CN112656216B - Tea washing mechanism of automatic tea making machine - Google Patents

Abstract

The invention provides a tea washing mechanism of an automatic tea making machine, which comprises a movable waste water tank and a tea making chamber; wherein the wastewater tank is driven by a power source to move; a discharge port is arranged below the tea making chamber, a valve component is arranged at the discharge port, and a valve control frame for controlling the valve component to open and close the discharge port is arranged below the tea making chamber and corresponding to the valve component; a tea outlet is arranged below the valve control frame. The tea making machine can realize full-automatic tea making, reduces the complexity of operation, and can reduce the possibility of error of a user. Simultaneously, the function that the first tea making can be additionally discharged to the waste water tray is realized. The automatic feeding device has the advantages of simple structure, simplicity and convenience in operation, strong flexibility and high automation degree.

Description

Tea washing mechanism of automatic tea making machine

Technical Field

The invention relates to the field of kitchen utensils, in particular to a tea washing mechanism of an automatic tea making machine for making kungfu tea and health tea such as tea leaves, various flowers and various fruits.

Background

With the development of science and technology, people gradually use a tea making machine to replace a tea making mode of directly soaking tea leaves by using a water cup. Tea making is carried out by using a tea making machine, firstly, tea leaves are put into a tea basket, and the tea basket descends to soak the tea leaves in water, so that the tea making process is completed. Then, after the tea leaves are fully soaked, the tea basket is lifted, and the used tea leaves are taken out. The lifting of the existing tea basket is mainly driven by a motor and is driven by a screw rod, a belt, a chain or a cam and other mechanical modes. Brewing tea typically involves heating the kettle body to a specified temperature and then steeping the brewing material contained in the separate kettle body for a specified period of time to brew a properly tasted tea. At present, some tea making devices in the market are complex in structure, large in size, inconvenient to operate and high in cost due to the fact that the tea making devices are provided with a water tank, a tea making kettle body, a tea containing cup and the like. Moreover, the existing tea making machine is basically not provided with a specific tea washing mechanism, the first tea making water needs to be poured manually, tea leaves cannot be brewed and washed automatically, and the operation is complex.

For example, chinese patent publication No. CN 204306650U discloses a microcomputer controlled automatic tea making machine, which comprises a housing and a water storage device, wherein the water storage device is provided with a water level sensor, a temperature sensor and a heater; the tea making device comprises a lifting mechanism, a water permeable kettle body and a driving mechanism, wherein the driving input end of the lifting mechanism is connected with the driving force output end of the driving mechanism, the control input end of the driving mechanism is connected with one of the control output ends of the microcomputer controller, the water permeable kettle body is connected with the driving output end of the lifting mechanism, and the driving mechanism drives the lifting mechanism to drive the water permeable kettle body to move up and down in the inner cavity of the water storage device to form the automatic lifting type tea making device; one of the detection signal input ends of the microcomputer controller is connected with the signal output end of the water level sensor; the second detection signal input end of the microcomputer controller is connected with the signal output end of the temperature sensor. This machine of making tea structure is comparatively complicated, and does not have and set up tea washing mechanism, can't carry out automatic discharge to first water of making tea.

Therefore, in order to solve the problems in the prior art, it is urgently needed to provide a tea washing mechanism of an automatic tea making machine, which has a simple structure and is easy and convenient to operate and can realize automatic tea washing and wastewater discharge.

Disclosure of Invention

The invention aims to avoid the defects in the prior art and provides a tea washing mechanism of an automatic tea making machine, which realizes the control of a valve component of a tea making chamber and the receiving and discharging of tea water discharged from the tea making chamber by arranging a movable waste water tank and a valve control frame. Remove through the control wastewater disposal basin, realize opening and closing of room valve module of making tea, in addition, can also realize receiving first water of making tea through the wastewater disposal basin, make the process of making tea more intelligent, the user can choose for use according to the actual demand.

In order to achieve the purpose, the invention is realized by adopting the following technical scheme:

a tea washing mechanism of an automatic tea making machine comprises a movable waste water tank and a tea making chamber; wherein the wastewater tank is driven by a power source to move; a discharge port is arranged below the tea making chamber, and a valve assembly is arranged at the discharge port, so that the valve assembly is controlled to be opened or closed after the waste water tank is moved. A valve control frame for controlling the valve component to open and close the discharge port is arranged at the position, corresponding to the valve component, below the tea making chamber; a tea outlet is arranged below the valve control frame.

Specifically, the control of the valve assembly specifically includes two modes, the first mode is: when the waste tank is in a first position (i.e. the waste tank is reset), the valve assembly is in a closed state; when the waste is in a second position (wherein the second position is when the waste is aligned with the discharge), the valve assembly is in an open condition, and tea water in the tea brewing chamber flows from the discharge into the waste; when the waste water tank is in a third position (wherein the third position is the position where the waste water tank does not reach the tea making chamber discharge port in the moving process), the valve assembly is in an open state, and the discharge port is communicated with the tea outlet.

The second mode is as follows: when the waste water tank is at a first position, the valve assembly is at a closed state firstly, and after the machine finishes making tea, the valve assembly reaches an open state, and the tea water flows into the tea cup through the tea water outlet; when the waste water tank is in the second position, firstly the valve assembly is in a closed state, and when the machine finishes washing tea, the valve assembly reaches an open state, and waste water in the tea making chamber flows into the waste water tank from the discharge port.

One side, facing the waste water tank, of the valve control frame is provided with a control end matched with the waste water tank; the valve control frame is provided with an opening communicated to the tea water outlet;

more specifically, this construction corresponds to the first case described above, with the waste tank controlling the valve control rack; when the sump is not moved (i.e. in the first position), said valve assembly is in a position to close said discharge port; when the waste water tank moves towards the direction of the tea water outlet, the waste water tank applies force to the control end of the valve control frame to jack up, so that the ejector rod arranged on the valve control frame jacks up the valve component to open the discharge port of the valve component, and the tea water in the tea making chamber flows out through the tea water outlet; when the waste is moved to the tea outlet (i.e. in the second position), tea drains to the waste.

Specifically, the working principle of the tea washing mechanism is as follows: after the user infuses tea leaves in the tea infusing chamber, the first tea infusing needs to be removed. At the moment, a motor (namely a power source) is started, the motor drives the waste water tank to move, at the moment, the ejector rod moves upwards to jack the valve component, so that water in the tea making chamber flows through the opening of the valve control frame after being discharged, then flows to the waste water tank through the tea outlet, and finally is discharged through the waste water tank. When the tea water is discharged, the motor moves reversely, and the waste water tank is reset at the moment. The valve component moves downwards along with the ejector rod until the valve of the tea making chamber is closed. This wash tea mechanism through setting up mobilizable waste water tank, is moved by motor control waste water tank, and then controls opening and closing of tea making room valve module, has realized the discharge of tea.

Preferably, the device also comprises a fixed seat and a fixed seat cover; the fixing seat comprises a first cavity and a second cavity, wherein the second cavity is arranged above the first cavity; the top of the first chamber is open, and the second chamber is provided with a channel communicated with the first chamber; the first chamber is used for placing a waste water tank, and the second chamber is used for placing a valve control frame; the tea water outlet is arranged at the bottom of the second chamber.

Specifically, the fixed seat is used for placing the waste water tank and the valve control frame, and an output gear can be arranged to drive the waste water tank to move; meanwhile, the structural design of the fixed seat can ensure that the valve control frame is arranged above the waste water tank, so that the waste water tank can control the opening and closing of the valve component through the valve control frame. The structure is small and exquisite, can save space and has compact structure.

Specifically, a fixed seat cover is arranged above the fixed seat and used for placing and fixing the tea making chamber.

The waste water tank is provided with an upper end face, the upper end face is provided with a groove, and slopes are arranged on two sides of the groove and connected to the upper end face; the control end of the valve control frame is matched with the slope and the groove on the upper end surface to move up and down.

Specifically, the upper end face, the slope and the groove form a movement track line, and the movement of the control end of the valve control frame is controlled by the track line.

Preferably, the waste water tank faces the upper opening, and the upper end face is positioned at the top of the opening.

Preferably, said waste is restrained from upward movement by said stationary base cover.

Preferably, the movement positions of the waste water tank, i.e. the first position, the second position and the third position, are controlled by position limit switches.

The power source adopts a motor, an output gear is arranged in the first chamber, and the output gear is connected with an output shaft of the motor; and a rack matched with the output gear is arranged on the side wall of the wastewater tank, so that the output gear drives the wastewater tank to move.

Specifically, the output gear is used for driving the wastewater tank so as to move the wastewater tank; through be equipped with on the wastewater disposal basin lateral wall face with output gear complex rack, can drive through the motor, and simple structure.

Preferably, the motor is installed below the fixing seat, and an output shaft of the motor enters the first cavity of the fixing seat and is connected with the output gear.

Preferably, a drainage outlet is arranged below the side wall of the wastewater tank.

Specifically, the side wall of the waste water tank is provided with a water outlet, and water in the waste water tank can be discharged through connection with a guide pipe. This structural design can make tea discharge immediately, and the wastewater disposal basin need not to save tea.

Preferably, a base for placing the valve control frame is arranged in the second chamber; the base is provided with an embedded groove.

Preferably, one end of the valve control frame facing the wastewater tank is provided with a control end protruding downwards along the end face, the other end of the valve control frame away from the wastewater tank is provided with a shaft rod, the shaft rod is matched with the embedding groove of the base, and the fixed base cover is provided with a matched groove cover corresponding to the base of the fixed base, so that the embedding groove forms a shaft hole for the shaft rod to rotate.

The valve control frame is provided with a circular groove which is concave downwards at the position corresponding to the tea water outlet, and a plurality of openings communicated with the tea water outlet are arranged in the circular groove; or the valve control frame is provided with an opening, so that the discharge port of the tea making chamber is communicated with the tea water outlet.

Preferably, a push rod protruding upwards is arranged at the position, corresponding to the valve component of the tea making chamber, of the circular groove; the ejector rod can drive the valve component to move upwards.

Specifically, a circular groove is arranged on the valve control frame, and an opening and an ejector rod are arranged in the circular groove; the valve component is pushed open by the ejector rod, and meanwhile, the tea water flows out of the tea making chamber to the circular groove and is discharged through the opening of the circular groove. The opening is communicated with the tea water outlet, so that the tea water continuously flows out from the tea water outlet.

Preferably, the side surface of the circular groove is provided with a slope which inclines downwards.

Specifically, the design of the inclined plane can utilize the characteristic that water flows to a lower position, so that the tea water is better discharged to the tea water outlet.

Preferably, the tea water outlet is arranged corresponding to the discharge port, wherein the tea water outlet is arranged in a funnel shape.

Specifically, the tea water outlet of the funnel shape is beneficial to discharging tea water.

Preferably, the device further comprises a waste water tray, and the waste water tray is connected with the waste water tank through a conduit.

Specifically, by arranging the wastewater tray, the tea water in the wastewater tank is discharged to the wastewater tray and stored.

Preferably, the tea making chamber is made of transparent glass.

Specifically, the condition of making tea can be observed at any time in the tea making chamber made of transparent glass.

The invention has the beneficial effects that:

the invention provides a tea washing mechanism of an automatic tea making machine, which realizes the control of a valve component of a tea making chamber and the receiving and discharging of tea water discharged from the tea making chamber by arranging a movable waste water tank and a valve control frame. The tea making machine can realize full-automatic tea making, reduces the complexity of operation, and can reduce the possibility of error of a user. Simultaneously, the function that the first tea making can be additionally discharged to the waste water tray is realized. The automatic feeding device has the advantages of simple structure, simplicity and convenience in operation, strong flexibility and high automation degree.

Drawings

Fig. 1 is a schematic structural diagram of an automatic tea making machine provided by the invention;

fig. 2 is a schematic view of the internal structure of the automatic tea making machine provided by the present invention;

fig. 3 is a schematic view of an internal structure of a tea washing mechanism of the automatic tea making machine according to the present invention;

fig. 4 is a schematic view of a fixing seat structure of a tea washing mechanism of the automatic tea making machine according to the present invention;

fig. 5 is a schematic view of an internal structure of a fixing seat of a tea washing mechanism of the automatic tea making machine according to the present invention;

FIG. 6 is a schematic structural view of a valve control frame of a tea washing mechanism of the automatic tea making machine according to the present invention;

FIG. 7 is a schematic structural view of a wastewater tank of a tea washing mechanism of the automatic tea making machine provided by the invention;

fig. 8 is a schematic sectional view of a waste water tank of a tea washing mechanism of an automatic tea maker according to the present invention in a first position;

FIG. 9 is a schematic sectional view of a waste water tank of a tea washing mechanism of an automatic tea maker according to the present invention in a second position;

fig. 10 is a schematic sectional view of the waste water tank of the tea washing mechanism of the automatic tea making machine provided by the invention in a third position.

Description of the reference numerals

1, an automatic tea making machine, 11 cold water tanks, 12 cold water pumps, 13 boilers, 14 hot water pumps, 15 waste water trays and 16 tea washing mechanisms; 161 waste water tank, 162 tea making chamber, 163 valve control frame, 164 fixing seat, 165 tea outlet, 166 output gear, 167 motor and 168 fixing seat cover;

1611, a rack, 1612 upper end face and 1613 grooves; 1621 valve core, 1622 sealing ring, 1623 tea making chamber bottom, 1624 valve core spring; 1631 control end, 1632 shaft rod, 1633 circular groove, 1634 valve control frame opening, 1635 ejector rod, 1636 valve control frame spring; 1641 first chamber, 1642 second chamber, 1643 base.

Detailed Description

The following further describes embodiments of the present invention with reference to the drawings.

As shown in fig. 1 to 10, the present embodiment provides a tea washing mechanism of an automatic tea making machine, which is applied to an automatic tea making machine 1, specifically, the automatic tea making machine 1 includes a housing, a cold water tank 11, a tea washing mechanism 16 and a wastewater tray 15, wherein a cold water pump 12, a boiler 13 and a hot water pump 14 are arranged in the housing; the cold water tank 11 is arranged at the rear part of the shell, the tea washing mechanism is arranged at the front part of the shell, and the waste water tray 15 is arranged at the front part of the shell and is positioned below the tea washing mechanism. Wherein the tea washing mechanism 16 comprises a movable waste water tank 161 and a tea making chamber 162; wherein the waste water tank 161 is driven by a motor 167 to move; a discharge port is arranged below the tea making chamber 162, a valve component is arranged at the discharge port, and a valve control frame 163 for controlling the valve component to open and close is arranged below the tea making chamber 162 and at the position corresponding to the valve component; a tea water outlet 165 is arranged below the valve control frame 163; one side of the valve control frame 163 facing the waste water tank 161 is provided with a control end 1631 matched with the waste water tank 161; the valve control bracket 163 is provided with an opening 1634 communicating with the tea outlet 165.

In this embodiment, the valve assembly includes a spool 1621, a seal 1622, and a spool spring 1624; the valve assembly is mounted to the brew chamber 162.

The valve control frame 163 is controlled by the waste tank 161; when sump 161 is not moving (i.e., in the first position), valve element 1621 is in a position to close the drain; when the wastewater tank 161 moves towards the tea outlet 165, the wastewater tank 161 applies force to jack up the control end 1631 of the valve control frame 163, so that the ejector rod 1635 arranged on the valve control frame 163 moves up to jack up the valve plug 1621, so that the valve plug 1621 opens the discharge port, and the tea in the tea making chamber 162 flows out through the tea outlet 165; when the waste 161 is moved to the tea outlet 165 (i.e. in the second position), tea drains to the waste 161. The waste water tray 15 is connected with the waste water tank 161 through a conduit, and the tea making chamber 162 is made of transparent glass. The tea making chamber 162 made of transparent glass allows observation of the tea making condition at any time.

More specifically, the working process of the automatic tea making machine is as follows: water in the cold water tank 11 is pumped to boiler 13 by cold water pump 12, after boiler 13 heats to the settlement temperature, pump to the room 162 of making tea by hot water pump 14 in, the hot water dashes the bubble back to the tealeaves in the room 162 of making tea this moment, if the user wants to discharge first making tea to wastewater disposal basin 161, then control wastewater disposal basin 161 removes to tea export 165, and then the case 1621 of control room 162 of making tea opens, the tea flows out from tea export 165 this moment, catch by wastewater disposal basin 161, the rethread pipe is arranged to wastewater dish 15, and then accomplish the discharge of first making tea. If the user wants to drink directly, the wastewater tank 161 is controlled to move, the valve core 1621 is further opened, the tea water flows out from the tea water outlet 165, and at the moment, the cup corresponding to the tea water outlet 165 is only needed to be placed at the tea water outlet 165, so that the tea water can be received.

Specifically, the working principle of the tea washing mechanism 16 is as follows: after the user has brewed tea in the tea brewing chamber 162, the first tea brewing is to be eliminated. At this time, the motor 167 is started, the waste water tank 161 is driven to move by the motor, the push rod 1635 moves upwards to push open the valve core 1621, so that the water in the tea making chamber 162 flows through the opening 1634 of the valve control frame 163 after being discharged, then flows to the waste water tank 161 through the tea outlet 165, and finally is discharged through the waste water tank 161. When the tea water is discharged, the motor 167 moves reversely, the waste water tank 161 resets at the moment, and the valve core 1621 moves downwards along with the ejector rod 1635 until the valve of the tea making chamber 162 is closed. The tea washing mechanism 16 is provided with the movable waste water tank 161, the motor 167 controls the movement of the waste water tank 161, and then the valve plug 1621 of the tea making chamber is controlled to be opened and closed, so that the tea water is discharged.

In this embodiment, the wastewater tank 161 has an upper end surface 1612, a groove 1613 is formed on the upper end surface 1612, and slopes are formed on two sides of the groove 1613 and connected to the upper end surface 1612; the control end of the valve control frame is matched with the upper end face 1612, the slope and the groove 1613 to move up and down.

Specifically, as shown in fig. 8, when the machine is in the non-operating state, the waste water tank 161 is in the first position, and at this time, the control end 1631 provided on the valve control frame 163 moves downwards into the groove 1613 provided on the waste water tank 161 under the elastic force of the valve control frame spring 1636; at this time, the valve core 1621 on the tea making chamber 162 moves down along with the ejector rod 1635 under the elastic force of the valve core spring 1624 until the sealing ring 1622 arranged on the valve core 1621 seals the discharge port at the bottom 1623 of the tea making chamber;

specifically, as shown in fig. 9, when the machine needs to discharge the waste water in the tea making chamber 162, the control end 1631 provided on the valve control frame 163 slides on the upper end surface 1612 of the waste water tank 161 via the slope provided by the groove 1613, and the waste water tank 161 moves outwards to the second position and moves below the tea outlet 165 to be aligned with the tea outlet 165; at this time, the valve plug 1621 on the tea making chamber 162 is pushed upward by the push rod 1635 until the sealing ring 1622 arranged on the valve plug 1621 leaves the discharge port of the tea making chamber 162, thereby opening the discharge port. At this time, the wastewater in the tea making chamber 162 flows from the discharge port to the tea outlet 165, then flows into the wastewater tank 161, and further flows into the wastewater tray 15 through the pipe. When the waste water is discharged, the machine is started so that the waste water tank 161 is reset to the first position, and the discharge of the tea making chamber 162 is closed.

Specifically, as shown in fig. 10, when the machine needs to discharge the drinking tea in the tea making chamber 162, the control end 1631 provided on the valve control frame 163 slides on the upper end surface 1612 of the waste water tank 161 via another slope provided on the groove 1613, and the waste water tank 161 moves inward to a third position and away from the lower side of the tea outlet 165; at this time, the valve plug 1621 on the tea making chamber 162 is pushed upward by the push rod 1635 until the sealing ring 1622 arranged on the valve plug 1621 leaves the discharge port of the tea making chamber 162, thereby opening the discharge port. At this time, the tea water in the tea making chamber 162 flows from the discharge port to the tea water outlet 165, and then flows into a cup placed below the tea water outlet 165. When the tea water is drained, the machine is started so that the waste 161 is reset to the first position and the drain of the brew chamber 162 is closed.

It should be noted that the direction of the arrow in fig. 9 to 10 is the direction of the tea water flowing out; parts not numbered in fig. 9-10 refer to corresponding parts in fig. 8.

Additionally, it should be noted that in the present embodiment, when valve control bracket 163 is actuated using a power source, waste 161 has only a first position and a second position. When the machine needs to discharge waste water from the tea making chamber 162, the waste water tank 161 moves outwardly to a first position and below the tea outlet 165, aligned with the tea outlet 165, and then the control end 1631 provided on the valve control frame 163 moves upwardly via the power source; the valve plug 1621 of the tea making chamber 162 is pushed by the push rod 1635 to move upwards until the sealing ring 1622 arranged on the valve plug 1621 leaves the discharge port of the tea making chamber 162, so that the discharge port is opened. At this time, the waste water in the tea making chamber flows from the discharge port to the tea outlet 165, flows into the waste water tank 161, and then flows into the waste water tray 15 through the pipe. After the wastewater is discharged, the power source drives the control end 1631 to move downwards, and the valve core 1621 moves downwards along with the ejector rod 1635 under the elastic force of the valve core spring 1624 until the sealing ring 1622 arranged on the valve core 1621 seals the discharge port of the tea making chamber 162.

When the machine needs to drain tea in the tea making chamber 162, the waste 161 moves inwardly to a second position and away from beneath the tea outlet 165; then the control end 1631 arranged on the valve control frame 163 is driven to move upwards by the power source; the valve plug 1621 of the tea making chamber 162 is pushed by the push rod 1635 to move upwards until the sealing ring 1622 arranged on the valve plug 1621 leaves the discharge port of the tea making chamber 162, so that the discharge port is opened. At this time, the tea water in the tea making chamber 162 flows from the discharge port to the tea water outlet 165, and then flows into a cup placed below the tea water outlet 165. After the tea water is discharged, the power source drives the control end 1631 to move downwards, and the valve core 1621 moves downwards along with the ejector rod 1635 under the elastic force of the valve core spring 1624 until the sealing ring 1622 arranged on the valve core 1621 seals the discharge port of the tea making chamber 162.

In this embodiment, the device further includes a fixed seat 164 and a fixed seat cover 168; the fixing base 164 includes a first cavity 1641 and a second cavity 1642, wherein the second cavity 1642 is disposed above the first cavity 1641; the top of the first chamber 1641 is open, and the second chamber 1642 is provided with a channel communicated with the first chamber 1641; the first chamber 1641 is used for placing the wastewater tank 161, and the second chamber 1642 is used for placing the valve control frame 163; the tea water outlet 165 is provided at the bottom of the second chamber 1642. The fixing seat 164 is used for placing the waste water tank 161 and the valve control frame 163, and an output gear 166 can be arranged to drive the waste water tank 161 to move; meanwhile, the fixing seat 164 is designed to ensure that the valve control frame 163 is located above the waste water tank 161, so that the waste water tank 161 controls the valve plug 1621 to open and close through the valve control frame 163. The structure is small and exquisite, can save space and has compact structure.

In this embodiment, an output gear 166 is disposed in the first chamber 1641, and the output gear 166 is connected to the output shaft of the motor; the side wall of the waste water tank 161 is provided with a rack 1611 which is matched with the output gear 166, so that the output gear 166 drives the waste water tank 161 to move. The output gear 166 is used for driving the waste water tank 161 so as to move the waste water tank 161; the driving of the motor 167 can be realized by providing the rack 1611 on the side wall surface of the wastewater tank 161 to be matched with the output gear 166, and the structure is simple.

In this embodiment, the motor 167 is installed below the fixed seat 164, and the output shaft of the motor enters the first cavity 1641 of the fixed seat 164 and forms a connection with the output gear 166.

In this embodiment, a drain opening is provided below the sidewall of the waste tank 161. The drain port of the waste water tank 161 may be connected to a pipe to drain water in the waste water tank 161. This structural design can make tea discharge immediately, and wastewater disposal basin 161 need not to save tea.

In this embodiment, a base 1643 for resting the valve control frame 163 is provided in the second chamber 1642; the base 1643 is provided with an engagement groove.

In this embodiment, one end of the valve control frame 163 facing the waste water tank 161 is provided with a control end 1631 protruding downward along the end face, and the other end of the valve control frame 163 facing away from the waste water tank 161 is provided with a shaft 1632, and the shaft 1632 is engaged with the fitting groove of the base 1643. The cover 168 is provided with a slot corresponding to the base 1643 of the fixing base, so that the engaging slot forms a hole for the shaft 1632 to rotate.

In this embodiment, the valve control frame 163 has a circular groove 1633 recessed downward corresponding to the tea outlet 165, and a plurality of openings 1634 communicating with the tea outlet 165 are formed in the circular groove 1633. A push rod 1635 protruding upwards is arranged at the position of the circular groove 1633 corresponding to the valve core 1621 of the tea making chamber 162. The ejector 1635 can drive the valve plug 1621 to move upwards.

Specifically, a circular groove 1633 is formed on the valve control frame 163, and an opening 1634 and an ejector 1635 are formed in the circular groove 1633; the valve body 1621 is pushed open by the push rod 1635, and simultaneously, the tea water flows out from the tea making chamber 162 to the circular groove 1633 and is discharged through the opening 1634 of the circular groove 1633. Since the opening 1634 communicates with the tea water outlet 165, the tea water continues to flow out of the tea water outlet 165.

In this embodiment, the side of the circular slot 1633 is provided as a downward inclined surface. The design of the inclined surface can utilize the characteristic that water flows to a lower position, so that the tea water can be better discharged to the tea water outlet 165.

In this embodiment, the tea outlet 165 is formed in a funnel shape. The funnel-shaped tea water outlet 165 is beneficial to discharging tea water.

In this embodiment, the brew chamber 162 is removable from the machine for cleaning; such as pouring out the waste tea, cleaning the tea dirt, etc., which is more beneficial to the maintenance of the machine.

Variations and modifications to the above-described embodiments may occur to those skilled in the art, which fall within the scope and spirit of the above description. Therefore, the present invention is not limited to the specific embodiments disclosed and described above, and some modifications and variations of the present invention should fall within the scope of the claims of the present invention. Furthermore, although specific terms are employed herein, they are used in a generic and descriptive sense only and not for purposes of limitation.

Claims (7)

1. A tea washing mechanism of an automatic tea making machine is characterized by comprising a movable waste water tank and a tea making chamber; wherein the wastewater tank is driven by a power source to move; a discharge port is arranged below the tea making chamber, and a valve assembly is arranged at the discharge port so as to control the valve assembly to be opened or closed after the waste water tank is moved;

when said sump is in a first position, the valve assembly is in a closed condition; when the waste water tank is at the second position, the valve component is in an open state, and tea water in the tea making chamber flows into the waste water tank from the discharge port; when the waste water tank is at the third position, the valve assembly is in an open state, and the discharge port is communicated with the tea water outlet;

a valve control frame for controlling the valve component to open and close the discharge port is arranged at the position, corresponding to the valve component, below the tea making chamber; a tea outlet is arranged below the valve control frame; one side of the valve control frame facing the wastewater tank is provided with a control end matched with the wastewater tank; the valve control frame is provided with an opening communicated to the tea water outlet; the waste water tank is provided with an upper end face, a groove is arranged on the upper end face, and slopes are arranged on two sides of the groove and connected to the upper end face; the control end of the valve control frame is matched with the slope and the groove on the upper end surface to move up and down.

2. The tea washing mechanism of claim 1, further comprising a fixed seat and a fixed seat cover; the fixing seat comprises a first cavity and a second cavity, wherein the second cavity is arranged above the first cavity;

the top of the first chamber is open, and the second chamber is provided with a channel communicated with the first chamber; the first chamber is used for placing a waste water tank, and the second chamber is used for placing a valve control frame; the tea water outlet is arranged at the bottom of the second chamber.

3. The tea washing mechanism according to claim 2, wherein a base for resting a valve control rack is provided in the second chamber; the base is provided with an embedded groove.

4. A tea washing mechanism as claimed in claim 3, wherein the valve control frame is provided with a control end protruding downward along the end face at one end facing the waste water tank, and a shaft rod is provided at the other end of the valve control frame facing away from the waste water tank, the shaft rod is engaged with the engaging groove of the base, and the fixed seat cover is provided with a corresponding cover corresponding to the base of the fixed seat, so that the engaging groove forms a hole for the shaft rod to rotate.

5. The tea washing mechanism according to claim 3, wherein the valve control frame is provided with a circular groove which is recessed downwards at the position corresponding to the tea water outlet, and a plurality of openings communicated with the tea water outlet are arranged in the circular groove.

6. The tea washing mechanism according to claim 5, wherein the round groove is provided with a push rod protruding upwards at a position corresponding to the valve component of the tea making chamber; the ejector rod can drive the valve component to move upwards.

7. The tea washing mechanism according to claim 1, wherein the tea outlet is provided corresponding to a discharge port, wherein the tea outlet is provided in a funnel shape.

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