CN114987806A - Tea caddy for intelligently dehumidifying and automatically and quantitatively taking tea - Google Patents

Abstract

The invention belongs to the technical field of tea caddies, and particularly relates to a tea caddy for intelligently dehumidifying and automatically and quantitatively taking tea. The sorting screening device comprises a tank body, an upper cover arranged above the tank body, a lower shell arranged below the tank body, a support arranged below the lower shell, a sorting screening hopper arranged in the lower shell, an eccentric wheel mechanism, a rolling mechanism and a circuit board; the eccentric wheel mechanism is connected with the rolling mechanism; the eccentric wheel mechanism and the rolling mechanism are both positioned below the sequencing screening hopper; a dehumidification dryer and a humidity sensor are arranged in the tank body; a pressure sensor is arranged in the rolling mechanism; an infrared distance measuring sensor is arranged on the inner end face of the upper cover; and the circuit board is provided with a central microprocessor and a sensor interface. The intelligent tea leaf box has the characteristics of simple structure, simplicity and convenience in operation, and capability of realizing intelligent dehumidification and drying and monitoring of the tea leaf allowance in the tea leaf box in real time.

Description

Tea caddy for intelligently dehumidifying and automatically and quantitatively taking tea

Technical Field

The invention belongs to the technical field of tea caddies, and particularly relates to a tea caddy for intelligently dehumidifying and automatically and quantitatively taking tea.

Background

In daily life, a tea caddy is a container for storing tea leaves. When the tea leaves are taken, the amount of the taken tea leaves is difficult to grasp no matter the tea leaves are directly taken by hands or scooped by a spoon; when few tea leaves are in the tea caddy, the tea caddy is difficult to take out; and use these two kinds of modes to take tealeaves, not only can produce relevant sanitary problem, can lead to the fact the damage to the integrality of tealeaves to a certain extent moreover for bottom in the tea caddy can produce the garrulous end often, regular uncapping takes tea and also can lead to tealeaves to wet, can seriously influence the quality of the tea of making out like this when making tea with the tealeaves.

In order to solve the above problems, related researchers have proposed a series of solutions in the direction of how tea cans automatically give out tea leaves quantitatively and ensure the integrity of the tea leaves when the tea leaves are taken out. For example, chinese patent document with application number CN201610357542.3 describes an intelligent tea caddy based on the internet of things, and this tea caddy includes electromagnetic lock, sensor group, heating equipment and circuit board etc. the sensor group includes humidity transducer and distance sensor, though can real-time supervision tealeaves humiture and interior tealeaves capacity information such as tea, feed back to the user again, above-mentioned technical scheme can't realize the function of automatic ration getting tealeaves to circuit structure is complicated, complex operation.

For another example, chinese patent application No. CN201720032272.9 describes a tea caddy for automatically dispensing tea quantitatively, in which a rotating shaft turntable is mounted in an inner cavity of a caddy body, so that tea leaves are transported by rotation of the turntable, and desired tea leaves are poured out from a discharge hole. Although above-mentioned technical scheme simple structure, convenient to use, and can take out by the ration, in above-mentioned technical scheme, still need the manual work to carry out the ration of tealeaves through first discharge opening and second discharge opening and take out the process to unable automatic ration ejection of compact of realizing completely, and people's hand still can with tealeaves contact, not only can influence tealeaves flavor, also can lead to sanitary problem, does not have the dehumidification and detect interior tealeaves surplus function of jar.

For example, chinese patent application No. CN202121652895.9 describes a tea caddy in which a fixed amount of tea leaves is obtained by rotating a rotary plate that accommodates a fixed amount of tea leaves in a caddy body at a fixed inclination angle so that the fixed amount of tea leaves flows into a guide chute. Although above-mentioned technical scheme structure is still simple, the simple operation to avoided the direct contact of people with tealeaves, still can't accomplish more meticulous automatic ration and take out tealeaves, there is the waste in tealeaves jar inner chamber space moreover, and the structure is compact enough, and occupation space is big, also does not have functions such as dehumidification and interior tealeaves surplus of detection jar.

Therefore, the tea caddy for intelligently dehumidifying and automatically and quantitatively taking tea leaves, which can realize intelligent dehumidification and drying and real-time monitoring of tea leaf allowance in the tea caddy, is designed, and is very important.

Disclosure of Invention

The invention aims to solve the problems of single function and low intelligent level of the existing tea caddy in the prior art, and provides the tea caddy which has a simple structure and is simple and convenient to operate, and can realize intelligent dehumidification and drying and real-time monitoring of the tea leaf allowance in the tea caddy and is used for intelligently dehumidifying and automatically and quantitatively taking tea leaves.

In order to achieve the purpose, the invention adopts the following technical scheme:

the tea caddy comprises a caddy body, an upper cover arranged above the caddy body, a lower shell arranged below the caddy body, a support arranged below the lower shell, a sequencing screening hopper arranged in the lower shell, an eccentric wheel mechanism, a rolling mechanism and a circuit board;

the eccentric wheel mechanism is connected with the rolling mechanism; the eccentric wheel mechanism and the rolling mechanism are both positioned below the sequencing screening hopper;

a dehumidification dryer and a humidity sensor are arranged in the tank body;

a pressure sensor is arranged in the rolling mechanism;

an infrared distance measuring sensor is arranged on the inner end face of the upper cover;

the circuit board is provided with a central microprocessor and a sensor interface; the central microprocessor is electrically connected with the sensor interface; the humidity sensor, the humidity sensor and the infrared distance measuring sensor are all electrically connected with the sensor interface; the dehumidification dryer is electrically connected with the central microprocessor.

Preferably, the tank body is in a cuboid shape as a whole; the bottom of the tank body is hollow; the humidity sensor is positioned on the side surface of the inner cavity of the tank body; an interlayer is arranged on the side surface of the tank body; the dehumidification dryer is located in the interlayer.

Preferably, the eccentric wheel mechanism comprises a push rod, a connecting rod and a crank; the connecting rod is hinged with the crank through a first connecting shaft hole; the push rod is hinged with the connecting rod through the second connecting shaft hole.

Preferably, the lower casing is a rectangular parallelepiped as a whole; the lower shell is provided with a button for controlling the rolling mechanism to work; the rear side surface of the lower shell is provided with a limiting block for limiting the transverse movement of a push rod in the eccentric wheel mechanism; a raised square box is arranged on the right side surface of the lower shell, and the circuit board is positioned inside the raised square box; the downside of casing is equipped with square discharge gate down.

Preferably, the sequencing screen hopper is fixed below the tank body; the sorting screen hopper comprises a rubber inclined plane and a plurality of groups of vertical sorting plates; the rubber bevel is in a quadrangular pyramid shape; the rubber inclined plane inlet is connected with the lower part of the tank body; the upper part of each group of vertical sequencing plates is connected with a rubber inclined plane outlet; and the lower part of each group of vertical sequencing plates is connected with a push rod of the eccentric wheel mechanism.

Preferably, the upper cover is rectangular; the button battery is arranged on the inner end face of the upper cover and used for independently supplying power to the infrared distance measuring sensor; the upper cover is also provided with a magnetic electronic lock, and when the upper cover is buckled into the tank body, the magnetic electronic lock is attracted.

Preferably, the support comprises a base and a pillar; the base is connected with the lower shell through the support.

Preferably, the rolling mechanism comprises a support frame, a speed reducing motor arranged on the support frame, a long rotating shaft, a rolling inner ring and a rubber rolling outer ring; the speed reducing motor is connected with the rolling inner ring through a long rotating shaft; the rubber rolling outer ring is positioned outside the rolling inner ring; and a crank in the eccentric wheel mechanism is fixed at the tail part of the long rotating shaft in the speed reducing motor.

Preferably, the central microprocessor includes:

the intelligent feeding module is used for measuring the pressure generated when the rolling mechanism produces tea leaves according to the pressure sensor, comparing the accumulated pressed time with a preset pressed time threshold value, and controlling the rolling mechanism to stop rotating after the threshold value is reached;

the intelligent dehumidification module is used for remotely sending tea wetting information to the intelligent equipment after judging that the tea is wetted according to a comparison result of a detection value of the humidity sensor and a preset humidity threshold value, and starting the dehumidification dryer to dehumidify;

the tea leaf surplus measuring module is used for measuring the distance between the cover opening of the upper cover and the upper surface layer of tea leaves in the tank body according to the infrared distance sensor, calculating the tea leaf surplus according to the measured distance information, and combining the pressure information of the pressure sensor in the intelligent feeding module to remotely send the tea leaf surplus information to the intelligent device.

Compared with the prior art, the invention has the beneficial effects that: (1) when the tea taking device is used for taking tea, the purpose of automatically and accurately taking the tea is realized on the premise of ensuring the integrity of the taken tea, the operation is more convenient and faster, and the structure is simpler; (2) the intelligent level of the invention is higher, and the functions of intelligent dehumidification and drying and real-time monitoring of the tea leaf allowance in the tea canister are realized; (3) the invention avoids the sanitary problem that hands contact with tea leaves.

Drawings

FIG. 1 is a schematic view of a tea caddy for intelligent dehumidification and automatic dosing of tea leaves in accordance with the present invention;

FIG. 2 is a schematic view of an assembly of the sequencing hopper and rolling mechanism of the present invention;

FIG. 3 is a schematic view of an eccentric wheel mechanism according to the present invention;

FIG. 4 is a schematic view of a dehumidifying dryer inside a side wall of a tank body according to the present invention;

FIG. 5 is a schematic view of a humidity sensor mounted on a side surface of a tank according to the present invention;

fig. 6 is a schematic structural diagram of the upper cover of the present invention.

In the figure: the device comprises an upper cover 1, a tank body 2, a lower shell 3, a support 4, a sequencing screening hopper 5, an eccentric wheel mechanism 6, a rolling mechanism 7, a dehumidifying dryer 9, a circuit board 10, a power supply 11, a button 31, a discharge port 32, a base 41, a support column 42, a rubber inclined plane 51, a vertical sequencing plate 52, a push rod 61, a first connecting shaft hole 62, a connecting rod 63, a second connecting shaft hole 64, a crank 65, a long rotating shaft 71, a rolling inner ring 72, a rubber rolling outer ring 73, a speed reducing motor 74, a support frame 75, a pressure sensor 81, a humidity sensor 82 and an infrared distance measuring sensor 83.

Detailed Description

In order to more clearly illustrate the embodiments of the present invention, the following description will explain the embodiments of the present invention with reference to the accompanying drawings. It is obvious that the drawings in the following description are only some examples of the invention, and that for a person skilled in the art, other drawings and embodiments can be derived from them without inventive effort.

Example (b):

as shown in fig. 1, the invention provides a tea caddy for intelligently dehumidifying and automatically quantitatively taking tea leaves, which comprises a caddy body 2, an upper cover 1 arranged above the caddy body, a lower shell 3 arranged below the caddy body, a support 4 arranged below the lower shell, a sorting and screening hopper 5 arranged in the lower shell, an eccentric wheel mechanism 6, a rolling mechanism 7 and a circuit board 10;

the eccentric wheel mechanism is connected with the rolling mechanism; the eccentric wheel mechanism and the rolling mechanism are both positioned below the sequencing screening hopper;

a dehumidifying dryer 9 and a humidity sensor 82 are arranged in the tank body;

a pressure sensor 81 is arranged in the rolling mechanism;

an infrared distance measuring sensor 83 is arranged on the inner end face of the upper cover;

the circuit board is provided with a central microprocessor and a sensor interface; the central microprocessor is electrically connected with the sensor interface; the humidity sensor, the humidity sensor and the infrared distance measuring sensor are all electrically connected with the sensor interface; the dehumidification dryer is electrically connected with the central microprocessor.

Further, the whole lower shell is in a cuboid shape; a button 31 for controlling the rolling mechanism to work is arranged on the lower shell; the rear side surface of the lower shell is provided with a limiting block for limiting the transverse movement of a push rod in the eccentric wheel mechanism; a raised square box is arranged on the right side surface of the lower shell, and the circuit board is positioned inside the raised square box; the lower side of the lower housing is provided with a square discharge outlet 32. The whole lower shell is a cuboid thin-wall container.

Further, as shown in fig. 2, the sequencing screen hopper is fixed below the tank body; the sorting screen bucket comprises a rubber inclined plane 51 and a plurality of groups of vertical sorting plates 52; the rubber bevel is in a quadrangular pyramid shape and is in a thin-wall shape; the rubber inclined plane inlet is connected with the lower part of the tank body; the upper part of each group of vertical sequencing plates is connected with a rubber inclined plane outlet; and the lower part of each group of vertical sequencing plates is connected with a push rod of the eccentric wheel mechanism. In addition, each set of vertical sequencing plates is positioned at the center of the two rolling mechanisms and is parallel to the central rolling axis.

The rolling mechanism comprises a support frame 75, a speed reducing motor 74 arranged on the support frame, a long rotating shaft 71, a rolling inner ring 72 and a rubber rolling outer ring 73; the speed reducing motor is connected with the rolling inner ring through a long rotating shaft; the rubber rolling outer ring is positioned outside the rolling inner ring; and a crank in the eccentric wheel mechanism is fixed at the tail part of the long rotating shaft in the speed reducing motor. The rolling inner ring is fixed on the long rotating shaft, the pressure sensor is fixed on the rolling inner ring, the rubber rolling outer ring is fixed on the pressure sensor, the rolling inner ring, the rubber rolling outer ring, the pressure sensor and the long rotating shaft do not rotate relatively, and the speed reduction motor is fixed on the support frame.

As shown in fig. 3, the eccentric wheel mechanism includes a push rod 61, a connecting rod 63, and a crank 65; the connecting rod is hinged with the crank through a first connecting shaft hole 62; the push rod is hinged with the connecting rod through a second connecting shaft hole 64. The push rod is limited by a limiting block of the lower shell. When the speed reducing motor works, the rolling is driven to rotate, meanwhile, the crank is driven to rotate circumferentially at the other side, and the push rod pushes the sequencing screening hopper to vibrate up and down. The sensor group comprises a pressure sensor, a humidity sensor and an infrared distance measuring sensor, and the sensor group and the dehumidifying dryer are connected with the circuit board. The circuit board comprises a central microprocessor, a sensor interface, a clock module and a communication module for connecting with the intelligent equipment through the internet; the circuit board and the power supply 11 are symmetrically fixed on two sides of the support frame respectively.

As shown in fig. 4, the whole tank body is rectangular; the bottom of the tank body is hollow; the humidity sensor is positioned on the side surface of the inner cavity of the tank body; an interlayer is arranged on the side surface of the tank body; the dehumidification dryer is located within the barrier. The dehumidifying dryer is connected with the circuit board through interlayer wires in the two side faces of the tank body.

As shown in FIG. 5, the humidity sensors of the present invention are disposed on the left and right sides of the tank, and the humidity sensors are connected to the circuit board through wires disposed in the partitions on the two sides of the tank.

As shown in fig. 6, the upper cover is rectangular; the button battery is arranged on the inner end face of the upper cover and used for independently supplying power to the infrared distance measuring sensor; the upper cover is also provided with a magnetic electronic lock, when the upper cover is buckled into the tank body, the magnetic electronic lock is attracted, the infrared distance measuring sensor works, and the detected distance information is remotely communicated to the central microprocessor.

Further, the support includes a base 41 and a pillar 42; the base is connected with the lower shell through the support.

Further, the central microprocessor includes:

the intelligent feeding module is used for measuring the pressure generated when the rolling mechanism produces tea leaves according to the pressure sensor, comparing the accumulated pressed time with a preset pressed time threshold value, and controlling the rolling mechanism to stop rotating after the threshold value is reached;

the intelligent dehumidification module is used for remotely sending tea wetting information to the intelligent equipment after judging that the tea is wetted according to a comparison result of a detection value of the humidity sensor and a preset humidity threshold value, and starting the dehumidification dryer to dehumidify;

and the tea leaf surplus measuring module is used for measuring the distance between the cover opening of the upper cover and the upper surface of tea leaves in the tank body according to the infrared distance sensor, calculating the tea leaf surplus according to the measured distance information, and combining the pressure information of the pressure sensor in the intelligent feeding module to remotely send the tea leaf surplus information to the intelligent equipment.

The specific working principle of the invention is as follows:

as shown in fig. 1 to 6, when the invention works, the upper cover is firstly pulled out, the magnetic electronic lock is disconnected, and the infrared distance measuring sensor stops working after power failure. Pouring a proper amount of tea into the tank body, covering the upper cover, closing the magnetic electronic lock, electrifying the infrared distance measuring sensor to work, and monitoring the tea residue in the tank in real time. The button of casing department is pressed, gear motor circular telegram is rotated, drive rolling inner circle and crank rotation, the push rod drives the shake of sequencing sieve fill, tealeaves slides in vertical sequencing board along rubber inclined plane, tealeaves is the vertical two rolls that fall into of slice this moment between, measure the rolling pressure that produces when extruding tealeaves according to the embedded pressure sensor of rolling, and through the preset pressurized time threshold value of pressurized time contrast, after reaching the threshold value, control rolling mechanism stall, and then extrude accurate ration and complete tealeaves.

When the tea taking device is used for taking tea, the purpose of automatically and accurately taking the tea is realized on the premise of ensuring the integrity of the taken tea, the operation is more convenient and faster, and the structure is simpler; the intelligent level of the invention is higher, and the functions of intelligent dehumidification and drying and real-time monitoring of the tea leaf allowance in the tea canister are realized; the invention avoids the sanitary problem that hands contact with tea leaves.

The foregoing has outlined rather broadly the preferred embodiments and principles of the present invention and it will be appreciated that those skilled in the art may devise variations of the present invention that are within the spirit and scope of the appended claims.

Claims (9)

1. The tea caddy is characterized by comprising a caddy body, an upper cover arranged above the caddy body, a lower shell arranged below the caddy body, a support arranged below the lower shell, a sequencing screening hopper arranged in the lower shell, an eccentric wheel mechanism, a rolling mechanism and a circuit board;

the eccentric wheel mechanism is connected with the rolling mechanism; the eccentric wheel mechanism and the rolling mechanism are both positioned below the sequencing screening hopper;

a dehumidification dryer and a humidity sensor are arranged in the tank body;

a pressure sensor is arranged in the rolling mechanism;

an infrared distance measuring sensor is arranged on the inner end face of the upper cover;

the circuit board is provided with a central microprocessor and a sensor interface; the central microprocessor is electrically connected with the sensor interface; the humidity sensor, the humidity sensor and the infrared distance measuring sensor are all electrically connected with the sensor interface; the dehumidification dryer is electrically connected with the central microprocessor.

2. The tea caddy for intelligently dehumidifying and automatically dosing tea leaves as claimed in claim 1, wherein the caddy body is cuboid in shape as a whole; the bottom of the tank body is hollow; the humidity sensor is positioned on the side surface of the inner cavity of the tank body; an interlayer is arranged on the side surface of the tank body; the dehumidification dryer is located in the interlayer.

3. The tea caddy for intelligent dehumidification and automatic dosing of tea according to claim 1, wherein said eccentric mechanism comprises a push rod, a connecting rod and a crank; the connecting rod is hinged with the crank through a first connecting shaft hole; the push rod is hinged with the connecting rod through the second connecting shaft hole.

4. The tea caddy for intelligently dehumidifying and automatically dosing tea according to claim 3 wherein the lower housing is generally cuboid-shaped; the lower shell is provided with a button for controlling the rolling mechanism to work; the rear side surface of the lower shell is provided with a limiting block for limiting the transverse movement of a push rod in the eccentric wheel mechanism; a raised square box is arranged on the right side surface of the lower shell, and the circuit board is positioned inside the raised square box; the downside of casing is equipped with square discharge gate down.

5. The tea caddy for intelligent dehumidification and automatic dosing of tea leaves as claimed in claim 3 or 4, wherein said sequencing screen hopper is fixed below the caddy body; the sorting screen hopper comprises a rubber inclined plane and a plurality of groups of vertical sorting plates; the inclined rubber surface is in a quadrangular pyramid shape; the rubber inclined plane inlet is connected with the lower part of the tank body; the upper part of each group of vertical sequencing plates is connected with a rubber inclined plane outlet; and the lower part of each group of vertical sequencing plates is connected with a push rod of the eccentric wheel mechanism.

6. The tea caddy for intelligent dehumidification and automatic dosing of tea according to claim 1, wherein said upper lid is cuboid shaped; the button battery is arranged on the inner end face of the upper cover and used for independently supplying power to the infrared distance measuring sensor; the upper cover is also provided with a magnetic electronic lock, and when the upper cover is buckled into the tank body, the magnetic electronic lock is attracted.

7. The tea caddy for intelligent dehumidification and automatic dosing of tea according to claim 1, wherein said support comprises a base and a post; the base is connected with the lower shell through the support.

8. The tea caddy for intelligently dehumidifying and automatically quantitatively taking tea leaves as claimed in claim 3, wherein the rolling mechanism comprises a supporting frame, a speed reduction motor arranged on the supporting frame, a long rotating shaft, a rolling inner ring and a rubber rolling outer ring; the speed reducing motor is connected with the rolling inner ring through a long rotating shaft; the rubber rolling outer ring is positioned outside the rolling inner ring; and a crank in the eccentric wheel mechanism is fixed at the tail part of the long rotating shaft in the speed reducing motor.

9. The tea caddy for intelligent dehumidification and automatic dosing of tea according to claim 1, wherein said central microprocessor comprises:

the intelligent feeding module is used for measuring the pressure generated when the rolling mechanism produces tea leaves according to the pressure sensor, comparing the accumulated pressed time with a preset pressed time threshold value, and controlling the rolling mechanism to stop rotating after the threshold value is reached;

the intelligent dehumidification module is used for remotely sending tea wetting information to the intelligent equipment after judging that the tea is wetted according to a comparison result of a detection value of the humidity sensor and a preset humidity threshold value, and starting the dehumidification dryer to dehumidify;

the tea leaf surplus measuring module is used for measuring the distance between the cover opening of the upper cover and the upper surface layer of tea leaves in the tank body according to the infrared distance sensor, calculating the tea leaf surplus according to the measured distance information, and combining the pressure information of the pressure sensor in the intelligent feeding module to remotely send the tea leaf surplus information to the intelligent device.

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