CN111888257A

CN111888257A - Gastrodia elata pill making equipment

Info

Publication number: CN111888257A
Application number: CN202010860972.3A
Authority: CN
Inventors: 赵金凯
Original assignee: Hangzhou Shangkai Biotechnology Co ltd
Current assignee: Chongqing Xinkang Pharmaceutical Co ltd
Priority date: 2020-08-25
Filing date: 2020-08-25
Publication date: 2020-11-06
Anticipated expiration: 2040-08-25
Also published as: CN111888257B

Abstract

The invention discloses a gastrodia elata pelleting device which structurally comprises a bottom plate, wherein a high-temperature high-pressure cooking module for cooking gastrodia elata at a high temperature is arranged at the leftmost end of a cover plate, a mashing module for mashing the gastrodia elata is arranged at the lower end of the high-temperature high-pressure cooking module, a crushing and sieving module for crushing the gastrodia elata is arranged at the lower end of the mashing module, and a cooling pelleting module for pelleting the crushed gastrodia elata is fixedly arranged at the rightmost end of the cover plate.

Description

Gastrodia elata pill making equipment

Technical Field

The invention belongs to the field of medicine processing equipment, and particularly relates to gastrodia elata pill making equipment.

Background

The process for preparing the pills from the gastrodia elata in the prior art usually adopts the steps of cooking the gastrodia elata in advance, uniformly crushing the cooked gastrodia elata into gastrodia elata mud, and then overlapping the gastrodia elata mud through corresponding dies to form gastrodia elata balls, wherein most of the existing equipment does not realize a high-efficiency processing process. For this reason, long-term research has been conducted and various solutions have been proposed.

For example, chinese patent document discloses a gastrodia tuber cooking apparatus [ application No.: 201810724619.5], the invention discloses a rhizoma gastrodiae cooking device, which comprises a square cooking chamber, wherein two clapboards are vertically arranged in the cooking chamber, a gap is formed between the tops of the two clapboards and the top wall of the cooking chamber, water is filled between the lower parts of the two clapboards, an electric heating wire is arranged in the water, meshed steaming boards are horizontally arranged on the opposite surfaces of the two clapboards, a first baffle is horizontally arranged at the upper parts of the two clapboards, a gap is formed between the upper side of the first baffle and the top wall of the cooking chamber, a gap is formed between the top of the clapboard and the first baffle, a second baffle is vertically arranged between the clapboards and the side wall of the cooking chamber, the second baffle is vertically connected with the first baffle, the width of the second baffle is consistent with the width of the inside of the cooking chamber, a gap is formed between the lower side of the second baffle and the bottom wall of the cooking chamber, a plurality; the equipment has high energy utilization rate and good cooking effect.

Above-mentioned scheme does not realize carrying out the automatic function of throwing in after the efficient preheating to gastrodia elata and rolling into mud and preparation become the ball yet.

Disclosure of Invention

The invention aims to solve the problems and provides processing equipment for automatically cooking, grinding and pelleting gastrodia elata so as to improve the production efficiency and the medicinal value of gastrodia elata.

The invention is realized by the following technical scheme: the invention relates to equipment for preparing gastrodia elata pills, which comprises a bottom plate, wherein a high-temperature high-pressure cooking module for cooking gastrodia elata at high temperature is arranged at the leftmost end of a cover plate, a mashing module for mashing the gastrodia elata is arranged at the lower end of the high-temperature high-pressure cooking module, a grinding and sieving module for grinding the gastrodia elata is arranged at the lower end of the mashing module, and a cooling pill making module for making the ground gastrodia elata pills is fixedly arranged at the rightmost end of the cover plate.

According to a further technical scheme, the high-temperature and high-pressure cooking module comprises a cooking support, the cooking support is fixedly arranged at the uppermost end of a bottom plate, driving motors are fixedly and symmetrically arranged at the top of the cooking support, a high-temperature cooking assembly is fixedly arranged in the middle of the cooking support and comprises rotating driving shafts, the rotating driving shafts are symmetrically arranged and are in power connection with the driving motors, a pushing cylinder is fixedly arranged at one end of each rotating driving shaft, a cooking box body is fixedly arranged between the cooking supports, a cooking cover plate is arranged at the upper end of the cooking box body and is abutted against the cooking box body, cooking gas rods are fixedly and symmetrically arranged at two ends of the cooking cover plate and are in power connection with the pushing cylinders, a high-pressure air pump is fixedly arranged at the middle position of the cooking cover plate, and a cavity is arranged in the cooking box body, the cooking box is internally provided with a placing cavity, the upper end face of the cooking cover plate is fixedly provided with a hot air ring, a heating net is arranged in the hot air ring, the lower end of the heating net is communicated with a flow guide hole, the flow guide hole is communicated with the placing cavity, and the hot air ring is communicated with the high-pressure air pump.

A further technical scheme, smash the module including smashing the cylinder, smash the cylinder and set firmly in the bottom plate intermediate position, smash the cylinder and set up for bilateral symmetry, smash cylinder upper end and be equipped with smash the gas pole, smash the gas pole with smash cylinder power and connect, smash gas pole one end and set firmly turbine motor, the turbine motor lower extreme has set firmly the apron, the apron lower extreme has set firmly turbine stirring fan, turbine stirring fan with turbine motor power is connected, ripe support one end has set firmly smashes the case, smash incasement portion for the cavity setting, smash incasement portion and be equipped with the slide of smashing, smash incasement intermediate position intercommunication and be equipped with and drop the back mouth, smash the case with the apron offsets and set up to the gastrodia elata is when the system is ripe in high temperature and high pressure cooking module the rotating driving shaft will overturn simultaneously smash the cylinder and begin work and connect through power will the apron rises, immediately, the cooked cover plate pours the cooked gastrodia elata which is opened again into the mashing box, and at the moment, the turbine motor starts to work, and the turbine stirring fan rotates to smash the gastrodia elata through power connection.

Further technical scheme, the module that pulverizes and sieve includes the cooperation cradling piece, the cooperation cradling piece sets firmly in the bottom plate upper end, cooperation cradling piece upper end is equipped with grinds rotten removal subassembly, grinds rotten removal subassembly intermediate position and is equipped with the drum and removes the subassembly.

A further technical scheme, grind rotten removal subassembly and include driving motor, driving motor sets firmly in cooperation cradling piece top position, driving motor upper end power is connected and is provided with driving pulley, both sides driving pulley surface winding power is connected and is provided with smooth bucket hold-in range, smooth bucket hold-in range intermediate position installation is equipped with grinds rotten cylinder, grind rotten cylinder with smooth bucket hold-in range one end is fixed, grind rotten cylinder with partial sliding fit between the cooperation cradling piece connects, it is equipped with and grinds rotten gas pole to grind rotten cylinder upper end, grind rotten gas pole with grind rotten cylinder power connection, it has set firmly the depression bar to grind in the middle of the rotten gas pole, the depression bar lower extreme has set firmly the swash plate.

A further technical scheme, the drum removes the subassembly including grinding rotten sill bar, grind rotten sill bar set firmly in cooperation cradling piece intermediate position, grind rotten sill bar upper end and set firmly the rotten spout of grinding of symmetry, grind rotten spout is U type groove structure, grind rotten spout upper end and be equipped with the bucket press the barrel bottom and set firmly the pressure bucket slide bar, press the bucket slide bar with grind rotten spout sliding fit and connect, press the bucket inner bottom and be the inclined plane setting, press the bucket inner bottom with the swash plate bottom surface offsets and sets up, it extrudes the structure of sieving to press the solid being equipped with of bucket front end.

A further technical scheme, it includes the contact tube to post out sieving structure, the contact tube set firmly in press the bucket right-hand member, press the bucket with the contact tube intercommunication sets up, the outer lane buckle is located admittedly to the contact tube front end, outer lane buckle outer lane is equipped with the screen cloth and fixes detaining, the screen cloth fix detain with outer lane buckle dress card sets up to be connected, the screen cloth has set firmly in outer lane buckle inside, the screen cloth is fixed to be detained the right-hand member and is set firmly in the inclined plane back cut.

According to the further technical scheme, the cooling and pill making module comprises a chute branch rod, the chute branch rod is fixedly arranged on the rightmost end face of the bottom plate, the chute branch rods are symmetrically arranged, a compaction moving assembly is fixedly arranged at the upper end of the chute branch rod, and a compaction pill forming assembly is arranged at the left end of the chute branch rod.

According to a further technical scheme, the compaction moving assembly comprises a sliding chute, a sliding barrel is arranged at the upper end of the sliding chute, the sliding barrel is connected with the sliding chute in a sliding fit mode, and a pressing barrel is arranged inside the sliding barrel.

The invention has the beneficial effects that: this equipment has realized the automatic processing to boiling, pulverize, grind rotten, the pill of gastrodia elata through high temperature high pressure steaming and boiling module, pound to pieces the module, pulverize module, cooling pill module, has reduced manual operation, has improved equipment production efficiency.

The advantages are as follows:

1. the high-temperature cooking assembly is internally provided with the placing cavity, and the gastrodia elata can be orderly arranged, so that the weight of one-time processing of equipment during processing of the gastrodia elata is ensured, and the running stability of the equipment is ensured

2. Pulverize the module that sieves and pass through the gastrodia elata that will smash in advance through pressure at the during operation the eduction tube is given out, is passing through can filter the root stem leaf during the screen cloth and saved manual operation, improve work efficiency.

3. The structure of sieving at the during operation, the gastrodia elata mud in the delivery tube will pass through the screen cloth, inside rhizome can be filtered to the screen cloth, the screen cloth with the delivery tube sets up for the dress card, the screen cloth can be taken off by the manual work and clear up, has ensured the stability of equipment at the during operation.

4. The compaction moving assembly needs to manually push the sliding barrel inwards during working, so that the rhizoma gastrodiae mud in the crushing and sieving module completely falls into the high-pressure air pump, and the integrity of equipment processing is ensured.

5. The compaction moving assembly needs to manually push the sliding barrel inwards during working, so that the rhizoma gastrodiae mud in the crushing and sieving module completely falls into the high-pressure air pump, and the integrity of equipment processing is ensured.

6. The sliding barrel in the cooling and pelleting module and the high-pressure air pump are separately arranged, and the pressing barrel can be taken down and cleaned at any time, so that the stability of the equipment in working is ensured.

7. The mashing module works, the turbine stirring fan rotates to smash the gastrodia elata dropped by the cooking module preliminarily, and stable operation of the device in the next module is ensured.

Drawings

FIG. 1 is a schematic diagram of the inventive apparatus configuration;

FIG. 2 is a schematic view of the inventive apparatus in half section;

FIG. 3 is a schematic view of the direction A structure in FIG. 2;

FIG. 4 is a schematic diagram of the structure in the direction B in FIG. 2;

in the figure, a high-pressure air pump 112, a turbine motor 113, a cover plate 114, a driving pulley 117, a driving motor 118, a pressure rod 121, a pressing barrel 122, a sliding chute 123, a sliding barrel 124, a sliding chute branch rod 125, a sliding rod support rod 126, a forming air cylinder 127, a forming air rod 128, a rotting sliding chute 129, a rotting bottom rod 130, a matching support rod 131, a sliding barrel synchronous belt 132, a rotting air cylinder 133, a rotting air rod 134, a mashing air cylinder 135, a mashing air rod 136, a cooking support 137, a driving motor 138, a rotating driving shaft 139, a cooking air rod 141, a cooking box 142, a hot air ring 143, a bottom plate 144, a cooking cover plate 145, a pushing air cylinder 160, a placing cavity 210, a mashing box 212, a mashing slide plate 213, a falling inverted opening 214, a sloping plate 215, a hollow hemisphere 216, a pressing barrel 218, a pressure rod 219, a turbine stirring fan 221, a pressing barrel sliding rod 222, a heating net 310, a diversion hole 311, a diversion pipe 410, a, The device comprises an outer ring buckle 415, a high-temperature and high-pressure cooking module 910, a mashing module 911, a grinding and sieving module 912 and a cooling and pelleting module 913.

Detailed Description

As shown in fig. 1 to 4, the present invention is explained in detail, and for convenience of description, the following orientations are defined as follows: the upper, lower, left, right, front and back directions described below are consistent with the upper, lower, left, right, front and back directions of the projection relation of the device in fig. 1, the device for making the gastrodia elata pills comprises a bottom plate 144, the bottom plate 144 is welded and connected by a metal plate, a high-temperature and high-pressure cooking module 910 for cooking the gastrodia elata at high temperature is arranged at the leftmost end of a cover plate 114, a mashing module 911 for mashing the gastrodia elata is arranged at the lower end of the high-temperature and high-pressure cooking module 910, a grinding and sieving module 912 for grinding the gastrodia elata is arranged at the lower end of the mashing module 911, and a cooling and pill.

Beneficially, wherein the high temperature and high pressure cooking module 910 includes a cooking support 137, the cooking support 137 is fixedly and symmetrically disposed at the uppermost end of the bottom plate 144, the top of the cooking support 137 is fixedly and symmetrically provided with driving motors 138, a high temperature cooking assembly is fixedly disposed at the middle position of the cooking support 137, the high temperature cooking assembly includes rotating driving shafts 139, the rotating driving shafts 139 are symmetrically disposed, the rotating driving shafts 139 are in power connection with the driving motors 138, one end of the rotating driving shafts 139 is fixedly provided with a pushing cylinder 160, a cooking box body 142 is fixedly disposed between the cooking supports 137, the upper end of the cooking box body 142 is provided with a cooking cover 145, the cooking cover 145 is disposed in contact with the cooking box body 142, two ends of the cooking cover 145 are fixedly and symmetrically provided with cooking gas rods 141, the cooking gas rods 141 are in power connection with the pushing cylinder 160, the cooking cover 145 is fixedly disposed at the middle position with a high pressure air pump 112, the inside of the cooking box body, the upper end face of the cooking cover plate 145 is fixedly provided with a hot air ring 143, the hot air ring 143 is of a hollow structure, a heating net 310 is arranged in the hot air ring 143, the heating net 310 is arranged in an electric heating mode, the lower end of the heating net 310 is provided with a guide hole 311 in a communication mode, the guide hole 311 is arranged in a communication mode and is communicated with the placing cavity 210, the hot air ring 143 is communicated with the high-pressure air pump 112, therefore when the high-temperature cooking assembly works, the air cylinder 160 is pushed to generate air pressure to lift the cooking air rod 141 upwards through power connection, the cooking cover plate 145 is lifted upwards immediately, gastrodia elata are placed into the placing cavity 210 in sequence manually at the moment, the cooking air rod 141 is closed immediately, the hot air ring 143 works under the action of the high-pressure air pump 112 to generate air pressure, and the high-temperature.

Beneficially, the mashing module 911 includes a mashing cylinder 135, the mashing cylinder 135 is fixedly disposed at the middle position of the bottom plate 144, the mashing cylinder 135 is disposed in bilateral symmetry, a mashing air rod 136 is disposed at the upper end of the mashing cylinder 135, the mashing air rod 136 is in power connection with the mashing cylinder 135, a turbine motor 113 is fixedly disposed at one end of the mashing air rod 136, a cover plate 114 is fixedly disposed at the lower end of the turbine motor 113, a turbine stirring fan 221 is fixedly disposed at the lower end of the cover plate 114, the turbine stirring fan 221 is in power connection with the turbine motor 113, a mashing box 212 is fixedly disposed at one end of the cooking bracket 137, the mashing box 212 is disposed in a cavity, a mashing slide plate 213 is disposed inside the mashing box 212, a dropping inverted opening 214 is disposed at the middle position of the mashing box 212 in a communicating manner, the mashing box 212 is disposed in abutting relation to the cover plate 114, so that when the gastrodia elata rotor 139 is cooked, then the cooked cover plate 145 pours the rhizoma gastrodiae cooked again into the mashing tank 212, and at the moment, the turbine motor 113 starts to work, and the turbine stirring fan 221 rotates through power connection to mash the rhizoma gastrodiae.

Advantageously, the crushing and sieving module 912 includes a matching support rod 131, the matching support rod 131 is fixedly arranged at the upper end of the bottom plate 144, a crushing and sieving moving assembly is arranged at the upper end of the matching support rod 131, and a cylinder moving assembly is arranged at the middle position of the crushing and sieving moving assembly.

Beneficially, the rotten moving assembly comprises a driving motor 118, the driving motor 118 is fixedly arranged at the top of the matching support rod 131, a driving pulley 117 is arranged at the upper end of the driving motor 118 in a power connection mode, a sliding barrel synchronous belt 132 is arranged on the outer surface of the driving pulley 117 at two sides in a winding power connection mode, a rotten cylinder 133 is arranged in the middle of the sliding barrel synchronous belt 132, the rotten cylinder 133 is fixed to one end of the sliding barrel synchronous belt 132, a part between the rotten cylinder 133 and the matching support rod 131 is in a sliding fit connection mode, a rotten gas rod 134 is arranged at the upper end of the rotten cylinder 133, the rotten gas rod 134 is in a power connection mode with the rotten cylinder 133, a pressure rod 219 is fixedly arranged in the middle of the rotten gas rod 134, an.

Beneficially, the cylindrical moving assembly comprises a ground bottom rod 130, the ground bottom rod 130 is fixedly arranged at the middle position of the matching support rod 131, symmetrical ground chutes 129 are fixedly arranged at the upper ends of the ground bottom rod 130, the ground chutes 129 are of a U-shaped groove structure, pressure barrels 218 are arranged at the upper ends of the ground chutes 129, cavities are arranged inside the pressure barrels 218, barrel pressing sliding rods 222 are fixedly arranged at the bottoms of the pressure barrels 218, the barrel pressing sliding rods 222 are connected with the ground chutes 129 in a sliding fit mode, inner bottoms of the pressure barrels 218 are arranged in an inclined plane, inner bottoms of the pressure barrels 218 abut against the bottom surface of the inclined plate 215, and extrusion sieving structures are fixedly arranged at the front ends of the pressure barrels 218.

Beneficially, the sending-out sieving structure includes an outlet pipe 410, the outlet pipe 410 is fixedly arranged at the right end of a pressing barrel 218, the pressing barrel 218 is communicated with the outlet pipe 410, the front end of the outlet pipe 410 is fixedly arranged on an outer ring buckle 415, a screen fixing buckle 411 is arranged on the outer ring of the outer ring buckle 415, the screen fixing buckle 411 is connected with the outer ring buckle 415 in a clamping manner, a screen 412 is fixedly arranged inside the outer ring buckle 415, and the right end of the screen fixing buckle 411 is fixedly arranged on an inclined inverted opening 413, so that when the gastrodia elata falls off from the mashing module 911, the mashing cylinder 133 starts to work and lifts the mashed air rod 134 upwards through power connection to enable the pressing rod 219 to leave the pressing barrel 218, at this time, the pressing barrel 218 is pushed inwards by manpower, at this time, the gastrodia elata falls into the pressing barrel 218, the driving motor 118 starts to work to move the pressing rod 219 to the upper side of the pressing barrel 218 through power connection, then the mashing cylinder 133 starts to work to, the extruded gastrodia elata may pass through the screen 412 and eventually fall into the cooling pellet block 913.

Advantageously, the cooling and pill making module 913 includes a sliding chute branch 125, the sliding chute branch 125 is fixedly disposed on the rightmost end surface of the bottom plate 144, the sliding chute branch 125 is symmetrically disposed, the upper end of the sliding chute branch 125 is fixedly disposed with a compacting and moving assembly, and the left end of the sliding chute branch 125 is disposed with a compacting and pill making assembly.

Advantageously, the compacting moving assembly includes a sliding chute 123, the sliding chute 123 is a U-shaped chute structure symmetrically arranged, a sliding barrel 124 is arranged at the upper end of the sliding chute 123, the sliding barrel 124 is connected with the sliding chute 123 in a sliding fit manner, the sliding barrel 124 is arranged in a circular cavity, and a pressing barrel 122 is arranged inside the sliding barrel 124, so that when the gastrodia elata in the grinding and sieving module 912 drops, the sliding barrel 124 is pushed forward to drop the gastrodia elata into the pressing barrel 122.

Advantageously, the compacting and pelletizing assembly comprises a forming cylinder 127, the forming cylinder 127 is fixedly arranged on the upper end face of the bottom plate 144, the upper end of the forming cylinder 127 is provided with a forming air rod 128 in a power connection mode, one end of the forming air rod 128 is fixedly provided with a pressing rod 121, the lower end of the pressing rod 121 is fixedly provided with a plurality of hollow hemispheres 216, and the hollow hemispheres 216 are of hollow hemispherical structures which are uniformly distributed, so that when the gastrodia elata mud is poured into the pressing barrel 122, the forming cylinder 127 starts to work, the forming air rod 128 presses the hollow hemispheres 216 downwards through the power connection, and then the gastrodia elata mud is pressed into hemispheres.

When the device works, the air cylinder 160 is pushed to work, the cooked air rod 141 is lifted upwards by air pressure, the cooked cover plate 145 is opened upwards, the prepared gastrodia elata is sequentially placed into the placing cavity 210 and closed along with the cooked cover plate 145, the high-pressure air pump 112 starts to work to generate air pressure, the heating net 310 starts to work to generate heat energy, the air pressure generated by the high-pressure air pump 112 is changed into hot air through the heating net 310 and enters the placing cavity 210 through the flow guide holes 311 to cook the gastrodia elata, the drive motor 138 can rotate the cooked box body 142 through power connection to cook the gastrodia elata more quickly, the mashing air cylinder 135 starts to work to generate air pressure through power connection after a period of time, the mashing air rod 136 is lifted upwards by the power connection, the cooked cover plate 145 is lifted upwards, and the drive motor 138 starts to work to fall down through the power connection to rotate to mash the gastrodia elata into the mashing box 212, the cover plate 114 is closed immediately, the turbine motor 113 starts to work at the moment, the turbine stirring fan 221 starts to work through power connection, the gastrodia elata inside the mashing box 212 is mashed and slides down through the mashing sliding plate 213, the driving motor 118 starts to work immediately, the gastrodia elata is pushed into the pressing barrel 218 through power connection, the gastrodia elata falls into the pressing barrel 218 at the moment, the mashed air cylinder 133 presses the mashed air rod 134 downwards through power connection to drive the pressing rod 219 to crush the gastrodia elata and flow out through the delivery pipe 410, the gastrodia elata stems are filtered through the screen 412 in the flowing-out process, the gastrodia elata mud falls into the pressing barrel 122 at the moment, the forming air cylinder 127 starts to work through power connection to press the pressing rod 121 downwards, the hollow hemisphere 216 presses the gastrodia elata mud into a hemisphere and is cooled, and then.

The specific embodiments described herein are merely illustrative of the spirit of the invention.

Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the invention as defined in the appended claims.

Although the high-pressure air pump 112, the turbo motor 113, the cover plate 114, the driving pulley 117, the driving motor 118, the pressing rod 121, the pressing barrel 122, the chute 123, the sliding barrel 124, the chute branch rod 125, the sliding rod support rod 126, the forming cylinder 127, the forming air rod 128, the rotting chute 129, the rotting bottom rod 130, the matching support rod 131, the sliding barrel synchronous belt 132, the rotting cylinder 133, the rotting air rod 134, the mashing cylinder 135, the mashing air rod 136, the mashing support 137, the driving motor 138, the rotating driving shaft 139, the mashing air rod 141, the mashing tank 142, the hot air ring 143, the bottom plate 144, the mashing cover plate 145, the pushing cylinder 160, the placing cavity 210, the mashing tank 212, the mashing slide plate 213, the falling port 214, the inclined plate 215, the hollow hemisphere 216, the pressing barrel 218, the pressing rod 219, the turbine stirring fan 221, the pressing barrel sliding rod 222, the heating net 310, the guide hole 311, the guide pipe 410, the screen fixing buckle 411, the, Screen 412, chamfer 413, outer ring snap 415, autoclave module 910, mashing module 911, grinding and sieving module 912, cooling and pelletizing module 913, but not excluding the possibility of using other terms. These terms are used merely to more conveniently describe and explain the nature of the present invention and they are to be interpreted as any additional limitation which is not in accordance with the spirit of the present invention.

Claims

1. The utility model provides a gastrodia elata pill equipment, which characterized in that, includes bottom plate (144), apron (114) leftmost end is equipped with high temperature high pressure cooking module (910) of cooking gastrodia elata high temperature, is equipped with module (911) of pounding the gastrodia elata to pieces at high temperature high pressure cooking module (910) lower extreme installation, is equipped with module (912) of sieving crushing the gastrodia elata at pounding module (911) lower extreme installation, apron (114) rightmost end sets firmly cooling pill module (913) of preparing the gastrodia elata pill that will crush.

2. The gastrodia elata pill making equipment as claimed in claim 1, wherein: the high-temperature and high-pressure cooking module (910) comprises a cooking support (137), the cooking support (137) is fixedly arranged at the uppermost end of a bottom plate (144), driving motors (138) are fixedly and symmetrically arranged at the top of the cooking support (137), a high-temperature cooking assembly is fixedly arranged in the middle of the cooking support (137), the high-temperature cooking assembly comprises rotating driving shafts (139), the rotating driving shafts (139) are symmetrically arranged, the rotating driving shafts (139) are in power connection with the driving motors (138), one end of each rotating driving shaft (139) is fixedly provided with a pushing cylinder (160), a cooking box body (142) is fixedly arranged between the cooking supports (137), a cooking cover plate (145) is arranged at the upper end of the cooking box body (142), the cooking cover plate (145) is abutted against the cooking box body (142), and cooking gas rods (141) are fixedly and symmetrically arranged at two ends of the cooking cover plate (145), the cooking air rod (141) is in power connection with the pushing cylinder (160), the cooking cover plate (145) is fixedly provided with a high-pressure air pump (112) in the middle, the cooking box body (142) is internally provided with a cavity, a placing cavity (210) is arranged in the cooking box body (142), the upper end face of the cooking cover plate (145) is fixedly provided with a hot air ring (143), the heating net (310) is arranged in the hot air ring (143), the lower end of the heating net (310) is communicated with a flow guide hole (311), the flow guide hole (311) is communicated with the placing cavity (210), and the hot air ring (143) is communicated with the high-pressure air pump (112).

3. The gastrodia elata pill making equipment as claimed in claim 1, wherein: triturating module (911) including triturating cylinder (135), triturating cylinder (135) sets firmly in bottom plate (144) intermediate position, triturating cylinder (135) sets up for bilateral symmetry, triturating cylinder (135) upper end is equipped with triturating gas pole (136), triturating gas pole (136) with triturating cylinder (135) power connection, triturating gas pole (136) one end sets firmly turbine motor (113), turbine motor (113) lower extreme sets firmly apron (114), apron (114) lower extreme sets firmly turbine stirring fan (221), turbine stirring fan (221) with turbine motor (113) power connection, cook support (137) one end sets firmly and smashes case (212), smash case (212) inside for the cavity setting, smash case (212) inside to be equipped with smash slide (213), smash case (212) intermediate position intercommunication and be equipped with fall mouth (214), smash case (212) with apron (114) counterbalance setting to the gastrodia elata is when making in high temperature high pressure cooking module (910) ripe rotating driving shaft (139) will overturn simultaneously smash cylinder (135) and begin work and connect through power will apron (114) rise, immediately ripe apron (145) will be opened again the ripe gastrodia elata of bar system and pour into smash in case (212), this moment turbo motor (113) begin work and be turbine stirring fan (221) rotation and smash the gastrodia elata through power connection.

4. The gastrodia elata pill making equipment as claimed in claim 1, wherein: the crushing and sieving module (912) comprises a matching support rod (131), the matching support rod (131) is fixedly arranged at the upper end of the bottom plate (144), a crushing and moving assembly is arranged at the upper end of the matching support rod (131), and a cylinder moving assembly is arranged in the middle of the crushing and moving assembly.

5. The rhizoma gastrodiae pelleting device as claimed in claim 4, wherein: the rotten mobile assembly comprises a driving motor (118), the driving motor (118) is fixedly arranged at the top of the matched support rod (131), the upper end of the driving motor (118) is provided with a driving belt wheel (117) in a power connection way, the outer surface of the driving belt wheel (117) at the two sides is wound with a sliding barrel synchronous belt (132) in a power connection way, a grinding cylinder (133) is arranged in the middle of the sliding barrel synchronous belt (132), the grinding cylinder (133) is fixed with one end of the sliding barrel synchronous belt (132), the part between the rotten cylinder (133) and the matched bracket rod (131) is in sliding fit connection, the upper end of the rotten cylinder (133) is provided with a rotten gas rod (134), the rotten gas rod (134) is in power connection with the rotten cylinder (133), the middle of the rotten gas rod (134) is fixedly provided with a pressure rod (219), and the lower end of the pressure rod (219) is fixedly provided with an inclined plate (215).

6. The rhizoma gastrodiae pelleting device as claimed in claim 4, wherein: the drum removes subassembly including grinding rotten sill bar (130), grind rotten sill bar (130) set firmly in cooperation cradling piece (131) intermediate position, grind rotten sill bar (130) upper end and set firmly grinding fine spout (129) of symmetry, grind rotten spout (129) and be U type groove structure, grind rotten spout (129) upper end and be equipped with pressure bucket (218) press bucket (218) bottom to set firmly and press bucket slide bar (222), press bucket slide bar (222) with grind rotten spout (129) sliding fit and connect, press bucket (218) inner bottom to set up for the inclined plane, press bucket (218) inner bottom with swash plate (215) bottom surface offsets and sets up, press bucket (218) front end to be equipped with firmly and extrude the sieve structure.

7. The gastrodia elata pill making equipment as claimed in claim 6, wherein: it includes contact tube (410) to post out sieving structure, contact tube (410) set firmly in press bucket (218) right-hand member, press bucket (218) with contact tube (410) intercommunication sets up, contact tube (410) front end is fixed in outer lane buckle (415), outer lane buckle (415) outer lane is equipped with the screen cloth and fixes detaining (411), the screen cloth fix detain (411) with outer lane buckle (415) dress card sets up to be connected, outer lane buckle (415) inside screen cloth (412) have set firmly, the screen cloth is fixed detained (411) right-hand member and is set firmly in inclined plane back cut (413).

8. The gastrodia elata pill making equipment as claimed in claim 1, wherein: the cooling pill making module (913) comprises a chute branch rod (125), the chute branch rod (125) is fixedly arranged on the rightmost end surface of the bottom plate (144), the chute branch rods (125) are symmetrically arranged, a compaction moving assembly is fixedly arranged at the upper end of the chute branch rod (125), and a compaction pill making assembly is arranged at the left end of the chute branch rod (125).

9. The gastrodia elata pelleting device as claimed in claim 8, wherein: the compaction moving assembly comprises a sliding groove (123), a sliding barrel (124) is arranged at the upper end of the sliding groove (123), the sliding barrel (124) is connected with the sliding groove (123) in a sliding fit mode, and a pressing barrel (122) is arranged inside the sliding barrel (124).