) solution can thus be mechanically shifted at a constant interval of 3 seconds in a safe, uniform and reproducible manner. In particular, the uniform distance between individual, successive encapsulation can be in a range from 1s to 10s.
    According to a preferred embodiment, the device has a guide unit for mechanical guidance of the movable bearing unit, in particular for mechanical guidance in the vertical direction.
    Thus, the bearing unit is mechanically guided by means of the guide unit during the at least force-technically decoupled, free, non-driven movement phase. The free movement, in particular through acceleration on the basis of gravity or gravity in the vertical direction, takes place in a guided manner along the guide unit.
    An expedient, reproducible shifting by sudden braking of the bearing unit on the striking unit is guaranteed. Furthermore, the appropriate, cyclically provided coupling or decoupling between the bearing unit and the drive unit can be ensured.
    In a further embodiment, the device has a receiving unit, wherein the at least one substance or (aqueous) solution can be arranged in the receiving unit and the receiving unit can be positioned along the storage unit.
    In particular, the receiving unit can be fixable, preferably screwable or clamped, on the bearing unit. The receiving unit can be provided as a fixed arrangement on the storage unit or as a removable arrangement on the storage unit.
    Furthermore, the receiving unit can be provided in combination with a removable, preferably non-positively and / or positively usable support stand or sample stand, in particular made of plastic, for a plurality of substances or solutions.
    Thus, the at least one substance or solution can be fixed in the device in an advantageous manner, so that a transfer of the kinetic energy of the bearing unit during braking by the impact unit can be transferred as mechanical force or mechanical energy into the substance or solution.
    According to one embodiment, the receiving unit has at least one material for shielding magnetic or electromagnetic fields, in particular brass or the like. In particular, the receiving unit can be designed as a completely lockable or lockable box, a lockable vessel or the like for completely encompassing or encapsulating the substance or solution.
    Thus, the substance or aqueous solution received within the receiving unit is protected from the action of magnetic or electromagnetic fields during the dynamization or mechanical encapsulation.
    According to a preferred embodiment, the impact unit is designed with at least one impact element, the impact element having an at least partially elastically deformable material, in particular rubber with a hardness between 80 and 100 Shore A, preferably with a hardness between 85 and 95 Shore A, particularly preferably with a hardness of 90 Shore A.
    In particular, the hardness of the at least one striking element can be selected such that when the bearing unit hits or brakes, preferably no, at least no substantial, rebounding, jumping up of the bearing unit or the like takes place. In this way, the kinetic kinetic energy of the bearing unit can essentially be converted into a mechanical force or energy for acting on the substance or solution on the basis of the impact unit.
    After the storage unit has been decoupled from the drive unit, the storage unit can have a positional energy and can be accelerated downward in the vertical direction by the force of gravity. In particular, the at least one impact element is designed such that the kinetic kinetic energy of the bearing unit with the at least one substance is transferred to the substance or solution essentially in the form of an impact force.
    The braking of the moving bearing unit by the impact unit can be understood as an at least substantially inelastic shock. In this way, an impact force can be transmitted to the substance or solution and mechanical entrapment can be achieved.
    In a secondary aspect of the invention, a method for the (mechanical) mixing of substances, in particular basic substances for the production of homeopathic medicaments, is provided by means of a device according to the invention.
    Thus, an automated and reproducible encapsulation of substances or mixtures or substances in general can be provided, in particular in order to achieve activation or dynamization of chemical compounds contained therein.
    In the following, further details of the invention will be explained with reference to the accompanying drawings.
    It shows schematically:
    Fig. 1 is a perspective external representation of a device for shuffling substances or Lö
    sings;
    FIG. 2 shows a perspective illustration of the device for whipping up substances or solutions; FIG.
    Fig. 3 is a side view of the device of Fig. 2; and
    4 shows a perspective illustration of the receiving unit with a support stand for the device
    according to FIGS. 1 and 2.
    In Fig. 1 is a perspective external representation of a device for shuffling 1 of substances or solutions is shown.
    In particular, the device 1 can be designed with a housing 2 and a control unit 3. The control unit 3 can be fixed to the housing or it can be expediently connected to the housing 2 or the device 1 as a separate module.
    In Fig. 2 is a perspective view of the device 1 for shuffling substances or solutions is shown.
    The device 1 has a drive unit 10, with a motor 10a and an eccentric 10b, a striking unit 20, with at least one striking element 20a and a striking plate 20b, a bearing unit 30, with a bearing plate 30a and an engaging element 30b, and a guide unit 40. Furthermore, a receiving unit 50 can expediently be arranged on the bearing unit 30, in particular on the bearing plate 30a, in particular screwable, clamped or the like.
    In addition, a removable support stand or sample stand, preferably made of plastic, for a plurality of substances or solutions can be provided in the receiving unit 50 (cf. FIG. 4). In this way, several substances or solutions can be conveniently stored and mechanically knocked over simultaneously by means of the device.
    According to FIG. 2, the device 1 can have a frame-like or scaffold-like basic structure for the arrangement of the individual components, in particular for the expedient arrangement of the drive unit 10 and the guide unit 40. Furthermore, individual components can be used as integral parts of the frame-like or scaffold-like basic structure the device 1 may be provided, in particular the striking unit 20 with the striking plate 20b.
    According to FIG. 2, the storage unit 30 is arranged along the guide unit 40 and guided in the vertical direction. The guide unit 40 can preferably provide a range of movement of the bearing unit 30 in the vertical direction of approximately 10 to 15 cm, in particular of 12 cm.
    The bearing plate 30a of the bearing unit 30 comes into contact with the at least one striking element 20a at a lower reversal point of movement along the guide unit 40. According to FIG. 2, several striking elements 20a, in particular four striking elements 20a, are arranged symmetrically distributed along the striking plate 20b.
    The striking elements 20a preferably have a rubber-like material with a hardness of 90 Shore A. Thus, in the event of an impact of the bearing unit 30 or the bearing plate 30a on the impact elements 20a, the kinetic energy of the bearing unit 30 can be converted into a mechanical force. The striking elements 20a are preferably designed to be so hard that the bearing unit 30 which impacts or is to be braked does not spring back or bounce. A direct energy or force conversion can be made available by means of the striking elements 20a or the striking unit 20.
    According to FIG. 2, the motor 10a of the drive unit 10 is provided for continuously or discontinuously driving the eccentric disk 10b.
    The eccentric disk 10b can be provided as a disk-like structure or as a grid-like structure.
    The eccentric disk 10b is designed in such a way that the eccentric disk 10b can be coupled or engaged at a lower reversal point of the bearing unit 30 along the guide unit 40. In particular, the eccentric disk 10b can engage the at least one engagement element 30b in a non-positive and / or form-fitting manner. The engagement element 30b can be designed as a rotatable roller, a stationary roller or the like on the bearing unit 30.
    The engagement or the coupling by the eccentric disk 10b accordingly takes place in a rest state of the bearing unit 30, which rests on the striking unit 20 or the striking elements 20a.
    By driving and rotating the eccentric disk 10b, the bearing unit 30 can be moved along the guide unit 40 in the vertical direction. The eccentric disk 10b can be driven discontinuously by means of the motor 10a
    ben so that the eccentric disk 10b is temporarily stationary or the motor 10a does not drive the eccentric disk 10b at times. Alternatively, the eccentric disk 10b can be driven continuously or continuously by means of the motor 10a.
    At an upper reversal point of movement along the guide unit, a force-technical decoupling of the eccentric disk 10b from the bearing unit 30 or the engagement element 30b can take place. In particular, the eccentric disk 10b is designed in such a way that a non-positive and / or positive engagement at the upper movement reversal point is released.
    After the engagement or the decoupling between the eccentric disk 10b and the bearing unit 30 or the engagement element 30b has been released, a free or decoupled movement of the bearing unit 30 is possible.
    After decoupling, the bearing unit is accelerated in the vertical direction by the force of gravity or gravity. The positional energy previously generated by the drive unit 10 is converted into kinetic kinetic energy of the bearing unit 30. The bearing unit 30 follows a free fall in the direction of the striking unit 20 or the striking elements 20a.
    Since the bearing unit 30 hits the striking unit 20 or striking elements 20a at the lower reversal point of movement along the guide unit 40, the substances or (aqueous) solutions stored in the receiving unit 50 are mechanically entangled.
    3 shows a side view of the device according to FIG. 2.
    In particular, the non-positive and / or positive engagement between eccentric disk 10b and bearing unit 30 or engagement element 30b is shown at the end of the coupling phase. The storage unit 30 is at the maximum lifting height and has the maximum positional energy.
    If the eccentric disk 10b continues to rotate by means of the motor 10a in FIG. 3, the decoupling takes place between the eccentric disk 10b and the engagement element 30b of the bearing unit 30. The bearing unit 30 can then free fall up to the striking unit 20 along the guide unit or linear guide 40 follow.
    4 is a perspective illustration of the receiving unit 50 with a carrying basket or carrying stand 60 for the device according to FIGS. 1 and 2.
    The receiving unit 50 is designed with a lower part and a removable cover. In addition, the support stand or sample stand 60, preferably made of plastic, can be inserted into the receiving unit 50 for a plurality of substances or solutions.
    In particular, the receptacle of the support stand 60 in the receptacle unit 50 can be designed with an accurate fit. In this way, the support stand 60 can be prevented from slipping within the receiving unit 50 during mechanical locking and an optimal transmission of force to the substance or the solution can be ensured.
    The support stand or sample stand 60 can be provided according to FIG. 4 for the arrangement of six different substances or solutions. Furthermore, the support stand can be designed for four, eight, ten or more samples.
    It is preferably provided that the substances or solutions can be accommodated in vessels with a volume of approx. 10 ml in the support stand.
    In summary, an expedient mechanical entrapment of substances or solutions can be provided by means of the present invention. In this way, basic substances for homeopathic medicines in particular can be dynamized sufficiently and in a reproducible manner. Furthermore, the dynamization can be carried out in a simple, inexpensive and time-saving manner.
    List of reference symbols
    [0074]
    1 device
    2 housings
    3 control unit
    10 drive unit
    10a engine
    10b eccentric disc
    20 impact unit
    20a impact element
    20b impact plate
    30 storage unit
    30a bearing plate
    30b engagement element
    40 management unit
    50 pickup unit
    权利要求:
    Claims (10)
    [1]
    1. Device (1) for whipping up at least one substance, in particular basic substances for the production of homeopathic medicines, with a drive unit (10), a striking unit (20), a storage unit (30) for receiving and storing at least one substance, the drive unit (10) is designed for at least intermittent, in particular cyclical, non-positive and / or form-fitting coupling with the bearing unit (30) in such a way that the bearing unit (30) can be moved at least intermittently, in particular cyclically, by means of the drive unit (10), and wherein the impact unit (20) for braking a movement, in particular a non-driven movement, preferably decoupled from the drive unit (10), of the bearing unit (30) is provided in such a way that a mechanical force, in particular an essentially kinetic kinetic energy of the bearing unit (30) ) corresponding mechanical force on which at least one substance can be exerted.
    [2]
    2. Apparatus according to claim 1, characterized in that
    the drive unit (10) is designed with a motor (10a), in particular a stepping motor, a direct current gear motor or the like, and an eccentric disk (10b),
    wherein the motor (10a) is provided for driving the eccentric disk (10b),
    and wherein the eccentric disk (10b) is designed for non-positive and / or positive coupling with and decoupling from the bearing unit (30), so that the bearing unit (30) can be moved temporarily, in particular cyclically, during a complete rotation of the eccentric disk (10b).
    [3]
    3. Device (1) according to claim 1 or 2, characterized in that the bearing unit (30) by means of the drive unit (10) by a temporary non-positive and / or positive engagement, in particular the eccentric disk (10b), on the bearing unit (30 ) can be moved upwards in the vertical direction, in particular against gravity.
    [4]
    4. Device (1) according to claim 3, characterized in that the non-positive and / or positive engagement of the drive unit (10), in particular the eccentric disk (10b), on the bearing unit (30) at an upper reversal point of the vertical movement of the bearing unit (30) is detachable so that the bearing unit (30) is temporarily decoupled from the drive unit (10), in particular from the eccentric disk (10b), and is accelerated downwards in the vertical direction by the action of an external force, in particular gravity.
    [5]
    5. Device (1) according to one of the preceding claims, characterized in that the non-positive and / or positive engagement of the drive unit (10) on the bearing unit (30) for temporary, cyclical coupling with a frequency in a range of 0.1 to 5 Hz, preferably from 0.1 to 1 Hz, particularly preferably at a frequency of 0.33 Hz.
    [6]
    6. Device (1) according to one of the preceding claims, characterized in that the device (1) has a guide unit (40) for mechanical guidance of the movable bearing unit (30), in particular for mechanical guidance in the vertical direction.
    [7]
    7. Device (1) according to one of the preceding claims, characterized in that the device (1) has a receiving unit (50), wherein the at least one substance can be arranged in the receiving unit (50) and the receiving unit (50) along the storage unit (30) can be positioned.
    [8]
    8. Device (1) according to claim 7, characterized in that the receiving unit (50) has at least one material for shielding magnetic fields, in particular brass or the like.
    [9]
    9. Device (1) according to one of the preceding claims, characterized in that
    the striking unit (20) is designed with at least one striking element (20a),
    wherein the striking element (20a) has an at least partially elastically deformable material, in particular rubber with a hardness of 80 to 100 Shore A, preferably with a hardness of 85 to 95 Shore A, particularly preferably with a hardness of 90 Shore A.
    [10]
    10. A method for mixing at least one substance, in particular basic substances for the production of homeopathic medicaments, by means of a device (1) according to one of the preceding claims.
    类似技术:
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    同族专利:
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    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    DE395540C|1921-12-31|1924-05-30|Ernst Heubach|Device with which substances of all types and shapes are exposed to a shaking movement and a beating or centrifugal effect at the same time for the purpose of sieving, mixing, separating and comminuting|
    IL119836A|1996-12-15|2000-08-13|Vibtec Engineering Ltd|Integrated vibratory adaptor device|
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    KR20160103135A|2014-03-07|2016-08-31|도요세이칸 그룹 홀딩스 가부시키가이샤|Cell culture method and cell culture device|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    DE102019126212.7A|DE102019126212A1|2019-09-27|2019-09-27|Device and method for whipping substances|
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