RU2296700C1 - Vessel closure - Google Patents

Abstract

FIELD: closing of vessels.

SUBSTANCE: invention relates to design of closures for vessels containing liquid. Proposed closure for vessel has cover to be fitted on vessel. Sealed capsule arranged in drain channel of vessel accommodates radiation unit, first supply unit, first control unit and element sensitive to radiation includes into starting unit. Other elements of starting unit are installed from back side of vessel bottom. They include are least one radiation element, second supply unit, second control unit connected to second supply unit electrically coupled with at least one element responsive to external action. Radiation elements installed from back side of vessel are coupled through vessel with element sensitive to radiation and installed in sealed capsule.

EFFECT: reduced power consumption from unit arranged in sealed capsule at waiting mode reduced dimensions of capsule.

3 cl, 3 dwg

Description

The invention relates to the food industry and relates to the design of closures for closing vessels containing liquids.

Known valve for vessels in the form of a plastic cover containing a housing with an internal drain channel for liquid / 1 /.

Its disadvantage lies in the narrow functional purpose associated with closing, opening and draining of the liquid, limiting its consumer properties.

The closest object to the purpose and functional properties is a valve for vessels, containing a cover for mounting on a vessel, a first power supply connected through a first control unit to a radiation unit connected to the radiation distribution channel with the outlet of the vessel drain channel, a launch unit connected to the first block control, while the radiation unit, the power supply and part of the elements of the launch unit are installed in a sealed capsule installed in the drain channel of the vessel, the part of the launch unit, which is installed in sealed capsule contains a radiation sensitive element / 2 /.

This shutter has several disadvantages. So, if the start-up unit is made in the form of a generator that constantly works, then due to energy consumption from batteries that are irreplaceable in a sealed capsule, the shutter service life is limited in time (the actual service life is less than 1 year). When using a key element and a magnet sensitive to magnetic flux as a trigger block, the dimensions of the shutter increase significantly, which makes it difficult to install it in a regular bottle.

The problem to which the invention is directed, is associated with a change in the design of the shutter, leading to a decrease in the dimensions of that part (sealed capsule) that is installed in the drain channel of the vessel.

The technical result consists in a significant reduction in energy consumption from a power supply located in a sealed chamber for standby (when the liquid does not spill out of the vessel).

The specified technical result is achieved by the fact that in the valve for vessels containing a cover for mounting on the vessel, the first power supply connected through the first control unit to the radiation unit connected to the radiation distribution channel with the output of the drain channel of the vessel, the trigger unit connected to the first control unit wherein the radiation unit, the first power supply, the first control unit and part of the elements of the launch unit are installed in a sealed capsule located in the drain channel of the vessel, the part of the launch unit, which is installed it is contained in a sealed capsule, contains a radiation-sensitive element, part of the elements of the launch unit not located in the sealed capsule are installed on the back of the bottom of the vessel and contain at least one radiation element connected through the vessel with a radiation-sensitive element installed in the sealed capsule, wherein the radiation element and the second power supply are connected to the second control unit, electrically connected to at least one element that responds to external influences.

It is advisable that the element that responds to external influences, was made in the form of an electric button.

It is also advisable that the element that responds to external influences, was made in the form of a tilt sensor (pendulum switch).

Figure 1 presents a General view of the shutter installed in the vessel. Figure 2 - block diagram of the electrical part of the shutter. Figure 3 presents a General view of a sealed capsule with a locking element that secures the capsule in the drain channel of the vessel.

The shutter includes a removable cover 1, the first power supply 2, connected through the first control unit 3 to the radiation unit 4, connected to the radiation distribution channel with the output of the drain channel 5 of the vessel 6. The shutter contains a trigger unit 7, connected to the first control unit 3. Block radiation 4, the first power supply 2, the first control unit 3 and part of the elements of the start-up unit are installed in a sealed capsule 8 located in the drain channel 5 of the vessel 6. The part of the start-up block 7, which is installed in the sealed capsule 8, contains a sensitive radiation element 9, part of the elements of the launcher 7, not placed in the sealed capsule 8, are installed on the back side of the bottom of the vessel 6 and contain at least one radiation element 10 connected through the vessel 6 to the radiation-sensitive element 9 installed in the sealed capsule 8, wherein the radiation element 10 is connected to the second control unit 11, electrically connected to the second power supply unit 12 and at least one element 13 that is responsive to external influences. Element 10, blocks 11, 12, 13 are installed in a protective housing 14, fastened to the bottom of the vessel 6.

The sealed capsule 8 (Fig. 3) contains a fixing element 15 (has a cylindrical shape), which tightly (with force) enters the drain channel 5 of the vessel 6 and does not fall into the vessel 6 due to the protruding edge 16, the outer diameter of which is larger than the inner diameter drain channel 5. In the fixing element 15 there are holes (at the base of the cylinder 15, not shown in FIG. 3) for free flow of fluid. The locking element 15 is located on the output side of the radiation unit 4. The ends of the sealed capsule 8 are made of radiation-transparent material.

Power supplies 2, 12 are battery.

The radiation unit 4 may consist of one or more visible or infrared light emitting diodes for controlling an external object, for example, drinking water according to the patent of the Russian Federation No. 2098005. The radiation unit 4 can also be made in the form of an ultrasonic emitter (to control the object).

The radiation sensitive element 9 can be made in the form of a photodiode or in the form of an ultrasonic signal receiver.

The radiation element 10 can be made in the form of an LED or in the form of an ultrasonic emitter.

The control units 3 and 11 can be made on the basis of microcontrollers.

The control unit 11 may include a sound transducer (piezodynamic or piezoelectric ring).

The operation of the shutter for blood vessels is as follows.

In the initial state, the lid 1 closes the neck of the vessel 6, which is located on the surface. In this case, one of the elements 13, made, for example, in the form of an electric button, disconnects the power supply 12 from the control unit 11, and the start-up unit 7 does not work. Elements 3, 4, 9 are in standby mode, corresponding to low power consumption from power supply 2. When lifting the vessel 6, the control unit 11 is connected to the power supply 12. Unit 11 is in standby mode. When tilting the vessel 6, corresponding to the process of pouring liquid from the vessel 6 (the cover 1 is removed), another element 13 responds to the tilt, made, for example, in the form of a pendulum switch, the contacts of which close when tilted, which corresponds to the supply of the trigger signal (for example, the corresponding input of block 11 is connected through them to a common bus). In this case, the block 11 generates control signals for the radiation element 10, from the output of which the radiation enters through the radiation propagation channel to the radiation sensitive element 9, from the output of which the signal triggers the control unit 3. The control element is sent to the radiation element 4 from the output of the block 3. In this case, the element 4 generates radiation at its output, which enters the jet of the liquid flowing from the vessel 6. If the control unit 11 contains a piezoelectric transducer and sound messages (melodies or toasts) are recorded in the microcontroller of unit 11, then a melody or toasts will sound during operation of the device. When installing the vessel 6 on the surface, the element 13, made in the form of an electric button, trips and disconnects the block 11 from the power supply 12. From the output of the element 10 no longer receives radiation to the element 9, the control unit 3 ceases to generate control signals for the radiation element 4, which ceases to emit radiation.

INFORMATION SOURCES

1. RF patent No. 2133701, Cl. B65D 41/38, 1999

2. RF patent No. 2252905, Cl. B65D 41/00, 2005

Claims (3)

1. A valve for vessels, comprising a cover for mounting on a vessel, a first power supply unit connected through a first control unit to a radiation unit connected to a radiation propagation channel with an outlet of a vessel drain channel, a trigger unit connected to a first control unit, wherein the radiation unit, the first power supply, the first control unit and part of the elements of the start-up unit are installed in a sealed capsule located in the drain channel of the vessel, the part of the start-up unit, which is installed in a sealed capsule, contains sensitive to radiation element, characterized in that part of the elements of the launch unit, not placed in a sealed capsule, is installed on the back of the bottom of the vessel and contains at least one radiation element connected through a vessel with a radiation-sensitive element installed in a sealed capsule, while the radiation element and the second power supply is connected to a second control unit, electrically connected to at least one element that responds to external influences. 2. The valve for vessels according to claim 1, characterized in that the element that responds to external influences is made in the form of an electric button. 3. The valve for vessels according to claim 1, characterized in that the element that responds to external influences is made in the form of a tilt sensor.

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