CN114535057A

CN114535057A - Screening and impurity removing equipment for moxa processing and working method thereof

Info

Publication number: CN114535057A
Application number: CN202210273818.5A
Authority: CN
Inventors: 张敏珍; 刘思扬; 谢素珍; 郝秀杰; 盛爱敏; 王艳; 张国珍; 唐丽
Original assignee: Fuyang Mulong Reed Pond Agricultural Technology Co ltd
Current assignee: Fuyang Mulong Reed Pond Agricultural Technology Co ltd
Priority date: 2022-03-19
Filing date: 2022-03-19
Publication date: 2022-05-27

Abstract

The utility model relates to the technical field of screening and impurity removing of moxa processing, in particular to screening and impurity removing equipment for moxa processing and a working method thereof, and the screening and impurity removing equipment comprises a screening component, a feeding component, an adjusting component and a separating component, wherein the feeding component is arranged at one end of the screening component, the adjusting component is fixed below the screening component, the separating component is fixed above one side of the adjusting component, the screening component comprises a base station, a screening cylinder, a first four side plates and a rotary cylinder, a separating box is welded below the base station, an impurity box is welded below the separating box, a collecting box is welded on one side of the separating box, the rotary screening cylinder screens fine moxa and stone into the separating box in the rotating process, the separating component separates the fine moxa and the stone, so that the stone falls into the impurity box, the fine moxa enters the collecting box, and the equipment can not only screen the impurities such as the stone in the moxa cleanly, and can collect tiny moxa, reduce the loss of this equipment material when screening impurity.

Description

Screening and impurity removing equipment for moxa processing and working method thereof

Technical Field

The utility model relates to the technical field of screening and impurity removal of moxa processing, in particular to screening and impurity removal equipment for moxa processing and a working method thereof.

Background

The moxa is a soft and fine cotton-like substance prepared by repeatedly drying folium artemisiae argyi with a pestle, hammering and crushing, and screening out impurities and dust, and has the following main effects: the moxa product has the advantages that the moxa product is made into health care products in daily life, such as moxa bellyband, a pillow, a cushion, an insole, moxa clothes, various protective tools, moxa quilt, moxa foot soaking bag, a shower bag and the like, hard impurities such as stones wrapped in the moxa are excessive, screening impurity removal equipment for moxa processing is needed to separate out the hard impurities such as the stones in the moxa before the moxa product is made, the purity of the moxa can be greatly improved, the effect of the moxa product is ensured, meanwhile, the situation that the hard impurities such as the stones damage users can be avoided, and the comfort level during use is greatly improved.

The utility model with the publication number of CN215465980U discloses a moxa repeated sieving pestle device for moxa production, which solves the problems of time and labor waste and low yield of the prior manual production and comprises a base, wherein a collecting mechanism is arranged at the top of the base, a vibrating mechanism is arranged at the top of the base, an impurity removing box is movably arranged at the top of the vibrating mechanism, and baffles are fixedly arranged on two sides of the top of the impurity removing box; according to the utility model, through the matching between the motor and the transmission shaft, the hammer rod can rotate and is in contact with the stop rod, when the stop rod is driven to move rightwards, the impurity removing box rotates clockwise through the matching between the rack and the gear, at the moment, the spring stretches through the matching between the movable rod, the sliding block and the spring, when the hammer rod rotates and is separated from the stop rod, the spring resets and drives the movable rod to move, at the moment, the impurity removing box rotates anticlockwise, so that the impurity removing box moves leftwards and rightwards continuously, impurities in the folium artemisiae argyi can be removed conveniently, and the problem that when impurities are removed, the impurities in the filtering hole cannot be removed, the filtering hole is easy to block, and the impurity removing efficiency is low is caused.

However, the existing screening and impurity removing equipment for processing moxa has a great defect, when the existing screening and impurity removing equipment is used for screening hard impurities, fine moxa is screened out together, so that the moxa is large in material loss after the impurities are screened, the manufacturing cost is high, and when the existing screening and impurity removing equipment is used, sieve holes are easy to block, so that the screening efficiency is too low; the existing screening and impurity removing equipment cannot automatically feed materials in the using process, and the automation degree is poor.

Disclosure of Invention

Aiming at the problems in the prior art, the utility model provides screening and impurity removing equipment for moxa processing and a working method thereof.

A screening and impurity removing device for processing moxa comprises a screening component, a feeding component, an adjusting component and a separating component, wherein the feeding component is installed at one end of the screening component, the adjusting component is fixed below the screening component, the separating component is fixed above one side of the adjusting component, the screening component comprises a base station, a screening cylinder, four first side plates and a rotary cylinder, the screening cylinder rotates above the base station, one group of the four first side plates and two groups of the four first side plates are respectively positioned at two sides of the screening cylinder, the cross section of the first side plates is of a transverse V-shaped structure, the rotary cylinders are respectively installed at two ends inside the first side plates, a base cloth is fixed on the outer surface of the rotary cylinder, fluff is arranged at one side of the base cloth close to the screening cylinder, a separating box is welded below the base station, an impurity box is welded below the separating box, a collecting box is welded at one side of the separating box, the moxa is sent into the screening cylinder through the feeding component, a pivoted screening section of thick bamboo is in the rotation process falls the separator box with tiny moxa and stone sieve, separates tiny moxa and stone through separable set, makes the stone fall the impurity incasement, and in tiny moxa got into the collecting box, this equipment not only can be clean with impurity screening such as stone in the moxa, can collect tiny moxa moreover.

Preferably, the opening has been seted up on the base station, and the opening is located the below of screening section of thick bamboo, and the separation box is frame construction, the base station, separation box and impurity case link up, pull box one is installed to the one end at the impurity case, pull box two is installed to one side bottom at the collecting box, impurity such as stone in the impurity case gets into pull box one, tiny chinese mugwort fine hair gets into inside pull box two through the collecting box after separating out, and all be equipped with the handle in the one end of pull box one and pull box two, pull box one and pull box two through pulling handle pulling, be convenient for the activity of pull box one and pull box two, and then conveniently clear up impurity such as stone in the pull box one, also be convenient for take out the tiny chinese mugwort fine hair of collecting from this equipment.

Preferably, there is the screen cloth at screening section of thick bamboo surface mounting, base one is all installed to the both sides at screening section of thick bamboo both ends and the both sides at middle part, the cross-section of base one is "concave" type structure, it has the gyro wheel to rotate through the pivot inside the top of base one, and the gyro wheel rolls along the surface of screening section of thick bamboo, the gyro wheel can be when rotating, drive screening section of thick bamboo and rotate, and rotate through the gyro wheel and drive screening section of thick bamboo and rotate, this kind of drive scheme, not only can pass through the both sides at the both ends of the fixed screening section of thick bamboo of gyro wheel and the both sides at middle part, make screening section of thick bamboo remain stable when rotating, and the gyro wheel can lift up screening section of thick bamboo, avoid screening section of thick bamboo to contact with the base station when rotating, lead to the condition of the two wearing and tearing to take place.

Preferably, a first motor is installed on the upper end face of the base platform, the first motor is connected with one of the rollers through a rotating shaft, the first motor drives the rotating shaft to rotate so as to drive the rollers to rotate, and the first motor provides power support for the rollers.

Preferably, a screening section of thick bamboo is hollow cylinder structure, and the inside wall in screening section of thick bamboo bottom rotates there is the roller bearing, is fixed with the screening blade at the surface equidistance of roller bearing, and a screening section of thick bamboo is when rotating, and the rotation can be followed to the screening blade, and with the inside moxa of a screening section of thick bamboo fully contact, break up it, the inside stone of the moxa of being convenient for drops out.

Preferably, the material loading subassembly includes the pay-off frame, two rollers and conveyer belt, the up end at the base station is fixed to the bottom of pay-off frame, the top one end of pay-off frame is located the screening section of thick bamboo inside, two rollers rotate the both ends in the pay-off frame top through the pivot respectively, the surface at two rollers is established to the conveyer belt cover, install motor two in pay-off frame one side, motor two is connected with one of them roller through the pivot, motor two drive pivots rotate, and then drive one of them roller through the pivot and rotate, two roller cooperations are rotated and are driven the conveyer belt and rotate, guarantee conveyer belt pivoted feasibility, make the conveyer belt can send into the moxa inside the screening section of thick bamboo, make this equipment can automatic feeding.

Preferably, the fixed plates are installed on two sides of the top of the feeding frame, the feeding box is fixed between the two fixed plates, motor three is installed on one side of each fixed plate, a rotating shaft is connected to one end of motor three, the rotating shaft penetrates through the feeding box, feeding blades are fixed to the outer surface of the rotating shaft at equal intervals, moxa is placed in the feeding box, the rotating shaft is driven by motor three to rotate, the rotating shaft drives the feeding blades to rotate, the moxa in the feeding box is poured on a conveying belt, a simple switch is manufactured at the bottom of the feeding box through the feeding blades, discharging can be performed through the rotating feeding blades, and when the feeding blades are kept fixed, the feeding blades can be in contact with the inner side wall of the bottom of the feeding box, the bottom of the feeding box is blocked, and the feeding box is not discharged.

Preferably, the adjusting part includes the bottom plate, regulating plate and pneumatic cylinder, the regulating plate is located the top of bottom plate, the inside wall in bottom plate one end is installed to the pneumatic cylinder, install two base two at the up end of bottom plate one end, it articulates with two connecting seats to be close to the below of bottom plate one end at the regulating plate, two base two are articulated through round pin axle and two connecting seats respectively, it has the hydraulic shaft to run through in the one end of pneumatic cylinder, the top of hydraulic shaft is articulated through the bottom of hinge with regulating plate one end, the up end at the regulating plate is welded to the impurity box, pneumatic cylinder control hydraulic shaft is flexible, pneumatic cylinder and hydraulic shaft are installed respectively at bottom plate and regulating plate and are articulated, cooperate two base two to articulate through round pin axle and two connecting seats respectively, the one end that drives the regulating plate goes up and down, make the regulating plate slope, and then make the screening subassembly slope, when carrying out moxa screening, make a screening section of thick bamboo slope.

Preferably, the separation subassembly includes hair-dryer and transfer pipe, the one end at the hair-dryer is installed to the transfer pipe, the one end level of keeping away from the hair-dryer at the transfer pipe is provided with the connecting pipe, install a plurality of blast pipe in one side of connecting pipe, the blast pipe is installed at the top of separation box one side, and the blast pipe link up with the separation box, install curb plate two in regulating plate one side, the hair-dryer is installed in the top of curb plate two, the hair-dryer bloies through the transfer pipe and gets into the connecting pipe, blow in the separation box after the wind in the connecting pipe disperses to a plurality of blast pipe in, after stone and tiny moxa entered into the separation box, blow in the collecting box with tiny moxa through the wind in the blast pipe, impurity such as stone falls the impurity incasement heavily than tiny moxa, blow in the separation box through the blast pipe after blowing, can disperse the wind.

Preferably, the working method of the screening and impurity removing equipment for moxa processing specifically comprises the following steps:

the method comprises the following steps: the moxa is placed into the feeding box, the rotating shaft is driven by the motor III, the rotating shaft drives the feeding blade to rotate, the moxa in the feeding box is poured on the conveying belt, a simple switch is manufactured at the bottom of the feeding box through the feeding blade, the feeding blade can be rotated to carry out blanking, and when the feeding blade is kept fixed, the feeding blade can be in contact with the inner side wall of the bottom of the feeding box to block the bottom of the feeding box, so that the feeding box does not carry out blanking any more, and the device can accurately control the blanking state of the moxa;

step two: the second motor drives the rotating shaft to rotate, and then one of the rollers is driven to rotate through the rotating shaft, the two rollers are matched to rotate to drive the conveying belt to rotate, moxa on the conveying belt is sent into the sieving cylinder, so that the equipment can be automatically fed, the automation degree of the equipment is improved, the first motor drives the rotating shaft to rotate, and then the first motor drives the rollers to rotate, the rollers can drive the sieving cylinder to rotate when rotating, the sieving blades rotate along with the rotating sieving cylinder and are fully contacted with the moxa in the sieving cylinder to scatter the moxa, so that stones and fine moxa in the moxa fall into the separating box conveniently, and impurities in the moxa are sieved more thoroughly;

step three: the blower blows air into the connecting pipe through the transfer pipe, the air in the connecting pipe is dispersed into the plurality of air supply pipes and then blown into the separation box, after stones and fine moxa enter the separation box, the fine moxa is blown into the collection box through the air in the air supply pipes, impurities such as the stones fall into the impurity box due to gravity, the stones and the fine moxa are separated, the air is dispersed and blown into the separation box through the air supply pipes after the air is blown by the blower, the air can be dispersed, on one hand, the air blown out by the blower can be more uniform and comprehensive when entering the separation box, on the other hand, the stones with overlarge air speed are effectively prevented from being blown into the collection box when the air enters the separation box;

step four: the hydraulic cylinder controls the hydraulic shaft to stretch, the hydraulic cylinder and the hydraulic shaft are respectively installed on the bottom plate and the adjusting plate to be hinged, the two bases are respectively hinged with the two connecting seats through pin shafts to drive one end of the adjusting plate to lift, the adjusting plate is inclined, the screening component is inclined when the moxa screening is carried out, the screening barrel is inclined, after the screening is finished, the hydraulic cylinder controls the hydraulic shaft to stretch, the hydraulic cylinder and the hydraulic shaft are respectively installed on the bottom plate and the adjusting plate to be hinged, the two bases are respectively hinged with the two connecting seats through pin shafts to drive one end of the adjusting plate to lift, the screening component on the adjusting plate is laid flat, the motor I drives the rotating shaft to rotate reversely, the roller can drive the screening barrel to rotate reversely when rotating, the moxa screened inside of the screening barrel is sent out of the screening barrel to fall on the base platform, and the screening and impurity removal work of the moxa is finished, this equipment can be quick breaks up the moxa.

The utility model has the beneficial effects that:

(1) in the utility model, after moxa to be screened enters the screening barrel, the rotating screening barrel screens fine moxa and pebbles into the separation box through the screen, the blower blows air and blows the fine moxa into the separation box in a dispersing way through the plurality of blast pipes, the fine moxa is blown into the collection box, impurities such as pebbles fall into the impurity box below the separation box due to the gravity of the fine moxa, the air is blown into the separation box through the blower in a dispersing way and then is blown into the separation box through the blast pipes, the air can be dispersed, on one hand, the air blown out by the blower can be blown into the separation box more uniformly, the impurities such as pebbles and fine villi in the separation box can be separated more comprehensively through the air blowing, on the other hand, the situation that the pebbles with overlarge air speed are blown into the collection box when the air enters the separation box can be effectively avoided, and the impurities such as pebbles in the collection box are too much can be screened out, the equipment not only can screen the impurities such as pebbles in the moxa cleanly, and can collect tiny moxa, reduce the loss of this equipment material when screening impurity, effectual saving manufacturing cost.

(2) According to the utility model, the rotary drum is arranged close to the screening drum, and fine fluff is arranged on one side of the base cloth close to the screening drum, so that when the screening drum rotates, the fluff on the base cloth continuously rubs with the screen installed on the outer surface of the screening drum to brush off impurities on the outer surface of the screen, the problem of poor screening effect of the screening drum due to screen blockage can be effectively avoided, and the screening efficiency of the equipment is greatly improved.

(3) According to the transmission mode, the rotating shaft is driven to rotate by the motor I, so that the rotating shaft drives the idler wheels to rotate, the rotating idler wheels drive the sieving barrel to rotate, the sieving barrel can be kept stable in rotation by fixing two sides of two ends and two sides of the middle of the sieving barrel through the idler wheels, the idler wheels lift the sieving barrel while driving the sieving barrel to rotate, the situation that the sieving barrel is in contact with a base station in rotation and the sieving barrel is abraded is avoided, and the service life of the device is prolonged.

(4) In the utility model, a simple switch is manufactured at the bottom of a feeding box through a feeding blade, after moxa is put into the feeding box, a motor three drives a rotating shaft to rotate, the rotating shaft drives the feeding blade to rotate, the moxa in the feeding box is poured on a conveying belt, not only can the moxa fall onto the conveying belt through the rotating feeding blade, but also one of rollers is driven to rotate by matching with the rotating shaft driven by a motor two, the two rollers are matched to rotate to drive the conveying belt to rotate, the moxa to be screened is automatically conveyed into a screening cylinder, and when the feeding blade is kept fixed, the feeding blade can be contacted with the inner side wall of the bottom of the feeding box to block the bottom of the feeding box, so that the feeding box can not discharge any more, the device not only can automatically feed the moxa into the screening cylinder, realize the automatic feeding of the device, but also can accurately control the discharging state of the moxa, the automation degree of the equipment is greatly improved, the manual workload is reduced, and the consumption of labor cost in the production process is reduced.

Drawings

The utility model is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic view of the overall structure of the present invention.

Figure 2 is a schematic illustration of a screen assembly according to the present invention.

Fig. 3 is a side view of a sizing cylinder of the present invention.

Fig. 4 is a front view of the side panel of the present invention.

FIG. 5 is a sectional view of the collection chamber of the present invention.

FIG. 6 is a cross-sectional view of the drum of the present invention.

FIG. 7 is a schematic structural diagram of a loading assembly according to the present invention.

FIG. 8 is a schematic view of the structure of the motor III and the feeding blade of the present invention.

Fig. 9 is a schematic structural diagram of an adjusting assembly of the present invention.

FIG. 10 is a schematic view of the structure of the separator assembly of the present invention.

In the figure: 1. a screen assembly; 101. a base station; 102. a screening drum; 103. screening a screen; 104. a first base; 105. a roller; 106. a first motor; 107. a roller; 108. screening the blades; 109. a first side plate; 110. a rotating drum; 111. a separation box; 112. an impurity box; 113. drawing the first box; 114. a collection box; 115. a second drawing box; 116. a base cloth; 2. a feeding assembly; 201. a feeding frame; 202. a roller; 203. a conveyor belt; 204. a second motor; 205. a fixing plate; 206. a feeding box; 207. a feeding blade; 208. a third motor; 3. an adjustment assembly; 301. a base plate; 302. an adjusting plate; 303. a second base; 304. a connecting seat; 305. a second side plate; 306. a hydraulic cylinder; 307. a hydraulic shaft; 4. a separation assembly; 401. a blower; 402. a transit tube; 403. a connecting pipe; 404. and an air supply pipe.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the utility model easy to understand, the utility model is further described with the specific embodiments.

As shown in fig. 1-10, a screening and impurity removing device for moxa processing comprises a screening component 1, a feeding component 2, an adjusting component 3 and a separating component 4, wherein the feeding component 2 is installed at one end of the screening component 1, the adjusting component 3 is fixed below the screening component 1, the separating component 4 is fixed above one side of the adjusting component 3, the screening component 1 comprises a base 101, a screening cylinder 102, four side plates one 109 and a rotating cylinder 110, the screening cylinder 102 rotates above the base 101, the four side plates one 109 are respectively arranged at two sides of the screening cylinder 102 in pairs, the cross section of the side plate one 109 is in a transverse V-shaped structure, the rotating cylinders 110 are installed at two ends of the inside of the side plate one 109, a base cloth 116 is fixed on the outer surface of the rotating cylinder 110, fluffs are arranged at one side of the base cloth 116 close to the screening cylinder 102, a separating box 111 is welded below the base 101, an impurity box 112 is welded below the separating box 111, the moxa wool screening device comprises a separation box 111, a collecting box 114 is welded on one side of the separation box 111, moxa wool is conveyed into a screening cylinder 102 through a feeding component 2, the rotary screening cylinder 102 screens fine moxa wool and stones into the separation box 111 in the rotating process, the fine moxa wool and the stones are separated through a separation component 4, the stones fall into an impurity box 112, and the fine moxa wool enters the collecting box 114, so that the fine moxa wool can screen the impurities such as the stones in the moxa wool completely and can be collected, the material loss of the device during impurity screening is reduced, the production cost is effectively saved, a rotary drum 110 is tightly attached to the screening cylinder 102, a base cloth 116 is made of polyester fibers, fine moxa wool is arranged on one side, close to the screening cylinder 102, of the base cloth 116, and when the screening cylinder 102 rotates, the fluff on the base cloth 116 continuously rubs against a screen 103 arranged on the outer surface of the screening cylinder 102 to brush the impurities on the outer surface of the screen 103, the problem that the screening effect of the equipment is poor due to the fact that the screening mesh 103 is blocked by the screening cylinder 102 can be effectively avoided, the screening efficiency of the equipment is effectively improved, and then the working efficiency of the equipment is greatly improved.

In an optional implementation manner of the embodiment of the present invention, an opening is opened on the base platform 101, and the opening is located below the sieving cylinder 102, the separation box 111 is a frame structure, the base 101, the separation box 111 and the impurity box 112 are communicated, a first drawing box 113 is arranged at one end of the impurity box 112, a second drawing box 115 is arranged at the bottom end of one side of the collection box 114, impurities such as stones in the impurity box 112 enter the first drawing box 113, fine moxa is separated out and then enters the second drawing box 115 through the collection box 114, and one end of the first drawing box 113 and one end of the second drawing box 115 are both provided with handles, the first drawing box 113 and the second drawing box 115 are drawn by drawing the handles, so that the first drawing box 113 and the second drawing box 115 can move conveniently, and then conveniently clear up impurity such as stone in the pull box 113, also be convenient for take out the tiny moxa of collecting from this equipment, improved the convenience of this equipment in the use greatly.

In an optional implementation manner of the embodiment of the utility model, the screen 103 is installed on the outer surface of the screening cylinder 102, the first bases 104 are installed on both sides of both ends and both sides of the middle part of the screening cylinder 102, the cross sections of the first bases 104 are of a concave structure, the rollers 105 are rotated inside the top ends of the first bases 104 through the rotating shafts, the rollers 105 roll along the outer surface of the screening cylinder 102, the rollers 105 can drive the screening cylinder 102 to rotate when rotating, and the rollers 105 rotate to drive the screening cylinder 102 to rotate.

In an optional implementation manner of the embodiment of the present invention, a first motor 106 is installed on the upper end surface of the base platform 101, the first motor 106 is connected to one of the rollers 105 through a rotating shaft, the first motor 106 drives the rotating shaft to rotate, so that the rotating shaft drives the roller 105 to rotate, and the first motor 106 provides a power support for the roller 105, thereby ensuring the smoothness of the rotation of the roller 105.

In an optional implementation manner of the embodiment of the present invention, the sieving cylinder 102 is a hollow cylindrical structure, the roller 107 is rotated on the inner side wall of the bottom of the sieving cylinder 102, the sieving blades 108 are fixed on the outer surface of the roller 107 at equal intervals, and when the sieving cylinder 102 rotates, the sieving blades 108 can rotate along with the roller, and fully contact with the moxa inside the sieving cylinder 102 to break up the moxa, so that stones inside the moxa can fall off, and impurities inside the moxa can be sieved more thoroughly.

In an optional implementation manner of the embodiment of the utility model, the feeding assembly 2 comprises a feeding frame 201, two rollers 202 and a conveyor belt 203, the bottom of the feeding frame 201 is fixed on the upper end surface of the base platform 101, one end of the top of the feeding frame 201 is located inside the sieving cylinder 102, the two rollers 202 rotate at two ends above the feeding frame 201 through rotating shafts respectively, the conveyor belt 203 is sleeved on the outer surfaces of the two rollers 202, a second motor 204 is installed at one side of the feeding frame 201, the second motor 204 is connected with one of the rollers 202 through a rotating shaft, the second motor 204 drives the rotating shaft to rotate, and then one of the rollers 202 is driven to rotate through the rotating shaft, the two rollers 202 are matched to rotate to drive the conveyor belt 203 to rotate, so that the feasibility of rotation of the conveyor belt 203 is ensured, the conveyor belt 203 can feed moxa into the sieving cylinder 102, the device can automatically feed materials, and the degree of automation of the device is improved.

In an optional implementation manner of the embodiment of the present invention, the fixing plates 205 are installed on both sides of the top of the feeding frame 201, the feeding box 206 is fixed between the two fixing plates 205, the motor three 208 is installed on one side of the fixing plate 205, one end of the motor three 208 is connected with a rotating shaft, the rotating shaft penetrates through the feeding box 206, bearings are installed on both sides of the bottom of the feeding box 206, both ends of the rotating shaft are respectively and rotatably fitted in the middle of the two bearings, the feeding blades 207 are fixed on the outer surface of the rotating shaft at equal intervals, moxa is put into the feeding box 206, the motor three 208 drives the rotating shaft to rotate, the rotating shaft drives the feeding blades 207 to rotate, the moxa in the feeding box 206 is poured on the conveyor belt 203, a simple switch is made on the bottom of the feeding box 206 through the feeding blades 207, not only can the feeding be performed by rotating the feeding blades 207, but also when the feeding blades 207 are kept fixed, the feeding blade 207 can contact with the inner side wall of the bottom of the feeding box 206 to block the bottom of the feeding box 206, so that the feeding box 206 is not discharged any more, the device can accurately control the discharging state of moxa, and the controllability of the device is greatly improved.

In an optional implementation manner of the embodiment of the present invention, the adjusting assembly 3 includes a bottom plate 301, an adjusting plate 302 and a hydraulic cylinder 306, the adjusting plate 302 is located above the bottom plate 301, the cross section of the bottom plate 301 is in a "concave" shape, the hydraulic cylinder 306 is installed on the inner side wall of one end of the bottom plate 301, two bases 303 are installed on the upper end surface of one end of the bottom plate 301, two connecting bases 304 are installed below one end of the adjusting plate 302 close to the bottom plate 301, the two bases 303 are respectively hinged to the two connecting bases 304 through pin shafts, a hydraulic shaft 307 penetrates through one end of the hydraulic cylinder 306, the top end of the hydraulic shaft 307 is hinged to the bottom of one end of the adjusting plate 302 through a hinge, a groove is formed in the bottom of the adjusting plate 302, the top end of the hydraulic shaft 307 is located inside the groove, the impurity box 112 is welded on the upper end surface of the adjusting plate 302, the hydraulic cylinder 306 controls the hydraulic shaft 307 to extend and retract, the hydraulic cylinder 306 and the hydraulic shaft 307 are respectively installed on the bottom plate 301 and the adjusting plate 302 to hinge, two bases 303 are matched to be hinged with two connecting seats 304 through pin shafts respectively, one end of the adjusting plate 302 is driven to lift, the adjusting plate 302 is made to incline, the screening component 1 is made to incline, the screening cylinder 102 is made to incline when the moxa is screened, and the moxa is prevented from leaking from one end of the feeding when the moxa is screened from the screening cylinder 102 in the rotating process.

In an optional implementation manner of the embodiment of the present invention, the separating assembly 4 includes a blower 401 and a transfer pipe 402, the transfer pipe 402 is installed at one end of the blower 401, a connecting pipe 403 is horizontally installed at one end of the transfer pipe 402 far from the blower 401, a plurality of blast pipes 404 are installed at one side of the connecting pipe 403, the blast pipes 404 are installed at the top of one side of the separating box 111, the blast pipes 404 are communicated with the separating box 111, a side plate II 305 is installed at one side of the adjusting plate 302, the blower 401 is installed above the side plate II 305, the blower 401 blows air into the connecting pipe 403 through the transfer pipe 402, the air in the connecting pipe 403 is dispersed into the plurality of blast pipes 404 and then blown into the separating box 111, after the stones and the fine moxa enter the separating box 111, the fine moxa is blown into the collecting box 114 by the air in the blast pipes 404, the impurities such as stones are heavier than the fine moxa and fall into the impurity box 112, blow the back through hair-dryer 401 and blow in the separation box 111 through blast pipe 404 with the wind dispersion in, can disperse wind, on the one hand can make the wind that hair-dryer 401 blew out can be more even, comprehensive in getting into separation box 111, make the stone impurity in separation box 111 and tiny moxa through the separation of blowing, on the other hand, can effectually avoid wind to get into when separation box 111 in the too big stone of wind speed to be blown into inside collecting box 114, lead to the too much condition of impurity in the collecting box 114.

In an optional implementation manner of the embodiment of the present invention, the working method of the screening and impurity removing device for moxa processing specifically includes the following steps:

the method comprises the following steps: moxa is put into the feeding box 206, the third motor 208 drives a rotating shaft of the rotating shaft, the rotating shaft drives the feeding blade 207 to rotate, the moxa in the feeding box 206 is poured on the conveying belt 203, a simple switch is manufactured at the bottom of the feeding box 206 through the feeding blade 207, not only can the feeding be carried out through rotating the feeding blade 207, but also when the feeding blade 207 is kept fixed, the feeding blade 207 can be contacted with the inner side wall of the bottom of the feeding box 206 to block the bottom of the feeding box 206, so that the feeding box 206 is not fed any more, the device can accurately control the feeding state of the moxa, and the feeding controllability of the device is improved;

step two: the second motor 204 drives the rotating shaft to rotate, and then one of the rollers 202 is driven to rotate through the rotating shaft, the two rollers 202 are matched to rotate to drive the conveying belt 203 to rotate, moxa on the conveying belt 203 is sent into the sieving cylinder 102, so that the equipment can be automatically fed, the automation degree of the equipment is improved, the first motor 106 drives the rotating shaft to rotate, and then the first motor drives the roller 105 to rotate, the roller 105 can drive the sieving cylinder 102 to rotate when rotating, the sieving blades 108 rotate along with the rotating sieving cylinder 102 and are fully contacted with the moxa in the sieving cylinder 102 to scatter the moxa, stones and fine moxa in the moxa can conveniently fall into the separating box 111, impurities in the moxa can be thoroughly sieved, and the completeness of moxa sieving is ensured;

step three: the blower 401 blows air into the connection pipe 403 through the transfer pipe 402, the air in the connection pipe 403 is distributed into the plurality of blast pipes 404 and then blown into the separation box 111, after the stones and the fine moxa are put into the separation box 111, the fine moxa is blown into the collection box 114 by the wind in the blast pipe 404, the impurities such as the stones fall into the impurity box 112 due to gravity, the stones and the fine moxa are separated, after the blower 401 blows air, the air is blown into the separation box 111 through the air supply pipe 404 in a dispersing manner, so that the air can be dispersed, on one hand, the air blown by the blower 401 can be more uniform and comprehensive in the separation box 111, and the stone impurities and fine fluff in the separation box 111 can be separated through blowing, and on the other hand, the situation that when the air enters the separation box 111, the stone with overlarge air speed is blown into the collection box 114 to cause the overlarge impurities in the collection box 114 can be effectively avoided;

step four: pneumatic cylinder 306 control hydraulic shaft 307 is flexible, and pneumatic cylinder 306 and hydraulic shaft 307 are installed respectively at bottom plate 301 and regulating plate 302 articulated, and two base 303 of cooperation are articulated with two connecting seats 304 through the round pin axle respectively, drive the one end of regulating plate 302 and go up and down, make regulating plate 302 slope, and then make screening subassembly 1 slope, when carrying out moxa screening, make screening section of thick bamboo 102 slope, avoid when moxa screening, spill from the one end of feeding from screening section of thick bamboo 102 when the rotation. After the screening is completed, hydraulic cylinder 306 controls hydraulic shaft 307 to stretch, hydraulic cylinder 306 and hydraulic shaft 307 are installed at bottom plate 301 and adjusting plate 302 and are articulated respectively, two bases 303 are matched and are articulated with two connecting seats 304 through pin shafts respectively, the one end of adjusting plate 302 is driven to lift, put flat screening component 1 on adjusting plate 302, motor 106 drives rotating shaft to rotate reversely, and then it drives roller 105 to rotate, roller 105 can drive screening cylinder 102 to rotate reversely when rotating, the moxa that is screened and completed inside screening cylinder 102 is sent out screening cylinder 102 and falls on base station 102, the screening and impurity removing work of moxa is completed, the device can quickly scatter the moxa, hard impurities such as stones inside the device can be quickly separated from the moxa, and the working efficiency of the device is greatly improved.

When the device is used, firstly, moxa is placed into the feeding box 206, the motor III 208 drives a rotating shaft of the rotating shaft, the rotating shaft drives the feeding blade 207 to rotate, the moxa in the feeding box 206 is poured on the conveying belt 203, a simple switch is manufactured at the bottom of the feeding box 206 through the feeding blade 207, not only can the feeding be carried out through rotating the feeding blade 207, but also when the feeding blade 207 is kept fixed, the feeding blade 207 can be in contact with the inner side wall of the bottom of the feeding box 206 to block the bottom of the feeding box 206, so that the feeding box 206 does not discharge any more, the device can accurately control the discharging state of the moxa, and the discharging controllability of the device is improved;

then, the second motor 204 drives the rotating shaft to rotate, and further drives one of the rollers 202 to rotate through the rotating shaft, the two rollers 202 are matched to rotate to drive the conveying belt 203 to rotate, moxa on the conveying belt 203 is sent into the sieving cylinder 102, so that the equipment can automatically feed, the automation degree of the equipment is improved, the first motor 106 drives the rotating shaft to rotate, and further drives the roller 105 to rotate, the roller 105 can drive the sieving cylinder 102 to rotate when rotating, the sieving blades 108 rotate along with the rotating sieving cylinder 102 and are fully contacted with the moxa in the sieving cylinder 102 to scatter the moxa, stones and fine moxa in the moxa can fall into the separating box 111 conveniently, impurities in the moxa can be sieved more thoroughly, and the completeness of moxa sieving is ensured;

then, the blower 401 blows air into the connection pipe 403 through the intermediate transfer pipe 402, the air in the connection pipe 403 is distributed into a plurality of blast pipes 404 and then blown into the separation box 111, after the stones and the fine moxa are put into the separation box 111, the fine moxa is blown into the collection box 114 by the wind in the blast pipe 404, the impurities such as the stones fall into the impurity box 112 due to gravity, the stones and the fine moxa are separated, after the blower 401 blows air, the air is blown into the separation box 111 through the air supply pipe 404 in a dispersing manner, so that the air can be dispersed, on one hand, the air blown by the blower 401 can be more uniform and comprehensive in the separation box 111, and the stone impurities and fine fluff in the separation box 111 can be separated through blowing, and on the other hand, the situation that when the air enters the separation box 111, the stone with overlarge air speed is blown into the collection box 114 to cause the overlarge impurities in the collection box 114 can be effectively avoided;

finally, hydraulic cylinder 306 controls hydraulic shaft 307 to stretch, hydraulic cylinder 306 and hydraulic shaft 307 are respectively installed on bottom plate 301 and adjusting plate 302 to be hinged, two bases 303 are matched to be respectively hinged with two connecting seats 304 through pin shafts to drive one end of adjusting plate 302 to lift, adjusting plate 302 is made to incline, and screening assembly 1 is made to incline. After the screening is completed, hydraulic cylinder 306 controls hydraulic shaft 307 to stretch, hydraulic cylinder 306 and hydraulic shaft 307 are installed at bottom plate 301 and adjusting plate 302 and are articulated respectively, two bases 303 are matched and are articulated with two connecting seats 304 through pin shafts respectively, the one end of adjusting plate 302 is driven to lift, put flat screening component 1 on adjusting plate 302, motor 106 drives rotating shaft to rotate reversely, and then it drives roller 105 to rotate, roller 105 can drive screening cylinder 102 to rotate reversely when rotating, the moxa that is screened and completed inside screening cylinder 102 is sent out screening cylinder 102 and falls on base station 102, the screening and impurity removing work of moxa is completed, the device can quickly scatter the moxa, hard impurities such as stones inside the device can be quickly separated from the moxa, and the working efficiency of the device is greatly improved.

In the utility model, after moxa to be sieved enters the sieving barrel 102, the rotating sieving barrel 102 sieves fine moxa and pebble into the separation box 111 through the screen 103, the blower 401 blows air and disperses the air into the separation box 111 through the plurality of blast pipes 404, the fine moxa is blown into the collection box 114, impurities such as pebbles and the like fall into the impurity box 112 below the separation box 111 due to the gravity of the fine moxa, the air is dispersed and blown into the separation box 111 through the blast pipes 404 after being blown by the blower 401, the air can be dispersed, on one hand, the air blown by the blower 401 can be blown into the separation box 111 more uniformly, so that pebble impurities and fine fluff in the separation box 111 are separated through blowing more comprehensively, on the other hand, the condition that the air with too high air speed is blown into the collection box 114 when the air enters the separation box 111 and the impurities in the collection box 114 are excessive can be effectively avoided, this equipment not only can sieve hard thing impurity such as stone in the moxa totally, can collect tiny moxa moreover, reduces the loss of this equipment material when sieving impurity, effectual saving manufacturing cost.

According to the utility model, the rotary drum 110 is tightly attached to the screening drum 102, and fine fluff is arranged on one side of the base cloth 116 close to the screening drum 102, when the screening drum 102 rotates, the fluff on the base cloth 116 continuously rubs with the screen 103 arranged on the outer surface of the screening drum 102, so that impurities on the outer surface of the screen 103 are brushed away, the problem of poor screening effect of the equipment due to the blockage of the screen 103 in the screening drum 102 can be effectively avoided, and the screening efficiency of the equipment is greatly improved.

According to the utility model, the first motor 106 drives the rotating shaft to rotate, so that the rotating shaft drives the roller 105 to rotate, the rotating roller 105 drives the sieving barrel 102 to rotate, and the transmission mode not only can fix two sides of two ends and two sides of the middle part of the sieving barrel 102 through the roller 105 to ensure that the sieving barrel 102 keeps stable in rotation, but also can lift the sieving barrel 102 while the roller 105 drives the sieving barrel 102 to rotate, so that the situation that the sieving barrel 102 is in contact with the base platform 101 in rotation to cause abrasion of the sieving barrel and the base platform 101 is avoided, and the service life of the equipment is prolonged.

In the utility model, a simple switch is manufactured at the bottom of a feeding box 206 through a feeding blade 207, after moxa is put into the feeding box 206, a motor III 208 drives a rotating shaft to rotate, the rotating shaft drives the feeding blade 207 to rotate, the moxa in the feeding box 206 is poured on a conveying belt 203, the moxa can be dropped onto the conveying belt 203 through the rotating feeding blade 207, the rotating shaft is driven to rotate by matching with a motor II 204 to drive one of rollers 202 to rotate, the two rollers 202 drive the conveying belt 203 to rotate by matching with the rotation, the moxa to be screened is automatically conveyed into a screening cylinder 102, and when the feeding blade 207 is kept fixed, the feeding blade 207 can be contacted with the inner side wall at the bottom of the feeding box 206 to block the bottom of the feeding box 206, so that the feeding box 206 can not discharge any more, the device not only can automatically feed the moxa into the screening cylinder 102, and realize the automatic feeding of the device, and the unloading state of moxa can be accurately controlled, the automation degree of the device is greatly improved, the manual workload is reduced, and the consumption of labor cost in the production process is reduced.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the embodiments and descriptions given above are only illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which fall within the scope of the claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a screening edulcoration equipment for moxa processing, includes screening subassembly (1), material loading subassembly (2), adjusting part (3) and separator assembly (4), its characterized in that: the feeding assembly (2) is installed at one end of the screening assembly (1), the adjusting assembly (3) is fixed below the screening assembly (1), the separating assembly (4) is fixed above one side of the adjusting assembly (3), the screening assembly (1) comprises a base platform (101), a screening cylinder (102), four side plates I (109) and a rotary cylinder (110), the screening cylinder (102) rotates above the base platform (101), the four side plates I (109) are arranged on two sides of the screening cylinder (102) in a pairwise mode, the cross section of each side plate I (109) is of a transverse V-shaped structure, the rotary cylinders (110) are installed at two ends of the inside of each side plate I (109), base cloth (116) is fixed on the outer surface of each rotary cylinder (110), fluff is arranged on one side, close to the screening cylinder (102), of each base cloth (116), and a separating box (111) is welded below the base platform (101), an impurity box (112) is welded below the separation box (111), and a collection box (114) is welded on one side of the separation box (111).

2. The screening and impurity removing device for moxa processing according to claim 1, wherein the device comprises: an opening is formed in the base platform (101), the opening is located below the screening drum (102), the separating box (111) is of a frame structure, the base platform (101), the separating box (111) and the impurity box (112) are communicated, a first drawing box (113) is installed at one end of the impurity box (112), and a second drawing box (115) is installed at the bottom end of one side of the collecting box (114).

3. The screening and impurity removing device for moxa processing according to claim 1, wherein the device comprises: the outer surface of the screening cylinder (102) is provided with a screen (103), two sides of two ends of the screening cylinder (102) and two sides of the middle part of the screening cylinder are provided with a first base (104), the cross section of the first base (104) is of a concave structure, a roller (105) is rotated through a rotating shaft inside the top end of the first base (104), and the roller (105) rolls along the outer surface of the screening cylinder (102).

4. A screening edulcoration equipment for moxa processing according to claim 3, characterized in that: the upper end face of the base platform (101) is provided with a first motor (106), and the first motor (106) is connected with one of the rollers (105) through a rotating shaft.

5. A screening edulcoration equipment for moxa processing according to claim 3, characterized in that: screening section of thick bamboo (102) are hollow cylinder structure, and the inside wall of screening section of thick bamboo (102) bottom rotates has roller bearing (107), and the surface equidistance of roller bearing (107) is fixed with screening blade (108).

6. The screening and impurity removing device for moxa processing according to claim 1, wherein the device comprises: the feeding assembly (2) comprises a feeding frame (201), two rollers (202) and a conveying belt (203), the upper end face of a base station (101) is fixed to the bottom of the feeding frame (201), one end of the top of the feeding frame (201) is located inside a screening cylinder (102), the two rollers (202) are respectively rotated at two ends above the feeding frame (201) through a rotating shaft, the conveying belt (203) is sleeved on the outer surfaces of the two rollers (202), a second motor (204) is installed on one side of the feeding frame (201), and the second motor (204) is connected with one of the rollers (202) through the rotating shaft.

7. The screening and impurity removing device for moxa processing according to claim 1, wherein the device comprises: fixed plates (205) are installed on two sides of the top of the feeding frame (201), a feeding box (206) is fixed between the two fixed plates (205), a motor III (208) is installed on one side of each fixed plate (205), a rotating shaft is connected to one end of the motor III (208), the rotating shaft penetrates through the feeding box (206), and feeding blades (207) are fixed on the outer surface of the rotating shaft at equal intervals.

8. The screening and impurity removing device for moxa processing according to claim 1, wherein the device comprises: adjusting part (3) includes bottom plate (301), regulating plate (302) and pneumatic cylinder (306), regulating plate (302) is located the top of bottom plate (301), the inside wall in bottom plate (301) one end is installed in pneumatic cylinder (306), two base two (303) are installed to the up end of bottom plate (301) one end, two connecting seat (304) are installed to regulating plate (302) below near bottom plate (301) one end, two base two (303) are articulated through round pin axle and two connecting seat (304) respectively, the one end of pneumatic cylinder (306) is run through hydraulic pressure axle (307), the top of hydraulic pressure axle (307) is articulated through the bottom of hinge with regulating plate (302) one end, impurity box (112) welds the up end at regulating plate (302).

9. The screening and impurity removing device for moxa processing according to claim 1, wherein the device comprises: the separating assembly (4) comprises a blower (401) and a transfer pipe (402), the transfer pipe (402) is installed at one end of the blower (401), a connecting pipe (403) is horizontally arranged at one end, far away from the blower (401), of the transfer pipe (402), a plurality of air supply pipes (404) are installed on one side of the connecting pipe (403), the air supply pipes (404) are installed at the top of one side of the separating box (111), the air supply pipes (404) are communicated with the separating box (111), a side plate II (305) is installed on one side of the adjusting plate (302), and the blower (401) is installed above the side plate II (305).

10. An operating method of the screening and impurity-removing device for moxa processing according to any one of claims 1 to 9, comprising the following steps:

the method comprises the following steps: putting moxa into a feeding box (206), driving a rotating shaft by a motor III (208), driving a rotating shaft by the rotating shaft to rotate a feeding blade (207), pouring the moxa in the feeding box (206) onto a conveyor belt (203), and manufacturing a simple switch at the bottom of the feeding box (206) through the feeding blade (207), so that the moxa can be discharged by rotating the feeding blade (207), and when the feeding blade (207) is kept fixed, the feeding blade (207) can be contacted with the inner side wall of the bottom of the feeding box (206) to block the bottom of the feeding box (206), so that the feeding box (206) is not discharged any more;

step two: a second motor (204) drives the rotating shaft to rotate, and then one of the rollers (202) is driven to rotate through the rotating shaft, the two rollers (202) are matched to rotate to drive the conveying belt (203) to rotate, moxa on the conveying belt (203) is sent into the sieving cylinder (102), so that the automatic feeding of the device can be realized, the automation degree of the device is improved, a first motor (106) drives the rotating shaft to rotate, and then the rotating shaft drives the rolling wheels (105) to rotate, the rolling wheels (105) can drive the sieving cylinder (102) to rotate when rotating, the sieving blades (108) rotate along with the rotating sieving cylinder (102), and are fully contacted with the moxa in the sieving cylinder (102) to scatter the moxa, and stones and fine moxa in the moxa can conveniently fall into the separation box (111);

step three: the blower (401) blows air into the connecting pipe (403) through the transfer pipe (402), the air in the connecting pipe (403) is dispersed into the plurality of air supply pipes (404) and then blown into the separation box (111), after stones and fine moxa enter the separation box (111), the fine moxa is blown into the collection box (114) through the air in the air supply pipes (404), impurities such as the stones fall into the impurity box (112) due to gravity, and the stones and the fine moxa are separated;

step four: the hydraulic cylinder (306) controls the hydraulic shaft (307) to stretch and retract, the hydraulic cylinder (306) and the hydraulic shaft (307) are respectively installed on the bottom plate (301) and the adjusting plate (302) to be hinged, the two bases (303) are matched to be respectively hinged with the two connecting seats (304) through pin shafts, one end of the adjusting plate (302) is driven to lift, the adjusting plate (302) is driven to tilt, the screening assembly (1) is further driven to tilt, the screened moxa cannot fall from the screening barrel (102), after screening is completed, the hydraulic cylinder (306) controls the hydraulic shaft (307) to stretch and retract, the hydraulic cylinder (306) and the hydraulic shaft (307) are respectively installed on the bottom plate (301) and the adjusting plate (302) to be hinged, the two bases (303) are matched to be respectively hinged with the two connecting seats (304) through pin shafts, one end of the adjusting plate (302) is driven to lift, the screening assembly (1) on the adjusting plate (302) is laid flat, the motor I (106) drives the rotating shaft to reversely rotate, and then make it drive gyro wheel (105) and rotate, gyro wheel (105) can drive screening section of thick bamboo (102) antiport when rotating, send out screening section of thick bamboo (102) with the inside moxa that sieves of screening section of thick bamboo (102) and fall on base station (102), accomplish the screening edulcoration work of moxa.