AU2019202272A1 - a healthy tea leaves processing apparatus - Google Patents

Abstract

This invention discloses a healthy tea leaves processing apparatus, comprising an engine body(100), a grinding cavity(160) and an operation cavity(162) with an opening facing upward set in the engine body(1O), a drying cavity(164) with an opeing facing upward set in a bottom wall of the operation cavity(162), a first sliding cavity(134) set in a bottom wall of the grinding cavity, a first sliding plate(155) that can slide up and down set in the first sliding cavity(134), a rotating plate rotabably set in a top end wall of the first sliding plate(155). This invention aims at designing an apparatus with more ingenuity and convenience, as well as maintain the function of processing health caring medicine. 2/2 177 178 179 180 181 182 183 30 194 193 192 191190 189 188 187 18 85 184 Figure 2 195 196 197 198 199 200 201 202 203 204 205 40 Figure 3

Description

2/2

177 178 179 180 181 182 183 30

194 193 192 191190 189 188 187 18 85 184

Figure 2

195 196 197 198 199 200 201 202 203 204 205

40

Figure 3

A HEALTHY TEA LEAVES PROCESSING APPARATUS TECHNICAL FIELD

[0001] The present invention relates to the field of tea leaves processing, in particular to a

healthy tea leaves processing apparatus.

BACKGROUND OF THE INVENTION

[0002] Healthy tea firstly prevailed in western countries, as for Chinese health tea, the main

ingredients are green tea, black tea, oolong tea or scented tea, and cooked with single or

compound traditional Chinese medicine, sometimes it's made by drying the decoction or

concentrated fluid of Chinese medicine and tea.

[0003] Current healthy tea leaves processing apparatus has single function, inefficiency and

low degree of automation, therefore it can't process multiply items at the same time.

Moreover, unevenly addition of healthy potions has made the poor consistency of traditional

tea leaves hence to impact product qualities.

[0004] Thus, further improvements need to be done for healthy tea leaves processing

apparatus of current technology to enhance the functionality and efficiency.

SUMMARY OF THE INVENTION

[0005] The technical problem to be solved by the invention is to provide a healthy tea leaves

processing apparatus so as to overcome the problems existing in the prior art and enhance the

functionality and efficiency.

[0006] The healthy tea leaves processing apparatus in this invention comprises an engine body, a grinding cavity and an operation cavity with an opening facing upward arranged in the engine body; a drying cavity with an opening facing upward arranged in a bottom wall of the operation cavity; a first sliding cavity set on a bottom wall of the grinding cavity; a first sliding block slidabaly up and down set in the first sliding cavity; a rotating plate rotabably set in a top end of thefirst sliding block; a supporting device that set in said grinding cavity comprises said rotating plate and said first rotating block; a first transmission cavity is set in a bottom wall of said first sliding cavity; a second transmission cavity is set in a top wall of said transmission cavity; a second sliding cavity is set at a side inner wall of said second transmission cavity; a second sliding block that can slide horizontally is set in said second sliding cavity; a third transmission cavity is communicated with an upper inner wall of said second sliding cavity; wherein a drive switching device is arranged in said third transmission cavity; a fourth transmission cavity is arranged at a top wall of said third transmission cavity; wherein an outfeed device is arranged in the fourth transmission cavity; a crankshaft cavity is communicated with an upper inner side of said grinding cavity; a grinding device is arranged in said crankshaft cavity; a fixed mount is rotatably arranged in said drying cavity; wherein a drying device that is composed of said fixed mount is arranged in said drying cavity; a third transmission cavity is arranged at a first side wall of said drying cavity; wherein a fourth transmission cavity is set at a first side wall of said third transmission cavity; a feeding device is set at said fourth transmission cavity; a second side of said drying cavity is provided with a piston cavity; wherein a charging device is arranged in said piston cavity.

[0007] Wherein said supporting device comprises first limiting grooves that are arranged at

the side walls of said first sliding block; wherein said first sliding block that fixedly connected

with both sides of said first sliding cavity is slidably set in saidfirst limiting grooves; wherein

a first threaded hole with an opening facing downward is arranged in said first sliding block; a

first threaded rod that extends downward through a bottom wall of said first sliding cavity into

said first transmission cavity is in threaded fit connection with said first threaded hole; a first

motor is fixedly arranged at a bottom inner wall of said first transmission cavity and in power

connection with a bottom end of said first threaded rod; a first bevel gear that is able to rotate

in said first transmission cavity is fixedly arranged on an outside surface of saidfirst threaded rod; a sliding groove with an opening facing upward is arranged at a top wall of said rotating plate; a first magnet is fixedly arranged at a first side wall of said sliding groove; a sliding tray that can slide horizontally is arranged in said sliding groove; wherein a first rack isfixedly arranged at a bottom wall of said sliding trays; second magnets are fixedly arranged at both sides of said first rack; a grinding groove with an opening facing upward arranged at a top wall of said sliding trays; wherein an inner gear ring is fixedly arranged around said grinding groove.

[0008] Wherein said drive switching device comprises a second threaded hole that is

communicated with said second sliding block from one side to another side; wherein a second

threaded rod that extends horizontally is in threaded fit connection with said second threaded

hole; a second bevel gear that engages with said first bevel gear is infixed connection with

said second threaded rod whose one end penetrates through a second side wall of said second

sliding cavity and extends into side second transmission cavity; a second motor is fixedly set

at an upper inner wall of said second sliding block; a first gear is in power connection with a

top end of said second motor.

[0009] Said grinding device comprises a fourth transmission cavity extending to a second side

that is set in a top wall of said crankshaft cavity; afirst rotation shaft is rotabably set between

an inner wall of said fourth transmission cavity and said crankshaft cavity; wherein an upper

side of said first rotation shaft extends into said fourth transmission cavity and infixed

connection with a first belt wheel that is able to rotate in said fourth transmission cavity; a

bottom side of said first rotation shaft extends into said crankshaft cavity and in fixed

connection with a connection block whose bottom is fixedly provided with a second rotation

shaft that extends downward; wherein a second gear that engages with said inner gear ring is

in rotational engagement with a bottom end of said second rotation shaft; an air bag is fixedly

installed at a bottom side of said second gear; a bump is fixedly set at a first side of upper side

of said second gear; a third sliding cavity is set in a top wall of said grinding cavity; wherein a

third sliding block that is able to slide back and forward is set in said third sliding cavity is

communicated with said third sliding cavity; a sliding groove with an opening facing downward is set at a bottom wall of said third sliding block; a dovetail groove set at a top wall of said third sliding cavity; wherein a dovetail block that is able to slide back and forward is fixedly connected with said third sliding block; a third rotation shaft is rotatably set between an inner wall of said fourth transmission cavity and said second transmission cavity, wherein a top side of said third rotation shaft extends into said fourth transmission cavity and infixed connection with a second belt wheel that can rotate in said fourth transmission cavity; said first belt wheel and second belt wheel are in transmission connection through said first belt; a bottom side of said third rotation shaft extends into said second transmission cavity and in fixed connection with a third gear that can rotate in said second transmission cavity.

[0010] Preferably, said outfeed device comprises a communication hole that is in communication with an inner side of said grinding cavity and an opposite side of said drying cavity; a gear cavity is in communication with a bottom wall of said connection hole; a fifth transmission cavity is set in a rear inner wall of said gear cavity; a fourth rotation shaft is rotatably set between said fifth transmission cavity and said gear cavity; wherein a front end of said fourth rotation shaft extends into said gear cavity and in fix connection with a fourth gear that can rotate in said gear cavity; a back end extends into saidfifth transmission cavity and in fixed connection with a third belt wheel that can rotate in saidfifth transmission cavity; a fifth rotation shaft is rotatably set between an inner wall of said fourth transmission cavity and fifth transmission cavity; a fourth belt wheel that can rotate in saidfifth transmission cavity is in fixed connection with a back end of said fifth rotation shaft that extends into said fifth transmission cavity; said third belt wheel and fourth belt wheel are in transmission connection through said second belt; a third bevel gear that can rotate in said fourth transmission cavity is in fixed connection with a front end of said fifth rotation shaft that extends into said fourth transmission cavity; a first cam cavity is communicated with an inner side of said grinding cavity; a sixth rotation shaft whose lower end penetrates said fourth transmission cavity is rotatably set between an inner wall of said first cam cavity and said second transmission cavity; a fourth bevel gear engaging with said third bevel gear isfixedly set in an outer surface of said sixth rotation shaft that inside of said fourth transmission cavity; a fifth gear that can rotate in said second transmission cavity is infixed connection with a lower end of said six rotation shaft; a first cam that can rotate in said first cam cavity is in fixed connection with a top end of said sixth rotation shaft that extends into said first cam cavity.

[0011] Preferably, said drying device comprises said a seventh rotation shaft that rotatably set at an inner wall between said drying cavity and said third transmission cavity; an end of seventh rotation shaft is in fixed connection with said fixed mount in said drying cavity; a sixth gear is fixedly set at an end of said seventh rotation shaft 118 in said third transmission cavity; a first sliding hole is in communication and set in said seventh rotation shaft; an eighth rotation shaft that extends horizontally is rotatably set in said first sliding hole; wherein an end of a first side of eighth rotation shaft is in fixed connection with a same side wall of said third transmission cavity; and an end of another side of said eighth rotation shaft whose end is fixedly provide with a fifth belt wheel extends into said drying cavity; eight sets of levers are in circular distribution and centrally symmetrical toward said fixed mount; ninth rotation shafts that extend to a second side is in rotatable connection with a side wall of one of said levers; sixth belt wheels are fixedly set at outer surfaces of said ninth rotation shafts; said fifth belt wheel and sixth belt wheels are in transmission connection by said third belt; drying trays are fixedly set at ends of said ninth rotation shafts; wherein placing grooves are set at a top wall of said drying trays; third magnet are fixedly set at first side walls of said placing grooves; a heating device is fixedly set at a bottom wall of said drying cavity; a sealed door is hingedly connected to a top wall of said drying cavity; a cylinder is set between said sealed door and a second side of said operation cavity.

[0012] Preferably, said feeding device comprises a second cam cavity set at a top wall of said fourth transmission cavity; a tenth rotation shaft is rotatably set between an inner wall of said second cam cavity and said fourth transmission cavity; a second cam that can rotate in said second cam cavity is in fixed connection with an upper side of said tenth rotation shaft that extends into said second cam cavity; a fifth bevel gear that can rotate in said fourth transmission cavity is in fixed connection with a bottom side of said tenth rotation shaft; an eleventh rotation shaft is rotatably set between said third transmission cavity and fourth transmission cavity; a sixth bevel gear that can rotate in said fourth transmission cavity is in fit connection with a first side of said eleventh rotation shaft that extends into said fourth transmission cavity; a seventh gear that can rotate in said third rotation cavity is in fit connection with a second side of said eleventh rotation shaft that extends into said third transmission cavity; a clearing hole is set at a second side inner wall of said second cam cavity; a pushing rod is slidably set through said clearing hole; and an elasticity restoring device is elastically set between said upper putter and said clearing hole.

[0013] Preferably, said charging device comprises a third cam cavity set in a bottom wall of

said fourth transmission cavity; a twelfth rotation shaft is rotatably set between an inner wall

of said third cam cavity and said third transmission cavity; a sector gear that can rotate in said

third transmission cavity is in fit connection with a second side of said twelfth rotation cavity

that extends into said third transmission cavity; a third motor fixedly set at a first side inner

wall of said third cam cavity is in power connection with a first side of said twelfth rotation

shaft that extends into said third cam cavity; a third cam that can rotate in said third cam

cavity is fixedly set at said twelfth rotation shaft; a second sliding hole is communicated with

a bottom wall of said third cam cavity; a first sliding rod is in elastic connection with an inner

wall of said second sliding hole in said second sliding hole; an atomized spray is

communicated with said piston cavity and said drying cavity; a piston is up-down slidably set

in said piston cavity; a third sliding hole with an opening facing upward is set in a bottom

wall of said piston cavity; a second sliding rod that in fit connection with said piston is

up-down slidably set in said third sliding hole; a hydraulic pipe is communicated with said

second sliding hole and third sliding hole; a charging cavity is set at a second side wall of said

piston cavity; a charging pipe is communicated with said charging cavity and said piston

cavity; a one-way valve is fixedly set in said charging pipe.

[0014] The benefits of the invention are as follows:

The entire structure of this healthy tea leaves processing apparatus is more reasonable and

delicate. In addition, it has great convenience and high stability. Moreover, it can realize the processing of multiple items at the same time, with the grinding device, the process efficiency can be significantly improved. Furthermore, the atomization device can made the health care potions being added more evenly, hence to create higher value for using and promotion with better effect.

BRIEF DESCRIPTION OF THE DRAWINGS

[0015] FIG. 1 is a schematic structural diagram of a healthy tea leaves processing apparatus of

the present invention.

[0016] FIG2. is the enlarged schematic structural diagram of the part A in FIG.1

[0017] FIG.3 is the structural diagram of part B-B in FIG.1

DETAILED DESCRIPTION OF THE INVENTION

[0018] The invention will be described in detail below referring to FIG. I to FIG. 3. For better

explanation, the orientations described hereinafter are defined as follows: directions ofup,

down, left, right, front and rear in the text are identical to the directions of up, down, left, right,

front and rear of FIG.1.

[0019] Referring to FIG. 1-3, a healthy tea leaves processing apparatus comprises an engine

body 100, a grinding cavity 160 and an operation cavity 162 with an opening facing upward

arranged in the engine body 100; a drying cavity 164 with an opening facing upward arranged

in a bottom wall of the operation cavity 162; a first sliding cavity 134 set on a bottom wall of

the grinding cavity 160; a first sliding block 155 slidabaly up and down set in thefirst sliding

cavity 134; a rotating plate 154 rotabably set in a top end of the first sliding block 155; a

supporting device 20 that set in said grinding cavity 160 comprises said rotating plate 154 and

said first rotating block 155; a first transmission cavity 131 is set in a bottom wall of said first

sliding cavity 134; a second transmission cavity 135 is set in a top wall of said transmission cavity 131; a second sliding cavity 140 is set at a side inner wall of said second transmission cavity 135; a second sliding block 138 that can slide horizontally is set in said second sliding cavity 140; a third transmission cavity 142 is communicated with an upper inner wall of said second sliding cavity 140; wherein a drive switching device 10 is arranged in said third transmission cavity 142; a fourth transmission cavity 205 is arranged at a top wall of said third transmission cavity 142; wherein an outfeed device 40 is arranged in the fourth transmission cavity 205; a crankshaft cavity 182 is communicated with an upper inner side of said grinding cavity 160; a grinding device 30 is arranged in said crankshaft cavity 182; a fixed mount 120 is rotatably arranged in said drying cavity 164; wherein a drying device 50 that is composed of said fixed mount 120 is arranged in said drying cavity 164; a third transmission cavity 117 is arranged at a first side wall of said drying cavity 164; wherein a fourth transmission cavity 105 is set at a first side wall of said third transmission cavity 117; a feeding device 60 is set at said fourth transmission cavity 105; a second side of said drying cavity 164 is provided with a piston cavity 125; wherein a charging device 70 is arranged in said piston cavity 125.

[0020] Referring to FIG.1-3, said supporting device 20 comprises first limiting grooves 153

that are arranged at the side walls of said first sliding block 155; wherein said first sliding

block 155 that fixedly connected with both sides of said first sliding cavity 134 is slidably set

in said first limiting grooves 153; wherein a first threaded hole 152 with an opening facing

downward is arranged in said first sliding block 155; a first threaded rod 133 that extends

downward through a bottom wall of said first sliding cavity 134 into said first transmission

cavity 131 is in threaded fit connection with said first threaded hole 152; a first motor 130 is

fixedly arranged at a bottom inner wall of said first transmission cavity 131 and in power

connection with a bottom end of said first threaded rod 133; a first bevel gear 132 that is able

to rotate in said first transmission cavity 131 is fixedly arranged on an outside surface of said

first threaded rod 133; a sliding groove 183 with an opening facing upward is arranged at a

top wall of said rotating plate 154; a first magnet 185 is fixedly arranged at a first side wall of

said sliding groove 183; a sliding tray 184 that can slide horizontally is arranged in said

sliding groove 183; wherein a first rack 189 is fixedly arranged at a bottom wall of said sliding trays 184; second magnets 186 are fixedly arranged at both sides of said first rack 189; a grinding groove 188 with an opening facing upward arranged at a top wall of said sliding trays 184; wherein an inner gear ring 187 isfixedly arranged around said grinding groove

188.

[0021] Referring to FIG. 1-3, said drive switching device 10 comprises a second threaded

hole 139 that is communicated with said second sliding block 138 from one side to another

side; wherein a second threaded rod 137 that extends horizontally is in threaded fit connection

with said second threaded hole 139; a second bevel gear 136 that engages with said first bevel

gear 132 is in fixed connection with said second threaded rod 137 whose one end penetrates

through a second side wall of said second sliding cavity 140 and extends into side second

transmission cavity 135; a second motor 141 is fixedly set at an upper inner wall of said

second sliding block 138; a first gear 144 is in power connection with a top end of said second

motor 141.

[0022] Said grinding device 30 comprises a fourth transmission cavity 159 extending to a

second side that is set in a top wall of said crankshaft cavity 182; a first rotation shaft 158 is

rotabably set between an inner wall of said fourth transmission cavity 159 and said crankshaft

cavity 182; wherein an upper side of said first rotation shaft 158 extends into said fourth

transmission cavity 159 and in fixed connection with a first belt wheel 157 that is able to

rotate in said fourth transmission cavity 159; a bottom side of saidfirst rotation shaft extends

into said crankshaft cavity 182 and in fixed connection with a connection block 181 whose

bottom is fixedly provided with a second rotation shaft 180 that extends downward; wherein a

second gear 191 that engages with said inner gear ring 187 is in rotational engagement with a

bottom end of said second rotation shaft 180; an air bag 190 is fixedly installed at a bottom

side of said second gear 191; a bump 192 is fixedly set at a first side of upper side of said

second gear 191; a third sliding cavity 177 is set in a top wall of said grinding cavity 160;

wherein a third sliding block 194 that is able to slide back and forward is set in said third

sliding cavity 177 is communicated with said third sliding cavity 177; a sliding groove 193

with an opening facing downward is set at a bottom wall of said third sliding block 194; a dovetail groove 178 set at a top wall of said third sliding cavity 177; wherein a dovetail block

179 that is able to slide back and forward isfixedly connected with said third sliding block

194; a third rotation shaft 149 is rotatably set between an inner wall of said fourth

transmission cavity 159 and said second transmission cavity 142, wherein a top side of said

third rotation shaft 149 extends into said fourth transmission cavity 159 and in fixed

connection with a second belt wheel 150 that can rotate in said fourth transmission cavity 159;

said first belt wheel 157 and second belt wheel 150 are in transmission connection through

said first belt 156; a bottom side of said third rotation shaft 149 extends into said second

transmission cavity 142 and in fixed connection with a third gear 143 that can rotate in said

second transmission cavityl42.

[0023] Said outfeed device 40 comprises a communication hole 161 that is in communication

with an inner side of said grinding cavity 160 and an opposite side of said drying cavity 164; a

gear cavity 199 is in communication with a bottom wall of said connection hole161; a fifth

transmission cavity 195 is set in a rear inner wall of said gear cavity 199; a fourth rotation

shaft 197 is rotatably set between said fifth transmission cavity 195 and said gear cavity 199;

wherein a front end of said fourth rotation shaft 197 extends into said gear cavity 199 and in

fix connection with a fourth gear 198 that can rotate in said gear cavity 199; a back end

extends into said fifth transmission cavity 195 and in fixed connection with a third belt wheel

196 that can rotate in said fifth transmission cavity 195; a fifth rotation shaft 202 is rotatably

set between an inner wall of said fourth transmission cavity 205 andfifth transmission cavity

195; a fourth belt wheel 201 that can rotate in said fifth transmission cavity 195 is in fixed

connection with a back end of said fifth rotation shaft 202 that extends into said fifth

transmission cavity 195; said third belt wheel 196 and fourth belt wheel 201 are in

transmission connection through said second belt 200; a third bevel gear 203 that can rotate in

said fourth transmission cavity 205 is in fixed connection with a front end of said fifth

rotation shaft 202 that extends into said fourth transmission cavity 205; a first cam cavity 146

is communicated with an inner side of said grinding cavity 160; a sixth rotation shaft 147

whose lower end penetrates said fourth transmission cavity 205 is rotatably set between an

inner wall of said first cam cavity 146 and said second transmission cavity 142; a fourth bevel gear 204 engaging with said third bevel gear 203 is fixedly set in an outer surface of said sixth rotation shaft 417 that inside of said fourth transmission cavity 205; a fifth gear 145 that can rotate in said second transmission cavity 142 is in fixed connection with a lower end of said six rotation shaft 147; a first cam 148 that can rotate in said first cam cavity 146 is in fixed connection with a top end of said sixth rotation shaft 147 that extends into said first cam cavity 146.

[0024] Said drying device 50 comprises said a seventh rotation shaft 118 that rotatably set at

an inner wall between said drying cavity 164 and said third transmission cavity 117; an end of

seventh rotation shaft 118 is in fixed connection with said fixed mount 120 in said drying

cavity 164; a sixth gear 116 is fixedly set at an end of said seventh rotation shaft 118 in said

third transmission cavity 117; a first sliding hole 119 is in communication and set in said

seventh rotation shaft 118; an eighth rotation shaft 173 that extends horizontally is rotatably

set in said first sliding hole 119; wherein an end of a first side of eighth rotation shaft 173 is in

fixed connection with a same side wall of said third transmission cavity 117; and an end of

another side of said eighth rotation shaft 173 whose end is fixedly provide with a fifth belt

wheel 172 extends into said drying cavity 164; eight sets of levers 206 are in circular

distribution and centrally symmetrical toward said fixed mount 120; ninth rotation shafts 176

that extend to a second side is in rotatable connection with a side wall of one of said levers

206; sixth belt wheels 175 are fixedly set at outer surfaces of said ninth rotation shafts 176;

said fifth belt wheel 172 and sixth belt wheels 175 are in transmission connection by said

third belt 174; drying trays 171 are fixedly set at ends of said ninth rotation shafts 176;

wherein placing grooves 170 are set at a top wall of said drying trays 171; third magnet 169

are fixedly set at first side walls of said placing grooves 170; a heating device 207 isfixedly

set at a bottom wall of said drying cavity 164; a sealed door 165 is hingedly connected to a

top wall of said drying cavity 164; a cylinder 163 is set between said sealed door 165 and a

second side of said operation cavity 162.

[0025] Said feeding device 60 comprises a second cam cavity 101 set at a top wall of said

fourth transmission cavity 105; a tenth rotation shaft 103 is rotatably set between an inner wall of said second cam cavity 101 and said fourth transmission cavity 105; a second cam 102 that can roatate in said second cam cavity 101 is in fixed connection with an upper side of said tenth rotation shaft 103 that extends into said second cam cavity 101; a fifth bevel gear

104 that can rotate in said fourth transmission cavity 105 is infixed connection with a bottom

side of said tenth rotation shaft 103; an eleventh rotation shaft 107 is rotatably set between

said third transmission cavity 117 and fourth transmission cavity 105; a sixth bevel gear 106

that can rotate in said fourth transmission cavity 105 is in fit connection with a first side of

said eleventh rotation shaft 107 that extends into said fourth transmission cavity 105; a

seventh gear 108 that can rotate in said third rotation cavity 117 is in fit connection with a

second side of said eleventh rotation shaft 107 that extends into said third transmission cavity

117; a clearing hole 166 is set at a second side inner wall of said second cam cavity 101; a

pushing rod 168 is slidably set through said clearing hole 166; and an elasticity restoring

device 167 is elastically set between said upper putter 168 and said clearing hole 166.

[0026] Said charging device comprises 70 a third cam cavity 109 set in a bottom wall of said

fourth transmission cavity 105; a twelfth rotation shaft 112 is rotatably set between an inner

wall of said third cam cavity 109 and said third transmission cavity 117; a sector gear 113 that

can rotate in said third transmission cavity 117 is in fit connection with a second side of said

twelfth rotation cavity 112 that extends into said third transmission cavity 117; a third motor

110 fixedly set at a first side inner wall of said third cam cavity 109 is in power connection

with a first side of said twelfth rotation shaft 112 that extends into said third cam cavity 109; a

third cam 111 that can rotate in said third cam cavity 109 is fixedly set at said twelfth rotation

shaft 112; a second sliding hole 114 is communicated with a bottom wall of said third cam

cavity 109; a first sliding rod 115 is in elastic connection with an inner wall of said second

sliding hole 114 in said second sliding hole 114; an atomized spray 122 is communicated with

said piston cavity 125 and said drying cavity 164; a piston 126 is up-down slidably set in said

piston cavity 125;a third sliding hole 124 with an opening facing upward is set in a bottom

wall of said piston cavity 125; a second sliding rod 123 that infit connection with said piston

126 is up-down slidably set in said third sliding hole 124; a hydraulic pipe 121 is

communicated with said second sliding hole 114 and third sliding hole 124; a charging cavity

129 is set at a second side wall of said piston cavity 125; a charging pipe 128 is

communicated with said charging cavity 128 and said piston cavity 125; a one-way valve 127

is fixedly set in said charging pipe 128.

[0027] Referring to FIG. 1-3 and the entire structure, the application method will be detailed

introduced: first of all, in the initial state, said first motor 130, said second motor 141 and said

third motor 110 are all in idle; said second sliding block 138 is at a first side of said second

sliding cavity 140; said first gear 144 is separated from said third gear 143; said first gear 144

engages with said fifth gear 145; said rotating plate 154 is below said grinding cavity 160.

[0028] When this invention is in operation, tender bugs of tea leaves that need to be processed

are placed on said sliding trays 184; then said sliding tray 184 is put into said placing grooves

170; meanwhile said third motor 110 is started to rotated, which will drive said sector gear

113 to rotate hence to drive the rotation of said sixth gear 116; whereby said seventh rotation

shaft 118 is driven to rotate; whereby said fixed mount 120 is driven to rotate for 1 grid, and

said placing grooves 170 are driven rotate for 1 grid; then said sector gear 113 is separated

from said sixth gear 116; said sector gear 113 engages with said seventh gear 108; the rotation

of said sector gear 113 will drive said seventh gear 108 to rotate hence to drive said sixth

bevel gear 106 to rotate; whereby said fifth bevel gear 104 is driven to rotate; whereby said

second cam 102 is driven to rotate; whereby said upper putter 168 is driven to move to a

second side and said sliding tray 184 is pushed to a second side hence to drive said rack 189

engaged with said fourth gear 198; then said second motor 141 is started; said second motor

141 will drive said first gear 144 to rotate; whereby said fifth gear 145 is driven to rotate;

whereby said fourth bevel gear 204 is driven to rotate; whereby said third bevel gear 203 is

driven to rotate; whereby said fourth belt wheel 201 is driven to rotate; whereby said third belt

wheel 196 is driven to rotate; whereby said fourth gear 199 is driven to rotate hence to drive

said rack 183 to move to a second side; and said sliding tray 184 is driven to move to a second

side; whereby said second magnets 186 are driven to to move close to said first magnet 185;

under the effect of said first magnet 185, said second magnets 186 are driven to move and

closely connected with said first magnet 185; said sliding tray 184 is driven to move to a top of said rotating plate 154; then said first motor 130 is started to rotate; whereby said first threaded rod 133 is driven to rotate; whereby said first sliding block 155 is driven to move upward; whereby said sliding tray 184 is driven to move upward; meanwhile, the rotation of said first threaded rod 133 will drive said first bevel gear 132 to rotate; whereby said second bevel gear 136 is driven to rotate; whereby said second threaded rod 137 is driven to rotate; whereby said second sliding block 138 is driven to move; when said sliding tray 184 is driven to move upward to be connected with said air bag 190, said second gear 191 will be engaged with said ring gear 187; said first gear 144 is engaged with said third gear 143; said first gear

144 is separated from said fifth gear 145; then said second motor 141 is started to rotate;

whereby said first gear 144 is driven to rotate; whereby said third gear 143 is driven to rotate;

whereby second belt wheel 150 is driven to rotate; whereby first rack 157 is driven to rotate;

whereby said connection block 181 is driven to rotate; whereby said second gear 191 is driven

to rotate around said ring gear 187; said second gear 191 won't autorotate, but drive said air

bag 189 to grind said tea leaves; when said tea leaves meets the composite standard, said first

motor 130 is started to rotate reversely to drive said first threaded rod 133 to rotate reversely;

whereby said first sliding block 155 is driven to move downward; whereby said sliding tray

184 is driven to move downward; meanwhile, said first threaded rod 133 rotate reversely to

drive said first bevel gear 132 to rotate reversely; whereby said second bevel gear 136 is

driven to rotate reversely; said second threaded rod 137 is driven to rotate reversely; whereby

said second sliding block 138 is driven to move to a first side; whereby said first gear 144 is

driven to be separated from said third gear 143; said first gear 144 is engaged with said fifth

gear 145; then said second motor 141 is started; said second motor 141 rotates to drive said

first gear 144 to rotate; whereby said fifth gear 145 is driven to rotate; whereby said sixth

rotation shaft 147 is driven to rotate, whereby said first cam 148 is driven to push said sliding

tray 184 to move to a first side hence to make said rack 189 engaged with said fourth gear 198;

meanwhile, the rotation of said sixth rotation shaft 147 will drive said fourth bevel gear 204

rotate reversely; whereby said third bevel gear 203 is driven to rotate reversely; whereby said

fourth belt wheel 201 is driven to rotate reversely; whereby said third belt wheel 196 is driven

to rotate reversely; whereby said fourth gear 199 is driven to rotate reversely; whereby said

rack 183 is driven to move to a second side hence to drive said sliding tray 184 to move to a second side; when one of the second magnets 186 that is at a first side of said sliding tray 184 approaches one of said third magnets 169; said sliding tray 184 moves to a first side into said placing grooves 170 under effect of said third magnets 169; then said third motor 110 is driven to rotate again; whereby said sector gear 113 is driven to rotate; whereby said sixth gear 116 is driven to rotate; whereby said seventh rotation shaft 118 is driven to rotate; whereby said fixed mount 120 is driven to rotate for 1 grid; said placing grooves 170 are driven to rotate for 1 grid; tea leaves are ground in the next sliding tray 184; during the rotation of said third motor 110, said third cam 11Irotates repeatedly to drive said first sliding rod 115 to move up and down; whereby said second sliding rod 123 is driven to move up and down; whereby said piston 126 is driven to move up and down; then healthy potions are added in said charging cavity 129 to said piston cavity 125; then being sprayed by said atomized sprayer to tea leaves in said sliding tray 184; after all tea leaves in sliding tray 184 have been ground; heating device 207 is started to dry tea leaves in said drying cavity 164; and surfaces of said tea leaves are covered with health potions hence to complete the processing of healthy tea leaves.

[0029] Above detailed analysis can be concluded that, the apparatus of the invention transfer the tea leaves in and out and grind the tea leaves driven by the same power source, during the above functional switching process, tea leaves are held by shifting up and down the sliding tray which is able to simplify the structure of the apparatus and improve the automation level.

[0030] Apparatus of the invention can automatically process multiple items and realize the addition of the health care potions during the process, which makes it more convenient to process the health tea leaves. The drying function of the apparatus improves the efficiency of processing health tea leaves.

[0031]Entire structure of this healthy tea leaves processing apparatus is more reasonable and delicate, in addition, it has great convenience and stability. Moreover, it can realize the processing of multiple items at one time, with the grinding device, the process efficiency can be significantly improved. Furthermore, the atomization device can made the health care potions being added more evenly, hence to create higher value for using and promotion.

[0032] Above is only the specific embodiment of the invention, but the scope of the invention

is not limited thereto, and any changes or substitutions without creative work should be

included in the claimed protection extent of this invention. Therefore, the claimed protection

extent of the invention shall be determined with reference to the appended claims.

Claims (8)

1. A healthy tea leaves processing apparatus, comprising:

an engine body;

a grinding cavity and an operation cavity with an opening facing upward arranged in the

engine body;

a drying cavity with an opening facing upward arranged in a bottom wall of the operation

cavity;

a first sliding cavity set on a bottom wall of the grinding cavity;

a first sliding block slidabaly up and down set in thefirst sliding cavity;

a rotating plate rotabably set in a top end of the first sliding block;

a supporting device that set in said grinding cavity comprises said rotating plate and said first

rotating block;

a first transmission cavity set in a bottom wall of said first sliding cavity;

a second transmission cavity set in a top wall of said transmission cavity;

a second sliding cavity set at a side inner wall of said second transmission cavity;

a second sliding block that can slide horizontally set in said second sliding cavity; a third transmission cavity communicated with an upper inner wall of said second sliding cavity; wherein a drive switching device is arranged in said third transmission cavity; a fourth transmission cavity arranged at a top wall of said third transmission cavity; wherein an outfeed device is arranged in the fourth transmission cavity; a crankshaft cavity communicated with an upper inner side of said grinding cavity; a grinding device arranged in said crankshaft cavity; a fixed mount rotatably arranged in said drying cavity; wherein a drying device that is composed of said fixed mount is arranged in said drying cavity; a third transmission cavity arranged at a first side wall of said drying cavity; wherein a fourth transmission cavity is set at a first side wall of said third transmission cavity; a feeding device set at said fourth transmission cavity; a second side of said drying cavity provided with a piston cavity; wherein a charging device is arranged in said piston cavity; whereby tea leaves can be lifted by said supporting device and then be ground through said grinding device, with said drive switching device, both the supporting and grinding device can be driven in tums,said drying device can dry tea leaves and said charging device can add health care products into tea leave;

2. The healthy tea leaves processing apparatus as defined in claim 1, wherein said supporting device comprises first limiting grooves that are arranged at the side walls of said first sliding block;

wherein said first sliding block that fixedly connected with both sides of said first sliding cavity is slidably set in said first limiting grooves;

wherein a first threaded hole with an opening facing downward is arranged in said first sliding block;

a first threaded rod that extends downward through a bottom wall of said first sliding cavity into said first transmission cavity in threaded fit connection with said first threaded hole;

a first motor fixedly arranged at a bottom inner wall of said first transmission cavity and in power connection with a bottom end of said first threaded rod;

a first bevel gear that is able to rotate in saidfirst transmission cavity fixedly arranged on an outside surface of said first threaded rod;

a sliding groove with an opening facing upward arranged at a top wall of said rotating plate;

a first magnet fixedly arranged at a first side wall of said sliding groove;

a sliding tray that can slide horizontally arranged in said sliding groove;

wherein a first rack is fixedly arranged at a bottom wall of said sliding trays; second magnets fixedly arranged at both sides of said first rack; a grinding groove with an opening facing upward arranged at a top wall of said sliding trays; wherein an inner gear ring isfixedly arranged around said grinding groove; whereby the rotation of said first bevel gear drives said first threaded rod to rotate, whereby said first sliding block is lifted through threaded connection between inner walls of said first liming groove, hence to lift said rotation plate, and tea leaves in said grinding groove will be ground by said grinding device;

3. The healthy tea leaves processing apparatus as defined in claim 1-2, wherein said drive switching device comprises a second threaded hole that is communicated with said second sliding block from one side to another side;

wherein a second threaded rod that extends horizontally is in threaded fit connection with said second threaded hole;

a second bevel gear that engages with said first bevel gear infixed connection with said second threaded rod whose one end penetrates through a second side wall of said second sliding cavity and extends into side second transmission cavity;

a second motor fixedly set at an upper inner wall of said second sliding block;

a first gear in power connection with a top end of said second motor ;

whereby the rotation of said second bevel gear drives said second threaded rod to rotate, whereby said second sliding block is driven to slide horizontally in said second sliding cavity, whereby said first gear is driven to move horizontally, whereby output power of said second motor is switched, whereby said supporting device or said grinding device is driven by said second motor;

4. The healthy tea leaves processing apparatus as defined in claim 1-3, wherein said grinding device comprises a fourth transmission cavity extending to a second side that set in a top wall of said crankshaft cavity;

a first rotation shaft is rotabably set between an inner wall of said fourth transmission cavity and said crankshaft cavity;

wherein an upper side of said first rotation shaft extends into said fourth transmission cavity and in fixed connection with a first belt wheel that is able to rotate in said fourth transmission cavity;

a bottom side of said first rotation shaft extends into said crankshaft cavity and in fixed connection with a connection block whose bottom fixedly provided with a second rotation shaft that extends downward;

wherein a second gear that engages with said inner gear ring is in rotational engagement with a bottom end of said second rotation shaft;

an air bag fixedly installed at a bottom side of said second gear; a bump is fixedly set at afirst side of upper side of said second gear;

a third sliding cavity set in a top wall of said grinding cavity;

wherein a third sliding block that is able to slide back and forward is set in said third sliding cavity is communicated with said third sliding cavity;

a sliding groove with an opening facing downward set at a bottom wall of said third sliding block; a dovetail groove set at a top wall of said third sliding cavity; wherein a dovetail block that is able to slide back and forward isfixedly connected with said third sliding block; a third rotation shaft rotatably set between an inner wall of said fourth transmission cavity and said second transmission cavity; wherein a top side of said third rotation shaft extends into said fourth transmission cavity and in fixed connection with a second belt wheel that can rotate in said fourth transmission cavity; wherein said first belt wheel and second belt wheel are in transmission connection through said first belt; a bottom side of said third rotation shaft extends into said second transmission cavity and in fixed connection with a third gear that can rotate in said second transmission cavity; whereby the rotation of said third gear drives said second belt wheel to rotate through said third rotation shaft, whereby said first belt wheel is driven to rotate through said first belt, whereby said second gear is driven to rotate through said first rotation shaft, whereby said air bag is driven to rotate, and tea leaves in said grinding groove is able to be ground;

5. The healthy tea leaves processing apparatus as defined in claim 1-4, wherein said outfeed

device comprises a communication hole that is in communication with an inner side of said

grinding cavity and an opposite side of said drying cavity;

a gear cavity in communication with a bottom wall of said connection hole; a fifth transmission cavity set in a rear inner wall of said gear cavity; a fourth rotation shaft rotatably set between said fifth transmission cavity and said gear cavity; wherein a front end of said fourth rotation shaft extends into said gear cavity and in fix connection with a fourth gear that can rotate in said gear cavity; a back end extends into said fifth transmission cavity and in fixed connection with a third belt wheel that can rotate in said fifth transmission cavity; a fifth rotation shaft rotatably set between an inner wall of said fourth transmission cavity and fifth transmission cavity; a fourth belt wheel that can rotate in said fifth transmission cavity in fixed connection with a back end of said fifth rotation shaft that extends into saidfifth transmission cavity; wherein said third belt wheel and fourth belt wheel in transmission connection through said second belt; a third bevel gear that can rotate in said fourth transmission cavity in fixed connection with a front end of said fifth rotation shaft that extends into said fourth transmission cavity; a first cam cavity communicated with an inner side of said grinding cavity; a sixth rotation shaft whose lower end penetrates said fourth transmission cavity rotatably set between an inner wall of said first cam cavity and said second transmission cavity; a fourth bevel gear engaging with said third bevel gear fixedly set in an outer surface of said sixth rotation shaft that inside of said fourth transmission cavity; a fifth gear that can rotate in said second transmission cavity infixed connection with a lower end of said six rotation shaft; a first cam that can rotate in said first cam cavity infixed connection with a top end of said sixth rotation shaft that extends into said first cam cavity; whereby the rotation of said fifth gear drives said first cam and said third bevel gear to rotate through said sixth rotation shaft, whereby said fourth belt wheel is driven to rotate, whereby said third belt wheel is driven to rotate, whereby said fourth gear 199 is driven to rotate, whereby tea leaves on said supporting device are pushed out by said first cam, and be send to said drying device by said fourth gear;

6. The healthy tea leaves processing apparatus as defined in claim 1-5, wherein said drying device comprises said a seventh rotation shaft that rotatably set at an inner wall between said drying cavity and said third transmission cavity;

an end of seventh rotation shaft in fixed connection with said fixed mount in said drying cavity;

a sixth gear fixedly set at an end of said seventh rotation shaft 118 in said third transmission cavity;

a first sliding hole in communication and set in said seventh rotation shaft;

an eighth rotation shaft that extends horizontally rotatably set in said first sliding hole; wherein an end of a first side of eighth rotation shaft is infixed connection with a same side wall of said third transmission cavity; wherein an end of another side of said eighth rotation shaft whose end is fixedly provide with afifth belt wheel extends into said drying cavity;

eight sets of levers in circular distribution and centrally symmetrical toward said fixed mount; ninth rotation shafts that extend to a second side in rotatable connection with a side wall of one of said levers; sixth belt wheels fixedly set at outer surfaces of said ninth rotation shafts; said fifth belt wheel and sixth belt wheels in transmission connection by said third belt; drying trays fixedly set at ends of said ninth rotation shafts; wherein placing grooves are set at a top wall of said drying trays; third magnet are fixedly set at first side walls of said placing grooves; a heating device fixedly set at a bottom wall of said drying cavity; a sealed door hingedly connected to a top wall of said drying cavity; a cylinder set between said sealed door and a second side of said operation cavity; whereby said drying tray rotates in said drying cavity, whereby tea leaves in said drying cavity are driven to rotate, and heat produced by said heating device is able to dry tea leaves on said drying trays;

7. The healthy tea leaves processing apparatus as defined in claim 1-6, wherein said feeding device comprises a second cam cavity set at a top wall of said fourth transmission cavity;

a tenth rotation shaft rotatably set between an inner wall of said second cam cavity and said fourth transmission cavity;

a second cam that can rotate in said second cam cavity in fixed connection with an upper side of said tenth rotation shaft that extends into said second cam cavity; a fifth bevel gear that can rotate in said fourth transmission cavity infixed connection with a bottom side of said tenth rotation shaft; an eleventh rotation shaft rotatably set between said third transmission cavity and fourth transmission cavity; a sixth bevel gear that can rotate in said fourth transmission cavity in fit connection with a first side of said eleventh rotation shaft that extends into said fourth transmission cavity; a seventh gear that can rotate in said third rotation cavity infit connection with a second side of said eleventh rotation shaft that extends into said third transmission cavity; a clearing hole set at a second side inner wall of said second cam cavity; a pushing rod slidably set through said clearing hole; an elasticity restoring device elastically set between said upper putter and said clearing hole;

8. The healthy tea leaves processing apparatus as defined in claim 1-7, wherein said charging device comprises a third cam cavity set in a bottom wall of said fourth transmission cavity;

a twelfth rotation shaft rotatably set between an inner wall of said third cam cavity and said third transmission cavity;

a sector gear that can rotate in said third transmission cavity infit connection with a second side of said twelfth rotation cavity that extends into said third transmission cavity;

a third motor fixedly set at a first side inner wall of said third cam cavity in power connection with a first side of said twelfth rotation shaft that extends into said third cam cavity; a third cam that can rotate in said third cam cavity fixedly set at said twelfth rotation shaft; a second sliding hole communicated with a bottom wall of said third cam cavity; a first sliding rod in elastic connection with an inner wall of said second sliding hole in said second sliding hole; an atomized spray communicated with said piston cavity and said drying cavity; a piston up-down slidably set in said piston cavity; a third sliding hole with an opening facing upward set in a bottom wall of said piston cavity; a second sliding rod that infit connection with said piston up-down slidably set in said third sliding hole; a hydraulic pipe communicated with said second sliding hole and third sliding hole; a charging cavity set at a second side wall of said piston cavity; a charging pipe communicated with said charging cavity and said piston cavity; a one-way valve fixedly set in said charging pipe; whereby the rotation of said seventh gear drives said eleventh rotation shafts to rotate hence to drive said sixth bevel gear to rotate, whereby said fifth bevel gear is driven to rotate, whereby said second cam is driven to rotate, and tea leaves on one of said drying trays that is on the topside are pushed to a second side by said levers.