CN106701316B - Special preparation equipment for rosemary compound extract - Google Patents

Abstract

The invention relates to preparation equipment of tobacco flavor, in particular to special preparation equipment for rosemary compound extract. The invention aims to solve the technical problem of providing special preparation equipment for the rosemary compound extract, which has a good crushing effect and a good stirring effect. In order to solve the technical problems, the invention provides special preparation equipment for a rosemary compound extract, which comprises a rack, a speed reducing motor, a cam, a guide plate, a first spring, a moving plate, a first roller, a moving rod, a chopping knife, a processing plate, a first slide rail, a first slide block and the like; the rack is connected with a speed reducing motor in a bolt connection mode, and an output shaft of the speed reducing motor is connected with a cam in an interference connection mode. The invention realizes the smashing treatment of rosemary leaves and stems by the smashing knife which moves up and down continuously, and is also provided with a device which can smash the rosemary leaves and stems in the left-right direction.

Description

Special preparation equipment for rosemary compound extract

Technical Field

The invention relates to preparation equipment of tobacco flavor, in particular to special preparation equipment for rosemary compound extract.

Background

Rosemary is a plant of the genus Rosmarinus of the family Labiatae, and is a evergreen shrub native to Europe and Mediterranean coasts. Rosemary is widely used in tobacco, perfumed soaps, cosmetics, toothpaste, etc. due to its unique fragrance characteristics. In addition, rosemary has a large amount of antioxidant components, which have a high antioxidant effect. In the tobacco field, the rosemary extract is less applied to tobacco, and the rosemary essential oil contains a large amount of aroma components such as alpha-pinene, cineole, camphor, borneol, dipentene and the like, so that the concentration and the quality of smoke can be effectively improved when the nonpolar extract is applied to the tobacco. In the current research, the research on the application of rosemary ethanol extract to tobacco is very few, the improvement effect of rosemary ethanol extract to smoke is not clear, and the influence of the medium-polarity extract and the low-polarity extract on the taste, smoke and strength of cigarettes is still needed to be further researched.

In the existing process of preparing the rosemary compound extract, rosemary leaves and stems are required to be frozen and dried, then the rosemary leaves and stems are crushed and placed in a dry environment, then rosemary leaf and stem powder is taken, the rosemary leaf and stem powder is stirred and extracted by ethanol, and then subsequent treatment work is carried out, so that the rosemary compound extract is obtained, but when a large amount of rosemary leaves and stems are cut up and mixed, the rosemary compound extract is very complicated work and cannot be finished completely by manpower.

At present, no special device for preparing the rosemary compound extract exists in the market, so that the preparation of the rosemary compound extract is complicated, a large amount of manpower and material resources are consumed, the crushing effect and the mixing effect of a large amount of rosemary leaves and stems are poor, and the final product does not reach the result expected by people.

In summary, there is a need to develop a special preparation apparatus for rosemary compound extract with good pulverization effect and good stirring effect to overcome the disadvantages of poor pulverization effect and poor stirring effect in the prior art.

Disclosure of Invention

(1) Technical problem to be solved

The invention aims to overcome the defects of poor crushing effect and poor stirring effect in the prior art, and the technical problem to be solved is to provide special preparation equipment for the rosemary compound extract, which has good crushing effect and good stirring effect.

(2) Technical scheme

In order to solve the technical problem, the invention provides special preparation equipment for a rosemary compound extract, which comprises a rack, a speed reducing motor, a cam, a guide plate, a first spring, a moving plate, a first roller, a moving rod, a chopping knife, a treatment plate, a first slide rail, a first slide block, a first baffle, a pull rod, a stirring box, a first support rod, a rotating motor, a rotating rod, a stirring plate, a liquid inlet pipe and a second baffle, wherein the rack is connected with the speed reducing motor in a bolt connection mode, the output shaft of the speed reducing motor is connected with the cam in an interference connection mode, the guide plate is arranged below the speed reducing motor, the guide plate is welded on the rack, small holes are formed in the left side and the right side of the guide plate, the left side and the right side of the top of the guide plate are connected with the first spring in a hook connection mode, the upper end of the first spring is connected with, the middle of the top of the movable plate is welded with a first roller through a bracket, the first roller can rotate, the first roller is contacted with a cam, moving rods are welded on the left side and the right side of the bottom of the movable plate, the moving rods penetrate through a first spring and a guide plate to form small holes, a chopping knife is welded at the lower end of the moving rods, a processing plate is arranged below the chopping knife and is welded on a rack, a first through hole is formed in the center of the processing plate, the first through hole is positioned under the chopping knife, first sliding rails are arranged on the left side and the right side below the processing plate and are connected with the rack in a bolt connection mode, a first sliding block is connected on the first sliding rails in a sliding mode, a first baffle is welded at the top of the first sliding block, the first baffle is positioned under the first through hole, a pull rod is welded on the front side of the first baffle, a stirring box is arranged below the processing plate, a first support rod is welded at the, the middle of first branch top is connected with the rotating electrical machines through bolted connection's mode, there is the bull stick through the coupling joint on the output shaft of rotating electrical machines, the bull stick passes some apertures of opening in the middle of first branch, the stirring board has all been welded to the left and right sides of bull stick, it has the aperture to open on the stirring board, the welding has the feed liquor pipe on the left wall of agitator tank, the bottom right side of agitator tank has opened the second through-hole, the bottom right side of agitator tank is connected with the second baffle through screw connection's mode, the second baffle is located the second through-hole under.

Preferably, a chopping device capable of further chopping the material is also included.

Preferably, the chopping device comprises a second spring, a second support rod, a chopping board, a first guide wheel, a second guide wheel and a first steel wire rope, wherein the left side and the right side of the processing board are both provided with inner cavities, the processing board between the inner cavities and the first through holes is provided with small holes, the processing board between the inner cavities and the first through holes is connected with the second spring in a hook connection mode, the outer end of the second spring is connected with the second support rod in a hook connection mode, the second support rod penetrates through the second spring and the small holes arranged on the processing board between the inner cavities and the first through holes, the inner end of the second support rod is welded with the chopping board, the rear walls of the left side and the right side in the processing board are welded with the first guide wheel, the left side and the right side of the top of the processing board are welded with the second guide wheel through supports, the outer end of the second support rod is connected with the first steel wire rope in a hook connection mode, and the first steel wire rope bypasses the first guide wheel, the tail end of the first steel wire rope is connected with the chopping knife in a hook connection mode.

Preferably, the chopping device comprises an L-shaped slide rail, a second slide block, a third guide wheel, a second steel wire rope, a third spring, a fourth guide wheel, a third steel wire rope, a first connecting rod, a second supporting rod and a chopping board, the L-shaped slide rail is arranged on the left side and the right side of the processing board and connected to the frame in a bolt connection mode, the second slide block is connected to the upper portion of the L-shaped slide rail in a sliding mode, the third slide block is connected to the bottom of the L-shaped slide rail in a sliding mode, the third guide wheel is welded on the outer side of the bottom of the L-shaped slide rail, the second steel wire rope is connected to the third slide block in a hook connection mode and winds around the third guide wheel, the upper end of the second steel wire rope is connected to the bottom of the second slide block in a hook connection mode, the fourth guide wheel is welded on the inner side of the upper portion of the L-shaped, third wire rope bypasses the fourth leading wheel, the end of third wire rope is connected with the shredding knife through the mode that the couple is connected, the second slider inboard is connected with first connecting rod through welded connection's mode, it has the aperture to open on the processing board between inner chamber and the first through-hole, first connecting rod inner is connected with second branch through welded connection's mode, second branch passes and opens the aperture that has on the processing board between second spring and inner chamber and the first through-hole, the inner of second branch has all welded the shredding board.

Preferably, the stirring device also comprises a rotary lifting device which can make the stirring plate rotate and move up and down.

Preferably, the rotary lifting device comprises a rotary plate, a third slide rail, a fourth slide block, a fourth spring, a fourth steel wire rope, a fifth guide wheel, a stand column and a first reel, the rotary plate is welded at the lower end of the rotary rod, small holes are formed in the upper portion of the left wall and the lower portion of the right wall of the rotary plate, the third slide rail is connected to the left and right sides of the rotary plate in a bolt connection mode, the fourth slide block is connected to the third slide rail on the left side in a sliding mode, the fourth spring is connected between the bottom of the fourth slide block and the third slide rail in a hook connection mode, the fourth steel wire rope is connected to the top of the fourth slide block in a hook connection mode, the fifth guide wheel is welded to the upper portion of the third slide rail on the left side, the fourth steel wire rope winds around the fifth guide wheel, the fourth steel wire rope penetrates through the small holes in the upper portion of the left wall of the rotary plate, the fourth slide block is connected to the third, fourth slider bottom is connected with fourth wire rope through the mode that the couple is connected, the welding of third slide rail lower part on right side has fifth leading wheel, fourth wire rope bypasses fifth leading wheel, fourth wire rope passes the aperture of rotor plate right wall lower part, the welding has the stand in the middle of the bottom in the agitator tank, be connected with first reel through the mode of interference connection on the stand, the quantity of first reel is two, the vertical distribution of first reel is on the stand, first reel is located the rotor plate, left fourth wire rope twines on the first reel on upper portion, the fourth wire rope on right side twines on the first reel of lower portion, fourth slider outer end all is connected with the stirring board through welded connection's mode.

Preferably, the rotary lifting device comprises a rotary plate, a third slide rail, a fourth slide block, a second reel, a slide rod, a sliding sleeve, a bearing, a sixth guide wheel, a fifth steel wire rope, a seventh guide wheel, a second connecting rod, an eighth guide wheel, a sixth steel wire rope and a fifth spring, wherein the lower end of the rotary rod is welded with the rotary plate, the second reel is welded in the middle of the top in the rotary plate, the left side and the right side of the rotary plate are connected with the third slide rail in a bolt connection mode, the third slide rail is connected with the fourth slide block in a sliding mode, the middle of the bottom in the stirring box is welded with the slide rod, the slide rods are connected with the sliding sleeves in a sliding mode, the sliding sleeves are vertically distributed on the slide rods and are positioned in the rotary plate, the outer side of the sliding sleeves is connected with the bearing in an interference connection mode, the sixth guide wheel is welded on the upper, the sliding rod upper portion left side has the seventh leading wheel through the welding of support, fifth wire rope has walked around sixth leading wheel and seventh leading wheel, fifth wire rope's end winding is on the second reel, the welding of sliding rod lower part has the eighth leading wheel, it has sixth wire rope to walk around on the eighth leading wheel, sixth wire rope's one end is connected through the mode of being connected of couple with the sliding sleeve bottom on upper portion, sixth wire rope's the other end is connected through the mode of being connected of couple with the sliding sleeve bottom of lower part, be connected with the fifth spring through the mode of being connected of couple between sliding sleeve bottom of lower part and the sliding rod, bearing on the sliding sleeve of upper portion passes through second connecting rod and left fourth slider welded connection, bearing on the sliding sleeve of lower part passes through second connecting rod and right side fourth slider welded connection, fourth slider outer end all is connected with.

Preferably, the stirring device further comprises a knocking device capable of knocking the right wall of the stirring box to prevent the material from blocking the second through hole.

Preferably, the knocking device comprises a guide rod, a sixth spring, a knocking plate and a knocking rod, the guide rod is welded on the lower portion of the right wall of the stirring box, a small hole is formed in the middle of the guide rod, the sixth spring is connected to the inner right wall of the guide rod in a hook connection mode, the knocking plate is connected to the left end of the sixth spring in a hook connection mode, the knocking rod is welded on the right side of the knocking plate, the knocking rod penetrates through the small hole formed in the middle of the sixth spring and the guide rod, and the right portion of the knocking rod is T-shaped.

Preferably, the knocking device comprises a handle, a third connecting rod, a torsion spring, a swinging rod and a knocking block, the third connecting rod is welded at the lower part of the right wall of the stirring box, the swinging rod is connected onto the third connecting rod through the torsion spring, the knocking block is welded at the lower part of the left side of the swinging rod, and the handle is welded at the lower part of the right side of the swinging rod.

(3) Advantageous effects

According to the invention, the rosemary leaves and stems are crushed by the chopper which continuously moves up and down, and the device capable of crushing the rosemary leaves and stems in the left and right directions is also arranged, so that the crushing effect of the rosemary leaves and stems is better, the crushing time is greatly shortened, and the working efficiency is improved.

Drawings

Fig. 1 is a first front view structure diagram of the present invention.

Fig. 2 is a first front view structure diagram of the present invention.

Fig. 3 is a third schematic view of the present invention.

Fig. 4 is a first front view of the stirring box of the present invention.

Fig. 5 is a front view of the rotary lifting device of the present invention.

Fig. 6 is a second front view of the stirring box of the present invention.

The labels in the figures are: 1-handle, 2-gear motor, 3-cam, 4-guide plate, 5-first spring, 6-moving plate, 7-first roller, 8-moving rod, 9-shredding knife, 10-processing plate, 11-first through hole, 12-first slide rail, 13-first slide block, 14-first baffle, 15-pull rod, 16-stirring box, 17-first support rod, 18-rotating motor, 19-rotating rod, 20-stirring plate, 21-liquid inlet pipe, 22-second through hole, 23-second baffle, 24-inner cavity, 25-second spring, 26-second support rod, 27-shredding plate, 28-first guide wheel, 29-second guide wheel, 30-first steel wire rope, 31-L-shaped slide rail, 32-second slider, 33-third slider, 34-third guide pulley, 35-second cable, 36-third spring, 37-fourth guide pulley, 38-third cable, 39-first link, 40-swivel plate, 41-third slide rail, 42-fourth slider, 43-fourth spring, 44-fourth cable, 45-fifth guide pulley, 46-upright, 47-first reel, 48-second reel, 49-slide bar, 50-slide sleeve, 51-bearing, 52-sixth guide pulley, 53-fifth cable, 54-seventh guide pulley, 55-second link, 56-eighth guide pulley, 57-sixth cable, 58-fifth spring, 59-guide bar, 60-sixth spring, 61-knocking plate, 62-knocking rod, 63-third connecting rod, 64-torsion spring, 65-swinging rod and 66-knocking block.

Detailed Description

The invention is further described below with reference to the figures and examples.

Example 1

A special preparation device for rosemary compound extract is shown in figures 1-6 and comprises a frame, a speed reduction motor 2, a cam 3, a guide plate 4, a first spring 5, a moving plate 6, a first roller 7, a moving rod 8, a chopping knife 9, a treatment plate 10, a first slide rail 12, a first slide block 13, a first baffle 14, a pull rod 15, a stirring box 16, a first support rod 17, a rotating motor 18, a rotating rod 19, a stirring plate 20, a liquid inlet pipe 21 and a second baffle 23, wherein the frame is connected with the speed reduction motor 2 in a bolt connection mode, the cam 3 is connected on an output shaft of the speed reduction motor 2 in an interference connection mode, the guide plate 4 is arranged below the speed reduction motor 2, the guide plate 4 is welded on the frame, small holes are formed in the left side and the right side of the guide plate 4, the first spring 5 is connected on the left side and the right side of the top of the guide plate 4 in a hook connection mode, the moving plate 6 is connected at the upper end of the first, the middle of the top of the movable plate 6 is welded with a first roller 7 through a support, the first roller 7 can rotate, the first roller 7 is in contact with the cam 3, the left side and the right side of the bottom of the movable plate 6 are both welded with movable rods 8, the movable rods 8 penetrate through small holes formed in the first spring 5 and the guide plate 4, the lower end of each movable rod 8 is welded with a chopping knife 9, a processing plate 10 is arranged below the chopping knife 9, the processing plate 10 is welded on the rack, a first through hole 11 is formed in the center of the processing plate 10, the first through hole 11 is positioned right below the chopping knife 9, first sliding rails 12 are arranged on the left side and the right side below the processing plate 10, the first sliding rails 12 are connected with the rack in a bolt connection mode, a first sliding block 13 is slidably connected on the first sliding rails 12, a first baffle 14 is welded on the top of the first sliding block 13, the first baffle 14 is positioned right below the first through hole 11, a pull rod 15 is, the below of handling board 10 is equipped with agitator tank 16, the upper portion welding has first branch 17 in agitator tank 16, it has the aperture to open in the middle of the first branch 17, be connected with rotating electrical machines 18 through bolted connection's mode in the middle of the first branch 17 top, there is bull stick 19 through the coupling joint on rotating electrical machines 18's the output shaft, bull stick 19 passes the aperture that opens in the middle of the first branch 17, stirring board 20 has all been welded to the left and right sides of bull stick 19, it has the aperture to open on stirring board 20, the welding has feed liquor pipe 21 on the left wall of agitator tank 16, open the bottom right side of agitator tank 16 has second through-hole 22, the bottom right side of agitator tank 16 is connected with second baffle 23 through the mode of screw connection, second baffle 23 is located second through-hole 22 under.

Also comprises a chopping device which can further chop the materials.

The chopping device comprises a second spring 25, a second support rod 26, a chopping board 27, a first guide wheel 28, a second guide wheel 29 and a first steel wire rope 30, wherein inner cavities 24 are formed in the left side and the right side of the processing board 10, small holes are formed in the processing board 10 between the inner cavities 24 and the first through holes 11, the second spring 25 is connected to the processing board 10 between the inner cavities 24 and the first through holes 11 in a hook connection mode, the outer ends of the second springs 25 are connected with the second support rod 26 in a hook connection mode, the second support rod 26 penetrates through the second springs 25 and the small holes formed in the processing board 10 between the inner cavities 24 and the first through holes 11, the chopping board 27 is welded to the inner ends of the second support rod 26, the first guide wheels 28 are welded to the rear walls of the left side and the right side in the processing board 10, the second guide wheels 29 are welded to the left side and the right side of the top of the processing board 10 through supports, and the outer ends of the second support rod 26 are connected with the first steel wire rope 30 in a, the first wire rope 30 is wound around the first guide pulley 28 and the second guide pulley 29, and the end of the first wire rope 30 is connected with the chopping knife 9 by means of a hook connection.

The chopping device comprises an L-shaped slide rail 31, a second slide block 32, a third slide block 33, a third guide wheel 34, a second steel wire rope 35, a third spring 36, a fourth guide wheel 37, a third steel wire rope 38, a first connecting rod 39, a second supporting rod 26 and a chopping board 27, wherein the L-shaped slide rail 31 is arranged on the left side and the right side of the processing board 10, the L-shaped slide rail 31 is connected to the frame in a bolt connection mode, the second slide block 32 is connected to the upper portion of the L-shaped slide rail 31 in a sliding mode, the third slide block 33 is connected to the bottom of the L-shaped slide rail 31 in a sliding mode, the third guide wheel 34 is welded to the outer side of the bottom of the L-shaped slide rail 31, the second steel wire rope 35 is connected to the third slide block 33 in a hook connection mode, the second steel wire rope 35 bypasses the third guide wheel 34, the upper end of the second steel wire rope 35 is connected to the bottom of the second slide block, the top of the second sliding block 32 is connected with a third steel wire rope 38 in a hook connection mode, the third steel wire rope 38 bypasses a fourth guide wheel 37, the tail end of the third steel wire rope 38 is connected with the chopping knife 9 in a hook connection mode, the inner side of the second sliding block 32 is connected with a first connecting rod 39 in a welding connection mode, a small hole is formed in the processing plate 10 between the inner cavity 24 and the first through hole 11, the inner end of the first connecting rod 39 is connected with a second supporting rod 26 in a welding connection mode, the second supporting rod 26 penetrates through the second spring 25 and the small hole formed in the processing plate 10 between the inner cavity 24 and the first through hole 11, and the chopping plate 27 is welded to the inner end of the second supporting rod 26.

And a rotary lifting device which can rotate the stirring plate 20 and move up and down is also included.

The rotary lifting device comprises a rotary plate 40, a third slide rail 41, a fourth slider 42, a fourth spring 43, a fourth steel wire rope 44, a fifth guide wheel 45, a vertical column 46 and a first reel 47, wherein the lower end of the rotary rod 19 is welded with the rotary plate 40, the upper part of the left wall and the lower part of the right wall of the rotary plate 40 are both provided with small holes, the left side and the right side of the rotary plate 40 are connected with the third slide rail 41 in a bolt connection mode, the left third slide rail 41 is connected with the fourth slider 42 in a sliding mode, the bottom of the fourth slider 42 is connected with the third slide rail 41 through a hook connection mode to form a fourth spring 43, the top of the fourth slider 42 is connected with the fourth steel wire rope 44 through a hook connection mode, the upper part of the left third slide rail 41 is welded with the fifth guide wheel 45, the fourth steel wire rope 44 winds around the fifth guide wheel 45, the fourth steel wire rope 44 passes through the small hole on the upper part of the left wall of the, the top of the fourth slider 42 is connected with the third slide rail 41 through a hook connection mode by a fourth spring 43, the bottom of the fourth slider 42 is connected with a fourth steel wire rope 44 through a hook connection mode, the lower portion of the right third slide rail 41 is welded with a fifth guide wheel 45, the fourth steel wire rope 44 bypasses the fifth guide wheel 45, the fourth steel wire rope 44 penetrates through a small hole in the lower portion of the right wall of the rotating plate 40, the stand column 46 is welded in the middle of the bottom in the stirring box 16, the stand column 46 is connected with two first reels 47 in an interference connection mode, the first reels 47 are vertically distributed on the stand column 46, the first reels 47 are located in the rotating plate 40, the left fourth steel wire rope 44 is wound on the upper first reel 47, the right fourth steel wire rope 44 is wound on the lower first reel 47, and the outer end of the fourth slider 42 is connected with the stirring plate 20 through a welding connection mode.

The rotary lifting device comprises a rotary plate 40, a third slide rail 41, a fourth slider 42, a second reel 48, a slide rod 49, a slide sleeve 50, a bearing 51, a sixth guide wheel 52, a fifth steel wire rope 53, a seventh guide wheel 54, a second connecting rod 55, an eighth guide wheel 56, a sixth steel wire rope 57 and a fifth spring 58, wherein the lower end of the rotary rod 19 is welded with the rotary plate 40, the second reel 48 is welded at the center of the inner top of the rotary plate 40, the left side and the right side of the rotary plate 40 are connected with the third slide rail 41 in a bolt connection mode, the fourth slider 42 is connected on the third slide rail 41 in a sliding mode, the slide rod 49 is welded at the middle of the inner bottom of the stirring box 16, the slide rods 49 are connected with the slide sleeve 50 in a sliding mode, the slide sleeves 50 are two, the slide sleeves 50 are vertically distributed on the slide rods 49, the slide sleeve 50 is positioned in the rotary plate 40, a sixth guide wheel 52 is welded on the upper part of the sliding rod 49, a fifth steel wire rope 53 is connected on the top of the sliding sleeve 50 on the upper part in a hook connection mode, a seventh guide wheel 54 is welded on the left side of the upper part of the sliding rod 49 through a support, the fifth steel wire rope 53 winds around the sixth guide wheel 52 and the seventh guide wheel 54, the tail end of the fifth steel wire rope 53 is wound on the second reel 48, an eighth guide wheel 56 is welded on the lower part of the sliding rod 49, a sixth steel wire rope 57 winds on the eighth guide wheel 56, one end of the sixth steel wire rope 57 is connected with the bottom of the sliding sleeve 50 on the upper part in a hook connection mode, the other end of the sixth steel wire rope 57 is connected with the bottom of the sliding sleeve 50 on the lower part in a hook connection mode, a fifth spring 58 is connected between the bottom of the sliding sleeve 50 on the lower part and the sliding rod 49, the bearing 51 on the lower sliding sleeve 50 is connected with the right fourth sliding block 42 in a welding mode through a second connecting rod 55, and the outer end of the fourth sliding block 42 is connected with the stirring plate 20 in a welding mode.

And the stirring device also comprises a knocking device which can knock the right wall of the stirring box 16 to prevent the material from blocking the second through hole 22.

The knocking device comprises a guide rod 59, a sixth spring 60, a knocking plate 61 and a knocking rod 62, wherein the guide rod 59 is welded at the lower part of the right wall of the stirring box 16, a small hole is formed in the middle of the guide rod 59, the sixth spring 60 is connected to the inner right wall of the guide rod 59 in a hook connection mode, the knocking plate 61 is connected to the left end of the sixth spring 60 in a hook connection mode, the knocking rod 62 is welded at the right side of the knocking plate 61, the knocking rod 62 penetrates through the small hole formed in the middle of the sixth spring 60 and the guide rod 59, and the right part of the knocking rod 62 is T-shaped.

The knocking device comprises a handle 1, a third connecting rod 63, a torsion spring 64, a swinging rod 65 and a knocking block 66, wherein the third connecting rod 63 is welded at the lower part of the right wall of the stirring box 16, the swinging rod 65 is connected onto the third connecting rod 63 through the torsion spring 64, the knocking block 66 is welded at the lower part of the left side of the swinging rod 65, and the handle 1 is welded at the lower part of the right side of the swinging rod 65.

The working principle is as follows: when the rosemary leaves and stems which are subjected to freezing and drying treatment are placed in the first through hole 11, the first baffle 14 is located right below the first through hole 11, then a worker controls the speed reduction motor 2 to drive the cam 3 to rotate continuously, under the extrusion action of the cam 3 and the elastic action of the first spring 5, the moving rod 8 and the chopping knife 9 move up and down continuously, and accordingly the rosemary leaves and stems in the first through hole 11 are chopped continuously. When the kibbling degree of rosemary leaf stem is suitable, staff control gear motor 2 stop work, and the staff passes through pull rod 15 and pulls first baffle 14 forward, when first baffle 14 no longer shelters from first through-hole 11, the rosemary leaf stem that has smashed in the first through-hole 11 drops to agitator tank 16 in, after rosemary leaf stem all drops to agitator tank 16 in, the staff pushes back first baffle 14 to the normal position again, and add appropriate amount ethanol in agitator tank 16 through feed liquor pipe 21, then control rotating electrical machines 18 drive bull stick 19 and the continuous clockwise and anticlockwise motion of agitator plate 20, thereby make ethanol and rosemary leaf stem powder fully fuse and react. When the stirring is completed to a certain extent, the worker controls the rotary motor 18 to stop the operation and opens the second shutter 23 to discharge the mixed product from the second through-hole 22.

Because the chopping device comprises a second spring 25, a second supporting rod 26, a chopping board 27, a first guide wheel 28, a second guide wheel 29 and a first steel wire rope 30, the left side and the right side of the processing board 10 are both provided with inner cavities 24, the processing board 10 between the inner cavities 24 and the first through holes 11 is provided with small holes, the processing board 10 between the inner cavities 24 and the first through holes 11 is connected with the second spring 25 in a hook connection mode, the outer ends of the second springs 25 are connected with the second supporting rod 26 in a hook connection mode, the second supporting rod 26 passes through the second spring 25 and the small holes formed in the processing board 10 between the inner cavities 24 and the first through holes 11, the inner ends of the second supporting rods 26 are both welded with the chopping board 27, the rear walls of the left side and the right side in the processing board 10 are both welded with the first guide wheel 28, the left side and the right side of the top of the processing board 10 are both welded with the second guide wheel 29 through a bracket, and the outer ends of the second supporting rods 26 are both connected with the first steel, the first wire rope 30 is wound around the first guide pulley 28 and the second guide pulley 29, and the end of the first wire rope 30 is connected with the chopping knife 9 by means of a hook connection. When shredding knife 9 constantly reciprocates and carries out shredding to rosemary leaf stem, under the spring action of second spring 25 and first wire rope 30's pulling force effect, the continuous side-to-side motion of chopping board 27, and chopping board 27 moves to the outside when shredding knife 9 moves downwards, chopping board 27 moves to the inside side when shredding knife 9 moves upwards, chopping board 27 neither can influence the shredding to rosemary leaf stem of shredding knife 9 like this, can realize carrying out the shredding of left and right sides to rosemary leaf stem again, the crushing effect that makes rosemary leaf stem like this is better, and can effectual shortening crushing effect, improve work efficiency.

Because the chopping device comprises an L-shaped slide rail 31, a second slide block 32, a third slide block 33, a third guide wheel 34, a second steel wire rope 35, a third spring 36, a fourth guide wheel 37, a third steel wire rope 38, a first connecting rod 39, a second supporting rod 26 and a chopping board 27, the L-shaped slide rail 31 is arranged on the left side and the right side of the processing board 10, the L-shaped slide rail 31 is connected to the frame in a bolt connection mode, the second slide block 32 is connected to the upper portion of the L-shaped slide rail 31 in a sliding mode, the third slide block 33 is connected to the bottom of the L-shaped slide rail 31 in a sliding mode, the third guide wheel 34 is welded to the outer side of the bottom of the L-shaped slide rail 31, the second steel wire rope 35 is connected to the third slide block 33 in a hook connection mode, the second steel wire rope 35 bypasses the third guide wheel 34, the upper end of the second steel wire rope 35 is connected to the bottom of the second slide block 32, the top of the second sliding block 32 is connected with a third steel wire rope 38 in a hook connection mode, the third steel wire rope 38 bypasses a fourth guide wheel 37, the tail end of the third steel wire rope 38 is connected with the chopping knife 9 in a hook connection mode, the inner side of the second sliding block 32 is connected with a first connecting rod 39 in a welding connection mode, a small hole is formed in the processing plate 10 between the inner cavity 24 and the first through hole 11, the inner end of the first connecting rod 39 is connected with a second supporting rod 26 in a welding connection mode, the second supporting rod 26 penetrates through the second spring 25 and the small hole formed in the processing plate 10 between the inner cavity 24 and the first through hole 11, and the chopping plate 27 is welded to the inner end of the second supporting rod 26. When the shredding knife 9 continuously moves up and down to shred rosemary leaves and stems, under the action of the third steel wire rope 38, the second steel wire rope 35 and the third spring 36, the up-and-down movement of the second sliding block 32 can be realized, the left-and-right movement of the third sliding block 33 is realized, the continuous left-and-right movement of the shredding plate 27 is realized, the shredding plate 27 moves towards the outside when the shredding knife 9 moves downwards, the shredding plate 27 moves towards the inside when the shredding knife 9 moves upwards, so that the shredding plate 27 cannot influence the shredding work of the shredding knife 9 on the rosemary leaves and stems, and can shred the rosemary leaves and stems at the left side and the right side, so that the shredding effect of the rosemary leaves and stems is better, the shredding effect can be effectively shortened, and the working efficiency is improved.

Because the rotary lifting device comprises a rotary plate 40, a third slide rail 41, a fourth slider 42, a fourth spring 43, a fourth steel wire rope 44, a fifth guide wheel 45, a vertical column 46 and a first reel 47, the rotary plate 40 is welded at the lower end of the rotary rod 19, small holes are respectively formed in the upper part of the left wall and the lower part of the right wall of the rotary plate 40, the third slide rail 41 is connected to the left side and the right side of the rotary plate 40 in a bolt connection mode, the fourth slider 42 is connected to the left side of the third slide rail 41 in a sliding mode, the fourth spring 43 is connected between the bottom of the fourth slider 42 and the third slide rail 41 in a hook connection mode, the fourth steel wire rope 44 is connected to the top of the fourth slider 42 in a hook connection mode, the fifth guide wheel 45 is welded to the upper part of the left side of the third slide rail 41, the fourth steel wire rope 44 winds around the fifth guide wheel 45, the fourth steel wire rope 44 passes through the small hole in the upper part of the, the top of the fourth slider 42 is connected with the third slide rail 41 through a hook connection mode by a fourth spring 43, the bottom of the fourth slider 42 is connected with a fourth steel wire rope 44 through a hook connection mode, the lower portion of the right third slide rail 41 is welded with a fifth guide wheel 45, the fourth steel wire rope 44 bypasses the fifth guide wheel 45, the fourth steel wire rope 44 penetrates through a small hole in the lower portion of the right wall of the rotating plate 40, the stand column 46 is welded in the middle of the bottom in the stirring box 16, the stand column 46 is connected with two first reels 47 in an interference connection mode, the first reels 47 are vertically distributed on the stand column 46, the first reels 47 are located in the rotating plate 40, the left fourth steel wire rope 44 is wound on the upper first reel 47, the right fourth steel wire rope 44 is wound on the lower first reel 47, and the outer end of the fourth slider 42 is connected with the stirring plate 20 through a welding connection mode. When the worker controls the rotating motor 18 to rotate clockwise and counterclockwise, the rotating plate 40 rotates clockwise and counterclockwise continuously, and the stirring plate 20 also rotates clockwise and counterclockwise, because the first winding wheel 47 is fixedly installed on the upright column 46, and the upright column 46 is also fixed, so that when the rotating plate 40 rotates clockwise and counterclockwise continuously, the fourth wire rope 44 is wound and unwound on the first winding wheel 47 continuously, under the pulling force of the fourth wire rope 44 and the elastic force of the fourth spring 43, the stirring plates 20 on both sides move up and down continuously, and the directions of the up and down movement of the stirring plates 20 on both sides are opposite, so that the rotating movement of the stirring plates 20 is realized while the up and down movement is also realized, and the directions of the up and down movement of the stirring plates 20 on both sides are opposite, thereby stirring ethanol and rosemary leaf stems more rapidly, the stirring effect is better, and a solid foundation is laid for the subsequent work.

Because the rotary lifting device comprises a rotary plate 40, a third slide rail 41, a fourth slider 42, a second reel 48, a slide rod 49, a slide sleeve 50, a bearing 51, a sixth guide wheel 52, a fifth steel wire rope 53, a seventh guide wheel 54, a second connecting rod 55, an eighth guide wheel 56, a sixth steel wire rope 57 and a fifth spring 58, the lower end of the rotary rod 19 is welded with the rotary plate 40, the second reel 48 is welded at the center of the top part in the rotary plate 40, the left side and the right side of the rotary plate 40 are connected with the third slide rail 41 in a bolt connection mode, the fourth slider 42 is connected on the third slide rail 41 in a sliding mode, the slide rod 49 is welded at the center of the bottom part in the stirring box 16, the slide sleeve 50 is connected on the slide rod 49 in a sliding mode, the number of the slide sleeves 50 is two, the slide sleeves 50 are vertically distributed on the slide rods 49, the slide sleeve 50 is positioned in the rotary, a sixth guide wheel 52 is welded on the upper part of the sliding rod 49, a fifth steel wire rope 53 is connected on the top of the sliding sleeve 50 on the upper part in a hook connection mode, a seventh guide wheel 54 is welded on the left side of the upper part of the sliding rod 49 through a support, the fifth steel wire rope 53 winds around the sixth guide wheel 52 and the seventh guide wheel 54, the tail end of the fifth steel wire rope 53 is wound on the second reel 48, an eighth guide wheel 56 is welded on the lower part of the sliding rod 49, a sixth steel wire rope 57 winds on the eighth guide wheel 56, one end of the sixth steel wire rope 57 is connected with the bottom of the sliding sleeve 50 on the upper part in a hook connection mode, the other end of the sixth steel wire rope 57 is connected with the bottom of the sliding sleeve 50 on the lower part in a hook connection mode, a fifth spring 58 is connected between the bottom of the sliding sleeve 50 on the lower part and the sliding rod 49, the bearing 51 on the lower sliding sleeve 50 is connected with the right fourth sliding block 42 in a welding mode through a second connecting rod 55, and the outer end of the fourth sliding block 42 is connected with the stirring plate 20 in a welding mode. When the worker controls the rotating motor 18 to rotate clockwise and counterclockwise, the rotating plate 40 rotates clockwise and counterclockwise continuously, the stirring plate 20 rotates clockwise and counterclockwise, the second reel 48 rotates clockwise and counterclockwise continuously, so as to receive and release the fifth wire rope 53 continuously, the vertical movement of the sliding sleeve 50 is realized under the action of the fifth wire rope 53, the sixth wire rope 57 and the fifth spring 58, the vertical movement of the sliding sleeve 50 is realized, the vertical movement of the sliding sleeve 50 at the upper part and the vertical movement of the sliding sleeve 50 at the lower part are opposite, the bearing 51 is arranged outside the sliding sleeve 50, the vertical movement of the second connecting rod 55 is realized, meanwhile, the vertical movement of the stirring plate 20 is realized, the vertical movement of the stirring plates 20 at two sides is opposite, and thus the vertical movement of the stirring plate 20 is realized simultaneously, and the continuous clockwise and anticlockwise rotation is opposite to the up-and-down movement direction of the stirring plates 20 at the two sides, so that the ethanol and the rosemary leaves and stems can be stirred more quickly, the stirring effect is better, and a solid foundation is laid for subsequent work.

Because the knocking device comprises a guide rod 59, a sixth spring 60, a knocking plate 61 and a knocking rod 62, the guide rod 59 is welded at the lower part of the right wall of the stirring box 16, a small hole is formed in the middle of the guide rod 59, the sixth spring 60 is connected to the inner right wall of the guide rod 59 in a hook connection mode, the knocking plate 61 is connected to the left end of the sixth spring 60 in a hook connection mode, the knocking rod 62 is welded at the right side of the knocking plate 61, the knocking rod 62 penetrates through the small hole formed in the middle of the sixth spring 60 and the guide rod 59, and the right part of the knocking rod 62 is T-shaped. In order to prevent that a large amount of materials from bonding on the wall of agitator tank 16 and the material from giving out the time second through-hole 22 blocks up, the staff can pull rapping bar 62 right, under the pulling force effect and under the elasticity effect of sixth spring 60, just can realize beating about constantly board 61 to realized the purpose of beating agitator tank 16, just so can prevent that a large amount of materials from bonding on the wall of agitator tank 16 and second through-hole 22 from blockking up, improved the practicality of this equipment.

Because the knocking device comprises the handle 1, a third connecting rod 63, a torsion spring 64, a swinging rod 65 and a knocking block 66, the third connecting rod 63 is welded at the lower part of the right wall of the stirring box 16, the swinging rod 65 is connected to the third connecting rod 63 through the torsion spring 64, the knocking block 66 is welded at the lower part of the left side of the swinging rod 65, and the handle 1 is welded at the lower part of the right side of the swinging rod 65. In order to prevent a large amount of materials from being bonded on the wall of the stirring box 16 and prevent the second through hole 22 from being blocked when the materials are discharged, a worker can pull the swing rod 65 rightwards through the handle 1, and under the action of pulling force and the action of the elastic force of the torsion spring 64, the continuous left-right swing of the knocking block 66 can be realized, so that the purpose of knocking the stirring box 16 is realized, a large amount of materials can be prevented from being bonded on the wall of the stirring box 16 and being blocked by the second through hole 22, and the practicability of the equipment is improved.

The above examples are merely representative of preferred embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, various changes, modifications and substitutions can be made without departing from the spirit of the present invention, and these are all within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (8)

1. A special preparation device for a rosemary compound extract is characterized by comprising a rack, a speed reducing motor (2), a cam (3), a guide plate (4), a first spring (5), a moving plate (6), a first roller (7), a moving rod (8), a chopping knife (9), a processing plate (10), a first slide rail (12), a first slide block (13), a first baffle (14), a pull rod (15), a stirring box (16), a first support rod (17), a rotating motor (18), a rotating rod (19), a stirring plate (20), a liquid inlet pipe (21) and a second baffle (23), wherein the speed reducing motor (2) is connected to the rack in a bolt connection mode, the cam (3) is connected to an output shaft of the speed reducing motor (2) in an interference connection mode, the guide plate (4) is arranged below the speed reducing motor (2), and the guide plate (4) is welded to the rack, the left side and the right side of the guide plate (4) are provided with small holes, the left side and the right side of the top of the guide plate (4) are connected with a first spring (5) in a hook connection mode, the upper end of the first spring (5) is connected with a movable plate (6) in a hook connection mode, the middle of the top of the movable plate (6) is welded with a first roller (7) through a support, the first roller (7) can rotate, the first roller (7) is contacted with a cam (3), the left side and the right side of the bottom of the movable plate (6) are both welded with movable rods (8), the movable rods (8) penetrate through the small holes formed in the first spring (5) and the guide plate (4), the lower end of each movable rod (8) is welded with a chopping knife (9), a processing plate (10) is arranged below the chopping knife (9), the processing plate (10) is welded on a rack, the center of the processing plate (10) is provided with a first through hole (11), the left side and the right side below the processing plate (10) are respectively provided with a first sliding rail (12), the first sliding rails (12) are connected with a rack in a bolt connection mode, the first sliding rails (12) are connected with a first sliding block (13) in a sliding mode, the top of the first sliding block (13) is welded with a first baffle (14), the first baffle (14) is positioned under a first through hole (11), the front side of the first baffle (14) is welded with a pull rod (15), the lower part of the processing plate (10) is provided with a stirring box (16), the upper inner part of the stirring box (16) is welded with a first supporting rod (17), the middle of the first supporting rod (17) is provided with a small hole, the middle of the top of the first supporting rod (17) is connected with a rotating motor (18) in a bolt connection mode, an output shaft of the rotating motor (18) is connected with a rotating rod (19) through a coupler, the rotating rod (19) penetrates through the, stirring plates (20) are welded on the left side and the right side of the rotating rod (19), small holes are formed in the stirring plates (20), a liquid inlet pipe (21) is welded on the left wall of the stirring box (16), a second through hole (22) is formed in the right side of the bottom of the stirring box (16), a second baffle (23) is connected to the right side of the bottom of the stirring box (16) in a screw connection mode, and the second baffle (23) is located right below the second through hole (22); the device also comprises a chopping device which can further chop the materials; the chopping device comprises a second spring (25), a second supporting rod (26), a chopping board (27), a first guide wheel (28), a second guide wheel (29) and a first steel wire rope (30), wherein inner cavities (24) are formed in the left side and the right side of the processing board (10), small holes are formed in the processing board (10) between the inner cavities (24) and the first through holes (11), the second spring (25) is connected to the processing board (10) between the inner cavities (24) and the first through holes (11) in a hook connection mode, the outer end of the second spring (25) is connected with the second supporting rod (26) in a hook connection mode, the second supporting rod (26) penetrates through the second spring (25) and the small holes formed in the processing board (10) between the inner cavities (24) and the first through holes (11), the chopping board (27) is welded at the inner end of the second supporting rod (26), the first guide wheels (28) are welded on the rear walls of the left side and the right side in the processing board (10), the left and right sides at processing board (10) top all has second leading wheel (29) through the welding of support, and the outer end of second branch (26) all is connected with first wire rope (30) through the mode that the couple is connected, and first leading wheel (28) and second leading wheel (29) are walked around in first wire rope (30), and the end of first wire rope (30) is connected through the mode that the couple is connected and is connected with shredding knife (9).

2. The special preparation equipment for rosemary compound extract according to claim 1, wherein the chopping device comprises an L-shaped slide rail (31), a second slide block (32), a third slide block (33), a third guide wheel (34), a second steel wire rope (35), a third spring (36), a fourth guide wheel (37), a third steel wire rope (38), a first connecting rod (39), a second supporting rod (26) and a chopping board (27), the L-shaped slide rail (31) is arranged on each of the left side and the right side of the treatment board (10), the L-shaped slide rail (31) is connected to the frame in a bolt connection mode, the second slide block (32) is connected to the upper portion of the L-shaped slide rail (31) in a sliding mode, the third slide block (33) is connected to the bottom of the L-shaped slide rail (31) in a sliding mode, the third guide wheel (34) is welded to the outer side of the bottom of the L-shaped slide rail (31), the second steel wire rope (35) is connected to the third slide block (, second wire rope (35) is around third leading wheel (34), the upper end of second wire rope (35) is connected with second slider (32) bottom through the mode that the couple is connected, L type slide rail (31) upper portion inboard has fourth leading wheel (37) through the scaffold weldment, second slider (32) top is connected with third wire rope (38) through the mode that the couple is connected, third wire rope (38) are around fourth leading wheel (37), the end of third wire rope (38) is connected with shredding knife (9) through the mode that the couple is connected, second slider (32) inboard is connected with first connecting rod (39) through welded connection's mode, it has the aperture to open on processing plate (10) between inner chamber (24) and first through-hole (11), first connecting rod (39) inner is connected with second branch (26) through welded connection's mode, second branch (26) pass and open the aperture that has on second spring (25) and processing plate (10) between inner chamber (24) and first through-hole (11) And the inner ends of the second supporting rods (26) are welded with chopping plates (27).

3. The special preparation equipment for the rosemary compound extract according to claim 1, further comprising a rotary lifting device which can rotate the stirring plate (20) and move up and down.

4. The special preparation equipment for rosemary compound extract according to claim 3, wherein the rotary lifting device comprises a rotary plate (40), a third slide rail (41), a fourth slide block (42), a fourth spring (43), a fourth steel wire rope (44), a fifth guide wheel (45), a vertical column (46) and a first reel (47), the lower end of the rotary rod (19) is welded with the rotary plate (40), the upper part of the left wall and the lower part of the right wall of the rotary plate (40) are both provided with small holes, the left side and the right side of the rotary plate (40) are connected with the third slide rail (41) in a bolt connection mode, the third slide rail (41) on the left side is slidably connected with the fourth slide block (42), the bottom of the fourth slide block (42) is connected with the third slide rail (41) through a hook connection mode, the top of the fourth slide block (42) is connected with the fourth steel wire rope (44) through a hook connection mode, a fifth guide wheel (45) is welded on the upper portion of a left third slide rail (41), a fourth steel wire rope (44) bypasses the fifth guide wheel (45), the fourth steel wire rope (44) penetrates through a small hole in the upper portion of the left wall of the rotating plate (40), a fourth slider (42) is connected on the right third slide rail (41) in a sliding mode, a fourth spring (43) is connected between the top of the fourth slider (42) and the third slide rail (41) in a hook connection mode, the bottom of the fourth slider (42) is connected with the fourth steel wire rope (44) in a hook connection mode, a fifth guide wheel (45) is welded on the lower portion of the right third slide rail (41), the fifth guide wheel (45) is bypassed by the fourth steel wire rope (44), the fourth steel wire rope (44) penetrates through a small hole in the lower portion of the right wall of the rotating plate (40), a stand column (46) is welded in the middle of the bottom of the stirring box (16), the number of the first reels (47) is two, the first reels (47) are vertically distributed on the upright post (46), the first reels (47) are located in the rotating plate (40), the left fourth steel wire rope (44) is wound on the upper first reel (47), the right fourth steel wire rope (44) is wound on the lower first reel (47), and the outer ends of the fourth sliding blocks (42) are connected with the stirring plate (20) in a welding connection mode.

5. The special preparation equipment for rosemary compound extracts according to claim 3, wherein the rotary lifting device comprises a rotary plate (40), a third slide rail (41), a fourth slide block (42), a second reel (48), a slide bar (49), a slide sleeve (50), a bearing (51), a sixth guide wheel (52), a fifth steel wire rope (53), a seventh guide wheel (54), a second connecting rod (55), an eighth guide wheel (56), a sixth steel wire rope (57) and a fifth spring (58), the rotary plate (40) is welded at the lower end of the rotary rod (19), the second reel (48) is welded at the middle of the inner top of the rotary plate (40), the third slide rail (41) is connected to the left side and the right side of the rotary plate (40) in a bolt connection manner, the fourth slide block (42) is connected to the third slide rail (41) in a sliding manner, the slide bar (49) is welded at the middle of the inner bottom of the stirring tank (16), a sliding sleeve (50) is connected with the sliding rod (49) in a sliding mode, the number of the sliding sleeves (50) is two, the sliding sleeves (50) are vertically distributed on the sliding rod (49), the sliding sleeves (50) are located in the rotating plate (40), the outer side of each sliding sleeve (50) is connected with a bearing (51) in an interference connection mode, a sixth guide wheel (52) is welded at the upper part of each sliding rod (49), a fifth steel wire rope (53) is connected at the top of each sliding sleeve (50) at the upper part in a hook connection mode, a seventh guide wheel (54) is welded at the left side of the upper part of each sliding rod (49) through a support, the fifth steel wire rope (53) bypasses the sixth guide wheel (52) and the seventh guide wheel (54), the tail end of the fifth steel wire rope (53) is wound on the second reel (48), an eighth guide wheel (56) is welded at the lower part of each sliding rod (49), a sixth steel wire rope (57) is wound on the eighth guide wheel (56), the other end of a sixth steel wire rope (57) is connected with the bottom of a sliding sleeve (50) at the lower part in a hook connection mode, a fifth spring (58) is connected between the bottom of the sliding sleeve (50) at the lower part and a sliding rod (49) in a hook connection mode, a bearing (51) on the sliding sleeve (50) at the upper part is connected with a fourth sliding block (42) at the left side in a welding mode through a second connecting rod (55), the bearing (51) on the sliding sleeve (50) at the lower part is connected with the fourth sliding block (42) at the right side in a welding mode through the second connecting rod (55), and the outer end of the fourth sliding block (42) is connected with a stirring plate (20).

6. The special preparation equipment for the rosemary compound extract according to claim 1, further comprising a knocking device capable of knocking the right wall of the stirring box (16) to prevent the material from blocking the second through hole (22).

7. The special preparation equipment for the rosemary compound extract according to claim 6, wherein the knocking device comprises a guide rod (59), a sixth spring (60), a knocking plate (61) and a knocking rod (62), the guide rod (59) is welded at the lower part of the right wall of the stirring box (16), a small hole is formed in the middle of the guide rod (59), the sixth spring (60) is connected to the right wall in the guide rod (59) in a hook connection mode, the knocking plate (61) is connected to the left end of the sixth spring (60) in a hook connection mode, the knocking rod (62) is welded at the right side of the knocking plate (61), the knocking rod (62) penetrates through the small hole formed in the middle of the sixth spring (60) and the guide rod (59), and the right part of the knocking rod (62) is T-shaped.

8. The special preparation equipment for the rosemary compound extract according to claim 6, wherein the knocking device comprises a handle (1), a third connecting rod (63), a torsion spring (64), a swinging rod (65) and a knocking block (66), the third connecting rod (63) is welded on the lower portion of the right wall of the stirring box (16), the swinging rod (65) is connected onto the third connecting rod (63) through the torsion spring (64), the knocking block (66) is welded on the lower portion of the left side of the swinging rod (65), and the handle (1) is welded on the lower portion of the right side of the swinging rod (65).