CN108816149A - A kind of mixing and blending machine for Feed Manufacturing - Google Patents

Abstract

The invention discloses a kind of mixing and blending machines for Feed Manufacturing, its structure includes protection top cover, feed storage case, support post, discharging bell mouth, side lattice baffle, mixing discharge port, pedestal support rod, vibration mixing arrangement, micro discharging inspection socket, control control box, powered rotation machine, there are four support post is set and lower end is welded in the left and right ends of pedestal support rod, the upper mechanical of pedestal support rod is connected to the lower end of mixing discharge port, the left and right ends of mixing discharge port outer surface are installed in the inner wall of vibration mixing arrangement, beneficial effects of the present invention：By increasing vibration mixing arrangement in equipment, when equipment carries out the mixing operation of Feed Manufacturing, when stirring completion, when its feed is discharged, equipment can increase the vibration of discharge port according to the discharge of equipment in time, the mixability and discharging efficiency for increasing its feed, increase the mixed fodder efficiency of equipment and reduce the workload of staff.

Description

A kind of mixing and blending machine for Feed Manufacturing

Technical field

The present invention is a kind of mixing and blending machine for Feed Manufacturing, belongs to feed mixture manufacturing apparatus field.

Background technique

Dry blender：Stirring is dry to be synchronized:Since material is during being dried, flow regime is persistently kept, heat Uniformly, drying time is short and is not easy knot fastly for amount infiltration.

In the prior art, equipment, when being stirred completion, is raised when carrying out the mixing operation of Feed Manufacturing Material usually has feed that can remain on discharge port wall when being discharged or transferring out the external world, and can not discharge in time, and equipment without Method is voluntarily quickly shaken exclusion, is not only be easy to cause the waste of feed and is increased the efficiency of equipment feed mixing It is low, increase certain efforts amount of staff.

Summary of the invention

In view of the deficienciess of the prior art, it is an object of the present invention to provide a kind of mixing and blending machine for Feed Manufacturing, To solve in the prior art, equipment is when carrying out the mixing operation of Feed Manufacturing, when being stirred completion, by its feed When being discharged or transferring out the external world, usually there is feed that can remain on discharge port wall, and can not discharge in time, and equipment can not Exclusion is voluntarily quickly shaken, the waste of feed is not only be easy to cause and increases the low efficiency of equipment feed mixing, The problem of increasing certain efforts amount of staff.

To achieve the goals above, the present invention is to realize by the following technical solutions：It is a kind of for Feed Manufacturing Mixing and blending machine, structure include protection top cover, feed storage case, support post, discharging bell mouth, side lattice baffle, mixing Discharge port, pedestal support rod, vibration mixing arrangement, micro discharging inspection socket, control control box, powered rotation machine, the support There are four column is set and lower end is welded in the left and right ends of pedestal support rod, and the upper mechanical of the pedestal support rod is connected to mixed The lower end of discharge port is closed, the left and right ends of the mixing discharge port outer surface are installed in the inner wall of vibration mixing arrangement, the vibration There are two dynamic mixing arrangement is set and lower end is welded in the left and right sides of pedestal post upper, the upper end dress of the mixing discharge port Set on the lower end of side lattice baffle, the upper end of the side lattice baffle is welded in the lower end of discharging bell mouth, the funnel out The upper mechanical of mouth is connected to the lower end of feed storage case, and the upper center of the feed storage case is installed under protection top cover It holds, the upper mechanical on the right side of the feed storage case is connected to the upper end of powered rotation machine, the rear end dress of the control control box On the downside of the front end of feed storage case, the upper end of the support post is welded in four ends of protection top cover lower end, the discharging It is mechanically connected to the rear end of micro discharging inspection socket on the upside of the front end of bell mouth and is integrated, the vibration mixing arrangement Including induction control mechanism, connection transmission mechanism, guiding mechanism, support guard shield, connection conduction mechanism, multi-wheel transmission Mechanism, lower spring retainer block, lower compression spring, support limit convex block, reciprocal bindiny mechanism, upper spring limited block, upper pressure bullet The lower end of spring, induction supporting lug, the induction supporting lug is installed in the upper end of compression spring, the upper compression spring Lower mechanical is connected to the left side of upper spring limited block upper end, and the right end of the upper spring limited block is welded in support guard shield The right side of inner wall, right side of the outer surface of the induction supporting lug through support guard shield upper end, the induction support The right end of induction control mechanism is welded on the left of convex block, the lower end on the left of the induction control mechanism is meshed to be driven in connection The upper end of mechanism, it is described to connect the left side that guiding mechanism upper end is welded on the right side of transmission mechanism lower end, the guiding branch The lower end of support mechanism is movably connected on the upside of connection conduction mechanism left end, and the right end of the connection conduction mechanism is meshed in more The lower end of wheel drive mechanism, the upper end of the multiwheel gear is installed in the lower end on the left of reciprocal bindiny mechanism, described reciprocal The upper end of support limit convex block is welded on the downside of bindiny mechanism's right end, the left end of the support limit convex block is installed in lower pressure The right end of spring, the left side mechanical of the lower compression spring are connected to the right side of lower spring retainer block, the lower spring retainer block Lower end be welded in the downside of support guard shield inner wall, the outer surface of the support limit convex block is through support guard shield The downside of right end.

Significantly, the induction control mechanism by connection limited block, transmission latch plate, latch fifth wheel, latch support rod, It is bi-directionally connected belt, threaded support wheel, connection screw thread shaft composition, the left end of the induction supporting lug is welded in connection limit The right end of block, the left end of the connection limited block are installed in the downside of transmission latch plate right end, the left side of the transmission latch plate It being meshed in the right end of latch fifth wheel, the rear and front end of the latch fifth wheel is mechanically connected to the lower end of latch support rod, The upper end of the latch support rod is welded in the upside of support guard shield inner wall, the front end of the latch fifth wheel and screw thread branch The front end of support wheel is connected by being bi-directionally connected belt, is meshed on the outside of the threaded support wheel rear end in connection screw thread shaft Upper end, the lower end of the connection screw thread shaft be installed in connection transmission mechanism upper end.

Significantly, the connection transmission mechanism connects belt, No.1 latch wheel, two-way convex block by threaded support bar, three-dimensional Shaft, shaft Limit Bearing, No. two latch wheels, screw thread position-limited wheel composition, the lower end of the connection screw thread shaft is meshed in spiral shell The rear and front end in the outside of line position-limited wheel front end, the screw thread position-limited wheel is mechanically connected to the right end of threaded support bar, the spiral shell The front end of line position-limited wheel connects belt by three-dimensional and is connected with the front end of No.1 latch wheel with the front end of No. two latch wheels, described No.1 latch wheel is meshed in the upper end of two-way convex block shaft, the left end of the two-way convex block shaft with the lower end of No. two latch wheels It is mechanically connected to the right end of shaft Limit Bearing, the left end of the shaft Limit Bearing and threaded support bar is welded in support protection The left side of outer casing inner wall.

Significantly, the guiding mechanism is by cross bar fixing bearing, No.1 fixed transverse rod, left helical gear, fixed conveyor Wheel, vertical thread spindle, two-way latch wheel, right helical gear, No. two fixed transverse rods, recessed sheave, groove connecting band, fovea superior sheave group At the outer surface of the fovea superior sheave is connected with the outer surface of recessed sheave by groove connecting band, the recessed sheave Left end is welded in the right end of No. two fixed transverse rods, and the left end of No. two fixed transverse rods is installed in right helical gear right end, described Right helical gear outer surface is connected with left helical gear outer surface by two-way latch wheel, the helical gear left end installing in a left side It is mechanically connected to the right end of cross bar fixing bearing in the left end of the right end of No.1 fixed transverse rod, the No.1 fixed transverse rod, it is described The lower end of two-way latch wheel is welded in the upper end of vertical thread spindle, and the outer surface of the vertical thread spindle is meshed in fixed conveyor The outside of rear end is taken turns, the upside of connection conduction mechanism left end is installed on the outside of fixed conveyor wheel front end.

Significantly, the connection conduction mechanism is by No.1 guide rod, No. two guide rods, double stator rings, guide wheel support rod, two-way Connect cross bar, groove connecting shaft, fixed Limit Bearing, fixed limited block, oblique latch wheel, isolation buffer board, groove activity convex block It forms, the upper end of No.1 guide rod is installed on the outside of fixed conveyor wheel front end, the lower end of the No.1 guide rod is flexibly connected In the upper end of No. two guide rods, the lower mechanical of No. two guide rods is connected to the left side of double stator ring front ends, described double fixed The rear and front end of guide wheel is mechanically connected to the upper end of guide wheel support rod, is installed in two-way company on the right side of double stator ring front ends The left end of cross bar is connect, the right end for being bi-directionally connected cross bar is movably connected on the left side of groove connecting shaft, the groove connecting shaft Lower end be installed in the upper end of fixed Limit Bearing, it is anti-that the lower end of the fixed Limit Bearing and guide wheel support rod is welded in support The downside of outer casing inner wall is protected, the left side of groove activity convex block is movably connected on the right side of the groove connecting shaft, the groove is living The right end of dynamic convex block is welded in the left end of isolation buffer board, and the right end of the isolation buffer board is installed in a left side for fixed limited block End, the right side mechanical of the fixed limited block are connected to the left end of oblique latch wheel.

Significantly, the multiwheel gear by lower crawler belt connection guide wheel, transmission latch crawler belt, latch support guide wheel, It has a rest fast pulley, rope connection convex block, rotation connection guide wheel, interval convex block, upper crawler belt connection guide wheel composition, the lower crawler belt connection is led The outer surface of wheel is affixed the lower end together in transmission latch crawler belt inner wall, and the upper end of the transmission latch crawler belt inner wall is affixed together in upper Crawler belt connects the outer surface of guide wheel, and the upper surface of the transmission latch crawler belt is meshed in the outer surface of latch support guide wheel, institute The front end for stating latch support guide wheel is welded in the rear end of interval convex block, and the outer surface clearance fit of the interval convex block is solid in interval It is connected on the outside of the inner wall of fixed wheel, the right side of the interval fast pulley and rotation connection guide wheel front end, the rotation connection is led The upper end of wheel is welded in the lower end of rope connection convex block, and the upper mechanical of the rope connection convex block is connected to reciprocal bindiny mechanism upper end Left side.

Significantly, the reciprocal bindiny mechanism by turning groove block, central fixed shaft, convex block link block, back and forth connect bullet Spring, damping, buffering block, buffering fixed plate, No.1 rope guide wheel, connection conductor rope, No. two rope guide wheels, No. three rope guide wheel compositions, the rope The upper mechanical of connection convex block is connected to the left side of connection conductor rope upper end, is movably connected on and turns on the downside of the connection conductor rope right end The upper end of dynamic groove block, the inner wall clearance fit of the turning groove block in the outer surface of central fixed shaft, fix by the center The left end of axis is connected with the right side of buffering fixed plate by damping, buffering block, and the right end of the central fixed shaft is welded in back and forth The left side of connecting spring, the right end of the reciprocal connecting spring are installed in the upper end on the left of convex block link block, the convex block connection The lower end of block is welded in the upper end of support limit convex block, the outer surface clearance fit of the No.1 rope guide wheel and No. two rope guide wheels in The outer surface of conductor rope is connected, the outer surface of No. three rope guide wheels is equipped with connection conductor rope.

Significantly, the left end of the fovea superior sheave is welded in the right end of two-way convex block shaft, the right end of the oblique latch wheel It is meshed in the downside of transmission latch track outer surface.

Significantly, the outside of the rotation connection guide wheel front end is equipped with convex block, between can be used between interval fast pulley Gap transmission.

Beneficial effect

A kind of mixing and blending machine for Feed Manufacturing of the present invention, when carrying out operation, staff should be first according to needed for Proportion carries out the proportion of feed, and places it in feed storage case, turns to turn on the power from control on control control box Motivation enables its powered rotation machine quick rotation, so that the mixing that the equipment in drive and feed storage case carries out feed is stirred It mixes, and is stirring after a certain period of time, staff can check that its feed mixes quality, is mixing from micro discharging inspection socket When stirring is completed, staff can control equipment for its feed from mixing discharge port discharge from control control box, and in feed When discharge, feed will be such that its induction supporting lug moves downward, and transmission latch plate is driven under the action of connecting limited block It moves downward, so that so that it is driven latch strip moves the rotation of latch fifth wheel, and under the action of being bi-directionally connected belt, screw thread branch Support wheel will will drive the rotation of its screw thread position-limited wheel with connection screw thread shaft, to make it in the case where the connection of three-dimensional connection belt drives No.1 latch wheel and No. two latch wheels drive two-way convex block shaft to rotate, to connect under the action of fovea superior sheave, and in groove Under the action of tape splicing, its lower groove wheel is made to drive No. two fixed transverse rod rotations, to keep its two-way under right helical gear drive Latch wheel can under left helical gear limit braking normal rotation, and under the rotation of two-way latch wheel, vertical thread spindle general Meeting normal rotation, and fixed conveyor wheel is driven to rotate, so that its double fixation be made to lead under No.1 guide rod and the drive of No. two guide rods Wheel rotation, and finally allow its groove connecting shaft that oblique latch wheel can be driven to rotate, to connect in lower crawler belt connection guide wheel and upper crawler belt Under the action of connecing guide wheel, it is made to be driven the rotation of latch crawler belt, makes its latch support guide wheel that its interval convex block be driven to rotate, and allow it Interval fast pulley interval drives rotation connection guide wheel rotation, to drive connection conductor rope along No.1 rope guide wheel and No. two rope guide wheels It pulls its turning groove block to rotate with No. three rope guide wheels, finally under the action of central fixed shaft, drives its convex block link block Support limit convex block moves right, and vibrates there are two mixing arrangement sets, it can be made to mix discharge port or so and vibrated back and forth, from And it is capable of the immixture of further progress feed：By increasing vibration mixing arrangement in equipment, feed is carried out in equipment When the mixing operation of production, when stirring completion, when its feed is discharged, equipment can be in time according to the row of equipment Put increase discharge port vibration, increase its feed mixability and discharging efficiency, increase the mixed fodder efficiency of equipment and Reduce the workload of staff.

Detailed description of the invention

Upon reading the detailed description of non-limiting embodiments with reference to the following drawings, other feature of the invention, Objects and advantages will become more apparent upon：

Fig. 1 is a kind of structural schematic diagram of the mixing and blending machine for Feed Manufacturing of the present invention.

Fig. 2 is a kind of structural schematic diagram one of the vibration mixing arrangement of mixing and blending machine for Feed Manufacturing of the present invention.

Fig. 3 is a kind of structural schematic diagram two of the vibration mixing arrangement of mixing and blending machine for Feed Manufacturing of the present invention.

In figure：It protects top cover -1, feed storage case -2, support post -3, discharging bell mouth -4, side lattice baffle -5, mix Discharge port -6, pedestal support rod -7, vibration mixing arrangement -8, micro discharging inspection socket -9, control control box -10, power is closed to turn Motivation -11, induction control mechanism -801, connection transmission mechanism -802, guiding mechanism -803, support guard shield -804, It is convex to connect conduction mechanism -805, multiwheel gear -806, lower spring retainer block -807, lower compression spring -808, support limit Block -809, reciprocal bindiny mechanism -810, upper spring limited block -811, upper compression spring -812, induction supporting lug -813, connection Limited block -8011, latch fifth wheel -8013, latch support rod -8014, is bi-directionally connected belt-at transmission latch plate -8012 8015, threaded support wheel -8016, connection screw thread shaft -8017, threaded support bar -8021, three-dimensional connect belt -8022, No.1 Latch wheel -8023, two-way convex block shaft -8024, shaft Limit Bearing -8025, No. two latch wheels -8026, screw thread position-limited wheels - 8027, cross bar fixing bearing -8031, No.1 fixed transverse rod -8032, left helical gear -8033, fixed conveyor wheel -8034, vertical spiral shell Line axis -8035, two-way latch wheel -8036, right helical gear -8037, No. two fixed transverse rods -8038, recessed sheave -8039, groove Connecting band -80310, fovea superior sheave -80311, No.1 guide rod -8051, No. two guide rods -8052, double stator rings -8053, guide wheel Support rod -8054 is bi-directionally connected cross bar -8055, groove connecting shaft -8056, fixed Limit Bearing -8057, fixed limited block - 8058, oblique latch wheel -8059, isolation buffer board -80510, groove activity convex block -80511, lower crawler belt connection guide wheel -8061, biography Dynamic latch crawler belt -8062, latch support guide wheel -8063, interval fast pulley -8064, rope connection convex block -8065, rotation connection are led It is wheel -8066, interval convex block -8067, upper crawler belt connection guide wheel -8068, turning groove block -8101, central fixed shaft -8102, convex Block link block -8103, reciprocal connecting spring -8104, damping, buffering block -8105, buffering fixed plate -8106, No.1 rope guide wheel - 8107, -8109, No. three conductor rope -8108, No. two rope guide wheels rope guide wheels -81010 are connected.

Specific embodiment

To be easy to understand the technical means, the creative features, the aims and the efficiencies achieved by the present invention, below with reference to Specific embodiment, the present invention is further explained.

It please refers to Fig.1 to Fig.3, the present invention provides a kind of mixing and blending machine for Feed Manufacturing：Its structure includes protection Top cover 1, feed storage case 2, support post 3, discharging bell mouth 4, side lattice baffle 5, mixing discharge port 6, pedestal support rod 7, It vibrates mixing arrangement 8, micro discharging inspection socket 9, control control box 10, powered rotation machine 11, there are four the support post 3 is set And lower end is welded in the left and right ends of pedestal support rod 7, the upper mechanical of the pedestal support rod 7 is connected to mixing discharge port 6 Lower end, the left and right ends of mixing 6 outer surface of discharge port are installed in the inner wall of vibration mixing arrangement 8, and the vibration mixes There are two device 8 is set and lower end is welded in the left and right sides of 7 upper end of pedestal support rod, the upper end installing of the mixing discharge port 6 In the lower end of side lattice baffle 5, the upper end of the side lattice baffle 5 is welded in the lower end of discharging bell mouth 4, the funnel out The upper mechanical of mouth 4 is connected to the lower end of feed storage case 2, and the upper center of the feed storage case 2 is installed in protection top cover 1 Lower end, the upper mechanical on 2 right side of the feed storage case is connected to the upper end of powered rotation machine 11, the control control box 10 Rear end be installed on the downside of the front end of feed storage case 2, the upper end of the support post 3 is welded in the four of protection 1 lower end of top cover End, the front end upside of the discharging bell mouth 4 are mechanically connected to the rear end of micro discharging inspection socket 9 and are integrated, institute Vibration mixing arrangement 8 is stated to include induction control mechanism 801, connection transmission mechanism 802, guiding mechanism 803, support protection outer Shell 804, connection conduction mechanism 805, multiwheel gear 806, lower spring retainer block 807, lower compression spring 808, support limit Convex block 809, reciprocal bindiny mechanism 810, upper spring limited block 811, upper compression spring 812, induction supporting lug 813, the sense The lower end of supporting lug 813 is answered to be installed in the upper end of compression spring 812, the lower mechanical connection of the upper compression spring 812 In the left side of 811 upper end of upper spring limited block, the right end of the upper spring limited block 811 is welded in support guard shield 804 The right side of wall, right side of the outer surface of the induction supporting lug 813 through support 804 upper end of guard shield, the induction The left side of supporting lug 813 is welded in the right end of induction control mechanism 801, the lower end phase in 801 left side of induction control mechanism It is engaged in the upper end of connection transmission mechanism 802, is welded in guiding mechanism on the right side of 802 lower end of connection transmission mechanism The left side of 803 upper ends, the lower end of the guiding mechanism 803 are movably connected on the upside of connection 805 left end of conduction mechanism, institute The right end for stating connection conduction mechanism 805 is meshed in the lower end of multiwheel gear 806, the multiwheel gear 806 it is upper End is installed in the lower end in reciprocal 810 left side of bindiny mechanism, is welded in support limit on the downside of reciprocal 810 right end of bindiny mechanism The upper end of convex block 809, the left end of the support limit convex block 809 are installed in the right end of lower compression spring 808, the lower pressure bullet The left side mechanical of spring 808 is connected to the right side of lower spring retainer block 807, and the lower end of the lower spring retainer block 807 is welded in branch Support the downside of 804 inner wall of guard shield, the outer surface of the support limit convex block 809 is through support 804 right end of guard shield Downside, the induction control mechanism 801 by connection limited block 8011, transmission latch plate 8012, latch fifth wheel 8013, latch Support rod 8014 is bi-directionally connected belt 8015, threaded support wheel 8016, the composition of connection screw thread shaft 8017, the induction support The left end of convex block 813 is welded in the right end of connection limited block 8011, and the left end of the connection limited block 8011 is installed in transmission card The left side of the downside of 8012 right end of tooth plate, the transmission latch plate 8012 is meshed in the right end of latch fifth wheel 8013, described The rear and front end of latch fifth wheel 8013 is mechanically connected to the lower end of latch support rod 8014, the latch support rod 8014 it is upper End is welded in the upside of support 804 inner wall of guard shield, front end and the threaded support wheel 8016 of the latch fifth wheel 8013 Front end is connected by being bi-directionally connected belt 8015, is meshed on the outside of 8016 rear end of threaded support wheel in connection screw thread axis The upper end of bar 8017, the lower end of the connection screw thread shaft 8017 are installed in the upper end of connection transmission mechanism 802, and the connection passes Motivation structure 802 connects belt 8022, No.1 latch wheel 8023, two-way convex block shaft 8024, axis by threaded support bar 8021, three-dimensional 8025, No. two latch wheels 8026 of bar Limit Bearing, screw thread position-limited wheel 8027 form, the lower end phase of the connection screw thread shaft 8017 It is engaged in the outside of 8027 front end of screw thread position-limited wheel, the rear and front end of the screw thread position-limited wheel 8027 is mechanically connected to threaded support The right end of bar 8021, before the front end of the screw thread position-limited wheel 8027 connects belt 8022 and No.1 latch wheel 8023 by three-dimensional End is connected with the front end of No. two latch wheels 8026, and the No.1 latch wheel 8023 is meshed with the lower end of No. two latch wheels 8026 Shaft Limit Bearing 8025 is mechanically connected in the left end of the upper end of two-way convex block shaft 8024, the two-way convex block shaft 8024 Right end, the left end of the shaft Limit Bearing 8025 and threaded support bar 8021 is welded in support 804 inner wall of guard shield Left side, the guiding mechanism 803 is by cross bar fixing bearing 8031, No.1 fixed transverse rod 8032, left helical gear 8033, fixation Driving wheel 8034, vertical thread spindle 8035, two-way latch wheel 8036, right helical gear 8037, No. two fixed transverse rods 8038, lower groove Wheel 8039, groove connecting band 80310, fovea superior sheave 80311 form, the outer surface of the fovea superior sheave 80311 and recessed sheave 8039 outer surface is connected by groove connecting band 80310, and the left end of the recessed sheave 8039 is welded in No. two fixed cross The right end of bar 8038, the left end of No. two fixed transverse rods 8038 are installed in the right end of right helical gear 8037, the right helical gear 8037 outer surface is connected with the outer surface of left helical gear 8033 by two-way latch wheel 8036, the left helical gear 8033 Left end is installed in the right end of No.1 fixed transverse rod 8032, and the left end of the No.1 fixed transverse rod 8032 is mechanically connected to cross bar and fixes The lower end of the right end of bearing 8031, the two-way latch wheel 8036 is welded in the upper end of vertical thread spindle 8035, the vertical spiral shell The outer surface of line axis 8035 is meshed in the outside of 8034 rear end of fixed conveyor wheel, the outside of 8034 front end of fixed conveyor wheel It is installed in the upside of connection 805 left end of conduction mechanism, the connection conduction mechanism 805 is by 8051, No. two guide rods of No.1 guide rod 8052, double stator rings 8053, guide wheel support rod 8054, be bi-directionally connected cross bar 8055, groove connecting shaft 8056, fixed limit shaft 8057, fixed limited block 8058, oblique latch wheel 8059, isolation buffer board 80510, groove activity convex block 80511 is held to form, it is described The upper end of No.1 guide rod 8051 is installed on the outside of 8034 front end of fixed conveyor wheel, the lower end activity of the No.1 guide rod 8051 connects It is connected to the upper end of No. two guide rods 8052, the lower mechanical of No. two guide rods 8052 is connected to a left side for double 8053 front ends of stator ring The rear and front end of side, double stator rings 8053 is mechanically connected to the upper end of guide wheel support rod 8054, double stator rings The left end for being bi-directionally connected cross bar 8055 is installed on the right side of 8053 front ends, the right end for being bi-directionally connected cross bar 8055 is flexibly connected In the left side of groove connecting shaft 8056, the lower end of the groove connecting shaft 8056 is installed in the upper end of fixed Limit Bearing 8057, The fixed Limit Bearing 8057 is welded in the downside of support 804 inner wall of guard shield, institute with the lower end of guide wheel support rod 8054 The right side for stating groove connecting shaft 8056 is movably connected on the left side of groove activity convex block 80511, the groove activity convex block 80511 Right end be welded in isolation buffer board 80510 left end, it is described isolation buffer board 80510 right end be installed in fixed limited block The right side mechanical of 8058 left end, the fixed limited block 8058 is connected to the left end of oblique latch wheel 8059, the multi-wheel transmission Mechanism 806 by lower crawler belt connection guide wheel 8061, transmission latch crawler belt 8062, latch support guide wheel 8063, interval fast pulley 8064, Rope connection convex block 8065, rotation connection guide wheel 8066, interval convex block 8067, upper crawler belt connection guide wheel 8068 form, the lower shoe The outer surface of band connection guide wheel 8061 is affixed the lower end together in transmission 8062 inner wall of latch crawler belt, the transmission latch crawler belt 8062 The upper end of inner wall is affixed the outer surface together in upper crawler belt connection guide wheel 8068, and the upper surface of the transmission latch crawler belt 8062 is mutually nibbled Together in the outer surface of latch support guide wheel 8063, after the front end of the latch support guide wheel 8063 is welded in interval convex block 8067 End, the outer surface clearance fit of the interval convex block 8067 is in the inner wall of interval fast pulley 8064, the interval fast pulley 8064 Right side and rotation connection 8066 front end of guide wheel on the outside of be connected, it is described rotation connection guide wheel 8066 upper end be welded in rope connect The lower end of convex block 8065 is connect, the upper mechanical of the rope connection convex block 8065 is connected to the left side of reciprocal 810 upper end of bindiny mechanism, The reciprocal bindiny mechanism 810 by turning groove block 8101, central fixed shaft 8102, convex block link block 8103, back and forth connect bullet Spring 8104, damping, buffering block 8105, buffering fixed plate 8106, No.1 rope guide wheel 8107, connection 8108, No. two rope guide wheels of conductor rope 8109, No. three rope guide wheels 81010 form, and the upper mechanical of the rope connection convex block 8065 is connected to connection 8108 upper end of conductor rope Left side, it is described to connect the upper end that turning groove block 8101 is movably connected on the downside of 8108 right end of conductor rope, the turning groove block 8101 inner wall clearance fit is fixed in the outer surface of central fixed shaft 8102, the left end of the central fixed shaft 8102 and buffering The right side of plate 8106 is connected by damping, buffering block 8105, and the right end of the central fixed shaft 8102 is welded in reciprocal connection bullet The left side of spring 8104, the right end of the reciprocal connecting spring 8104 is installed in the upper end in 8103 left side of convex block link block, described convex The lower end of block link block 8103 is welded in the upper end of support limit convex block 809, the No.1 rope guide wheel 8107 and No. two rope guide wheels In the outer surface of connection conductor rope 8108, the outer surface of No. three rope guide wheels 81010 is equipped with to be connected 8109 outer surface clearance fit Conductor rope 8108 is connect, the left end of the fovea superior sheave 80311 is welded in the right end of two-way convex block shaft 8024, the oblique latch wheel 8059 right end is meshed in the downside of transmission 8062 outer surface of latch crawler belt, the outside of rotation connection 8066 front end of guide wheel Equipped with convex block, it can be used for the gap transmission between interval fast pulley 8064.

Powered rotation machine 11 described in this patent is that one kind can be interior the machine that can be converted into mechanical energy of other forms Combustion engine is usually that chemical energy is converted into mechanical energy.Engine is not only suitable for power generating apparatus, also can refer to include power device Entire machine.

In the manufacturing operation of feed, it is often necessary to its feed be carried out mixing operation, thus can Feed is suitably matched, so that the nursing of livestock-raising is more advantageous to, at this point, will need to carry out Feed Manufacturing using equipment Mixing operation, and when carrying out using equipment, staff should first confirm and check that the mixing for Feed Manufacturing is stirred Mix machine whether can normal use, and check and whether confirmation vibration mixing arrangement 8 damages, can after confirming equal no problem Normally to use this equipment to carry out the mixing operation of Feed Manufacturing, and when carrying out operation, staff answers first basis Required proportion carries out the proportion of feed, and places it in feed storage case 2, opens to control from control control box 10 Powered rotation machine 11 enables its 11 quick rotation of powered rotation machine, so that the equipment in drive and feed storage case 2 is raised The mixing of material, and stirring after a certain period of time, staff can check that its feed mixes from micro discharging inspection socket 9 Quality, be mixed complete when, staff can from control control box 10 on control equipment by its feed from mixing discharge port 6 Discharge, and in feed discharge, feed will be such that its induction supporting lug 813 moves downward, and in connection limited block 8011 Effect is lower to drive transmission latch plate 8012 to move downward, so that so that it is driven latch plate 8012 drives 8013 turns of latch fifth wheel It is dynamic, and under the action of being bi-directionally connected belt 8015, threaded support wheel 8016 and connection screw thread shaft 8017 will will drive its spiral shell Line position-limited wheel 8027 rotates, to make its No.1 latch wheel 8023 and No. two cards in the case where the connection of three-dimensional connection belt 8022 drives Gear 8026 drives two-way convex block shaft 8024 to rotate, thus under the action of fovea superior sheave 80311, and in groove connecting band Under the action of 80310, make its recessed sheave 8039 that No. two fixed transverse rods 8038 be driven to rotate, thus in the band of right helical gear 8037 Under dynamic, enable its two-way latch wheel 8036 normal rotation under the limit braking of left helical gear 8033, and in two-way latch wheel Under 8036 rotation, vertical thread spindle 8035 will normal rotation, and drive fixed conveyor wheel 8034 rotate, to be led in No.1 It rotates its double stator ring 8053 under the drive of bar 8051 and No. two guide rods 8052, and finally allows its 8056 energy of groove connecting shaft Oblique latch wheel 8059 is driven to rotate, to make under the action of lower crawler belt connection guide wheel 8061 connect guide wheel 8068 with upper crawler belt It is driven latch crawler belt 8062 and rotates, and so that its latch support guide wheel 8063 is driven the rotation of its interval convex block 8067, and allow its interval Fast pulley 8064 intermittently drives rotation connection guide wheel 8066 to rotate, to drive connection conductor rope 8108 along No.1 rope guide wheel 8107 The rotation of its turning groove block 8101 is pulled with No. two rope guide wheels 8109 and No. three rope guide wheels 81010, finally in central fixed shaft Under the action of 8102, make its convex block link block 8103 that support limit convex block 809 be driven to move right, and vibrates mixing arrangement 8 and set There are two, it can be made to mix discharge port 6 or so and vibrated back and forth, so as to the immixture of further progress feed.

In the prior art, equipment is carrying out problems solved by the invention when carrying out the mixing operation of Feed Manufacturing When stirring is completed, when being discharged by its feed or transfer out the external world, usually there is feed that can remain on discharge port wall, and can not Discharge in time, and equipment voluntarily can not quickly be shaken exclusion, not only be easy to cause the waste of feed and increased equipment feeding Expect the low efficiency being mixed, increases certain efforts amount of staff, the present invention pass through above-mentioned component mutual group It closes, by increasing vibration mixing arrangement in equipment, when equipment carries out the mixing operation of Feed Manufacturing, is stirring Cheng Shi, when its feed is discharged, equipment can increase the vibration of discharge port according to the discharge of equipment in time, increase its feed Mixability and discharging efficiency, increase the mixed fodder efficiency of equipment and reduce the workload of staff.

Above only describes basic principle of the invention and preferred embodiment, those skilled in the art can be according to foregoing description Many changes may be made and improves, and these changes and improvements should be within the scope of protection of the invention.

In addition, it should be understood that although this specification is described in terms of embodiments, but not each embodiment is only wrapped Containing an independent technical solution, this description of the specification is merely for the sake of clarity, and those skilled in the art should It considers the specification as a whole, the technical solutions in the various embodiments may also be suitably combined, forms those skilled in the art The other embodiments being understood that.

Claims (8)

1. a kind of mixing and blending machine for Feed Manufacturing, structure includes protection top cover (1), feed storage case (2), supports and stand Column (3), discharging bell mouth (4), side lattice baffle (5), mixing discharge port (6), pedestal support rod (7), vibration mixing arrangement (8), micro discharging inspection socket (9), control control box (10), powered rotation machine (11), it is characterised in that：

There are four the support post (3) sets and lower end is welded in the left and right ends of pedestal support rod (7), the pedestal support rod (7) upper mechanical is connected to the lower end of mixing discharge port (6), the left and right ends installing of described mixing discharge port (6) outer surface In vibration mixing arrangement (8) inner wall, the vibration mixing arrangement (8) set there are two and lower end be welded in pedestal support rod (7) The left and right sides of upper end, the upper end of mixing discharge port (6) are installed in the lower end of side lattice baffle (5), the side lattice gear The upper end of plate (5) is welded in the lower end of discharging bell mouth (4), and the upper mechanical of discharging bell mouth (4) is connected to feed storage The lower end of case (2) is deposited, the upper center of the feed storage case (2) is installed in the lower end of protection top cover (1), the feed storage Upper mechanical on the right side of case (2) is connected to the upper end of powered rotation machine (11), and the rear end of control control box (10) is installed in On the downside of the front end of feed storage case (2), the upper end of the support post (3) is welded in four ends of protection top cover (1) lower end, described It is mechanically connected to the rear end of micro discharging inspection socket (9) on the upside of the front end of discharging bell mouth (4) and is integrated；

The vibration mixing arrangement (8) includes induction control mechanism (801), connection transmission mechanism (802), guiding mechanism (803), guard shield (804), connection conduction mechanism (805), multiwheel gear (806), lower spring retainer block are supported (807), lower compression spring (808), support limit convex block (809), reciprocal bindiny mechanism (810), upper spring limited block (811), Upper compression spring (812), induction supporting lug (813)；

The lower end of induction supporting lug (813) is installed in the upper end of compression spring (812), the upper compression spring (812) lower mechanical is connected to the left side of upper spring limited block (811) upper end, the right end of the upper spring limited block (811) It is welded in the right side of support guard shield (804) inner wall, the outer surface of induction supporting lug (813) is protected through support The right side of shell (804) upper end, it is described to incude the right end that induction control mechanism (801) is welded on the left of supporting lug (813), Lower end on the left of induction control mechanism (801) is meshed in the upper end of connection transmission mechanism (802), the connection driver The left side of guiding mechanism (803) upper end is welded on the right side of structure (802) lower end, under the guiding mechanism (803) End is movably connected on the upside of connection conduction mechanism (805) left end, and the right end of connection conduction mechanism (805) is meshed in more The lower end of wheel drive mechanism (806), the upper end of the multiwheel gear (806) are installed on the left of reciprocal bindiny mechanism (810) Lower end, the upper end of support limit convex block (809), the support are welded on the downside of reciprocal bindiny mechanism (810) right end The left end of spacing block set (809) is installed in the right end of lower compression spring (808), the left side mechanical of the lower compression spring (808) It is connected to the right side of lower spring retainer block (807), the lower end of the lower spring retainer block (807) is welded in support guard shield (804) downside of inner wall, the outer surface of the support limit convex block (809) is through under support guard shield (804) right end Side.

2. a kind of mixing and blending machine for Feed Manufacturing as described in claim 1, it is characterised in that：The induction control machine Structure (801) by connection limited block (8011), transmission latch plate (8012), latch fifth wheel (8013), latch support rod (8014), It is bi-directionally connected belt (8015), threaded support wheel (8016), connection screw thread shaft (8017) composition, the induction supporting lug (813) left end is welded in the right end of connection limited block (8011), and the left end of connection limited block (8011) is installed in transmission The downside of latch plate (8012) right end is meshed in the right side of latch fifth wheel (8013) on the left of the transmission latch plate (8012) End, the rear and front end of the latch fifth wheel (8013) is mechanically connected to the lower end of latch support rod (8014), the latch branch The upper end of strut (8014) is welded in the upside of support guard shield (804) inner wall, the front end of the latch fifth wheel (8013) It is connected with the front end of threaded support wheel (8016) by being bi-directionally connected belt (8015), threaded support wheel (8016) rear end Outside be meshed in the upper end of connection screw thread shaft (8017), the lower end of the connection screw thread shaft (8017) is installed in connection The upper end of transmission mechanism (802).

3. a kind of mixing and blending machine for Feed Manufacturing as claimed in claim 1 or 2, it is characterised in that：The connection passes Motivation structure (802) connects belt (8022), No.1 latch wheel (8023), two-way convex block axis by threaded support bar (8021), three-dimensional Bar (8024), shaft Limit Bearing (8025), No. two latch wheels (8026), screw thread position-limited wheel (8027) composition, the connection spiral shell The lower end of line shaft (8017) is meshed before the outside of screw thread position-limited wheel (8027) front end, the screw thread position-limited wheel (8027) Both ends are mechanically connected to the right end of threaded support bar (8021) afterwards, and the front end of the screw thread position-limited wheel (8027) is connected by three-dimensional Belt (8022) is connected with the front end of No.1 latch wheel (8023) with the front end of No. two latch wheels (8026), the No.1 latch Wheel (8023) is meshed in the upper end of two-way convex block shaft (8024), the two-way convex block with the lower end of No. two latch wheels (8026) The left end of shaft (8024) is mechanically connected to the right end of shaft Limit Bearing (8025), the shaft Limit Bearing (8025) and spiral shell The left end of line support rod (8021) is welded in the left side of support guard shield (804) inner wall.

4. a kind of mixing and blending machine for Feed Manufacturing as described in claim 1, it is characterised in that：The guide support machine Structure (803) is by cross bar fixing bearing (8031), No.1 fixed transverse rod (8032), left helical gear (8033), fixed conveyor wheel (8034), vertical thread spindle (8035), two-way latch wheel (8036), right helical gear (8037), No. two fixed transverse rods (8038), under Drop center wheel (8039), groove connecting band (80310), fovea superior sheave (80311) composition, the appearance of the fovea superior sheave (80311) Face is connected with the outer surface of recessed sheave (8039) by groove connecting band (80310), a left side for the recessed sheave (8039) End is welded in the right end of No. two fixed transverse rods (8038), and the left end of No. two fixed transverse rods (8038) is installed in right helical gear (8037) right end, the outer surface of the right helical gear (8037) and the outer surface of left helical gear (8033) pass through two-way latch wheel (8036) it is connected, the left end of the left helical gear (8033) is installed in the right end of No.1 fixed transverse rod (8032), the No.1 The left end of fixed transverse rod (8032) is mechanically connected to the right end of cross bar fixing bearing (8031), the two-way latch wheel (8036) Lower end is welded in the upper end of vertical thread spindle (8035), and the outer surface of the vertical thread spindle (8035) is meshed in fixed conveyor The outside of (8034) rear end is taken turns, connection conduction mechanism (805) left end is installed on the outside of fixed conveyor wheel (8034) front end Upside.

5. a kind of mixing and blending machine for Feed Manufacturing as described in claim 1 or 4, it is characterised in that：The connection passes Lead mechanism (805) by No.1 guide rod (8051), No. two guide rods (8052), double stator rings (8053), guide wheel support rod (8054), It is bi-directionally connected cross bar (8055), groove connecting shaft (8056), fixed Limit Bearing (8057), fixed limited block (8058), tiltedly card Gear (8059), isolation buffer board (80510), groove activity convex block (80511) composition, fixed conveyor wheel (8034) front end Outside be installed in the upper ends of No.1 guide rod (8051), the lower end of the No.1 guide rod (8051) is movably connected on No. two guide rods (8052) upper end, the lower mechanical of No. two guide rods (8052) are connected to the left side of double stator ring (8053) front ends, institute The rear and front end for stating double stator rings (8053) is mechanically connected to the upper end of guide wheel support rod (8054), double stator rings (8053) left end for being bi-directionally connected cross bar (8055) is installed on the right side of front end, the right end for being bi-directionally connected cross bar (8055) is living The dynamic left side for being connected to groove connecting shaft (8056), the lower end of the groove connecting shaft (8056) is installed in fixed Limit Bearing (8057) upper end, the fixed Limit Bearing (8057) and the lower end of guide wheel support rod (8054) are welded in support guard shield (804) downside of inner wall is movably connected on a left side for groove activity convex block (80511) on the right side of the groove connecting shaft (8056) Side, the right end of the groove activity convex block (80511) are welded in the left end of isolation buffer board (80510), the isolation buffer board (80510) right end is installed in the left end of fixed limited block (8058), the right side mechanical connection of the fixed limited block (8058) In the left end of oblique latch wheel (8059).

6. a kind of mixing and blending machine for Feed Manufacturing as described in claim 1, it is characterised in that：The multi-wheel transmission machine Structure (806) is fixed by lower crawler belt connection guide wheel (8061), transmission latch crawler belt (8062), latch support guide wheel (8063), interval Take turns (8064), rope connection convex block (8065), rotation connection guide wheel (8066), interval convex block (8067), upper crawler belt connection guide wheel (8068) it forms, the outer surface of lower crawler belt connection guide wheel (8061) is affixed together under transmission latch crawler belt (8062) inner wall End, the upper end of described transmission latch crawler belt (8062) inner wall is affixed the outer surface together in upper crawler belt connection guide wheel (8068), described The upper surface of transmission latch crawler belt (8062) is meshed in the outer surface of latch support guide wheel (8063), and the latch supports guide wheel (8063) front end is welded in the rear end of interval convex block (8067), the outer surface clearance fit of the interval convex block (8067) in It has a rest the inner walls of fast pulley (8064), the right side of the interval fast pulley (8064) and the outside of rotation connection guide wheel (8066) front end It is connected, the upper end of rotation connection guide wheel (8066) is welded in the lower end of rope connection convex block (8065), and the rope connection is convex The upper mechanical of block (8065) is connected to the left side of reciprocal bindiny mechanism (810) upper end.

7. a kind of mixing and blending machine for Feed Manufacturing as described in claim 1 or 6, it is characterised in that：It is described past multiply-connected Connection mechanism (810) is by turning groove block (8101), central fixed shaft (8102), convex block link block (8103), reciprocal connecting spring (8104), damping, buffering block (8105), buffering fixed plate (8106), No.1 rope guide wheel (8107), connection conductor rope (8108), No. two It restricts guide wheel (8109), No. three rope guide wheel (81010) compositions, the upper mechanical of rope connection convex block (8065) is connected to connection and leads It restricts the left side of (8108) upper end, is movably connected on the upper of turning groove block (8101) on the downside of described connection conductor rope (8108) right end End, the inner wall clearance fit of the turning groove block (8101) in the outer surface of central fixed shaft (8102), fix by the center The left end of axis (8102) is connected with the right side of buffering fixed plate (8106) by damping, buffering block (8105), and the center is fixed The right end of axis (8102) is welded in the left side of reciprocal connecting spring (8104), the right end installing of the reciprocal connecting spring (8104) The lower end of upper end on the left of convex block link block (8103), the convex block link block (8103) is welded in support limit convex block (809) upper end, the No.1 rope guide wheel (8107) and the outer surface clearance fit of No. two rope guide wheels (8109) are in connecting conductor rope (8108) outer surface of outer surface, No. three rope guide wheels (81010) is equipped with connection conductor rope (8108).

8. a kind of mixing and blending machine for Feed Manufacturing as described in claim 1, it is characterised in that：The fovea superior sheave (80311) left end is welded in the right end of two-way convex block shaft (8024), the right end of the oblique latch wheel (8059) be meshed in It is driven the downside of latch crawler belt (8062) outer surface.