阅读说明：本技术 模拟手冲咖啡的咖啡机 (Coffee machine simulating hand coffee making ) 是由 卢仓德 于 2019-04-30 设计创作，主要内容包括：一种模拟手冲咖啡的咖啡机,包含一机体、一供水装置、一传动装置及一出水装置。其中该传动装置设有一凸轮盘组,该凸轮盘组设有一下凸轮盘以对应抵接该出水装置一端设有一底轮,以控制该出水装置设有一远离该底轮一端的出水管朝向该传动装置的一转盘上方定位、前进与后退动作,及一上凸轮盘以对应驱动该出水装置一端设置一具有一凸轮的顶推部,以控制该出水管朝向该转盘内供水与停水动作,并配合该转盘旋转,以使注入的水由该转盘设置至少一透孔外流出,可模拟由外螺旋向内环绕多圈的冲泡咖啡粉动作,以对咖啡粉进行均匀冲泡后经滤纸滤出咖啡,使咖啡质量稳定。(A coffee machine simulating manual coffee making comprises a machine body, a water supply device, a transmission device and a water outlet device. The transmission device is provided with a cam disc set, the cam disc set is provided with a lower cam disc to correspondingly abut against one end of the water outlet device and is provided with a bottom wheel so as to control a water outlet pipe which is far away from one end of the bottom wheel and is positioned towards the upper part of a rotary disc of the transmission device, and an upper cam disc to correspondingly drive one end of the water outlet device to be provided with a pushing part with a cam so as to control the water outlet pipe to supply water and stop the water towards the inside of the rotary disc and to be matched with the rotation of the rotary disc so that the injected water flows out from at least one through hole arranged on the rotary disc, and the action of coffee powder which is internally surrounded by a plurality of circles by filter paper in an external spiral mode can be simulated, so that the coffee powder is uniformly brewed and filtered out by the filter paper, and the coffee.)

1. A coffee machine simulating hand coffee making is characterized in that the coffee machine simulating hand coffee making comprises

A body;

the water supply device is arranged outside the machine body and comprises a water inlet part and a water delivery pipe externally connected with one side of the water inlet part;

a transmission device disposed in the body and including a transmission set, a cam disc set, a rotating disc and a rotary power source, the transmission set is composed of a plurality of engaged gears, and a cam disc set is coaxially arranged on one gear, the cam disc set comprises a lower cam disc, an upper cam disc and a microswitch, one side of the lower cam plate is provided with a protruding rod member, so that the protruding rod member is abutted against the micro switch to electrically connect and inform the cam plate group to stop actuating, the rotary table is meshed with the other gear of the transmission set, a plurality of coaxially arranged rings with different diameters are arranged in a cylinder hole arranged above the rotary table, so that the cylinder hole of the rotary disc is divided into a plurality of sections from the center to the outside, the bottom end of the rotary disc is provided with at least one through hole at the position corresponding to each section, and the transmission shaft of the rotary power source is combined with one gear between the cam disc group and each gear arranged on the rotary disc group; and

A water outlet device, which is arranged in the machine body and comprises a sliding seat and a water valve body fixedly arranged above the sliding seat, one side of the water valve body facing the water supply device is connected with the water delivery pipe externally connected with the water inlet part, the water valve body is provided with a pushing part facing one end of the cam disc set and a water outlet pipe far away from one end of the pushing part, one end of the pushing part is pivoted with a cam correspondingly abutted against the upper convex wheel disc of the cam disc set so as to control the water outlet pipe of the water outlet device to supply water and stop water to the rotating disc of the transmission device, a bottom wheel is arranged below the cam and pivoted with one end of the water valve body, the bottom wheel is correspondingly abutted against the lower convex wheel disc of the cam disc set so as to control the water outlet pipe of the water outlet device to be positioned, advance and retreat towards the upper part of the rotating disc of the transmission device, and a pushing rod connected with the water valve body is arranged at one end of the pushing part far away from the cam, the outer periphery of the pushing rod is sleeved with a first elastic element which is respectively abutted between the pushing part and the water valve body, one end of a second elastic element is assembled on the sliding seat, and the other end of the second elastic element is assembled on the machine body.

2. The coffee machine simulating manual coffee making according to claim 1, wherein the machine body comprises a base body, a vertical cylinder base and a cover set, wherein the vertical cylinder base is assembled at one end of the base body, a receiving plate corresponding to the bottom end of the rotating plate is arranged at one end of the base body away from the vertical cylinder base, a hollow part is formed in the vertical cylinder base, a power line is connected to the outer side close to the bottom of the vertical cylinder base, and a switch hole is arranged at the front end of the vertical cylinder base close to the bottom of the vertical cylinder base; wherein, the upright cylinder seat is assembled with a fixed plate, the fixed plate is fixedly provided with a first fixing body in an arc shape towards the upper part far away from one end of the upright cylinder seat, a convex sleeve body convexly arranged on the fixed plate and towards one end far away from the upright cylinder seat and provided with a through hole, a second fixing body which is adjacent to the inner side of the convex sleeve body and is in a bent shape, and two third fixing bodies respectively fixedly arranged at the front end of the second fixing body, wherein, the upper part near the inner side of the first fixing body is provided with a front shaft rod and a rear shaft rod, two sinking holes are arranged at the diagonal position of the first fixing body, a plurality of fixing pieces are respectively penetrated into the sinking holes and two cushion bodies arranged below the first fixing body, the first fixing body is fixed on the fixed plate, a first shaft, a second shaft and a second shaft are sequentially arranged above the second fixing body and between the first fixing body and the inner side of the convex sleeve body, A third shaft and a fourth shaft, a convex pad body and two convex rods respectively arranged at the rear side of the convex pad body are arranged between the first fixing body and the second fixing body, a hole is arranged in the convex pad body, screw holes are respectively arranged in the convex rods, a fixing column is arranged at the front end between the second fixing body and one of the third fixing bodies for positioning the sliding seat, and a locking body for connecting the other end of the second elastic element is arranged at the front end of the first fixing body; the outer cover set is fixed on the top of the fixing board to form a space between the base and the outer cover set, and includes one first cover fixed on the fixing board corresponding to the vertical barrel seat, one second cover fixed on the convex sleeve and corresponding to the first cover, and one connecting cover connected between the first cover and the second cover.

3. The simulated coffee maker as claimed in claim 2, wherein the transmission set is disposed above the fixing plate, the transmission set comprises a first gear, the first gear is coupled to the pad body and is assembled with the transmission shaft of the rotary power source, a second gear is disposed above the first gear, a third gear is disposed at one side of the second gear and is coupled to the rear shaft of the first fixing body, the third gear is engaged with the second gear, a fourth gear is coupled above the third gear and is engaged with a fifth gear formed at the lower end of the cam plate set, a sixth gear engaged with the first gear is disposed at one side of the first gear, a seventh gear engaged with the sixth gear is disposed at one side of the sixth gear, an eighth gear engaged with the seventh gear is disposed at one side of the seventh gear, a ninth gear engaged with the eighth gear is disposed at one side of the eighth gear, a tenth gear engaged with the ninth gear and connected to the turntable is disposed at one side of the ninth gear, so that the tenth gear is connected to a flange formed at the upper end of the turntable, and the sixth gear, the seventh gear, the eighth gear and the ninth gear are respectively coupled to the first shaft, the second shaft, the third shaft and the fourth shaft of the second fixing body.

4. A simulated coffee maker as claimed in claim 3 wherein the drive means comprises a barrel having a flange projecting therefrom for connection to the tenth gear, the drive means being formed with a first ring and a second ring of different diameters and disposed coaxially within the rotary disk, the second ring being larger in diameter than the first ring, the bore of the rotary disk being sequentially spaced from the center to the outside to define a first region, a second region and a third region.

5. A coffee machine simulating manual coffee making according to claim 2, characterized in that the first housing is a circular housing with a hollow interior, a first concave engaging section is provided around the upper portion of the inner side of the first housing to provide a first housing cover, a first convex engaging section engaged with the first concave engaging section is provided at the bottom of the first housing to provide a connection, a first opening is provided below the end of the first housing facing the connecting housing to provide the transmission device to pass through, the second housing is a circular housing with a hollow interior, a second concave engaging section is provided around the upper portion of the inner side of the second housing to provide a second housing cover, a second convex engaging section engaged with the second concave engaging section is provided at the bottom of the second housing to provide a connection, a second opening is provided below the second housing facing the end of the connecting housing, and a circular through hole is provided above the second opening, the transmission device is provided with a through hole at the rear end of the connecting cover body, so that one end of the water pipe externally connected with the water inlet part is assembled, and the other end of the water pipe is exposed out of the machine body.

6. The simulated coffee maker of claim 2, wherein the lower cam plate has a plurality of original areas, a plurality of forward areas and a backward area, wherein the original areas and the forward areas are arranged in a sequence of a first original area and a first forward area, a second original area and a second forward area, and a third original area, the original areas, the forward areas and the backward area are respectively abutted against the bottom wheel of the water valve body to control the positioning, forward and backward of the water outlet pipe of the water outlet device, and a bearing, a first pad and a second pad respectively sleeved on the outer periphery of the bearing, a third pad fixed above the upper cam plate, and a pad and a plurality of fixing pieces respectively penetrated through the pad and the pad arranged above the third pad, The third cushion block, the upper convex wheel disc, the second cushion block, the first cushion block and the lower convex wheel disc are fixedly connected in an assembling way, the lower convex wheel disc and the front shaft lever which is provided with the first fixing body in the bearing penetrate to form a shaft joint, and a space is formed between the lower convex wheel disc and the upper convex wheel disc through the first cushion block and the second cushion block; the outer periphery of the upper convex wheel disc is smaller than that of the lower convex wheel disc, the upper convex wheel disc is fixedly arranged above the second cushion block, the upper convex wheel disc is provided with a plurality of water supply areas and a plurality of water stopping areas, the water supply areas and the water stopping areas are arranged in sequence into a first water supply section and a first water stopping section, a second water supply section and a second water stopping section, and a third water supply section and a third water stopping section which are respectively correspondingly abutted against the cam of the water valve body so as to control the water supply and water stopping of the water outlet pipe of the water outlet device; wherein, a fixed piece is arranged below the microswitch, one end of the fixed piece is provided with two first holes respectively corresponding to the convex rods, a plurality of first locking pieces are respectively penetrated in the first holes and respectively penetrate into the screw holes of the convex rods to form fixation, the other end of the fixed piece is provided with two second holes which are opposite angle corresponding, and a plurality of second locking pieces are respectively penetrated into the second holes and fix the microswitch on the other end of the fixed piece in an opposite angle mode.

7. The simulated hand coffee maker of claim 1 wherein there are two of said apertures and a partition is formed between each of said apertures.

8. The coffee maker of claim 1, wherein the water valve further comprises a set of slide rails disposed on the housing for moving the slide base, a groove is formed below the slide base for being sleeved on the slide rails to move, and a through hole is disposed at one side of the water valve for allowing the other end of the push rod to pass through the water valve.

9. The coffee maker of claim 2, further comprising a control device, wherein the control device comprises a switch member and a controller, the switch member is disposed outside the vertical cylinder seat, the controller is disposed inside the housing, and the switch member and the rotational power source of the transmission device are coupled to the controller disposed inside the housing.

10. The coffee maker of claim 1, wherein the water inlet portion of the water supply device is formed as a vertical container having an upward opening and an upper cover covering the opening, or as an automatic heater for heating cold water into hot water to be supplied to the water outlet device.

Technical Field

The present invention relates to a coffee machine, and more particularly to a coffee machine simulating hand-brewing coffee.

Background

The drip-type brewing coffee used by a plurality of coffee houses in a workshop is characterized in that a filter respectively made of heat-resistant plastics, ceramics, metals and the like is utilized, the filter is placed on a cup or a collector, filter paper is sleeved in the filter, ground coffee bean powder is poured in, a person holds a brewing kettle with hot boiled water in the brewing kettle in bare hands, the hot boiled water in the brewing kettle is used for brewing coffee powder in bare hands from outer threads to inner threads along the central point of the coffee bean powder in the filter paper, the drip-type brewing coffee is a convenient, simple and sanitary method, but the hand of the person holding the brewing kettle with hot boiled water in bare hands can be kept in a calm and slowly-released mood to ensure that the angle and the positioning point of the hand can accord with the optimal conditions in the process of holding and inwards encircling by outer threads, so that the flow, the stability and the encircled diameter of the water outlet are controlled, the coffee bean powder and the hot water are fully mixed, four flavors and one fragrance in the coffee are extracted, and then the coffee is dripped out through the filter paper to filter fat, protein and bad impurities contained in the coffee, so that the coffee with fresh taste can be obtained, and the delicious coffee can be enjoyed while the health of the user is taken into consideration.

The infusion method of the drip-type infused coffee is mainly operated by manually holding an infusion pot with hot boiled water in the infusion pot. Therefore, the people who brew coffee must have more experience and the operation process is more ripe to determine the taste and flavor of the drip-type brewed coffee, if the people who brew coffee have insufficient experience and hold the brewing kettle with hot boiled water, the flow rate and stability of the water output of the brewing kettle are not good, the people who brew coffee can not be sure to be perfect after the coffee powder is brewed by the hot boiled water, so that the coffee is difficult to brew uniformly, the taste and fragrance of the coffee are affected, the quality of each cup of coffee brewed by the drip-type brewing kettle cannot be controlled, even when the guests in a coffee shop are numerous, the people can be stressed by the pressure of the coffee which must brew a plurality of cups quickly, the brewing process of the drip-type brewed coffee is reduced in busy hours, or the quality of the coffee is unstable due to the procedures of the flow rate and stability of the brewing kettle with hot boiled water held by hands of the people, to influence the pleasure and mood of the guests in the cafe to taste coffee.

The inventor of the present invention has solved the problem that the quality of brewed coffee is affected by the difficulty in controlling the flow and stability of the water discharged from a brewing kettle with hot water held by a bare hand, and the taste and mood of a guest in a cafe are lost. Therefore, the inventor of the present invention has previously obtained a coffee machine of taiwan patent publication No. M528138, and please refer to fig. 1, wherein the coffee machine a is mainly provided with a water supply unit a2, a transmission unit A3 and a water outlet unit a4 in a machine body a1, wherein the transmission unit A3 is provided with a driving disk a31, the driving disk a31 is provided at its outer periphery with a plurality of convex teeth a311 and a plurality of arc segments a312, and the convex teeth a311 and the arc segments a312 are equidistantly distributed. When the water supply unit A2 heats cold water into hot water, and provides the hot water to the water outlet unit A4, and the transmission unit A3 drives one end of the water outlet unit A4 to be provided with a water outlet pipe A41, the hot water is injected into the sections A51, A52 and A53 of the rotary drum A5 arranged from the center to the outside in sequence, and the rotary drum A5 is matched to rotate, so that the hot water injected into the sections A51, A52 and A53 flows out from the corresponding through holes (not shown) in the sections A51, A52 and A53, the coffee powder brewing action of the hot water from the inner spiral to the outside can be simulated. However, when the convex teeth a311 and the arc segments a312 disposed on the outer periphery of the driving disk a31 are respectively abutted against the water outlet unit A4 by a pushing block a42 disposed at an end away from the water outlet pipe a41 and a convex column a421 disposed at the front end of the pushing block a42, the water outlet pipe a41 disposed at an end of the water outlet unit A4 can only perform repeated actions of multiple water outflows and multiple retreats, which results in a poor effect of simulating hand-brewing coffee.

Disclosure of Invention

The inventor of the present invention has made an intensive study with particular attention to the above problem, and then has developed a coffee machine simulating hand-brewing coffee of the present invention to overcome the disadvantage of poor simulated hand-brewing coffee effect caused by repeated water discharge and backward movement of the teeth and the arc segments of the single driving disk of the transmission unit. The main objective of the present invention is to disclose a coffee machine simulating hand-operated coffee making, which can make the coffee machine not only simulate hand-operated coffee making, but also make the water outlet device easy to control the water outlet flow and stability by using the transmission device, and avoid the problems of the people's experience, the mood of the people during brewing, the water outlet flow and stability, and the like, so that the coffee shop can be more convenient to control the coffee machine simulating hand-operated coffee making with good coffee quality according to the number of guests.

In order to achieve the above objects, the present invention provides a coffee maker simulating manual coffee making, which comprises a machine body, a water supply device, a transmission device and a water outlet device. The water supply device is arranged outside the machine body and comprises a water inlet part and a water delivery pipe externally connected with one side of the water inlet part. The transmission device is arranged in the machine body and comprises a transmission set, a cam disc set, a rotating disc and a rotary power source, the transmission set is composed of a plurality of engaged gears, and a cam disc set is coaxially arranged on one gear, the cam disc set comprises a lower cam disc, an upper cam disc and a microswitch, one side of the lower cam plate is provided with a protruding rod member, so that the protruding rod member is abutted against the micro switch to electrically connect and inform the cam plate group to stop actuating, the rotary table is meshed with the other gear of the transmission set, a plurality of coaxially arranged rings with different diameters are arranged in a cylinder hole arranged above the rotary table, so that the cylinder hole of the rotary disk is divided into a plurality of sections from the center to the outside, and the bottom end of the rotary disk is provided with at least one through hole at the corresponding section respectively, and the transmission shaft of the rotary power source is combined with one gear between the cam disk group and each gear of the rotary disk group. The water outlet device is arranged in the machine body and comprises a sliding seat and a water valve body fixedly arranged above the sliding seat, one side of the water valve body facing the water supply device is connected with the water delivery pipe externally connected with the water inlet part, the water valve body is provided with a pushing part facing one end of the cam disc set and a water outlet pipe far away from one end of the pushing part, one end of the pushing part is pivoted with a cam correspondingly abutted against the upper convex wheel disc of the cam disc set so as to control the water outlet pipe of the water outlet device to supply water and stop water towards the rotating disc of the transmission device, a bottom wheel is arranged below the cam and pivoted with one end of the water valve body and correspondingly abutted against the lower convex wheel disc of the cam disc set so as to control the water outlet pipe of the water outlet device to be positioned, advance and retreat towards the upper part of the rotating disc of the transmission device, and a pushing rod connected with the water valve body is arranged at one end of the pushing part far away from the cam, the outer periphery of the pushing rod is sleeved with a first elastic element which is respectively abutted between the pushing part and the water valve body, one end of a second elastic element is assembled on the sliding seat, and the other end of the second elastic element is assembled on the machine body.

Furthermore, the machine body comprises a seat body, a vertical cylinder seat and an outer cover group, wherein one end of the seat body is assembled with the vertical cylinder seat, one end of the seat body, which is far away from the vertical cylinder seat, is provided with a bearing plate corresponding to the bottom end of the rotating plate, the inside of the vertical cylinder seat is hollow, the outer side, which is close to the bottom, of the vertical cylinder seat is connected with a power line, and the front end, which is close to the bottom, of the vertical cylinder seat is provided with a switch hole; wherein, the upright cylinder seat is assembled with a fixed plate, the fixed plate is fixedly provided with a first fixing body in an arc shape towards the upper part far away from one end of the upright cylinder seat, a convex sleeve body convexly arranged on the fixed plate and towards one end far away from the upright cylinder seat and provided with a through hole, a second fixing body which is adjacent to the inner side of the convex sleeve body and is in a bent shape, and two third fixing bodies respectively fixedly arranged at the front end of the second fixing body, wherein, the upper part near the inner side of the first fixing body is provided with a front shaft rod and a rear shaft rod, two sinking holes are arranged at the diagonal position of the first fixing body, a plurality of fixing pieces are respectively penetrated into the sinking holes and two cushion bodies arranged below the first fixing body, the first fixing body is fixed on the fixed plate, a first shaft, a second shaft and a second shaft are sequentially arranged above the second fixing body and between the first fixing body and the inner side of the convex sleeve body, A third shaft and a fourth shaft, a convex pad body and two convex rods respectively arranged at the rear side of the convex pad body are arranged between the first fixing body and the second fixing body, a hole is arranged in the convex pad body, screw holes are respectively arranged in the convex rods, a fixing column is arranged at the front end between the second fixing body and one of the third fixing bodies for positioning the sliding seat, and a locking body for connecting the other end of the second elastic element is arranged at the front end of the first fixing body; the outer cover set is fixed on the top of the fixing board to form a space between the base and the outer cover set, and includes one first cover fixed on the fixing board corresponding to the vertical barrel seat, one second cover fixed on the convex sleeve and corresponding to the first cover, and one connecting cover connected between the first cover and the second cover.

Furthermore, the transmission set is disposed above the fixing plate, the transmission set comprises a first gear, the first gear is connected to the pad body and is assembled with the transmission shaft of the rotary power source, a second gear is disposed above the first gear in a coaxial manner, a third gear which is connected to the rear shaft rod of the first fixing body in a shaft manner is disposed at one side of the second gear, the third gear is engaged with the second gear, a fourth gear is coupled above the third gear in a shaft manner, the fourth gear is engaged with a fifth gear formed at the lower end of the cam plate set, a sixth gear engaged with the first gear is disposed at one side of the first gear, a seventh gear engaged with the sixth gear is disposed at one side of the sixth gear, an eighth gear engaged with the seventh gear is disposed at one side of the seventh gear, a ninth gear engaged with the eighth gear is disposed at one side of the eighth gear, a tenth gear engaged with the ninth gear and connected to the rotary table is disposed at one side of the ninth gear, such that the tenth gear is connected to a flange formed at the upper end of the rotary table, and the sixth gear, the seventh gear, the eighth gear and the ninth gear are respectively coupled to the first shaft, the second shaft, the third shaft and the fourth shaft of the second fixing body.

Furthermore, a cylinder is arranged in the rotary disc of the transmission device, the cylinder is provided with a flange which protrudes out and is connected with the tenth gear, the rotary disc is internally provided with a first ring and a second ring which are coaxially arranged and have different diameters, the diameter of the second ring is larger than that of the first ring, and the cylinder hole of the rotary disc is sequentially divided into a first interval, a second interval and a third interval from the center to the outside.

Furthermore, the first cover body is a circular cover with a hollow inner part, a first scarf concave section is arranged above the inner side of the first cover body in a surrounding manner, a first cover body is provided for covering, the bottom of the first cover body is provided with a first scarf convex section which is scarf-jointed with the first scarf concave section for forming combination, a first opening is arranged below one end of the first cover body facing the connecting cover body for penetrating and extending the transmission device, the second cover body is a circular cover with a hollow inner part, a second scarf concave section is arranged above the inner side of the second cover body in a surrounding manner, a second cover body is provided for covering, a second scarf convex section which is scarf-jointed with the second scarf concave section for forming combination is arranged at the bottom of the second cover body, a second opening is arranged below one end of the connecting cover body facing the connecting cover body, a circular through hole is arranged above the second opening for penetrating and extending the transmission device, the rear end of the connecting cover body is provided with a hole for connecting one end of the water delivery pipe externally connected with the water inlet part, and the other end of the water delivery pipe is exposed out of the machine body.

Furthermore, the lower convex wheel disc is provided with a plurality of original areas, a plurality of forward areas and a backward section, wherein the original areas and the forward areas are arranged in a sequence of a first original area, a first forward section, a second original area, a second forward section and a third original area, the original areas, the forward areas and the backward section are respectively and correspondingly abutted against the bottom wheel of the water valve body so as to control the positioning, the forward movement and the backward movement of the water outlet pipe of the water outlet device, a bearing, a first cushion block and a second cushion block which are respectively sleeved on the outer periphery of the bearing, a third cushion block which is fixedly arranged above the upper convex wheel disc, a gasket which is arranged above the third cushion block, and a plurality of cushion blocks which are respectively penetrated into the gasket, the third cushion block, the upper convex wheel disc, the second cushion block, the first cushion block and the upper convex wheel disc to be fixedly connected, the lower convex wheel disc and the front shaft lever which is provided with the first fixing body in the bearing penetrate to form a shaft joint, and a space is formed between the lower convex wheel disc and the upper convex wheel disc through the first cushion block and the second cushion block; the outer periphery of the upper convex wheel disc is smaller than that of the lower convex wheel disc, the upper convex wheel disc is fixedly arranged above the second cushion block, the upper convex wheel disc is provided with a plurality of water supply areas and a plurality of water stopping areas, the water supply areas and the water stopping areas are arranged in sequence into a first water supply section and a first water stopping section, a second water supply section and a second water stopping section, and a third water supply section and a third water stopping section which are respectively correspondingly abutted against the cam of the water valve body so as to control the water supply and water stopping of the water outlet pipe of the water outlet device; wherein, a fixed piece is arranged below the microswitch, one end of the fixed piece is provided with two first holes respectively corresponding to the convex rods, a plurality of first locking pieces are respectively penetrated in the first holes and respectively penetrate into the screw holes of the convex rods to form fixation, the other end of the fixed piece is provided with two second holes which are opposite angle corresponding, and a plurality of second locking pieces are respectively penetrated into the second holes and fix the microswitch on the other end of the fixed piece in an opposite angle mode.

Furthermore, the number of the through holes is two, and a partition is formed between each through hole.

Furthermore, the water valve body further comprises a set of slide rails which are arranged on the machine body and used for the sliding seat to move, a channel is formed below the sliding seat and sleeved on the slide rails to move, and a through hole is formed in one side of the water valve body so that the other end of the push rod can penetrate into the water valve body through the through hole.

Furthermore, the coffee machine simulating the manual coffee making further comprises a control device, the control device comprises a switch piece and a controller, the switch piece is arranged outside the vertical cylinder seat, the controller is arranged inside the machine body, and the switch piece and the rotary power source of the transmission device are coupled with the controller arranged in the machine body.

Furthermore, the water inlet part of the water supply device is formed into a vertical container with an upward opening and an upper cover covering the opening, or is an automatic heater and heats cold water into hot water for the water outlet device.

The coffee machine simulating hand coffee making of the invention can mainly achieve the following effects:

1. the invention mainly utilizes one side of the transmission device to be connected with a lower cam disc which is coaxially connected and an upper cam disc which is arranged above the lower cam disc and the outer periphery of which is smaller than the lower cam disc, so that the water supply device heats boiled hot water or automatically cold water into hot water and provides the hot water to the water outlet device, and the transmission device drives the water outlet pipe at one end of the water outlet device to inject the hot water into the third interval, the second interval and the first interval which are arranged from outside to inside of the rotating disc in sequence, and the rotation of the rotating disc is matched, so that when the hot water injected into the third interval, the second interval and the first interval flows out from the corresponding through holes, the action of brewing coffee powder which surrounds a plurality of circles from outside to inside can be simulated, so as to uniformly brew coffee powder and filter the coffee after filtering, and the coffee quality is stable.

2. The design of the coffee making machine of the invention simulates the path of making coffee by a bare hand of a person to make the coffee with good quality, thereby effectively solving the problem that the quality of the coffee is influenced by the experience, the reduction of the making process, or the factors of the water outlet flow, the stability and the like of a making pot with hot boiled water held by the bare hand of the person, and the like, and the problems that the water outlet flow and the stability of the making pot with hot boiled water held by the bare hand of the person are not easy to control and the like in the prior art can be solved.

Drawings

Fig. 1 is a perspective view of a configuration of a taiwan patent publication No. M528138 coffee machine.

Fig. 2 is a perspective view of a coffee maker simulating hand-brewing coffee in accordance with the present invention.

Fig. 3 is an exploded perspective view of the coffee maker simulating hand coffee making according to the present invention.

Fig. 4 is an exploded perspective view of the transmission device and the water outlet device of fig. 3.

Fig. 5 to 9 are operation diagrams (a) to (b) of the transmission device and the water outlet device in fig. 3.

FIG. 10 is a schematic diagram of the stop of the cam plate set and the backward movement and restoration of the water outlet pipe at one end of the water valve body of the transmission device in FIG. 3.

FIG. 11-1 is a front view of a simulated hand-brewed coffee maker of the present invention for brewing coffee.

FIG. 11-2 is an enlarged partial view of the water exiting the brewed coffee of FIG. 11-1 in a spiral configuration.

Wherein the reference numerals are:

coffee machine A body A1

Water supply unit A2 transmission unit A3

Driving disc A31 convex tooth A311

Arc circle segment A312 water outlet unit A4

The water outlet pipe A41 abuts against the push block A42

Convex column A421 rotary cylinder A5

Intervals A51, A52, A53

The invention

Coffee machine 1 body 2 simulating hand-made coffee

Base 21 receiving plate 211

Fixing plate 221 of vertical cylinder seat 22

First fixing body 222 countersink 2220

Front axle 2221 and rear axle 2222

Fixing part 2223 pad 2224

The boss body 223 has a through hole 2231

Second stationary body 224 first shaft 2241

Second shaft 2242 and third shaft 2243

Fourth shaft 2244 third fixing body 225

Convex pad body 226 hole 2261

Protruding rod 227 screw hole 2271

Fixed post 228 locking solid 229

First cover 231 of cover group 23

First scarf concave section 2311 first cover 2312

First convex engagement section 2313 and first opening 2314

Second cover body 232 second scarf concave section 2321

Second cover body 2322 and second engagement convex segment 2323

Second opening 2324 through aperture 2325

Attachment housing 233 aperture 2331

Water inlet part 31 of water supply device 3

Opening 311 upper cover 312

Water pipe 32 driving device 4

First gear 410 of transmission group 41

Second gear 411 third gear 412

Fourth gear 413 fifth gear 414

Sixth gear 415 seventh gear 416

Eighth gear 417 ninth gear 418

Tenth gear 419 cam disc set 42

Bearing 420 first spacer 4201

Second head Block 4202 third head Block 4203

Shim 4204 holder 4205

Space 4206 lower cam plate 421

In-situ zone 4210 progression zone 4211

First home position stage 4212 first forward stage 4213

Second home position 4214 second forward position 4215

Third in-situ stage 4216 and backward stage 4217

Upper cam disk 422 of cam rod piece 4218

Water supply area 4220 water stop area 4221

First water supply stage 4222 first water shut-off stage 4223

Second water supply stage 4224 and second water shut-off stage 4225

Third Water supply stage 4226 third Water shut-off stage 4227

Microswitch 423 push button 4230

Fixing piece 4231 first hole 4232

First locking member 4233 and second hole 4234

Second locking piece 4235 turntable 43

Flange 431 cylinder 432

Bore 433 first collar 434

Second ring 435 first section 436

Second section 437 and third section 438

Through hole 439 baffle 4391

Transmission shaft 441 of rotary power source 44

Slide rail 50 of water outlet device 5

Bottom wheel 500 sliding seat 501

Slot 5011 water valve body 51

The pushing part 52 is provided with a cam 521

Push rod 522 outlet pipe 53

First elastic member 54 and second elastic member 55

Control unit 6 switch 61

Brewing pot 7 filter paper 71

Coffee powder 72

Detailed Description

Referring to fig. 2 and fig. 3, and fig. 4 and fig. 5, the present invention provides a coffee machine simulating manual coffee making, wherein the coffee machine 1 simulating manual coffee making comprises a machine body 2, a water supply device, the machine body 2 comprising a base 21, a vertical cylinder base 22 and an outer cover set 23. Wherein, the vertical cylinder seat 22 is assembled on one end of the seat body 21, and a bearing disc 211 for placing a brewing pot 7 or a cup is arranged on one end of the seat body 21 far away from the vertical cylinder seat 22. A hollow power cord (not shown) is formed inside the vertical cylinder seat 22 and connected to the outside of the bottom, a switch hole (not shown) for the control of the control device 6 is formed at the front end of the vertical cylinder seat 22 near the bottom, a fixing plate 221 is assembled on the vertical cylinder seat 22, an arc-shaped first fixing body 222 is fixedly arranged above the fixing plate 221 facing away from one end of the vertical cylinder seat 22, a convex sleeve body 223 is convexly arranged on the fixing plate 221 facing away from one end of the vertical cylinder seat 22 and provided with a through hole 2231, a curved second fixing body 224 is adjacent to the inner side of the convex sleeve body 223, and two third fixing bodies 225 are respectively fixedly arranged at the front end of the second fixing body 224, wherein a front shaft 2221 and a rear shaft 2222 are arranged above the first fixing body 222 near the inner side, two sinking holes are arranged at the opposite corners of the first fixing body 222, a plurality of fixing pieces 2223 are respectively inserted into the sinking holes 0 and a plurality of fixing bodies 2224 are arranged below the first fixing body 222, the first fixing body 222 is fixed on the fixing plate 221, a first shaft 2241, a second shaft 2242, a third shaft 2243 and a fourth shaft 2244 are sequentially disposed above the second fixing body 224 and between the first fixing body 222 and the inner side of the convex sleeve 223, a convex pad 226 and two convex rods 227 respectively disposed at the rear side of the convex pad 226 are disposed between the first fixing body 222 and the second fixing body 224, a hole 2261 is disposed inside the convex pad 226, a screw hole 2271 is disposed inside each of the convex rods 227, a fixing post 228 is disposed near the front end between the second fixing body 224 and one of the third fixing bodies 225, and a locking body 229 is disposed near the front end of the first fixing body 222. The outer cover set 23 is fixed above the fixing plate 221, so that a gap is formed between the base body 21 and the outer cover set 23. The outer cover assembly 23 includes a first cover 231 fixed on the fixing plate 221 corresponding to the vertical cylinder 22, a second cover 232 fixed on the boss 223 and corresponding to the first cover 231, and a connecting cover 233 connecting the first cover 231 and the second cover 232. More specifically, the first cover 231 is a circular cover with a hollow interior, a first engaging concave section 2311 is annularly arranged above the inner side of the first cover 231 to provide a first cover body 2312 with a decorative shape for covering, a first engaging convex section 2313 engaged with the first engaging concave section 2311 is arranged at the bottom of the first cover body 2312 to form a combination, a first opening 2314 is arranged below the first cover body 231 facing one end of the connecting cover body 233, and the first opening 2314 is rectangular to provide the penetration of the transmission device 4. The second cover 232 is a circular cover with a hollow interior, a second engagement concave section 2321 is annularly arranged above the inner side of the second cover 232 to provide a second cover 2322 with a decorative shape for covering, a second engagement convex section 2323 engaged with the second engagement concave section 2321 is arranged at the bottom of the second cover 2322 to form a combination, a second opening 2324 is arranged below one end of the second cover 232 facing the connecting cover 233, a circular through hole 2325 is arranged above the second opening 2324, the second opening 2324 is rectangular to provide the penetration of the transmission device 4. The connecting cover 233 has a hole 2331 at its rear end. The above-mentioned fixing plate 221 is fixed above one end of the vertical cylinder seat 22, and the fixing manners of the first fixing body 222, the convex sleeve body 223, the second fixing body 224 and the third fixing body 225 fixed above the fixing plate 221 are fixed and combined by using a plurality of common screw fixing manners, so that after the screws are loosened, the fixing plate 221, the first fixing body 222, the convex sleeve body 223, the second fixing body 224 and the third fixing body 225 above the fixing plate 221 can be disassembled and cleaned, so as to maintain the sanitation of the coffee maker 1 simulating the hand-pouring of coffee, which will not be described herein again.

The water supply device 3 is disposed outside the machine body 2, and as shown in fig. 2, the water supply device 3 includes a water inlet portion 31 and a water pipe 32 externally connected to one side of the water inlet portion 31. The water inlet portion 31 is formed as a vertical container having an upward opening 311 and an upper cover 312 covering the opening 311. In this embodiment, the water inlet portion 31 can inject boiled hot water or heat cold water into hot water by an automatic heating method, and provide the hot water to the water outlet device 5. The water inlet portion 31 is disposed adjacent to the rear of the body 2, when the upper cover 312 of the water inlet portion 31 is opened, hot water is conveniently injected from the opening 311, after the hot water is injected, the upper cover 312 is covered on the opening 311 of the water inlet portion 31 to keep the temperature of the hot water, one end of the water pipe 32 externally connected to one side of the water inlet portion 31 is connected to the hole 2331 at the rear end of the connecting cover 233, and the other end of the water pipe 32 is exposed out of the body 2.

The transmission device 4 is disposed in the outer casing 23 of the machine body 2, and the transmission device 4 includes a transmission set 41, a cam disc set 42, a rotating disc 43 and a rotation power source 44. As shown in fig. 4 and 5, the transmission set 41 is composed of a plurality of gears engaged with each other, and the rotational speed of the cam plate set 42 and the turntable 43 is changed by the engagement of the gears with each other according to the rotational speed of the gears engaged with each other. The transmission set 41 includes a first gear 410, the first gear 410 is coupled to the convex pad 226 and is connected to a transmission shaft 441 extending from one end of the rotary power source 44, a second gear 411 is disposed coaxially above the first gear 410, a third gear 412 is disposed at one side of the second gear 411 and is coupled to the rear shaft 2222 of the first fixed body 222, the third gear 412 is engaged with the second gear 411, a fourth gear 413 is coupled coaxially above the third gear 412, the fourth gear 413 is engaged with a fifth gear 414 formed at the lower end of the cam plate set 42, a sixth gear 415 engaged with the first gear 410 is disposed at one side of the first gear 410, a seventh gear 416 engaged with the sixth gear 415 is disposed at one side of the sixth gear 415, an eighth gear 417 engaged with the seventh gear 416 is disposed at one side of the seventh gear 416, a ninth gear 418 engaged with the eighth gear 417 is provided at one side of the eighth gear 417, and a tenth gear 419 engaged with the ninth gear 418 is provided at one side of the ninth gear 418. The sixth gear 415, the seventh gear 416, the eighth gear 417, and the ninth gear 418 are respectively coupled to the first shaft 2241, the second shaft 2242, the third shaft 2243, and the fourth shaft 2244 of the second fixed body 224. The cam plate set 42 is disposed above the fixing plate 221, the cam plate set 42 includes a lower cam plate 421, an upper cam plate 422, and a micro switch 423, wherein the lower cam disc 421 is coupled to the front axle 2221 of the first fixed body 222, the lower cam plate 421 has a plurality of original areas 4210, a plurality of forward areas 4211 and a backward area 4217, the original zones 4210, the forward zones 4211 and the backward zone 4217 form a traveling path of the lower cam plate 421 around a circle, wherein the home zones 4210 and the forward zones 4211 are ordered into a first home zone 4212 and a first forward zone 4213, a second home zone 4214 and a second forward zone 4215, and a third original stage 4216, and a protruding rod 4218 is disposed at one side of the first advancing stage 4213, and the protruding rod 4218 is abutted against the micro switch 423 to electrically connect and inform the cam disc set 42 to stop operation (as shown in fig. 10). A bearing 420, a first pad 4201 and a second pad 4202 respectively sleeved on the outer periphery of the bearing 420, a third pad 4203 fixedly arranged on the upper convex wheel disc 422, and a gasket 4204 and a plurality of fixing pieces 4205 arranged on the third pad 4203 are fixedly arranged between the lower convex wheel disc 421 and the upper convex wheel disc 422 from bottom to top, and respectively penetrate through the gasket 4204, the third pad 4203, the upper convex wheel disc 422, the second pad 4202, the first pad 4201 and the lower convex wheel disc 421 to be assembled and fixed, the above mentioned lower convex wheel disc 421 and the front shaft 2221 of the first fixing body 222 provided inside the bearing 420 penetrate to form a shaft joint, and a space 4206 is formed between the lower convex wheel disc 421 and the upper convex wheel disc 422 through the first pad 4201 and the second pad 4202. The outer periphery of the upper convex wheel disc 422 is smaller than the outer periphery of the lower convex wheel disc 421, the upper convex wheel disc 422 is fixedly arranged above the second cushion block 4202, the upper convex wheel disc 422 is provided with a plurality of water supply areas 4220 and a plurality of water stop areas 4221, the water supply areas 4220 and the water stop areas 4221 form a circle of path of the upper convex wheel disc 422, wherein the water supply areas 4220 and the water stop areas 4221 are sequenced into a first water supply section 4222 and a first water stop section 4223, a second water supply section 4224 and a second water stop section 4225, and a third water supply section 4226 and a third water stop section 4227. A fixing plate 4231 is disposed below the micro switch 423, one end of the fixing plate 4231 is provided with two first holes 4232 corresponding to the protruding rods 227, a plurality of first locking members 4233 respectively penetrate through the first holes 4232 and the screw holes 2271 of the protruding rods 227, so that the fixing plate 4231 is locked on the protruding rods 227, and two fixing plates 4231 are disposed at the other end of the fixing plate 4231

The second holes 4234 are diagonally opposite to each other, and a plurality of second locking members 4235 are inserted into the second holes 4234, so that the micro switch 423 is fixed at the other end of the fixing plate 4231 diagonally, and the protruding rod 4218 of the lower cam plate 421 rotates to activate the button 4230 of the micro switch 423, so as to electrically connect and notify the cam plate 42 of stopping operation. The bottom end of the rotary disc 43 corresponds to the receiving disc 211, a cylinder 432 is disposed inside the rotary disc 43, the cylinder 432 is disposed in the through hole 2231 of the convex sleeve 223, a flange 431 protruding out to connect with the tenth gear 419 is formed at the upper end of the cylinder 432, a cylinder hole 433 disposed inside the rotary disc 43 is coaxially formed, and has a first ring 434 and a second ring 435 with different diameters, and the diameter of the second ring 435 is larger than that of the first ring 434, by dividing the cylinder hole 433 of the rotary disc 43 from the center to the outside, a first section 436, a second section 437 and a third section are sequentially formed, such that the cylinder bottom of the cylinder 432 is corresponding to the first section 436, the second section 437 and the third section, and at least one through hole 439 (as shown in fig. 5) is disposed in front and back of the cylinder 432, and is disposed in the first section 436, the second section 437 and the third section, respectively, A partition 4391 is formed between each through hole 439 at the middle of the second section 437 and the third section 438, so that the cylinder 432 is rotated by the rotating disc 43 to generate centrifugal force, and the water flowing out of each through hole 439 forms spiral water to be stirred together and flow out (as shown in fig. 11-1 and 11-2). The rotating power source 44 is disposed in the vertical cylinder seat 22, and the transmission shaft 441 at one end of the rotating power source 44 is connected to the first gear 410, and the rotating power source 44 is a motor. The water outlet device 5 is disposed on the fixing plate 221 of the machine body 2 and located at the front end of the transmission set 41, and as shown in fig. 3, 4 and 5, the water outlet device 5 includes a sliding seat 501 and a water valve body 51 fixed above the sliding seat 501. The water outlet device 5 further includes a set of slide rails 50 disposed above the third fixing bodies 225 of the fixing plate 221, so that a set of grooves 5011 disposed on the slide rails 50 is formed below the slide seat 501. The valve body 51 has a through hole (not shown) at one end, and a pushing portion 52 is disposed at one end of the valve body 51, a cam 521 is pivoted at one end of the pushing portion 52, and a bottom wheel 500 is disposed below the cam 521 and pivoted to one end of the valve body 51. The water valve body 51 is connected to the water pipe 32 externally connected to the water inlet portion 31 on a side facing the water supply device 3, and a water outlet pipe 53 is connected to one end of the water valve body 51 facing away from the pushing portion 52, and the other end of the water outlet pipe 53 extends to the cylindrical hole 433 of the rotary disc 43. Wherein the design of the cam 521 is to provide a corresponding contact with the upper cam disc 422 of the cam disc set 42 to correspondingly drive the cam 521 of the pushing part 52 of the water outlet device 5, so as to control the water outlet pipe 53 of the water outlet device 5 to supply and stop water toward the inside of the rotary disc 43 of the transmission device 4, the design of the bottom wheel 500 is to provide a corresponding contact with the lower cam disc 421 of the cam disc set 42 to control the water outlet pipe 53 of the water outlet device 5 to be positioned, advanced and retreated toward the upper side of the rotary disc 43 of the transmission device 4, and a pushing rod 522 is disposed at one end of the pushing part 52 far from the cam 521, so that the other end of the pushing rod 522 penetrates into the water valve body 51 through the through hole, and the pushing rod 522 is sleeved with a first elastic member 54 at an outer periphery, the first elastic member 54 is a compression spring, so that two ends of the first elastic member 54 respectively contact the pushing part 52 and the water valve body 51, the first elastic member 54 is used for providing the pushing portion 52 to move towards the upper cam disc 422 and to correspondingly abut against the upper cam disc 422 at any time, so that the water outlet pipe 53 of the water valve body 51 is in a closed state at any time, then the pushing rod 522 advances when the first water supply section 4222 of the upper cam disc 422 rotates to the cam 521 at one end of the pushing portion 52, the water outlet pipe 53 of the water valve body 51 is opened to discharge water, at this time, the first elastic member 54 advances by the pushing portion 52 to form a compressed state, and then when the first water stopping section 4223 of the upper cam disc 422 rotates to the cam 521 at one end of the pushing portion 52, the pushing rod 522 is retreated by the elastic force of the first elastic member 54 which is compressed originally, so that the water outlet pipe 53 of the water valve body 51 is closed to stop discharging water when the pushing rod 522 retreats. Furthermore, the sliding seat 501 is assembled with one end of a second elastic member 55, the other end of the second elastic member 55 is assembled with the locking solid 229 of the fixing plate 221 of the machine body 2, the second elastic member 55 is an extension spring, the second elastic member 55 is designed such that, by virtue of the fact that the second elastic member 55 has an extension elastic force, when the first water stopping segment 4223 or the second water stopping segment 4225 of the upper cam disc 422 rotates to the cam 521 at one end of the pushing portion 52, please match fig. 6 and 8, the water valve body 51 fixed above the sliding seat 501 can be controlled to move forward by the interference of the lower cam disc 421, and when the third water stopping segment 4227 of the upper cam disc 422 rotates to the cam 521 at one end of the pushing portion 52, the lower cam 500 at one end of the water valve body 51 can be pressed to the lower cam disc 421 to move backward by the interference of the lower cam disc 421 by the original extended elastic force of the second elastic member 55 (simultaneously match fig. 10), the cam 521 restored to one end of the pushing portion 52 abuts against the starting point of the first water supply segment 4222.

Referring to fig. 2, fig. 3 and fig. 4, the coffee maker 1 further includes a control device 6, and the control unit 6 includes a switch 61 and a controller (not shown). The switch member 61 is disposed in a protruding manner outside the switch hole at the front end of the vertical cylinder 22 on the upper end surface of the base 21, so that the switch member 61 and the rotating power source 44 of the transmission device 4 are coupled to the controller disposed in the machine body 2.

Referring to fig. 2, and referring to fig. 5 to 10, when the simulated hand coffee maker 1 of the present invention is used, the user first opens the upper cover 312 covering the opening 311 of the water inlet portion 31 of the water supply device 3, then pours the boiled water into the opening 311 of the water inlet portion 31, the hot water flows from the water inlet portion 31 through the water pipe 32 externally connected to the hole 2331 at the rear end of the connecting cover 233, when the user wants to brew coffee, the user places the brewing pot 7 or cup containing the filter paper 71 on the receiving plate 211 of the base 21, and lays the coffee powder 72 above the filter paper 71, and presses the switch 61 to drive the controller to drive the water supply device 3 and the rotary power source 44 of the transmission device 4 to operate, and the controller sets parameters such as the rotation time or the number of turns of the rotary power source 44 according to the number of the required brewing pot 7 or cup, here, when the boiled water flows into the water valve body 51 of the water outlet device 5 along the water inlet portion 31, at the same time, the first gear 410 connected to the rotary power source 44 of the transmission device 4 is driven to rotate, so that the first gear 410 is driven to rotate synchronously with the second gear 411 of the coaxial set, the second gear 411 drives the third gear 412 in mesh to rotate, the third gear 412 is driven to rotate synchronously with the fourth gear 413 of the coaxial set, the fourth gear 413 drives the fifth gear 414 arranged below the lower cam plate 421 in mesh to rotate synchronously with the cam plate set 42, the sixth gear 415 engaged with the first gear 410 is driven to rotate, the seventh gear 416 engaged with the sixth gear 415 is driven to rotate, and the seventh gear 416 drives the eighth gear 417 engaged with the seventh gear 417 to rotate, so that the ninth gear 418 engaged with the eighth gear 417 is driven to rotate, and the ninth gear 418 drives the engaged tenth gear 419 to rotate, and then the tenth gear 419 drives the turntable 43 connected with the tenth gear 419 to rotate synchronously.

In this regard, the first water supply section 4222 of the upper cam disk 422 is disposed at the end of the third water stop section 4227, and the water outlet pipe 53 of the water outlet device 5 is disposed at the third section 438 of the outermost ring of the cam disk 43, and then, referring to fig. 4 and 5, when the starting point of the first water supply section 4222 of the upper cam disk 422 rotates to the cam 521 at one end of the pushing portion 52 of the water outlet device 5, and the first original position section 4212 of the lower cam disk 421 rotates to the bottom wheel 500 of the water outlet device 5, the water outlet pipe 53 of the water outlet device 5 is controlled to be disposed at the third section 438 of the outermost ring of the cam disk 43, and the first water supply section 4222 of the upper cam disk 422 is used to pull the cam 521 of the pushing portion 52, so as to generate a forward pushing force on the pushing portion 52, and the starting point of the first water supply section 4222 follows the path of the first water supply section 4222, the pushing rod 522 assembled on the side of the pushing portion 52 away from the cam 521 will push the water outlet of the water valve body 51 forward, so that the hot water flowing from the water pipe 32 into the water valve body 51 flows out to the water outlet pipe 53, at this time, the first elastic member 54 is compressed, so that the water outlet pipe 53 is located at the third section 438 of the outermost circle, and the rotating disc 43 rotates at least one circle, in this embodiment, the rotating disc 43 rotates 3 circles for about 20 seconds, so that the water outlet pipe 53 is located above the third section 438 of the outermost circle and rotates 3 circles to provide water, so that the water flowing out from each through hole 439 of the hot water injected into the third section flows out together by the centrifugal force generated by the rotation of the rotating disc 43 (like the spiral water disclosed in fig. 11-1 and fig. 11-2), and making the flowing hot water to make a plurality of circles of coffee powder 72 in the filter paper 71 above the brewing pot 7 by the rotation of the turntable 43, when the hot water enters the first water stop section 4223 from the stop point of the first water supply section 4222 and rotates to the cam 521 at one end of the pushing part 52 of the water outlet device 5, please refer to fig. 6, mainly providing a breathing procedure after the hot water of the water outlet pipe 53 is brewed in the third zone 438 of the outermost circle of the turntable 43, and when the first water stop section 4223 of the upper cam disk 422 rotates to the cam 521, the pushing rod 522 connected with the pushing part 52 is synchronously moved backwards and drives the water valve body 51 connected with the pushing part to gradually reset, so as to gradually close the interior of the water valve body 51, and close the water valve body 51 to stop the water outlet pipe 53, at this time, when the first forward section 4213 of the lower cam disc 421 coaxially assembled with the upper cam disc 422 rotates to the bottom wheel 500, the water valve body 51 will be continuously pushed forward, the sliding seat 501 fixedly connected with the water valve body 51 will slide forward along the sliding rail 50, so that the other end of the water outlet pipe 53 connected with the water valve body 51 is moved to the second section 437 of the barrel hole 433 of the middle ring of the rotating disc 43, and then, when the tail end of the first water stopping section 4223 of the upper cam disc 422 enters the starting point of the second water supply section 4224 and rotates to the cam 521 at one end of the top pushing part 52 of the water outlet device 5, and cooperates with the second home section 4214 of the lower cam disc 421 to rotate to the bottom wheel 500 of the water outlet device 5, so as to control the water outlet pipe 53 of the water outlet device 5 to be arranged at the second section 437 of the middle ring of the rotating disc 43, referring to fig. 7, the upper cam disk 422 is used to pull the cam 521 of the pushing portion 52 to generate a pushing force for pushing the pushing portion 52 forward, and the pushing rod 522 assembled on the side of the pushing portion 52 away from the cam 521 along the path of the second water supply segment 4224 sequentially from the starting point of the second water supply segment 4224 pushes the water outlet of the water valve body 51 forward, so that the hot water flowing from the water pipe 32 into the water valve body 51 flows out to the water outlet pipe 53, at this time, the first elastic element 54 is compressed, the water outlet pipe 53 is disposed at the second region 437 of the middle ring of the turntable 43, and rotates around the turntable 43 at least one turn, in this embodiment, the rotating ring of the turntable 43 is configured with 3 turns for about 20 seconds, so that the water outlet pipe 53 is disposed above the second region 437 of the middle ring of the turntable 43 and rotates 3 turns to provide water outlet in cooperation with the turntable 43, so that the hot water injected into the second region 437 is spirally stirred by the water flowing out from each through hole 439 to flow out (like the spiral water shown in fig. 11-1 and 11-2), and the flowing out hot water makes a plurality of circles of coffee powder 72 in the filter paper 71 above the brewing pot 7 to brew by rotating the rotary disc 43, when the hot water enters the second water stop section 4225 from the stop point of the second water supply section 4224 and rotates to the cam 521 at one end of the pushing part 52 of the water outlet device 5, please refer to fig. 8, mainly providing the coffee powder 72 to gradually return to the original state by the elastic force of the compressed first elastic member 54 when the hot water of the water outlet pipe 53 passes through the second region 437 of the middle circle of the rotary disc 43 and when the start end of the second water stop section 4225 rotates to the cam 521 at one end of the pushing part 52, and gradually pushing the pushing portion 52 backward to reset, at this time, the pushing rod 522 assembled with the pushing portion 52 is synchronously moved backward, and drives the assembled water valve body 51 to gradually reset, so as to gradually lock the interior of the water valve body 51, so that the water valve body 51 is closed to stop water discharge from the water outlet pipe 53, at this time, the second advancing section 4215 of the lower cam disc 421 coaxially assembled with the upper cam disc 422 rotates to the bottom wheel 500, the water valve body 51 is continuously pushed forward, the sliding seat 501 fixedly connected with the water valve body 51 slides forward along the slide rail 50, the sliding seat 501 is abutted and positioned by the fixing column 228 without moving forward, so that the other end of the water outlet pipe 53 connected with the water valve body 51 is further moved to the first section 436 of the cylinder hole 433 at the innermost circle of the rotary disc 43, and then continues, when the tail end of the second water stopping section 4225 of the upper cam disc 422 enters the initial point of the third water supply section 4226 and rotates to the water outlet portion 425 of the pushing portion 52 The cam 521 at one end and the third original position 4216 of the lower cam disc 421 rotate to the bottom wheel 500 of the water outlet device 5 to control the water outlet pipe 53 of the water outlet device 5 to be arranged at the first section 436 of the innermost circle of the rotary disc 43, please refer to fig. 9, the upper cam disc 422 is used to pull the cam 521 of the pushing part 52 to generate a pushing force to the pushing part 52, and the starting point of the third water supply section 4226 sequentially follows the path of the third water supply section 4226, and the pushing rod 522 arranged at the side of the pushing part 52 far from the cam 521 pushes the water outlet of the water valve body 51 forward to make the hot water flowing from the water pipe 32 to the water valve body 51 flow out of the water outlet pipe 53, at this time, the first elastic element 54 is compressed to make the water outlet pipe 53 rotate around the first section 436 of the innermost circle of the rotary disc 43, in this embodiment, the number of turns of the rotating disc 43 is designed to be 2 minutes long, so that the water outlet pipe 53 provides water in the first section 436 at the innermost turn to form a spiral shape by matching with the number of turns of the rotating disc 43 for 2 minutes, and the hot water injected into the first section 436 flows out by stirring the water flowing out from each through hole 439 (as shown in fig. 11-1 and 11-2), and the hot water flows out to make coffee powder 72 inside the filter paper 71 above the brewing kettle 7 make a multi-turn brewing in an inner turn by the rotation of the rotating disc 43, when the coffee powder enters the third water stopping section 4227 from the stopping point of the third water supplying section 4226 and rotates to the cam 521 at one end of the pushing part 52 of the water outlet device 5, the pushing rod 522 is retreated by the elastic recovery of the compressed first elastic member 54, and the water valve body 51 is closed to stop the water outlet pipe 53, meanwhile, when the retreating section 4217 of the lower cam plate 421 coaxially assembled with the upper cam plate 422 rotates to the bottom wheel 500 and the push rod 522 gradually moves backward, the water valve body 51 gradually loses the pushing action of the push rod 522, at this time, please refer to fig. 10, after the convex rod 4218 of the lower cam plate 421 rotates, the button 4230 of the micro switch 423 is triggered to stop the operation by the electrical connection, the second elastic element 55 stretched because the water valve body 51 and the sliding seat 501 slide forward gradually returns to the original state, the sliding seat 501 gradually moves backward to reset, and the water outlet pipe 53 at one end of the water valve body 51 also moves backward to reset at the third interval 438 of the outermost circle of the original cam plate 43, so as to wait for the start of the next brewing. Thus, the third zone 438, the second zone 437 and the first zone 436 of the cylinder hole 433 of the rotary disc 43 can be sequentially filled with water, and the hot water injected into the third zone 438, the second zone 437 and the first zone 436 can flow out from each of the corresponding through holes 439 by rotating the rotary disc 43 of the transmission device 4, so that the operation of making coffee powder 72 by making hot water from the outer spiral to the inner circle for a plurality of circles can be simulated, the coffee powder 72 can be made uniformly, and the filter paper 71 can be used for filtering coffee, thereby completing the making operation of making at least one cup of coffee required in about 2 minutes and 40 seconds in the embodiment. In addition, the coffee powder 72 has different brewing tastes according to the funnel design set by the user, and the controller will drive the rotary power source 44 to continuously operate to repeat the above operations to brew coffee in the required number of cups.

The design of brewing coffee by using the coffee machine 1 simulating manual coffee brewing can avoid the problem that the coffee brewing completely depends on the experience of brewing personnel and the instability of holding by hands, and if the experience of the brewing personnel is poor or more guests come from a store, the brewing personnel is easy to reduce the procedure of brewing coffee powder due to improper busy or mess, so that the unstable control of the coffee quality is caused, and the effect of well controlling the coffee quality is achieved. In addition, by means of the coffee machine 1 for simulating the hand-brewing coffee, even a beginner can brew a cup of coffee with good and stable quality, for a coffee shop operator, the training cost of coffee brewing personnel can be reduced, and the new coffee brewing personnel can be hired for brewing operation with low salary, so that the benefits of saving labor cost, expenditure and the like are further achieved.