CN210580580U - Automatic feeding equipment is bred to cloth, turning over throwing, clear material insect - Google Patents
Automatic feeding equipment is bred to cloth, turning over throwing, clear material insect Download PDFInfo
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- CN210580580U CN210580580U CN201921619264.XU CN201921619264U CN210580580U CN 210580580 U CN210580580 U CN 210580580U CN 201921619264 U CN201921619264 U CN 201921619264U CN 210580580 U CN210580580 U CN 210580580U
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Abstract
The utility model relates to an insect feeding device with automatic material distribution, turning and cleaning functions, which can be applied to insect feeding and feeding for harmless treatment of livestock manure and kitchen waste; the utility model mainly comprises a culture groove and a culture trolley; the cultivation trolley mainly comprises a frame walking system, a stirring system, a shoveling system, a distributing system, a scraping system and a rolling brush cleaning system; breeding materials and insects are bred in the tank, the edge of the breeding tank is provided with a track, and the breeding trolley can finish breeding operations such as material distribution, stirring, shoveling, material clearing and the like by walking along the track; the utility model discloses can be used to the inslot insect and breed and feed, mechanical structure is simple, reliable and stable.
Description
Technical Field
The utility model relates to a mechanical equipment's that the insect was bred technical field specifically is an automatic cloth, turn over throwing, clear material insect breeding equipment of feeding.
Background
The discharge amount of organic wastes such as livestock and poultry manure, kitchen garbage, straws and the like exceeds the environmental capacity, so that ecological pollution is caused, and the life of human beings is influenced. The insect is utilized to treat the organic waste, so that the organic waste can be harmlessly treated, insect products and bio-organic fertilizers can be obtained to generate economic benefits, and the development is rapid in recent years. The insect breeding process generally needs to put in organic solid waste materials and feed additives, the feeding process is used for turning over materials, controlling temperature and oxygen, the operation of cleaning a trough and the like is completed in the breeding process, the current insect feeding breeding similar to livestock excrement and kitchen waste is mainly realized by adding the materials manually and turning over the materials, the operation labor is heavy, and the operation environment is relatively severe and needs to be improved urgently. The utility model discloses can realize operations such as full-automatic cloth, stirring, shovel material, clear material, degree of automation is high, and mechanical structure is simple, and the reliability is high, advantages such as production maintenance cost low.
SUMMERY OF THE UTILITY MODEL
The utility model provides an automatic cloth, turn over throwing, clear material insect breed equipment of feeding is applied to organic solid useless insect and is handled the breed occasion of feeding.
The technical scheme of the utility model is that: the utility model provides an automatic cloth, turn over throwing, clear material insect breeding equipment of feeding which characterized in that: mainly comprises a culture tank and a culture trolley; the cultivation tank is a flat bottom tank, a track is arranged at the edge of the cultivation tank, and a cultivation trolley is arranged on the track; the cultivation trolley mainly comprises a frame, a traveling system, a stirring system, a shoveling system, a distributing system, a scraping system and a rolling brush cleaning system; the systems are arranged on the frame in a matching installation mode.
Furthermore, the walking system mainly comprises a walking motor, a chain wheel transmission mechanism, a chain wheel differential mechanism, a universal joint transmission shaft, a half shaft, a driving rail wheel, a bearing seat and a driven rail wheel; the walking motor and the chain wheel type differential are fixedly arranged on the rack through bolts, and are connected and arranged through a chain wheel transmission mechanism; the half shafts are connected and installed through a universal joint transmission shaft and are installed on the rack through bearing seats; the driving rail wheel is mounted on the half shaft through key connection; the driven rail wheel is connected and installed on the frame through a rolling bearing.
Furthermore, the stirring system mainly comprises a stirring motor and a chain wheel transmission mechanismFront stirring hobbing cutter roller and chain wheel transmission mechanismThe rear stirring hobbing cutter roller and the high-type vertical bearing seat; the stirring motor is fixedly arranged on the frame through bolts, and two ends of the front stirring hobbing cutter roller and the rear stirring hobbing cutter roller are arranged on the frame through high-type vertical bearing seats; the stirring motor and the front stirring hobbing cutter roller are driven by a chain wheelThe front stirring hobbing cutter roller and the rear stirring hobbing cutter roller are connected and installed in a transmission way through a chain wheel transmission mechanismAnd (5) transmission connection installation.
Furthermore, the material shoveling system mainly comprises a bucket and a linear bearing optical axisThe device comprises a linear bearing, a bucket rack, a bucket lifting hydraulic cylinder and a bucket overturning hydraulic cylinder; wherein the linear bearing optical axisThe linear bearing is fixedly connected with the bucket through a bolt, and the linear bearing is communicated with the bucket frameBolt-passing fixed connection, linear bearing optical axisIs installed by matching with the linear bearing slide block, and the upper end of the bucket lifting hydraulic cylinder and the bucket rack are connected through a pin shaftThe bucket lifting hydraulic cylinder is connected and installed by a pin shaft, and the upper end and the lower end of the bucket lifting hydraulic cylinder and the rack are connected and installed by a pin shaftThe pin shafts are connected and installed; the bucket rack is connected and installed with the rack pin shaft through a pin shaft, and one end of the bucket overturning hydraulic cylinder is connected and installed with the rack pin shaft through a pin shaftThe bucket overturning mechanism is connected and installed with a bucket rack pin shaft, and the other end of a bucket overturning hydraulic cylinder is connected and installed with a rack pin shaft.
Furthermore, the distributing system mainly comprises a W-shaped hopper, a fertilizer distributor and a fertilizer distributor motor; the fertilizer distributor is fixedly connected with the W-shaped hopper through bolts at the hole at the bottom of the W-shaped hopper; the fertilizer apparatus motor and the fertilizer apparatus are connected through a coupling to drive the fertilizer apparatus.
Furthermore, the scraping system mainly comprises a scraping plate and a linear bearing optical axisLinear bearingElectro-hydraulic push rod(ii) a Linear bearing optical axisThe linear bearing is fixedly connected with the scraper through a boltThe electro-hydraulic push rod is fixedly connected with the frame through a boltTwo ends of the scraper are respectively connected and installed with the frame and the scraper through scraper pin shafts.
Furthermore, the rolling brush cleaning system mainly comprises a rolling brush device frame, a rolling brush device motor and a chain transmission mechanismRoller brush shaft, rhombic bearing seat, cylindrical brush and linear bearing optical axisLinear bearing and electrohydraulic push rod(ii) a Linear bearing optical axisLinear bearing fixed to the frame bolt of rolling brushFixed with bolt of frame, electrohydraulic push rodTwo ends of the rolling brush device are respectively connected and installed with the frame and the rolling brush device frame through pin shafts; the rolling brush motor is fixedly arranged on the rolling brush machine frame through bolts, the rolling brush shaft is arranged on the rolling brush machine frame through a rhombic bearing seat, and the rolling brush motor and the rolling brush shaft are in chain transmission mechanismThe cylindrical brush is connected and installed on the roller brush shaft through a fixed sleeve shaft, and the output torque of the motor of the roller brush is transmitted through a chain transmission mechanismThe rolling brush shaft is connected.
The utility model has the advantages that:
1. the automation degree is high, the process does not need human intervention, and the working environment is improved;
2. the mechanical structure is simple, the reliability is high, and the production and maintenance cost is low;
3. the integration level is high, and other production equipment can be conveniently connected and matched.
Drawings
Other features, objects and advantages of the invention will become more apparent from a reading of the following detailed description of non-limiting embodiments thereof, with reference to the accompanying drawings. e.g. of the type
FIG. 1 is a schematic view of the three-dimensional structure of the insect breeding and feeding device with automatic material distribution, turning and cleaning functions;
FIG. 2 is a schematic structural view of a cultivation trolley of the automatic material distribution, turning and cleaning insect cultivation and feeding device of the utility model;
FIG. 3 is one of the schematic diagrams of the walking and stirring system of the insect breeding and feeding device with automatic material distribution, turning and cleaning functions;
FIG. 4 is one of the schematic diagrams of the walking and stirring system of the insect breeding and feeding device with automatic material distribution, turning and cleaning functions;
FIG. 5 is one of the schematic views of a shoveling system of the insect breeding and feeding device with automatic material distribution, turning and cleaning functions;
FIG. 6 is one of the schematic views of a shoveling system of the insect breeding and feeding device with automatic material distribution, turning and cleaning functions;
FIG. 7 is one of the schematic diagrams of the material distribution system of the insect breeding and feeding device with automatic material distribution, turning and cleaning functions;
FIG. 8 is one of the schematic diagrams of the material distribution system of the insect breeding and feeding device with automatic material distribution, turning and cleaning functions;
FIG. 9 is one of the schematic diagrams of the rolling brush cleaning system of the insect breeding and feeding device with automatic material distribution, turning and cleaning functions;
FIG. 10 is one of the schematic diagrams of the rolling brush cleaning system of the insect breeding and feeding device with automatic material distribution, turning and cleaning functions;
FIG. 11 is a schematic view of a scraping system of the insect breeding and feeding device with automatic material distribution, turning and cleaning functions;
FIG. 12 is a mounting structure diagram of the electro-hydraulic push rod in the scraping system of the automatic material distributing, turning and cleaning insect breeding and feeding device of the utility model.
The reference numbers in the figures: 1-culture tank, 2-culture trolley, 3-walking system, 4-stirring system, 5-shoveling system, 6-distributing system, 7-scraping system, 8-rolling brush cleaning system, 9-rail, 10-frame, 11-motor, 12-chain wheel transmission mechanism, 13-chain wheel differential mechanism, 14-universal joint transmission shaft, 15-half shaft, 16-driving rail wheel, 17-bearing seat, 18-driven rail wheel, 19-wheel stirring motor and 20-chain wheel transmission mechanism21-front stirring hobbing cutter roller and 22-chain wheel transmission mechanism23-rear stirring hobbing cutter roller, 24-high vertical bearing seat, 25-bucket and 26-linear bearing optical axis27-linear bearing, 28-bucket frame, 29-bucket lifting hydraulic cylinder, 30-bucket turning hydraulic cylinder and 31-pin shaft32-pin and 33-pin34 pin shaft36-W type hopper, 37-fertilizer apparatus, 38-fertilizer apparatus motor, 39-rolling brush machine frame, 40-rolling brush machine motor and 41-chain transmission mechanism42-rolling brush shaft, 43-diamond bearing seat, 44-cylindrical brush and 45-linear bearing optical axis46-linear bearing47-electrohydraulic push rod48-scraper, 49-linear bearing optical axis50-linear bearing, 51-electrohydraulic push rodAnd 52-scraper pin shaft.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments; based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.
Referring to fig. 1-12: an insect breeding and feeding device capable of automatically distributing, turning and cleaning comprises a breeding tank 1 and a breeding trolley 2 as shown in figure 1; the cultivation tank 1 is a flat bottom tank, a track 9 is arranged at the edge of the cultivation tank 1, and a cultivation trolley 2 is arranged on the track 9; the edge of the culture tank 1 is provided with a track 9; the cultivation trolley 2 shown in figure 2 mainly comprises a frame 10, a walking system 3, a stirring system 4, a shoveling system 5, a distributing system 6, a scraping system 7 and a rolling brush cleaning system 8; the systems are arranged to the frame 10 by means of a fitting arrangement.
The traveling system 3 is shown in fig. 3 and 4 and mainly comprises a traveling motor 11, a sprocket transmission mechanism 12, a sprocket differential 13, a universal joint transmission shaft 14, a half shaft 15, a driving rail wheel 16, a bearing seat 17 and a driven rail wheel 18; wherein, the walking motor 11 and the chain wheel differential 13 are fixedly arranged on the frame 10 by bolts, and the walking motor 11 and the chain wheel differential 13 are connected and arranged with the chain wheel transmission mechanism 12; the half shaft 15 is connected and installed through a universal joint transmission shaft 14 and is installed on the frame through a bearing seat 17; the driving rail wheel 16 is mounted on the half shaft 15 through key connection; the driven rail wheel 18 is connected and installed on the frame 10 through a rolling bearing; the walking motor 11 is controlled to rotate to drive the sprocket differential 13 through the sprocket transmission mechanism 12, the differential 13 completes power distribution and drives the track wheel 16 to rotate through the universal joint transmission shaft 14 and the half shaft 15, and therefore the cultivation trolley is driven to walk.
The stirring system 4 mainly comprises a stirring motor 19 and a chain wheel transmission mechanism as shown in figures 3 and 420. Front stirring hobbing cutter roller 21 and chain wheel transmission mechanism 22. A rear stirring hobbing roller 23 and a high-type vertical bearing seat 24; wherein the stirring motor 19 is fixedly arranged on the frame 10 through bolts, and two ends of the front stirring hobbing cutter roller 21 and the rear stirring hobbing cutter roller 23 are arranged on the frame 10 through a high-type vertical bearing seat 24; the stirring motor 1 and the front stirring hobbing cutter roller 21 are in transmission mechanism through a chain wheel 20 are installed in a transmission connection way, and a front stirring hobbing cutter roller 21 and a rear stirring hobbing cutter roller 23 are driven by a chain wheel transmission mechanism 22 are installed in a transmission connection way; the stirring motor 19 is controlled to output rotary power and the transmission mechanism is driven by a chain wheel 20. Chain wheel transmission mechanism 22 driving the front stirring roller 21 and the rear stirring roller 23 to rotate and stir the solid waste organic materials in the tank.
The shoveling system 5 mainly includes a bucket 25 and a linear bearing optical axis as shown in fig. 5 and 626. A linear bearing 27, a bucket frame 28, a bucket lifting hydraulic cylinder 29, and a bucket turning hydraulic cylinder 30; wherein the linear bearing optical axis 26 is fixed to the bucket 25 by bolts, a linear bearing 27 is fixed to the bucket frame 28 by bolts, and the optical axis of the linear bearing 26 is arranged in a sliding block matching with the linear bearing 27, and the upper end of a bucket lifting hydraulic cylinder 29 and a bucket rack 28 are connected through a pin shaft 33 are connected and installed by pin shafts, and the upper end and the lower end of the bucket lifting hydraulic cylinder 29 are connected with the frame 10 by pin shafts34, a bucket lifting hydraulic cylinder 29 extends or contracts to control the bucket 25 to move up and down relative to the bucket frame 28 along the sliding direction of the linear bearing 27; the bucket frame 28 is pivotally connected to the frame 10 by a pin 32, and the bucket tilting cylinder 30 is pivotally connected at one end to the frame 10 by a pin 31 is connected with a bucket rack 28 through a pin shaft, the other end of the bucket overturning hydraulic cylinder 30 is connected with a rack 10 through a pin shaft, and the bucket overturning hydraulic cylinder 30 extends or shortens to control the bucket 25 to overturn along the pin shaft 2; the device controls the bucket to descend or overturn by controlling the bucket lifting hydraulic cylinder 29 and the bucket overturning hydraulic cylinder 30 to extend or shortenThe cooperation is bred 2 walking of dolly and can be accomplished the shovel material, and the fortune material is unloaded the action such as, and the organic solid waste material shovel that mainly used received the goods in the groove transports the silo tip and is convenient for post processing and clearance silo and breed next time.
As shown in fig. 7 and 8, the distributing system 6 mainly comprises a W-shaped hopper 36, a fertilizer apparatus 37 and a fertilizer apparatus motor 38; the fertilizer distributor 37 is fixedly connected with the W-shaped hopper 36 through bolts at the opening at the bottom of the W-shaped hopper 36; the fertilizer distributor motor 38 is connected with the fertilizer distributor 37 through a coupler to drive the fertilizer distributor 37 to distribute; the fertilizer distributor 37 is driven by controlling the fertilizer distributor motor 38 to uniformly and downwards discharge organic solid waste materials, and the organic solid waste materials for cultivation are uniformly spread to the cultivation groove 1 by matching with the movement of the trolley 2 along the cultivation groove 1.
The rolling brush cleaning system 8 is shown in fig. 9 and 10, and mainly comprises a rolling brush machine frame 39, a rolling brush machine motor 40 and a chain transmission mechanism 41. Roller brush shaft 42, diamond-shaped bearing seat 43, cylindrical brush 44 and linear bearing optical axis 45. Linear bearing46. Electro-hydraulic push rod47; linear bearing optical axis 45 is fixedly connected with a rolling brush device frame 39 through bolts and is provided with a linear bearing46 is fixedly connected with the frame 10 through a bolt, and an electro-hydraulic push rod47 two ends of the frame are respectively connected with the frame 10 and the rolling brush device frame 39 through pin shafts, and the electro-hydraulic deviceRod47 elongation or contraction controllable roller brush housing 39 along linear bearings 46 is moved up and down relative to the frame 10; the rolling brush motor 40 is fixedly arranged on the rolling brush machine frame 39 through bolts, the rolling brush shaft 42 is arranged on the rolling brush machine frame 39 through a diamond-shaped bearing seat 4, and the rolling brush motor 40 and the rolling brush shaft 42 are in chain transmission mechanism 41 is installed in a transmission connection way, a cylindrical hairbrush 44 is installed on a rolling brush shaft 42 in a connection way through a fixed sleeve shaft, and the output torque of a motor 40 of the rolling brush device is transmitted through a chain transmission mechanismThe roller brush shaft 42 is driven by the roller brush shaft 41 to rotate; electro-hydraulic push rod for cleaning operation47 control the rolling brush cleaning system 8 to descend to the bottom of the cylindrical brush 44 attached to the culture tank 1 for cleaning, and the electro-hydraulic push rod is used when scraping operation is not carried outAnd 47, the rolling brush cleaning system 8 is controlled to lift, so that the interference of the rolling brush cleaning system 8 on the materials during the transportation of the trolley is avoided.
The scraping system 7 is mainly composed of a scraping plate 48 and a linear bearing optical axis as shown in fig. 11 and 124. Linear bearing50. Electro-hydraulic push rod 51; straight lineBearing optical axis 49 is fixedly connected with the scraper 48 through bolts and is provided with a linear bearing50 is fixedly connected with the frame 10 through a bolt, and an electro-hydraulic push rod 51 two ends are respectively connected with the frame 10 and the scraper 48 through a scraper pin shaft 52, and an electro-hydraulic push rod 51 elongation or contraction controllable blade 48 along a linear bearing 46 is moved up and down relative to the frame 10; by controlling an electro-hydraulic push rodThe extension or shortening of the scraper plate 51 controls the scraper plate 48 to ascend or descend, the descending lower edge of the scraper plate 48 is attached to the bottom surface of the culture tank 1 during scraping operation, organic solid waste materials and insects which are not completely scraped by the in-tank material shoveling system 5 are scraped and pushed to one end of the culture tank 1, and the residual materials in the tank are further cleaned; electro-hydraulic push rod during non-scraping operationThe scraper 48 is controlled to lift by the control 51, so that the trolley is prevented from carrying power to interfere with materials.
The utility model discloses a theory of operation is: the running system 3, the stirring system 4, the shoveling system 5, the distributing system 6, the scraping system 7 and the rolling brush cleaning system 8 which are arranged on the frame are controlled by the control system to cooperatively operate, so that the full-automatic distributing, stirring, shoveling, cleaning and other operations are completed.
While the present invention has been described in detail with reference to the embodiments shown in the drawings, the present invention is not limited to the embodiments, and various changes can be made without departing from the spirit of the present invention within the knowledge of those skilled in the art.
Claims (7)
1. The utility model provides an automatic cloth, turn over throwing, clear material insect breeding equipment of feeding which characterized in that: mainly comprises a culture tank (1) and a culture trolley (2); the cultivation tank (1) is a flat bottom tank, a track (9) is arranged at the edge of the cultivation tank, and a cultivation trolley (2) is arranged on the track (9); the cultivation trolley (2) mainly comprises a frame (10), a walking system (3), a stirring system (4), a shoveling system (5), a distributing system (6), a scraping system (7) and a rolling brush cleaning system (8); the systems are arranged on the frame (10) through matching installation.
2. The automatic material distributing, turning and cleaning insect breeding and feeding device of claim 1, wherein: the traveling system (3) comprises a traveling motor (11), a chain wheel transmission mechanism (12), a chain wheel differential (13), a universal joint transmission shaft (14), a half shaft (15), a driving rail wheel (16), a bearing seat (17) and a driven rail wheel (18); the walking motor (11) and the chain wheel differential (13) are fixedly mounted on the rack (10) through bolts, and the walking motor (11) and the chain wheel differential (13) are connected and mounted through a chain wheel transmission mechanism (12); the half shafts (15) are connected and installed through universal joint transmission shafts (14) and are installed on the machine frame through bearing seats (17); the driving rail wheel (16) is mounted on the half shaft (15) through key connection; the driven rail wheel (18) is connected and installed on the frame (10) through a rolling bearing.
3. The automatic material distributing, turning and cleaning insect breeding and feeding device of claim 1, wherein: the stirring system (4) comprises a stirring motor (19) and a chain wheel transmission mechanism(20) Front stirring hobbing cutter roller (21) and chain wheel transmission mechanism(22) A rear stirring hobbing cutter roller (23) and a high-type vertical bearing seat (24); wherein the stirring motor (19) is fixedly arranged on the frame (10) through bolts, and two ends of the front stirring hobbing cutter roller (21) and the rear stirring hobbing cutter roller (23) are arranged on the frame (10) through a high-type vertical bearing seat (24); the stirring motor (19) and the front stirring hobbing cutter roller (21) are in transmission mechanism through a chain wheel(20) The front stirring hobbing cutter roller (21) and the rear stirring hobbing cutter roller (23) are arranged in a transmission connection way through a chain wheel transmission mechanism(22) And (5) transmission connection installation.
4. The automatic material distributing, turning and cleaning insect breeding and feeding device of claim 1, wherein: the material shoveling system (5) comprises a bucket (25) and a linear bearing optical axis(26) The hydraulic shovel comprises a linear bearing (27), a shovel frame (28), a shovel lifting hydraulic cylinder (29) and a shovel overturning hydraulic cylinder (30); wherein the linear bearing optical axis(26) The linear bearing is fixedly connected with the bucket (25) through bolts, the linear bearing (27) is fixedly connected with the bucket rack (28) through bolts, and the optical axis of the linear bearing(26) Is installed with a linear bearing (27) slide block in a matching way, and the upper end of a bucket lifting hydraulic cylinder (29) and a bucket rack (28) are connected through a pin shaft(33) The upper end and the lower end of the bucket lifting hydraulic cylinder (29) are connected and installed with the frame (10) through pin shafts(34) The pin shafts are connected and installed; the bucket frame (28) is connected with the frame (10) through a pin shaft (32) and one end of the bucket overturning hydraulic cylinder (30) is connected with the frame through a pin shaft(31) The bucket overturning mechanism is connected with a bucket rack (28) through a pin shaft, and the other end of a bucket overturning hydraulic cylinder (30) is connected with a rack (10) through a pin shaft.
5. The automatic material distributing, turning and cleaning insect breeding and feeding device of claim 1, wherein: the distributing system (6) comprises a W-shaped hopper (36), a fertilizer distributor (37) and a fertilizer distributor motor (38); the fertilizer distributor (37) is fixedly connected with the W-shaped hopper (36) through bolts at the position of the hole at the bottom of the W-shaped hopper (36); the fertilizer distributor motor (38) is connected with the fertilizer distributor (37) through a coupling to drive the fertilizer distributor (37).
6. The automatic material distributing, turning and cleaning insect breeding and feeding device of claim 1, wherein: the rolling brush cleaning system (8) comprises a rolling brush machine frame (39), a rolling brush machine motor (40) and a chain transmission mechanism(41) A rolling brush shaft (42), a diamond bearing seat (43), a cylindrical brush (44) and a linear bearing optical axis(45) Linear bearing(46) Electro-hydraulic push rod(47) (ii) a Linear bearing optical axis(45) A linear bearing fixedly connected with a frame (39) of the rolling brush device through a bolt(46) An electro-hydraulic push rod fixedly connected with a bolt of the frame (10)(47) Two ends of the rolling brush device are respectively connected and installed with the frame (10) and the rolling brush device frame (39) through pin shafts; the rolling brush device motor (40) is fixedly arranged on the rolling brush device rack (39) through bolts, the rolling brush shaft (42) is arranged on the rolling brush device rack (39) through a rhombic bearing seat (43), and the rolling brush device motor (40) and the rolling brush shaft (42) are in transmission mechanism through a chain(41) The cylindrical brush (44) is connected and arranged on the roller brush shaft (42) through a fixed sleeve shaft, and the output torque of the roller brush motor (40) is transmitted through a chain transmission mechanism(41) Is connected with a rolling brush shaft (42).
7. The automatic material distributing, turning and cleaning insect breeding and feeding device of claim 1, wherein: the scraping system (7) comprises a scraping plate (48) and a linear bearing optical axis(49) Linear bearing(50) Electro-hydraulic push rod(51) (ii) a Linear bearing optical axis(49) Is fixedly connected with the scraper (48) through a bolt and is provided with a linear bearing(50) Is fixedly connected with the frame (10) through a bolt, and an electro-hydraulic push rod(51) Two ends of the scraper are respectively connected with the frame (10) and the scraper (48) through a scraper pin shaft (52).
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CN112544569A (en) * | 2019-09-26 | 2021-03-26 | 郑州普恩科技有限公司 | Automatic feeding equipment is bred to cloth, turning over throwing, clear material insect |
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Publication number | Priority date | Publication date | Assignee | Title |
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CN112544569A (en) * | 2019-09-26 | 2021-03-26 | 郑州普恩科技有限公司 | Automatic feeding equipment is bred to cloth, turning over throwing, clear material insect |
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Effective date of registration: 20230424 Address after: 450000, 1802, 18th Floor, Building A, Qinhe Road South and Funiu Road West, Zhongyuan District, Zhengzhou City, Henan Province Patentee after: Zhengzhou Qi'an Environmental Protection Technology Co.,Ltd. Address before: 450000 no.903, 9th floor, area C, Haiwei Science Park, No.60 HaiHai Middle Road, Erqi District, Zhengzhou City, Henan Province Patentee before: Zhengzhou PUEN Technology Co.,Ltd. |
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