CN220124465U - Quantitative discharging mechanism for tea making machine - Google Patents

Abstract

The utility model relates to a quantitative discharging mechanism for a tea making machine, which relates to the field of tea making machines and mainly comprises a tea storage tank, a control panel, a weighing module and a signal processing module, wherein the control panel is used for inputting a starting instruction and a shading instruction by an operator; the frame is provided with a conveying channel, an auger is rotatably arranged in the conveying channel, and the auger guides tea leaves in the conveying channel to flow. The tea making machine has the advantages that the tea is automatically and quantitatively put in, so that the accuracy, the automation degree and the stability of the tea making machine are improved.

Description

Quantitative discharging mechanism for tea making machine

Technical Field

The utility model relates to the field of tea making machines, in particular to a quantitative discharging mechanism for a tea making machine.

Background

In real life, a large amount of tea is often supplied in public places such as restaurants, office tea rooms and the like, and in order to be convenient for supplying tea for tea users in time, tea making machines are often arranged in the restaurants, office tea rooms.

Among the prior art, common tea making machine mainly includes the frame, can dismantle fixedly connected with water tank in the frame, is provided with heating mechanism in the water tank, still can dismantle fixedly connected with teapot (or tea making storehouse) in the frame, and the intercommunication is provided with the inlet channel between teapot (or tea making storehouse) and the water tank, is provided with the delivery port on the teapot.

When the tea is made, an operator firstly takes down the tea making pot (or the tea making bin), after tea is added into the tea making pot, the tea making pot (or the tea making bin) is fixed on the frame, the heating mechanism heats purified water in the water tank, the boiled purified water in the water tank enters the tea making pot (or the tea making bin) through the water inlet pipeline, after a certain time of hot water adding, tea drinking staff places the tea cup at the water outlet of the tea making pot (or the tea making bin), and tea water can be taken.

In the actual use process, the inventor finds that in the process of using the existing tea making machine to make tea, an operator manually grabs tea according to experience and inputs the tea into a tea making pot (or a tea making bin), the problem that less or more tea is taken frequently when tea is input, the concentration of tea water finally brewed is influenced, the tea drinking experience of tea drinkers is difficult to guarantee, and improvement exists.

Disclosure of Invention

In order to improve the accuracy of tea feeding amount of a tea making machine and ensure tea drinking experience of tea drinking staff, the utility model provides a quantitative discharging mechanism for the tea making machine.

The utility model provides a quantitative discharging mechanism for a tea making machine, which adopts the following technical scheme:

the quantitative discharging mechanism for the tea making machine comprises a tea storage tank, wherein the tea storage tank is detachably and fixedly connected with a rack of the tea making machine, and a tea outlet is formed in the tea storage tank; a kind of electronic device with high-pressure air-conditioning system:

the control panel is used for inputting a shade instruction signal and a starting signal;

the tea outlet structure is arranged between the tea outlet and the frame, is connected with the control panel through signals, and is used for receiving the starting signal and communicating the tea outlet with the tea making pot;

one end of the weighing module is fixedly connected with the rack, and the end of the weighing module far away from the rack is detachably and fixedly connected with the tea storage tank and is used for detecting the weight of tea in the tea storage tank and outputting a tea weight signal;

the signal processing module is in signal connection with the control panel and the weighing module and is used for receiving the tea weight signal and calculating the tea variation, receiving the shade instruction signal and calculating the set tea quantity value, and outputting a control signal when the tea variation reaches the set tea quantity;

the signal processing module is in signal connection with the tea outlet structure, and the tea outlet structure receives the control signal and turns off the tea outlet and the tea making pot.

Through adopting above-mentioned technical scheme, before using the tea making machine to dash tea, operating personnel can place tealeaves storage in storing up the tea jar earlier, later start tea making machine after entering the shade instruction through control panel, go out tea structure intercommunication tea outlet and the teapot of tea storage jar, weighing module detects the tealeaves weight in the tea storage jar, signal processing module calculates the tealeaves volume according to the shade instruction, calculate tealeaves weight change value according to weighing module output's tealeaves weight numerical value, when tealeaves weight change value reaches the volume of setting for tealeaves, signal processing module closes out tea structure, stop throwing tealeaves to the teapot in, realize quantitative automatic unloading's technological effect, and the volume of throwing tealeaves is more accurate, can ensure to dash out the thick and thin more accurate of tea, promote tea drinking experience of drinker. Meanwhile, the tea making machine has higher degree of automation, and operating personnel need not to manually throw tea in the tea making process, and the tea can be automatically thrown through the control panel, so that the convenience of using the tea making machine by the operating personnel is improved.

Preferably, the tea outlet structure comprises an iris diaphragm and a first rotating motor, one end of the iris diaphragm is detachably and fixedly connected with the camera frame, and one end of the iris diaphragm, which is far away from the frame, is detachably and fixedly connected with the tea storage tank;

the iris diaphragm comprises a diaphragm gear ring and a plurality of diaphragm sheets;

the cylinder body of the first rotating motor is fixedly connected with the frame, the driving shaft of the first rotating motor is in transmission fit with the diaphragm gear ring, and the first rotating motor drives the diaphragm sheets to open or close.

Through adopting above-mentioned technical scheme, iris and first rotating electrical machines collocation each other, the drive shaft rotation of first rotating electrical machines can drive the rotation of diaphragm ring gear, and the rotation of diaphragm ring gear can drive a plurality of diaphragm pieces rotatory closure or opening, realizes automatic intercommunication or shuts off the technological effect of tea making mouth, teapot.

Preferably, the weighing module comprises a balance bracket and a weighing sensor, one end of the balance bracket is detachably and fixedly connected with the frame, one end of the balance bracket, which is far away from the frame, is detachably and fixedly connected with the iris diaphragm, the weighing sensor is fixedly connected with the balance bracket, and the weighing sensor is abutted between the balance bracket and the iris diaphragm;

the weighing sensor receives the starting signal, detects the weight of tea leaves in the tea storage tank, and outputs the weight signal of the tea leaves.

Through adopting above-mentioned technical scheme, weighing sensor passes through balance support to be fixed in the frame, and at the in-process that tea in the tea storage tank flows, weighing sensor detects the weight of tea in the tea storage tank and output tealeaves weight signal, can realize the technical effect of automated inspection tea weight in the tea storage tank.

Preferably, the signal processing module comprises a singlechip, and a signal input end of the singlechip is in signal connection with the control panel and the weight sensor;

the singlechip receives the shade instruction signal and calculates a set tea quantity, receives the tea weight signal and calculates a tea weight change value, and when the tea weight change value reaches the set tea quantity, the singlechip outputs the control signal.

Through adopting above-mentioned technical scheme, the singlechip has advantages such as sensitivity height, stability height and low price, and the tealeaves weight change value is calculated fast and accurately to the tealeaves volume of setting for that concentration instruction corresponds to will set for tealeaves volume and tealeaves weight change compares, when tealeaves weight change value reaches the tealeaves volume of setting for, output control signal, control out tea structure and stop out tea, realize the technological effect of dosing tealeaves.

Preferably, a conveying channel is formed in the frame, one end of the conveying channel is communicated with the tea outlet structure, and one end of the conveying channel, which is far away from the tea outlet structure, is communicated with a tea making pot in the frame;

and a flow guide component for guiding the tea to flow is arranged in the conveying channel.

Through adopting above-mentioned technical scheme, the conveying passageway can communicate tea storage tank and teapot, and the water conservancy diversion subassembly in the conveying passageway can help supplementary tealeaves to flow, reduces the condition emergence of tealeaves stay in the conveying passageway, promotes the stability of tea making machine.

Preferably, the diversion assembly comprises an auger and a second rotating motor, and the auger is rotatably arranged in the conveying channel;

the cylinder body of the second rotating motor is fixedly connected with the frame, the driving shaft of the second rotating motor is in transmission fit with the auger, and the second rotating motor is in signal connection with the control panel and the signal processing module;

the second rotating motor receives the starting signal and drives the auger to rotate, and the second rotating motor receives the control signal and stops driving.

Through adopting above-mentioned technical scheme, at the in-process that tealeaves flows to the teapot via storing up tea pot, second rotating electrical machines drive auger rotates, because auger screw blade is slope decurrent setting, in auger pivoted in-process, tealeaves slides to the teapot along with auger screw blade in, realizes the technological effect that guide tealeaves flows.

In summary, the utility model comprises the following beneficial technical effects that at least one quantitative discharging mechanism for tea making machine is as follows:

1. through the mutual overlapping and use among control panel, iris, first rotating electrical machines, weighing sensor and singlechip, operating personnel only need input start-up instruction and shade instruction through control panel, can throw tealeaves into the teapot automatically and quantitatively, throw into the quantity of tealeaves in the teapot comparatively accurate, guarantee the degree of accuracy of tea water concentration that the tea making machine infuses out, guarantee tea drinking personnel's tea drinking experience, promote the degree of automation of tea making machine simultaneously, promote the degree of convenience that operating personnel used tea making machine;

2. through mutual collocation use among iris diaphragm, first rotating electrical machines and singlechip, can realize the technical effect that the last tea outlet of automatic control tea storage jar communicates or shuts off with the tea making pot, promotes the degree of automation of tea making machine;

3. through mutually overlapping and use between auger and the second rotating electrical machines, at the in-process that tealeaves flows to the teapot through going out the tea mouth, guide tealeaves to flow uniformly, reduce tealeaves and detain the condition emergence in conveying channel, promote the degree of automation of tea making machine.

Drawings

Fig. 1 is a schematic diagram for showing an overall structure of a blanking mechanism according to an embodiment of the present utility model.

Fig. 2 is a schematic diagram mainly used for showing the overall structure of the iris in the embodiment of the utility model.

Fig. 3 is a schematic view mainly used for showing the overall structure of the weighing module according to the embodiment of the utility model.

Fig. 4 is a schematic diagram mainly used for showing internal signal transmission of the blanking mechanism in the embodiment of the utility model.

Reference numerals illustrate: 1. tea storage tank; 11. a tea outlet; 2. a tea outlet structure; 21. an iris diaphragm; 211. a diaphragm gear ring; 212. a diaphragm sheet; 22. a first rotating electric machine; 3. a weighing module; 31. a balance support; 32. a weighing sensor; 4. a conveying channel; 5. a flow guiding assembly; 51. an auger; 52. a second rotating electric machine; 6. a frame.

Detailed Description

The utility model is described in further detail below with reference to fig. 1-4.

Examples

The embodiment of the utility model discloses a quantitative discharging mechanism for a tea making machine. Referring to fig. 1, 2 and 4, it mainly comprises a tea storage tank 1, a control panel, a tea outlet mechanism, a weighing module 3 and a signal processing module.

In the embodiment of the utility model, the tea storage tank 1 is detachably fixed on the frame 6 through screws, the tea storage tank 1 is approximately in a funnel shape, the bottom of the tea storage tank 1 is provided with a tea outlet 11 for tea to flow out, and the frame 6 is provided with a channel for communicating the tea outlet 11 with a teapot.

The control panel can be fixed on the stand 6 through screw installation, and can also be embedded and integrated inside the stand 6 and communicated with the handheld terminal of the operator through a wireless network module. The signal input end of the control panel is connected with the tea outlet mechanism and the signal input end of the signal processing module in a signal way, and buttons for operators to input starting instructions and shade instructions are arranged on the control panel.

Referring to fig. 1 and 2, in the embodiment of the present utility model, the tea discharging mechanism includes a first rotary motor 22 and an iris 21.

The body of the iris diaphragm 21 is fixed on the tea storage tank 1 through a screw, and one end of the iris diaphragm 21, which is far away from the tea storage tank 1, is fixed on the frame 6 through a screw. The iris 21 includes a diaphragm gear ring 211 and a plurality of diaphragm sheets 212, and the rotation of the gear ring can drive the diaphragm sheets 212 to be closed or opened.

The cylinder body of the first rotating motor 22 is fixed in the frame 6 through welding, and a driving shaft of the first rotating motor 22 is in transmission fit with the diaphragm gear ring 211 through a gear assembly, a signal input end of the first rotating motor 22 is connected with the control panel, the signal processing module is in signal connection, and the first rotating motor 22 can control the diaphragm gear ring 211 to rotate and control the diaphragm sheet 212 to be closed or opened.

When the diaphragm 212 is opened, the tea outlet 11 is communicated with the conveying channel 4, and tea leaves can flow into the tea making pot through the tea outlet 11 and the conveying channel 4 in sequence; when diaphragm 212 is closed, diaphragm 212 separation is between tea storage tank 1 and tea making pot for tea in the tea storage tank 1 can't flow into the tea making pot, realizes automatic intercommunication or cuts off the technological effect of tea outlet 11, tea making pot.

Referring to fig. 1 and 3, in the embodiment of the present utility model, the weighing module 3 mainly includes a balance bracket 31 and three weighing sensors 32. The balance support 31 is arranged in a circular ring shape, the balance support 31 is fixed on the frame 6 through screws, one end, far away from the frame 6, of the balance support 31 is fixed with the iris diaphragm 21 through screws, the three weighing sensors 32 are fixed on the balance support 31 through screws, and the three weighing sensors 32 are abutted between the iris diaphragm 21 and the balance support 31.

The weighing sensor 32 is fixed on the frame 6 through the balance bracket 31, and in the process of flowing out tea leaves in the tea storage tank 1, the weighing sensor 32 detects the weight of the tea leaves in the tea storage tank 1 and outputs a tea weight signal, so that the technical effect of automatically detecting the weight of the tea leaves in the tea storage tank 1 can be realized.

The signal processing module comprises a singlechip, wherein a signal input end of the singlechip is in signal connection with the control panel and a signal output end of the weighing sensor 32, and a signal output end of the singlechip is in signal connection with the first rotating motor 22.

The singlechip has the advantages of high sensitivity, high stability, low price and the like, can rapidly and accurately calculate the tea weight change value and the set tea quantity corresponding to the concentration instruction through the singlechip, and compares the set tea quantity with the tea weight change.

When the weight change value of the tea reaches the set tea amount, a control signal is output, and the tea outlet structure 2 receives the control signal and stops tea outlet, so that the technical effect of quantitative tea feeding is realized.

It should be noted that, in the embodiment of the present utility model, the program for pre-loading the command signal for shade and color and calculating the set tea amount, calculating the tea weight change value according to the tea weight signal, and comparing the set tea amount and the tea weight change value is the prior art, and no optimization or modification is performed here, and no description is repeated.

For example, if the operator inputs a shade instruction to be moderate, and the amount of tea corresponding to the moderate concentration loaded by the singlechip is 10g, the amount of tea in the initial tea storage tank 1 is 120g, and when the weight of tea output by the weighing sensor 32 is 110g, the singlechip outputs the first rotary motor 22, and the first rotary motor 22 drives the diaphragm sheet 212 to be closed, so that tea output is stopped.

The control panel, iris 21, first rotating electrical machines 22, mutual overlap and use between weighing sensor 32 and the singlechip, operating personnel only need through control panel input start command and shade instruction, can throw tealeaves to the teapot in the automatic ration, throw the tealeaves volume of throwing into the teapot and comparatively accurate, guarantee the degree of accuracy of tea water concentration is made out in the guarantee tea making machine, guarantee tea drinking personnel's tea drinking experience, promote the degree of automation of tea making machine simultaneously, promote the degree of convenience that operating personnel used tea making machine.

Referring to fig. 1, in an embodiment of the present utility model, a flow guiding assembly 5 for guiding the flow of tea leaves is provided in the conveying pipe.

The diversion assembly 5 mainly comprises an auger 51 and a second rotating motor 52. The second cylinder of the second rotary motor 52 is fixed on the frame 6 by welding, the driving shaft of the second rotary motor 52 extends into the conveying channel 4, an external thread is arranged on the driving shaft of the second rotary motor 52, an internal thread is arranged on the central shaft of the auger 51, and the driving shaft of the second rotary motor 52 is fixedly connected with the auger 51.

The signal input end of the second rotary motor 52 is connected with the signal output end of the singlechip and the control panel in a signal way, the second rotary motor 52 receives a starting instruction and drives the auger 51 to rotate, and the second rotary motor 52 receives a control signal and stops rotating.

In the process that tea flows to the teapot through the tea storage tank 1, the second rotating motor 52 drives the auger 51 to rotate, and as the spiral blade of the auger 51 is arranged obliquely downwards, the spiral blade of the auger 51 slides into the teapot along the tea in the process that the auger 51 rotates, so that the technical effect of guiding the tea to flow is realized.

The auger 51 can help to assist the flow of tea leaves, reduce the occurrence of the condition that tea leaves are retained in the conveying channel 4, and improve the stability of the tea making machine.

The implementation principle of the quantitative discharging mechanism for the tea making machine provided by the embodiment of the utility model is as follows: through the mutual overlapping and use among the control panel, the iris diaphragm 21, the first rotating motor 22, the weighing sensor 32 and the singlechip, an operator can automatically and quantitatively throw tea into the tea making pot only by inputting a starting instruction and a shading instruction through the control panel, the quantity of the tea thrown into the tea making pot is accurate, the accuracy of the tea making water concentration degree of the tea making machine is ensured, the tea drinking experience of tea drinking staff is ensured, the automation degree of the tea making machine is improved, and the convenience of using the tea making machine by the operator is improved; through mutually overlapping and using between auger 51 and the second rotating electrical machines 52, at the in-process that tealeaves flows to the teapot through outlet 11, guide tealeaves evenly flows, reduces tealeaves and detains the condition emergence in conveying passageway 4, promotes the degree of automation of tea making machine.

The above embodiments are not intended to limit the scope of the present utility model, so: all equivalent changes in structure, shape and principle of the utility model should be covered in the scope of protection of the utility model.

Claims (6)

1. The quantitative discharging mechanism for the tea making machine is characterized by comprising a tea storage tank (1), wherein the tea storage tank (1) is detachably and fixedly connected with a rack (6) of the tea making machine, and a tea outlet (11) is formed in the tea storage tank (1); a kind of electronic device with high-pressure air-conditioning system:

the control panel is used for inputting a shade instruction signal and a starting signal;

the tea outlet structure (2) is arranged between the tea outlet (11) and the frame (6), is connected with the control panel through signals, and is used for receiving the starting signals and communicating the tea outlet (11) with the tea making pot;

one end of the weighing module (3) is fixedly connected with the frame (6), and the end far away from the frame (6) is detachably and fixedly connected with the tea storage tank (1) and is used for detecting the weight of tea in the tea storage tank (1) and outputting a tea weight signal;

the signal processing module is in signal connection with the control panel and the weighing module (3) and is used for receiving the tea weight signal, calculating the tea variation, receiving the shade instruction signal, calculating the set tea quantity value and outputting a control signal when the tea variation reaches the set tea quantity;

the signal processing module is in signal connection with the tea outlet structure (2), and the tea outlet structure (2) receives the control signal and turns off the tea outlet (11) and the tea making pot.

2. The quantitative blanking mechanism for the tea making machine according to claim 1, wherein the tea outlet structure (2) comprises an iris diaphragm (21) and a first rotating motor (22), one end of the iris diaphragm (21) is detachably and fixedly connected with a camera frame (6), and one end of the iris diaphragm (21) far away from the frame (6) is detachably and fixedly connected with the tea storage tank (1);

the iris diaphragm (21) comprises a diaphragm gear ring (211) and a plurality of diaphragm sheets (212);

the cylinder body of the first rotating motor (22) is fixedly connected with the frame (6), a driving shaft of the first rotating motor (22) is in transmission fit with the diaphragm gear ring (211), and the first rotating motor (22) drives a plurality of diaphragm sheets (212) to be opened or closed.

3. The quantitative discharging mechanism for the tea making machine according to claim 2, wherein the weighing module (3) comprises a balance bracket (31) and a weighing sensor (32), one end of the balance bracket (31) is detachably and fixedly connected with the frame (6), one end of the balance bracket (31) far away from the frame (6) is detachably and fixedly connected with the iris diaphragm (21), the weighing sensor (32) is fixedly connected with the balance bracket (31), and the weighing sensor (32) is abutted between the balance bracket (31) and the iris diaphragm (21);

the weighing sensor (32) receives the starting signal, detects the weight of tea leaves in the tea storage tank (1), and outputs the weight signal of the tea leaves.

4. The quantitative discharging mechanism for the tea making machine according to claim 3, wherein the signal processing module comprises a single chip microcomputer, and a signal input end of the single chip microcomputer is in signal connection with the control panel and the weight sensor;

the singlechip receives the shade instruction signal and calculates a set tea quantity, receives the tea weight signal and calculates a tea weight change value, and when the tea weight change value reaches the set tea quantity, the singlechip outputs the control signal.

5. The quantitative discharging mechanism for the tea making machine according to claim 1, wherein a conveying channel (4) is formed on the machine frame (6), one end of the conveying channel (4) is communicated with the tea outlet structure (2), and one end of the conveying channel (4) away from the tea outlet structure (2) is communicated with a tea making pot on the machine frame (6);

a flow guide assembly (5) for guiding the tea to flow is arranged in the conveying channel (4).

6. The quantitative discharging mechanism for the tea making machine according to claim 5, wherein the flow guiding assembly (5) comprises an auger (51) and a second rotating motor (52), and the auger (51) is rotatably arranged in the conveying channel (4);

the cylinder body of the second rotating motor (52) is fixedly connected with the frame (6), the driving shaft of the second rotating motor (52) is in transmission fit with the auger (51), and the second rotating motor (52) is in signal connection with the control panel and the signal processing module;

the second rotating motor (52) receives the starting signal and drives the auger (51) to rotate, and the second rotating motor (52) receives the control signal and stops driving.