CN108771278B

CN108771278B - Mixed feed preparation device

Info

Publication number: CN108771278B
Application number: CN201810611484.1A
Authority: CN
Inventors: 刘鹏飞
Original assignee: Wuhu Lingmeng Electronic Commerce Co ltd
Current assignee: Heshan Yuehuang Feed Co ltd
Priority date: 2018-06-14
Filing date: 2018-06-14
Publication date: 2021-09-03
Anticipated expiration: 2038-06-14
Also published as: CN108771278A

Abstract

The invention discloses a mixed feed preparation device which comprises a protective top cover, a quantitative injection stirring device, a control operation box, a supporting upright post, a discharging funnel opening, a side grid baffle, a mixed discharging opening, a base supporting rod, a vibration mixing device, a micro discharging inspection opening and a power rotating machine, wherein the control operation box comprises a controller and an input module. According to the invention, by arranging the funnel, the injection pipe, the first injection valve, the pre-injection bin, the second injection valve and the material level detection module, the volume of the pre-injection bin is changed when the required feed volume is input, the required pesticide component does not need to be manually weighed, the use is convenient, the proportioning is more accurate, and by adding the vibration mixing device on the equipment, when the feed is discharged after stirring is completed, the equipment can increase the vibration of the discharge port in time according to the discharge of the equipment, the mixing degree and the discharging efficiency of the feed are increased, the feed mixing efficiency of the equipment is increased, and the workload of workers is reduced.

Description

Mixed feed preparation device

Technical Field

The invention belongs to the technical field of livestock breeding, and particularly relates to a mixed feed preparation device.

Background

The mixed feed is prepared by simply processing and mixing various feed raw materials, is a primary mixed feed, mainly considers nutritional indexes such as energy, protein, calcium, phosphorus and the like, is common in many rural areas, can be used for directly feeding animals, has higher effect than common feeds, and has high feeding and growth speed, but the traditional mixed feed method usually adopts manual mixing and stirring, is difficult to accurately control the ratio of the feed, and in addition, weighing needs weighing equipment and is inconvenient to use, so that a mixed feed preparation device capable of automatically proportioning and stirring is needed.

Disclosure of Invention

According to the defects of the prior art, the technical problem to be solved by the invention is to provide a mixed feed preparation device, which has the effects of automatically proportioning the dosage and mixing and stirring the feed.

In order to solve the technical problems, the invention adopts the technical scheme that:

a mixed feed preparation device, including the protection top cap, quantitative injection agitating unit, the control operation case, the support post, the discharge funnel mouth, side check baffle, mix the discharge gate, the base bracing piece, vibration mixing arrangement, trace ejection of compact inspection opening and power rotating machine, the control operation case includes controller and input module, and controller and input module electric connection, the support post is equipped with four and the lower extreme welds in the both ends of controlling of base bracing piece, the upper end mechanical connection of base bracing piece is in the lower extreme of mixing the discharge gate, the left and right both ends of mixing the discharge gate surface are installed in the inner wall of vibration mixing arrangement, vibration mixing arrangement is equipped with two and the lower extreme welds in the left and right sides of base bracing piece upper end, the upper end of mixing the discharge gate is installed in the lower extreme of side check baffle, the upper end of side check baffle welds in the lower extreme of discharge funnel mouth, the upper end mechanical connection of discharge funnel mouth is in quantitative injection agitating unit's lower extreme, the upper end middle part of the quantitative injection stirring device is arranged at the lower end of the protective top cover, the upper end on the right side of the quantitative injection stirring device is mechanically connected with the upper end of the power rotating machine, the rear end of the control operation box is arranged at the lower side of the front end of the quantitative injection stirring device, the upper end of the supporting upright post is welded at the four ends of the lower end of the protective top cover, the upper side of the front end of the discharge funnel opening is mechanically connected with the rear end of the micro discharge inspection opening and is of an integrated structure, the quantitative injection stirring device comprises a funnel, an injection pipe, a first injection valve, a pre-injection bin, a second injection valve, a material level detection module, a stirring chamber and stirring blades, the top end of the injection pipe is connected with the bottom end of the funnel, the first injection valve is arranged in the injection pipe, the pre-injection bin is connected with the bottom end of the injection pipe, the bottom end of the pre-injection bin is connected with the top end of the stirring chamber through the second injection valve, the stirring blades are arranged in the stirring chamber and are movably connected with the stirring chamber, the material level detection module is arranged in the pre-injection bin, the injection pipe is also connected with a discharge pipe, the discharge pipe is provided with a discharge valve, the material level detection module, the input module, the first injection valve, the second injection valve, the discharge valve and the power rotating machine are all electrically connected with the controller, the stirring blade is connected with the power rotating machine, and the power rotating machine can drive the stirring blade to rotate.

The pre-injection bin comprises an upper bin cover and a lower bin cover, the upper bin cover is embedded into the lower bin cover, the upper bin cover and the lower bin cover are connected through an electric telescopic rod, one end of the electric telescopic rod is connected to the inner side of the top of the upper bin cover, the other end of the electric telescopic rod is connected to the inner side of the bottom of the lower bin cover, the electric telescopic rod is electrically connected with the controller, a sealing material covers the contact surface of the upper bin cover and the lower bin cover, and the second injection valve is installed at the bottom of the lower bin cover.

The vibration mixing device comprises an induction control mechanism, a connection transmission mechanism, a guide supporting mechanism, a support protective shell, a connection transmission mechanism, a multi-wheel transmission mechanism, a lower spring limiting block, a lower pressure spring, a support limiting lug, a reciprocating connection mechanism, an upper spring limiting block, an upper pressure spring and an induction supporting lug;

the lower end of the sensing support lug is arranged at the upper end of the upper pressure spring, the lower end of the upper pressure spring is mechanically connected to the left side of the upper end of the upper spring limit block, the right end of the upper spring limit block is welded on the right side of the inner wall of the supporting protective shell, the outer surface of the sensing support lug penetrates through the right side of the upper end of the supporting protective shell, the left side of the sensing support lug is welded at the right end of the sensing control mechanism, the lower end of the left side of the sensing control mechanism is meshed with the upper end of the connecting transmission mechanism, the right side of the lower end of the connecting transmission mechanism is welded at the left side of the upper end of the guiding support mechanism, the lower end of the guiding support mechanism is movably connected at the upper side of the left end of the connecting transmission mechanism, the right end of the connecting transmission mechanism is meshed with the lower end of the multi-wheel transmission mechanism, the upper end of the multi-wheel transmission mechanism is arranged at the lower end of the left side of the reciprocating connection mechanism, the lower side of the right end of the reciprocating connection mechanism is welded at the upper end of the supporting limit lug, the left end that supports spacing lug is installed in holding down force spring's right-hand member, and holding down force spring's left side mechanical connection is in the right side of lower spring stopper, and the lower extreme of lower spring stopper welds in the downside that supports the protecting sheathing inner wall, and the surface that supports spacing lug runs through in the downside that supports the protecting sheathing right-hand member.

Inductive control mechanism is by connecting the stopper, the transmission pinion rack, the latch connecting wheel, the latch bracing piece, the both-way connection belt, the screw thread supporting wheel, connecting thread axostylus axostyle is constituteed, the left end of response support convex block welds in the right-hand member of connecting the stopper, the left end of connecting the stopper is installed in the downside of transmission pinion rack right-hand member, the left side of transmission pinion rack meshes the right-hand member in the latch connecting wheel mutually, both ends mechanical connection is in the lower extreme of latch bracing piece around the latch connecting wheel, the upper end of latch bracing piece welds the upside in supporting protective housing inner wall, the front end of latch connecting wheel is connected through the both-way connection belt with the front end of screw thread supporting wheel, the outside of screw thread supporting wheel rear end meshes the upper end in connecting thread axostylus axostyle mutually, connecting thread axostylus axostyle's lower extreme is installed in connecting drive mechanism's upper end.

The connecting transmission mechanism is composed of a threaded support rod, a three-way connecting belt, a first-number clamping gear, a two-way lug shaft lever, a shaft lever limiting bearing, a second-number clamping gear and a thread limiting wheel, the lower end of the connecting threaded shaft lever is meshed with the outer side of the front end of the thread limiting wheel, the front end and the rear end of the thread limiting wheel are mechanically connected to the right end of the threaded support rod, the front end of the thread limiting wheel is connected with the front end of the first-number clamping gear and the front end of the second-number clamping gear through the three-way connecting belt, the lower end of the first-number clamping gear and the lower end of the second-number clamping gear are meshed with the upper end of the two-way lug shaft lever, the left end of the two-way lug shaft lever is mechanically connected to the right end of the shaft lever limiting bearing, and the left ends of the shaft lever limiting bearing and the thread support rod are welded on the left side of the inner wall of the supporting protective shell.

The guide supporting mechanism is composed of a transverse rod fixing bearing, a first fixing transverse rod, a left helical gear, a fixing driving wheel, a vertical threaded shaft, a bidirectional clamping gear, a right helical gear, a second fixing transverse rod, a lower groove wheel, a groove connecting belt, an upper groove wheel, wherein the outer surface of the upper groove wheel is connected with the outer surface of the lower groove wheel through the groove connecting belt, the left end of the lower groove wheel is welded at the right end of the second fixing transverse rod, the left end of the second fixing transverse rod is arranged at the right end of the right helical gear, the outer surface of the right helical gear is connected with the outer surface of the left helical gear through the bidirectional clamping gear, the left end of the left helical gear is arranged at the right end of the first fixing transverse rod, the left end of the first fixing transverse rod is mechanically connected at the right end of the transverse rod fixing bearing, the lower end of the bidirectional clamping gear is welded at the upper end of the vertical threaded shaft, the outer surface of the vertical threaded shaft is meshed at the outer side of the rear end of the fixing driving wheel, the outer side of the front end of the fixed driving wheel is arranged on the upper side of the left end of the connecting and conducting mechanism.

The connection and conduction mechanism is composed of a first guide rod, a second guide rod, a double-fixed guide wheel, a guide wheel support rod, a bidirectional connection transverse rod, a groove connecting shaft, a fixed limit bearing, a fixed limit block, an inclined clamping gear, an isolation buffer plate and a groove movable lug, wherein the outer side of the front end of the fixed driving wheel is arranged at the upper end of the first guide rod, the lower end of the first guide rod is movably connected at the upper end of the second guide rod, the lower end of the second guide rod is mechanically connected at the left side of the front end of the double-fixed guide wheel, the front end and the rear end of the double-fixed guide wheel are mechanically connected at the upper end of the guide wheel support rod, the right side of the front end of the double-fixed guide wheel is arranged at the left end of the bidirectional connection transverse rod, the right end of the bidirectional connection transverse rod is movably connected at the left side of the groove connecting shaft, the lower end of the groove connecting shaft is arranged at the upper end of the fixed limit bearing, the fixed limit bearing and the lower end of the guide wheel support rod are welded at the lower side of the inner wall of the support protective shell, the right side swing joint of recess connecting axle is in the left side of recess activity lug, and the right-hand member of recess activity lug welds in the left end of isolated buffer board, and the right-hand member of isolated buffer board is installed in the left end of fixed stopper, and the right side mechanical connection of fixed stopper is in the left end of bevel gear.

The multi-wheel transmission mechanism is composed of a lower crawler connecting guide wheel, a transmission latch crawler, a latch supporting guide wheel, an intermittent fixed wheel, a rope connecting lug, a rotary connecting guide wheel, an intermittent lug and an upper crawler connecting guide wheel, wherein the outer surface of the lower crawler connecting guide wheel is attached to the lower end of the inner wall of the transmission latch crawler, the upper end of the inner wall of the transmission latch crawler is attached to the outer surface of the upper crawler connecting guide wheel, the upper surface of the transmission latch crawler is engaged with the outer surface of the latch supporting guide wheel, the front end of the latch supporting guide wheel is welded to the rear end of the intermittent lug, the outer surface gap of the intermittent lug is matched with the inner wall of the intermittent fixed wheel, the right side of the intermittent fixed wheel is connected with the outer side of the front end of the rotary connecting guide wheel, the upper end of the rotary connecting guide wheel is welded to the lower end of the rope connecting lug, and the upper end of the rope connecting lug is mechanically connected to the left side of the upper end of the reciprocating connecting mechanism.

The reciprocating connection mechanism consists of a rotary groove block, a central fixed shaft, a lug connecting block, a reciprocating connection spring, a damping buffer block, a buffer fixed plate, a first rope guide wheel, a connection guide rope, a second rope guide wheel and a third rope guide wheel, wherein the upper end of the rope connection lug is mechanically connected to the left side of the upper end of the connection guide rope, the lower side of the right end of the connection guide rope is movably connected to the upper end of the rotary groove block, the inner wall of the rotary groove block is in clearance fit with the outer surface of the central fixed shaft, the left end of the central fixed shaft is connected with the right side of the buffer fixed plate through the damping buffer block, the right end of the central fixed shaft is welded to the left side of the reciprocating connection spring, the right end of the reciprocating connection spring is arranged at the upper end of the left side of the lug connecting block, the lower end of the lug connecting block is welded to the upper end of the supporting limit lug, and the outer surfaces of the first rope guide wheel and the second rope guide wheel are in clearance fit with the outer surface of the connection guide rope, and a connecting guide rope is arranged on the outer surface of the third rope guide wheel.

The left end of the upper groove wheel is welded at the right end of the two-way lug shaft lever, and the right end of the oblique clamping gear is meshed with the lower side of the outer surface of the transmission clamping tooth crawler belt.

The invention has the beneficial effects that:

1. according to the invention, the funnel, the injection pipe, the first injection valve, the pre-injection bin, the second injection valve and the material level detection module are arranged, so that the volume of the pre-injection bin is changed when the required feed volume is input, the required pesticide component does not need to be manually weighed, the use is convenient, and the proportioning is more accurate.

2. Through having increased the vibration mixing arrangement on equipment, when equipment carries out the mixed stirring operation of feed production, when the stirring is accomplished, when discharging its fodder, equipment can in time increase the vibration of discharge gate according to the emission of equipment, increases the mixed degree and the discharging efficiency of its fodder, has increased the mixed fodder efficiency of equipment and has reduced staff's work load.

Drawings

The contents of the drawings and the reference numerals in the drawings are briefly described as follows:

fig. 1 is a schematic structural diagram of an embodiment of the present invention.

FIG. 2 is a schematic structural view of a constant-volume injection stirring apparatus according to an embodiment of the present invention.

Fig. 3 is a first schematic structural diagram of a vibratory mixing apparatus according to an embodiment of the present invention.

Fig. 4 is a schematic structural diagram of a vibrating mixing device according to an embodiment of the present invention.

Detailed Description

The following embodiments are provided to describe the embodiments of the present invention, and to further describe the detailed description of the embodiments of the present invention, such as the shapes, configurations, mutual positions and connection relationships of the components, the functions and operation principles of the components, the manufacturing processes and operation methods, etc., so as to help those skilled in the art to more fully, accurately and deeply understand the inventive concept and technical solutions of the present invention.

A mixed feed preparation device, including protective top cap 1, quantitative injection agitating unit 2, control operation box 10, support column 3, discharging funnel 231 mouth 4, side check baffle 5, mix discharge gate 6, base bracing piece 7, vibration mixing device 8, micro-discharge inspection mouth 9 and power rotating machine 11, control operation box 10 includes controller and input module, and controller and input module electric connection, support column 3 is equipped with four and the lower extreme welds in the left and right sides both ends of base bracing piece 7, the upper end mechanical connection of base bracing piece 7 is in the lower extreme of mixing discharge gate 6, the inner wall in vibration mixing device 8 is installed at the left and right sides of mixing discharge gate 6 surface, vibration mixing device 8 is equipped with two and the lower extreme welds in the left and right sides of base bracing piece 7 upper end, the upper end of mixing discharge gate 6 is installed in the lower extreme of side check baffle 5, the upper end of the side check baffle 5 is welded at the lower end of the port 4 of the discharge funnel 231, the upper end of the port 4 of the discharge funnel 231 is mechanically connected with the lower end of the quantitative injection stirring device 2, the upper middle part of the quantitative injection stirring device 2 is arranged at the lower end of the protective top cover 1, the upper end of the right side of the quantitative injection stirring device 2 is mechanically connected with the upper end of the power rotating machine 11, the rear end of the control operation box 10 is arranged at the lower side of the front end of the quantitative injection stirring device 2, the upper end of the supporting upright post 3 is welded at the four ends of the lower end of the protective top cover 1, the upper side of the front end of the port 231 is mechanically connected with the rear end of the micro-discharge inspection port 9 and is an integrated structure, the quantitative injection stirring device 2 comprises a funnel 231, an injection pipe 232, a first injection valve 233, a pre-injection bin 234, a second injection valve 235, a material level detection module, a stirring chamber 238 and a stirring blade 239, the bottom end of the funnel 231 is connected with the top end of the injection pipe 232, the first injection valve 233 is arranged in the injection pipe 232, the bottom end of the injection pipe 232 is connected with the pre-injection bin 234, the bottom end of the pre-injection bin 234 is connected with the top end of the stirring chamber 238 through the second injection valve 235, the stirring blade 239 is installed in the stirring chamber 238 and is movably connected with the stirring chamber 238, the material level detection module is installed in the pre-injection bin 234, the injection pipe 232 is further connected with the discharge pipe 236, the discharge valve 237 is installed on the discharge pipe 236, the material level detection module, the input module, the first injection valve 233, the second injection valve 235, the discharge valve 237 and the power rotating machine 11 are all electrically connected with the controller, the stirring blade 239 is connected with the power rotating machine 11, and the power rotating machine 11 can drive the stirring blade 239 to rotate.

Specifically, pre-injection storehouse 234 includes upper bin cover 2341 and lower bin cover 2342, upper bin cover 2341 imbeds in lower bin cover 2342, upper bin cover 2341 and lower bin cover 2342 are connected through electric telescopic handle 2343, electric telescopic handle 2343 one end is connected at upper bin cover 2341 top inboard, the other end is connected at lower bin cover 2342 bottom inboard, and electric telescopic handle 2343 and controller electric connection, upper bin cover 2341 coats with lower bin cover 2342's contact surface and is stamped the sealing material, the second injection valve 235 is installed in lower bin cover 2342 bottom.

Specifically, the vibration mixing device 8 includes an induction control mechanism 801, a connection transmission mechanism 802, a guide support mechanism 803, a support protection housing 804, a connection transmission mechanism 805, a multi-wheel transmission mechanism 806, a lower spring limit block 807, a lower pressure spring 808, a support limit bump 809, a reciprocating connection mechanism 810, an upper spring limit block 811, an upper pressure spring 812, and an induction support bump 813;

specifically, the lower end of the sensing support bump 813 is installed at the upper end of the upper pressure spring 812, the lower end of the upper pressure spring 812 is mechanically connected to the left side of the upper end of the upper spring limit block 811, the right end of the upper spring limit block 811 is welded to the right side of the inner wall of the supporting protective housing 804, the outer surface of the sensing support bump 813 penetrates the right side of the upper end of the supporting protective housing 804, the left side of the sensing support bump 813 is welded to the right end of the sensing control mechanism 801, the lower end of the left side of the sensing control mechanism 801 is engaged with the upper end of the connecting transmission mechanism 802, the right side of the lower end of the connecting transmission mechanism 802 is welded to the left side of the upper end of the guiding support mechanism 803, the lower end of the guiding support mechanism 803 is movably connected to the upper side of the left end of the connecting, the downside of the right end of the reciprocating connection mechanism 810 is welded at the upper end of the supporting limit bump 809, the left end of the supporting limit bump 809 is installed at the right end of the lower pressure spring 808, the left side of the lower pressure spring 808 is mechanically connected at the right side of the lower spring limit block 807, the lower end of the lower spring limit block 807 is welded at the downside of the inner wall of the supporting protective shell 804, and the outer surface of the supporting limit bump 809 penetrates through the downside of the right end of the supporting protective shell 804.

Specifically, the sensing control mechanism 801 comprises a connecting limit block 8011, a transmission latch plate 8012, a latch connecting wheel 8013 and a latch supporting rod 8014, two-way connection belt 8015, screw thread supporting wheel 8016, it constitutes to connect screw thread axostylus axostyle 8017, the left end of response support bump 813 welds the right-hand member of connecting stopper piece 8011, the left end of connecting stopper piece 8011 is installed in the downside of transmission pinion rack 8012 right-hand member, the left side of transmission pinion rack 8012 meshes mutually in the right-hand member of latch connecting wheel 8013, both ends mechanical connection is in the lower extreme of latch bracing piece 8014 around latch connecting wheel 8013, the upper end of latch bracing piece 8014 welds the upside that supports protective housing 804 inner wall, the front end of latch connecting wheel 8013 is connected through two-way connection belt 8015 with the front end of screw thread supporting wheel 8016, the outside of screw thread supporting wheel 8016 rear end meshes mutually in the upper end of connecting screw thread axostylus axostyle 8017, the lower extreme of connecting screw thread axostylus axostyle 8017 is installed in the upper end of connecting drive mechanism 802.

Specifically, the connecting transmission mechanism 802 is composed of a threaded support rod 8021, a three-way connecting belt 8022, a first-speed gear 8023, a two-way lug shaft 8024, a shaft rod limiting bearing 8025, a second-speed gear 8026 and a threaded limiting wheel 8027, the lower end of the connecting threaded shaft 8017 is engaged with the outer side of the front end of the threaded limiting wheel 8027, the front end and the rear end of the threaded limiting wheel 8027 are mechanically connected to the right end of the threaded support rod 8021, the front end of the threaded limiting wheel 8027 is connected to the front end of the second-speed gear 8026 through the three-way connecting belt 8022 and the front end of the first-speed gear 8023, the first-speed gear 8023 is engaged with the lower end of the second-speed gear 8026 at the upper end of the two-way lug shaft 8024, the left end of the two-way lug gear 8024 is connected to the right end of the shaft rod limiting bearing 8025, and the shaft rod limiting bearing 8025 and the left end of the threaded support rod 8021 are welded to the left side of the inner wall of the support protective housing 804.

Specifically, the guiding support mechanism 803 comprises a cross bar fixing bearing 8031, a first fixing cross bar 8032, a left bevel wheel 8033, a fixing transmission wheel 8034, a vertical threaded shaft 8035, a bidirectional latch gear 8036, a right bevel wheel 8037, a second fixing cross bar 8038, a lower notch wheel 8039, a notch connecting band 80310 and an upper notch wheel 80311, wherein the outer surface of the upper notch wheel 80311 is connected with the outer surface of the lower notch wheel 8039 through the notch connecting band 80310, the left end of the lower notch wheel 8039 is welded to the right end of the second fixing cross bar 8038, the left end of the second fixing cross bar 8038 is installed at the right end of the right bevel wheel 8037, the outer surface of the right bevel wheel 8037 is connected with the outer surface of the left bevel wheel 8033 through the bidirectional latch gear 8036, the left end of the left bevel wheel 8033 is installed at the right end of the first fixing cross bar 8032, the left end of the first fixing cross bar 8032 is mechanically connected to the right end of the cross bar fixing bearing 8031, the lower end of the bidirectional latch gear 8036 is welded to the upper end of the vertical threaded shaft 8035, the outer surface of the vertical threaded shaft 8035 is meshed with the outer side of the rear end of the fixed transmission wheel 8034, and the outer side of the front end of the fixed transmission wheel 8034 is arranged on the upper side of the left end of the connection conduction mechanism 805.

Specifically, the connection conduction mechanism 805 is composed of a first guide rod 8051, a second guide rod 8052, a double-fixed guide wheel 8053, a guide wheel support rod 8054, a bidirectional connection cross rod 8055, a groove connection shaft 8056, a fixed limit bearing 8057, a fixed limit block 8058, an oblique snap gear 8059, an isolation buffer plate 80510, and a groove movable bump 80511, wherein the outer side of the front end of the fixed transmission wheel 8034 is installed at the upper end of the first guide rod 8051, the lower end of the first guide rod 8051 is movably connected to the upper end of the second guide rod 8052, the lower end of the second guide rod 8052 is mechanically connected to the left side of the front end of the double-fixed guide wheel 8053, the front and rear ends of the double-fixed guide wheel 8053 are mechanically connected to the upper end of the guide wheel support rod 8054, the right side of the front end of the double-fixed guide wheel 8053 is installed at the left end of the bidirectional connection cross rod 8055, the right end of the, the lower ends of the fixed limit bearing 8057 and the guide wheel support rod 8054 are welded to the lower side of the inner wall of the supporting and protecting housing 804, the right side of the groove connecting shaft 8056 is movably connected to the left side of the groove moving projection 80511, the right end of the groove moving projection 80511 is welded to the left end of the isolation buffer plate 80510, the right end of the isolation buffer plate 80510 is installed at the left end of the fixed limit block 8058, and the right side of the fixed limit block 8058 is mechanically connected to the left end of the bevel gear 8059.

Specifically, the multi-wheel transmission mechanism 806 is composed of a lower track connecting guide wheel 8061, a transmission latch track 8062, a latch supporting guide wheel 8063, an intermittent fixed wheel 8064, the rope connecting guide wheel 8065, the rotating connecting guide wheel 8066, the intermittent projection 8067 and the upper track connecting guide wheel 8068 are arranged, the outer surface of the lower track connecting guide wheel 8061 is attached to the lower end of the inner wall of the transmission latch track 8062, the upper end of the inner wall of the transmission latch track 8062 is attached to the outer surface of the upper track connecting guide wheel 8068, the upper surface of the transmission latch track 8062 is engaged with the outer surface of the latch supporting guide wheel 8063, the front end of the latch supporting guide wheel 8063 is welded to the rear end of the intermittent projection 8067, the outer surface of the intermittent projection 8067 is in clearance fit with the inner wall of the intermittent fixing wheel 8064, the right side of the intermittent fixing wheel 8064 is connected with the outer side of the front end of the rotating connecting guide wheel 8066, the upper end of the rotating connecting guide wheel 8066 is welded to the lower end of the rope connecting guide wheel 8065, and the upper end of the rope connecting projection 8065 is mechanically connected to the left side of the upper end of the reciprocating connecting mechanism 810.

Specifically, the reciprocating connection mechanism 810 comprises a rotary groove block 8101, a central fixed shaft 8102, a bump connecting block 8103, a reciprocating connection spring 8104, a damping buffer block 8105, a buffer fixing plate 8106, a first rope guide wheel 8107, a connection guide rope 8108, a second rope guide wheel 8109 and a third rope guide wheel 81010, wherein the upper end of the rope connecting bump 8065 is mechanically connected to the left side of the upper end of the connection guide rope 8108, the lower side of the right end of the connection guide rope 8108 is movably connected to the upper end of the rotary groove block 8101, the inner wall of the rotary groove block 8101 is in clearance fit with the outer surface of the central fixed shaft 8102, the left end of the central fixed shaft 8102 is connected with the right side of the buffer fixing plate 8106 through the damping buffer block 8105, the right end of the central fixed shaft 8102 is welded to the left side of the reciprocating connection spring 8104, the right end of the reciprocating connection spring 8104 is arranged at the upper end of the left side of the bump connecting block 8103, the lower end of the bump connecting block 8103 is welded to the upper end of the supporting limit bump 809, the outer surfaces of the first rope guide wheel 8107 and the second rope guide wheel 8109 are in clearance fit with the outer surface of the connecting guide rope 8108, and the outer surface of the third rope guide wheel 81010 is provided with the connecting guide rope 8108.

Specifically, the left end of the upper groove wheel 80311 is welded to the right end of the two-way lug shaft 8024, and the right end of the bevel gear 8059 is engaged with the lower side of the outer surface of the transmission latch crawler 8062.

When a user uses the mixed feed preparation device disclosed by the invention, firstly, the volume and the injection sequence of various feeds to be mixed are input through the input module, then the device is started, the controller adjusts the electric telescopic rod 2343 according to the input feeds so as to adjust the distance between the top of the upper bin cover 2341 and the bottom of the lower bin cover 2342, the effect of changing the volume of the pre-injection bin 234 is achieved, the volume of the pre-injection bin 234 is enabled to be equal to the volume of the required feeds, if the volume of the input feeds is larger than the maximum volume of the pre-injection bin 234, the feeds are injected for multiple times, then the controller opens the first injection valve 233, the user injects each feed through the funnel 231, at the moment, the second injection valve 235 is in a closed state, the injected feeds are all temporarily stored in the pre-injection bin 234, the material level detection module in the pre-injection bin 234 detects the material level of the feeds and sends the material level to the controller, when the material level reaches the volume of the pre-injection bin 234, the controller closes the first injection valve 233 and opens the second injection valve 235 to allow the feed in the pre-injection bin 234 to enter the mixing chamber 238, and simultaneously opens the discharge valve 237 to allow the excess feed in the injection pipe 2325 to be discharged through the discharge pipe 2369 for the convenience of the user.

After the feed is injected, the controller controls to open the power rotating machine 11, so that the power rotating machine 11 can rotate rapidly to drive the stirring blade 239 to rotate to mix and stir the feed, and after a certain time of stirring, a worker can check the feed mixing quality from the micro-discharge inspection port 9, when the mixing and stirring are completed, the worker can discharge the feed from the mixing discharge port 6 from the control device, and when the feed is discharged, the feed can enable the sensing support lug 813 to move downwards and drive the transmission clamping toothed plate 8012 to move downwards under the action of the connecting limit block 8011, so that the transmission clamping toothed plate 8012 drives the clamping tooth connecting wheel 8013 to rotate, and under the action of the bidirectional connecting belt 8015, the threaded support wheel 8016 and the connecting threaded shaft 8017 can drive the threaded limit wheel 8027 to rotate, so that the first clamping gear 8023 and the second clamping gear 8026 drive the bidirectional lug shaft 8024 to rotate under the connection drive of the three-way connecting belt 8022, under the action of the upper groove pulley 80311 and the groove connecting belt 80310, the lower groove pulley 8039 drives the second fixed cross bar 8038 to rotate, so that under the drive of the right helical gear 8037, the bidirectional latch gear 8036 can normally rotate under the limit brake of the left helical gear 8033, and under the rotation of the bidirectional latch gear 8036, the vertical threaded shaft 8035 normally rotates and drives the fixed driving wheel 8034 to rotate, so that the first guide rod 8051 and the second guide rod 8052 drive the double fixed guide wheels 8053 to rotate, and finally the groove connecting shaft 8056 can drive the inclined latch gear 8059 to rotate, so that under the action of the lower track connecting guide wheel 8061 and the upper track connecting guide wheel 8068, the transmission latch track 8062 rotates, the latch supporting guide wheel 8063 drives the bump 8067 to rotate, and the intermittent fixed wheel 8064 intermittently drives the connecting rope 8066 to rotate, so as to drive the connecting rope guiding wheel 8107, the connecting rope 8108, the first rope guiding wheel 8107, the second rope 8109, and the third rope 81010 to pull the intermittent rotating rope 81010 Move recess piece 8101 and rotate, finally under the effect of central fixed axle 8102, make its lug connecting block 8103 drive and support spacing lug 809 and move right, and vibration mixing arrangement 8 is equipped with two, can make its mix the vibration of making a round trip about discharge gate 6 to can further carry out the mixing action of fodder.

The invention has been described in an illustrative manner, and it is to be understood that the invention is not limited to the precise form disclosed, and that various insubstantial modifications of the inventive concepts and solutions, or their direct application to other applications without such modifications, are intended to be covered by the scope of the invention. The protection scope of the present invention shall be subject to the protection scope defined by the claims.

Claims

1. The utility model provides a mixed feed preparation facilities which characterized in that: comprises a protective top cover (1), a control operation box (10), a quantitative injection stirring device (2), a support upright post (3), a discharge funnel (231) port (4), a side grid baffle (5), a mixed discharge port (6), a base support rod (7), a vibration mixing device (8), a micro discharge inspection port (9) and a power rotating machine (11), wherein the control operation box (10) comprises a controller and an input module which are electrically connected, the support upright post (3) is provided with four parts, the lower ends of the four parts are welded at the left end and the right end of the base support rod (7), the upper end of the base support rod (7) is mechanically connected at the lower end of the mixed discharge port (6), the left end and the right end of the outer surface of the mixed discharge port (6) are arranged on the inner wall of the vibration mixing device (8), the vibration mixing device (8) is provided with two parts, the lower ends of the two parts are welded at the left side and the right side of the upper end of the base support rod (7), the upper end of the mixed discharge port (6) is arranged at the lower end of the side lattice baffle (5), the upper end of the side lattice baffle (5) is welded at the lower end of the port (4) of the discharge funnel (231), the upper end of the port (4) of the discharge funnel (231) is mechanically connected at the lower end of the quantitative injection stirring device (2), the middle part of the upper end of the quantitative injection stirring device (2) is arranged at the lower end of the protective top cover (1), the upper end at the right side of the quantitative injection stirring device (2) is mechanically connected at the upper end of the power rotating machine (11), the rear end of the control operation box (10) is arranged at the lower side of the front end of the quantitative injection stirring device (2), the upper end of the support upright column (3) is welded at four ends of the lower end of the protective top cover (1), the upper side of the front end of the port (4) of the discharge funnel (231) is mechanically connected at the rear end of the micro discharge inspection port (9) and is of an integrated structure, quantitative injection stirring device (2) includes funnel (231), filling tube (232), first filling valve (233), pre-injection storehouse (234), second filling valve (235), material level detection module, teeter chamber (238) and stirring leaf (239), filling tube (232) top is connected to funnel (231) bottom, set up first filling valve (233) in filling tube (232), pre-injection storehouse (234) is connected to filling tube (232) bottom, pre-injection storehouse (234) bottom is passed through second filling valve (235) and is connected with teeter chamber (238) top, install in teeter chamber (238) stirring leaf (239), with teeter chamber (238) swing joint, install material level detection module in pre-injection storehouse (234), still be connected with on filling tube (232) and let out pipe (236), it installs bleeder valve (237) to let out on pipe (236), material level detection module, input module, first filling valve (233), The second injection valve (235), the release valve (237) and the power rotating machine (11) are electrically connected with the controller, the stirring blade (239) is connected with the power rotating machine (11), and the power rotating machine (11) can drive the stirring blade (239) to rotate;

the pre-injection bin (234) comprises an upper bin cover (2341) and a lower bin cover (2342), the upper bin cover (2341) is embedded into the lower bin cover (2342), the upper bin cover (2341) and the lower bin cover (2342) are connected through an electric telescopic rod (2343), one end of the electric telescopic rod (2343) is connected to the inner side of the top of the upper bin cover (2341), the other end of the electric telescopic rod is connected to the inner side of the bottom of the lower bin cover (2342), the electric telescopic rod (2343) is electrically connected with a controller, sealing materials cover the contact surfaces of the upper bin cover (2341) and the lower bin cover (2342), and the second injection valve (235) is installed at the bottom of the lower bin cover (2342);

the vibration mixing device (8) comprises an induction control mechanism (801), a connection transmission mechanism (802), a guide supporting mechanism (803), a supporting protective shell (804), a connection transmission mechanism (805), a multi-wheel transmission mechanism (806), a lower spring limiting block (807), a lower pressure spring (808), a supporting limiting lug (809), a reciprocating connection mechanism (810), an upper spring limiting block (811), an upper pressure spring (812) and an induction supporting lug (813);

the lower end of the induction supporting convex block (813) is arranged at the upper end of the upper pressure spring (812), the lower end of the upper pressure spring (812) is mechanically connected to the left side of the upper end of the upper spring limiting block (811), the right end of the upper spring limiting block (811) is welded at the right side of the inner wall of the supporting protective shell (804), the outer surface of the induction supporting convex block (813) penetrates through the right side of the upper end of the supporting protective shell (804), the left side of the induction supporting convex block (813) is welded at the right end of the induction control mechanism (801), the lower end of the left side of the induction control mechanism (801) is meshed at the upper end of the connecting transmission mechanism (802), the right side of the lower end of the connecting transmission mechanism (802) is welded at the left side of the upper end of the guiding supporting mechanism (803), and the lower end of the guiding supporting mechanism (803) is movably connected at the upper side of the left end of the connecting transmission mechanism (805), the right end of the connection and conduction mechanism (805) is meshed with the lower end of the multi-wheel transmission mechanism (806), the upper end of the multi-wheel transmission mechanism (806) is installed at the lower end of the left side of the reciprocating connection mechanism (810), the lower side of the right end of the reciprocating connection mechanism (810) is welded at the upper end of the supporting limit bump (809), the left end of the supporting limit bump (809) is installed at the right end of the lower pressure spring (808), the left side of the lower pressure spring (808) is mechanically connected to the right side of the lower spring limit block (807), the lower end of the lower spring limit block (807) is welded at the lower side of the inner wall of the supporting protective shell (804), and the outer surface of the supporting limit bump (809) penetrates through the lower side of the right end of the supporting protective shell (804).

2. A mixed feed preparation device as claimed in claim 1, wherein: the induction control mechanism (801) comprises a connecting limiting block (8011), a transmission latch plate (8012), a latch connecting wheel (8013), a latch supporting rod (8014), a bidirectional connecting belt (8015), a thread supporting wheel (8016) and a connecting thread shaft lever (8017), the left end of the induction supporting bump (813) is welded at the right end of the connecting limiting block (8011), the left end of the connecting limiting block (8011) is arranged at the lower side of the right end of the transmission latch plate (8012), the left side of the transmission latch plate (8012) is meshed at the right end of the latch connecting wheel (8013), the front end and the rear end of the latch connecting wheel (8013) are mechanically connected to the lower end of the latch supporting rod (8014), the upper end of the latch supporting rod (8014) is welded at the upper side of the inner wall of the supporting shell (804), the front end of the latch connecting wheel (8013) is connected with the front end of the thread supporting wheel (8016) through the bidirectional connecting belt (8015), the outer side of the rear end of the thread supporting wheel (8016) is meshed with the upper end of the connecting thread shaft lever (8017), and the lower end of the connecting thread shaft lever (8017) is arranged at the upper end of the connecting transmission mechanism (802).

3. A mixed feed preparation device as claimed in claim 2, wherein: the connecting transmission mechanism (802) consists of a threaded support rod (8021), a three-way connecting belt (8022), a first clamping gear (8023), a two-way lug shaft lever (8024), a shaft lever limiting bearing (8025), a second clamping gear (8026) and a threaded limiting wheel (8027), the lower end of the connecting threaded shaft lever (8017) is meshed with the outer side of the front end of the threaded limiting wheel (8027), the front end and the rear end of the threaded limiting wheel (8027) are mechanically connected to the right end of the threaded support rod (8021), the front end of the threaded limiting wheel (8027) is meshed with the upper end of the two-way lug shaft lever (8024) through the three-way connecting belt (8022) and the front end of the first clamping gear (8023) and the front end of the second clamping gear (8026), the lower ends of the first clamping gear (8023) and the second clamping gear (8026) are meshed with the upper end of the two-way lug shaft lever (8024), the left end of the two-way lug shaft lever (8024) is mechanically connected to the right end of the limiting bearing (8025), the left ends of the shaft rod limiting bearing (8025) and the threaded support rod (8021) are welded on the left side of the inner wall of the support protective shell (804).

4. A mixed feed preparation device as claimed in claim 1, wherein: the guide supporting mechanism (803) consists of a cross bar fixing bearing (8031), a first fixing cross bar (8032), a left bevel gear (8033), a fixing driving wheel (8034), a vertical threaded shaft (8035), a bidirectional clamping gear (8036), a right bevel gear (8037), a second fixing cross bar (8038), a lower groove wheel (8039), a groove connecting belt (80310) and an upper groove wheel (80311), wherein the outer surface of the upper groove wheel (80311) is connected with the outer surface of the lower groove wheel (8039) through the groove connecting belt (80310), the left end of the lower groove wheel (8039) is welded at the right end of the second fixing cross bar (8038), the left end of the second fixing cross bar (8038) is arranged at the right end of the right bevel gear (8037), the outer surface of the right bevel gear (8037) is connected with the outer surface of the left bevel gear (8033) through the bidirectional clamping gear (8036), and the left end of the 8033) is arranged at the right end of the first fixing cross bar (8032), the left end of the first fixed cross rod (8032) is mechanically connected to the right end of the cross rod fixing bearing (8031), the lower end of the bidirectional clamping gear (8036) is welded to the upper end of the vertical threaded shaft (8035), the outer surface of the vertical threaded shaft (8035) is meshed with the outer side of the rear end of the fixed driving wheel (8034), and the outer side of the front end of the fixed driving wheel (8034) is installed on the upper side of the left end of the connecting and conducting mechanism (805).

5. A mixed feed preparation device as claimed in claim 4, wherein: the connecting and conducting mechanism (805) comprises a first guide rod (8051), a second guide rod (8052), double fixed guide wheels (8053), a guide wheel support rod (8054), a bidirectional connecting cross rod (8055), a groove connecting shaft (8056), a fixed limit bearing (8057), a fixed limit block (8058), an inclined clamping gear (8059), an isolation buffer plate (80510) and a groove movable lug (80511), the outer side of the front end of the fixed driving wheel (8034) is arranged at the upper end of the first guide rod (8051), the lower end of the first guide rod (8051) is movably connected to the upper end of the second guide rod (8052), the lower end of the second guide rod (8052) is mechanically connected to the left side of the front end of the double fixed guide wheels (8053), the front end and the rear end of the double fixed guide wheels (8053) are mechanically connected to the upper end of the guide wheel support rod (8054), the right side of the front end of the double fixed guide wheels (8053) is arranged at the left end of the bidirectional connecting cross rod (8055), the right end of the bidirectional connecting cross rod (8055) is movably connected to the left side of the groove connecting shaft (8056), the lower end of the groove connecting shaft (8056) is arranged at the upper end of the fixed limit bearing (8057), the lower ends of the fixed limit bearing (8057) and the guide wheel supporting rod (8054) are welded to the lower side of the inner wall of the supporting protective shell (804), the right side of the groove connecting shaft (8056) is movably connected to the left side of the groove movable bump (80511), the right end of the groove movable bump (80511) is welded to the left end of the isolation buffer plate (80510), the right end of the isolation buffer plate (80510) is arranged at the left end of the fixed limit block (8058), and the right side of the fixed limit block (8058) is mechanically connected to the left end of the bevel gear (8059).

6. A mixed feed preparation device as claimed in claim 1, wherein: the multi-wheel transmission mechanism (806) consists of a lower track connecting guide wheel (8061), a transmission latch track (8062), a latch supporting guide wheel (8063), an intermittent fixed wheel (8064), a rope connecting lug (8065), a rotary connecting guide wheel (8066), an intermittent lug (8067) and an upper track connecting guide wheel (8068), wherein the outer surface of the lower track connecting guide wheel (8061) is attached to the lower end of the inner wall of the transmission latch track (8062), the upper end of the inner wall of the transmission latch track (8062) is attached to the outer surface of the upper track connecting guide wheel (8068), the upper surface of the transmission latch track (8062) is engaged with the outer surface of the latch supporting guide wheel (8063), the front end of the latch supporting guide wheel (8063) is welded to the rear end of the intermittent lug (8067), the gap of the outer surface of the intermittent lug (8067) is matched with the inner wall of the intermittent fixed wheel (8064), and the right side of the intermittent fixed wheel (8064) is connected with the outer side of the front end of the rotary connecting guide wheel (8066), the upper end of the rotary connecting guide wheel (8066) is welded at the lower end of the rope connecting lug (8065), and the upper end of the rope connecting lug (8065) is mechanically connected to the left side of the upper end of the reciprocating connecting mechanism (810).

7. A mixed feed preparation device as claimed in claim 6, wherein: the reciprocating connecting mechanism (810) consists of a rotary groove block (8101), a central fixing shaft (8102), a bump connecting block (8103), a reciprocating connecting spring (8104), a damping buffer block (8105), a buffer fixing plate (8106), a first rope guide wheel (8107), a connecting guide rope (8108), a second rope guide wheel (8109) and a third rope guide wheel (81010), the upper end of the rope connecting bump (8065) is mechanically connected to the left side of the upper end of the connecting guide rope (8108), the lower side of the right end of the connecting guide rope (8108) is movably connected to the upper end of the rotary groove block (8101), the inner wall clearance of the rotary groove block (8101) is matched with the outer surface of the central fixing shaft (8102), the left end of the central fixing shaft (8102) is connected with the right side of the buffer fixing plate (8106) through the damping buffer block (8105), and the right end of the central fixing shaft (8102) is welded to the left side of the reciprocating connecting spring (8104), the right end of the reciprocating connection spring (8104) is installed at the upper end of the left side of the bump connecting block (8103), the lower end of the bump connecting block (8103) is welded at the upper end of the supporting and limiting bump (809), the outer surface of the first rope guide wheel (8107) and the outer surface of the second rope guide wheel (8109) are in clearance fit with the outer surface of the connecting guide rope (8108), and the outer surface of the third rope guide wheel (81010) is provided with the connecting guide rope (8108).

8. A mixed feed preparation device as claimed in claim 5, wherein: the left end of the upper groove wheel (80311) is welded at the right end of the bidirectional lug shaft lever (8024), and the right end of the oblique clamp gear (8059) is meshed with the lower side of the outer surface of the transmission clamp tooth crawler belt (8062).