CN111453465B - Accurate proportioning equipment of feed ingredient - Google Patents

Abstract

The invention relates to the field of feed raw material proportioning, in particular to feed raw material accurate proportioning equipment which comprises a rotary driving cabinet, a rotary frame, a stirring mechanism, a weighing mechanism, an opening and closing control mechanism, a stirring box, a plurality of water material cylinders and hard material cylinders, wherein a gate component is arranged at the bottom of the weighing mechanism, a transparent plate is arranged on the stirring box, a display screen is arranged on the stirring box, and a controller is arranged on the stirring box. Greatly reduces the manufacturing cost of the equipment and is beneficial to the popularization and the application of the equipment.

Description

Accurate proportioning equipment of feed ingredient

Technical Field

The invention relates to the field of feed raw material proportioning, in particular to feed raw material accurate proportioning equipment.

Background

Farmers often need to buy large quantities of feed raw materials and then mix the large quantities of feed raw materials in proportion to be put into use, the existing feed proportion teaching method usually adopts manual guidance, feed proportion sequence and proportion are demonstrated by workers, or the farmers refer to specifications to learn how to proportion feed, and the workers need to try and grope for many times through the self-learning method of the farmers, the process is too complicated and uncomfortable, and the workers demonstrate the feed.

Chinese patent application No.: CN 201811064245.5; the invention discloses a preparation device for processing feed capable of realizing accurate proportioning, which has the beneficial effects that: through the hydraulic pressure push rod that sets up, the last fixed mounting's of hydraulic pressure push rod sealed piece, thereby realized through hydraulic pressure push rod promote sealed piece reciprocate in the graduated flask with the graduated flask on the volume that inlayed measure tape cooperate and change the graduated flask, and then realized changing the volume that can store of graduated flask according to the volume of required material and liquid of adding, thereby realized the accurate control to adding material and liquid, discharging pipe through intercommunication on the graduated flask, thereby realized treating to promote sealed piece through hydraulic pressure push rod after full storage in the graduated flask and upwards remove and push the raw materials in the agitator tank through the discharging pipe and stir processing, made things convenient for preparation facilities for the feed processing to reach the purpose that can accurate ratio.

Chinese patent application No.: CN 201910975140.3; the invention discloses a feed processing batching device capable of accurately proportioning and a use method thereof, which can accurately feed, effectively prevent a storage hopper from being blocked and facilitate raw materials to smoothly fall into the weighing hopper; when the pressure sensor detects that the raw materials in the weighing hopper reach a set value, the controller controls the first electromagnetic valve to be closed and controls the second electromagnetic valve to be opened, so that the raw materials fall into the feed processing mechanism, and the purpose of accurate feeding is achieved; various raw materials can be placed in a classified manner at one time through a plurality of material storage spaces; when the first electromagnetic valve is opened, the control cylinder is started to drive the second rectangular transverse plate and the storage hopper to vibrate up and down, and the raw materials can fall into the weighing hopper smoothly.

Both solutions have the following disadvantages:

1. although the two schemes can be used for proportioning the feed raw materials, the two schemes can only feed hard feed raw materials or solution feed raw materials respectively, so that the proportioning mode of the feed raw materials is too limited.

Feed ratio in these two schemes need use too much pneumatic cylinder, has increased the cost of manufacture of equipment, is unfavorable for the popularization and the application of equipment.

Disclosure of Invention

The invention aims to provide feed raw material accurate proportioning equipment.

In order to achieve the purpose, the invention adopts the following technical scheme:

provides feed raw material accurate proportioning equipment, which comprises a rotary driving cabinet, a rotary frame, a stirring mechanism, a weighing mechanism, an opening and closing control mechanism, a stirring box, a plurality of water material cylinders and hard material cylinders, wherein the stirring mechanism for stirring the raw materials is fixedly arranged on the stirring box, the weighing mechanism is fixedly arranged in the stirring box, the bottom of the weighing mechanism is provided with a gate component, the opening and closing control mechanism for opening and closing the gate component is arranged in the stirring box, the rotary driving cabinet is fixedly arranged on one side of the stirring box, the rotary frame is fixedly arranged on the rotary driving cabinet, the water material cylinders and the hard material cylinders for feeding the weighing mechanism are fixedly arranged on the rotary frame, the water material cylinders and the hard material cylinders are uniformly distributed along the axial direction of the rotary frame, the opening and closing control mechanism is in transmission connection with the water material cylinders and the hard material cylinders, one side of the stirring box is fixedly provided with a transparent plate, the stirring box is provided with a display screen on one side perpendicular to the transparent plate, the display screen is fixedly installed on the stirring box through a mounting plate, a controller is fixedly arranged on the stirring box, and the controller is electrically connected with the weighing mechanism, the opening and closing control mechanism and the display screen.

Further, the swivel mount includes the commentaries on classics board, the apparatus further comprises a rotating shaft, support ring and four strengthening ribs, the one end fixed mounting of pivot is in the rotary drive cabinet, change board fixed mounting at the top of pivot, and change board and pivot coaxial line, the support ring cover is established in the pivot, and the top of support ring and the top fixed connection who changes the board, the equal fixed mounting of four strengthening ribs is in the outer fringe of support ring, the top of four strengthening ribs and the bottom fixed connection who changes the board, set up a plurality of round hole that supplies a plurality of water feed cylinder installation on the commentaries on classics board, a plurality of round hole is along the axis direction evenly distributed of pivot, set up a plurality of quad slit that supplies the installation of a plurality of hard feed cylinder on the commentaries on classics board, a plurality of quad slit is along the axis direction evenly distributed of pivot, and the axis of a plurality of quad slit and the axis of round hole are in same circle.

Further, the rotary driving cabinet comprises a first helical gear, a second helical gear, a servo motor, a supporting shell and two guide plates, the supporting shell is fixedly arranged on one side of the stirring box, the two guide plates are positioned in the supporting shell and are fixedly arranged on the stirring box, the two guide plates are respectively arranged at the upper part and the lower part, the output end of the rotating shaft sequentially passes through the top part of the supporting shell and the two guide plates, two bearings are sleeved on the outer edge of the rotating shaft and are respectively positioned in the two guide plates, mounting holes for mounting the bearings are formed in the two guide plates, shaft covers are respectively arranged at the upper end and the lower end of each bearing and are fixedly connected with the guide plates, the first helical gear is fixedly arranged on the rotating shaft, the second helical gear is meshed with the first helical gear, the output end of the servo motor is fixedly connected with the second helical gear, and the servo motor is fixedly arranged on the guide plates through a motor frame, the inner bottom of the supporting shell is fixedly provided with a limiting ring for limiting the rotating shaft.

Furthermore, each water material cylinder comprises a material containing cylinder, a conical cylinder, a sealing cover plate, an extension plate, a bending plate, a first hinging plate, a second hinging plate, a collision spring and a guide post, the bottom of the material containing cylinder penetrates through a round hole, the outer edge of the material containing cylinder is fixedly connected with the rotating plate, the conical cylinder is fixedly arranged at the bottom of the material containing cylinder, the sealing cover plate is covered at the bottom of the conical cylinder, the extension plate is fixedly arranged on the outer edge of the sealing cover plate and is positioned at one side of the conical cylinder close to the rotating shaft, the bending plate is fixedly arranged on the extension plate in an inclined manner, the top end of the bending plate is positioned above the opening and closing control mechanism, the first hinging plate is fixedly arranged on the extension plate, the second hinging plate is fixedly arranged on the conical cylinder, the top of the first hinging plate is hinged with the bottom of the second hinging plate, one end of the collision spring is fixedly arranged on the extension plate, and the other end of the collision spring is abutted against one end of the bending plate close to the conical cylinder, the guide post is located the conflict spring, and the outer fringe fixed connection of one end and a toper section of thick bamboo of guide post, guide post and conflict spring coaxial line.

Furthermore, each hard charging barrel comprises a first abutting plate, a push plate, a third hinged plate, a prismoid containing charging barrel, two first flashboards, a lower pulling plate, a transmission plate, an upper pulling plate and first tension springs, the bottom of the prismoid containing charging barrel penetrates through a square hole, the outer edge of the prismoid containing charging barrel is fixedly connected with the rotating plate, the two first flashboards are covered at the bottom of the prismoid containing charging barrel, the inner sides of the two first flashboards are mutually contacted, the top end of one side of the two first flashboards which are mutually contacted is provided with an avoidance notch for avoiding each other, the outer sides of the two first flashboards are hinged with the two sides of the bottom of the prismoid containing charging barrel, the two lower pulling plates are fixedly arranged on one sides of the two first flashboards which are close to the rotating shaft, the two upper pulling plates are respectively positioned right above the two lower pulling plates, the two upper pulling plates are both fixedly connected with the prismoid containing charging barrel, and the two first tension springs are positioned between the two lower pulling plates and the upper pulling plates, the top of the two first tension springs is fixedly connected with the two upper pull plates, the bottoms of the two first tension springs are fixedly connected with the two lower pull plates, the two transmission plates are respectively and fixedly installed on one side, close to the rotating shaft, of the two first flashboards, the two transmission plates are located between the two lower pull plates, the first abutting plate is located at the tops of the two transmission plates, the bottom of the first abutting plate is in contact with the top of the transmission plates, the bottom of the push plate is fixedly installed at the top of the first abutting plate, the push plate is arranged towards the rotating shaft in an inclined mode, one end of the third hinge plate is fixedly installed on the frustum pyramid-shaped material containing barrel, the bottom of the third hinge plate is hinged to the middle of the push plate, and the top of the push plate is located above the opening and closing control mechanism.

Furthermore, the weighing mechanism comprises a material containing barrel, a supporting frame, two connecting strips, guide plates, electronic weighing devices and pressure plates, the material containing barrel is vertically positioned in the stirring box, the supporting frame is sleeved on the outer edge of the material containing barrel and fixedly connected with the material containing barrel, the two connecting strips are fixedly installed on two sides of the supporting frame, which are perpendicular to the transparent plate, the two guide plates are respectively positioned on the outer sides of the two connecting strips, the inner sides of the two guide plates are fixedly connected with the outer sides of the two connecting strips, two ends of each guide plate in the length direction are respectively attached to the inner sides of the material containing barrel, the two pressure plates are respectively and fixedly installed at the bottom ends of the two guide plates, one sides of the two pressure plates, which are far away from each other, penetrate through the stirring box, the two electronic weighing devices are positioned on the outer side of the stirring box, the two electronic weighing devices are fixedly connected with the stirring box, and the tops of the two electronic weighing devices are respectively abutted against the bottoms of the two pressure plates, the top and the bottom of the material containing barrel are both of an open structure, and the gate component is fixedly arranged at the opening at the bottom of the material containing barrel.

Further, the gate component comprises two second gate plates, second abutting plates and second tension springs, the two second gate plates are covered at the bottom of the containing cylinder, one sides of the two second gate plates, which are close to each other, are in mutual contact, one top of one side of the two second gate plates, which are close to each other, is provided with a avoiding notch for avoiding each other, one side of the two second gate plates, which is far away from each other, is hinged with the bottom of the containing cylinder, the two second abutting plates are fixedly installed on the two second gate plates, the two second abutting plates are located below the opening and closing control mechanism, each second tension spring is located above one second abutting plate, the bottom end of each second tension spring is fixedly connected with the top of the second abutting plate, the top of each second tension spring is fixedly connected with the peripheral wall of the containing cylinder, and pull rings fixedly connected with the tops of the second tension springs are fixedly arranged on the peripheral wall of the containing cylinder.

Furthermore, the opening and closing control mechanism comprises a pushing cylinder, a push rod, a transmission rod, an upper push plate, a connecting rod, two frame-shaped limiting rings and a lower push plate, the tops of the two lower push plates are respectively positioned right above the two second abutting plates, the bottoms of the two lower push plates are fixedly connected with the connecting rod, the length of the transmission rod is vertically arranged, the outer edge of the bottom of the transmission rod is fixedly connected with the connecting rod, the outer edge of the top of the transmission rod is fixedly connected with the upper push plate, one end of the push rod is fixedly connected with the transmission rod, the other end of the push rod passes through the stirring box and is fixedly connected with the output end of the pushing cylinder, a strip-shaped sliding hole for the push rod to slide up and down is arranged on the stirring box, the pushing cylinder is fixedly arranged on the outer side of the stirring box through a supporting plate, two frame-shaped limiting rings are fixedly arranged on the outer edge of the push rod, and one push rod is located the agitator tank inboard, and another push rod is located the agitator tank outside, and two push rod inboards all laminate with the agitator tank.

Further, rabbling mechanism includes drive cabinet, transmission shaft and stirring rake, and drive cabinet fixed mounting is in the bottom of agitator tank, and the bottom fixed mounting of transmission shaft is in the drive cabinet, and the top of transmission shaft passes the bottom of agitator tank and is located the agitator tank, and stirring rake fixed mounting is on the transmission shaft.

A working method of feed raw material accurate proportioning equipment, which is characterized in that,

s1: rotating process of feed raw material proportioning;

when the feed raw materials are required to be accurately proportioned, firstly, a worker starts the controller, the controller controls the servo motor to move, so that the servo motor drives the second bevel gear to rotate, the second bevel gear drives the first bevel gear to rotate, the first bevel gear drives the rotating shaft to rotate, the rotating shaft drives the rotating plate to rotate, the rotating plate drives the water material barrels and the hard material barrels which are fixedly arranged on the rotating plate to rotate, and the water material barrels or the hard material barrels move to the top of the weighing mechanism,

s2: a water material feeding process of feed raw material proportioning;

then the controller controls the pushing cylinder to move, so that the pushing cylinder pushes the push rod upwards, the push rod drives the transmission rod to move upwards, the push plate pushes the bent plate on the water charging barrel, when the bent plate is pushed, the first hinged plate rotates along the second hinged plate, the first hinged plate drives the extension plate to rotate, the sealing cover plate covering the conical barrel rotates, feed raw materials in the conical barrel flow into the weighing mechanism and are weighed by the weighing mechanism, the weighing mechanism generates weight to the controller in an electric signal mode at any time, the controller performs numerical analysis, when the weight reaches a preset value, the controller controls the output end of the pushing cylinder to withdraw, and the push plate does not collide against the bent plate, so that the bent plate is abutted by the abutting spring, and the conical barrel is quickly covered by the sealing cover plate;

s3: a hard material feeding process of feed raw material proportioning;

then the controller controls the pushing cylinder to move, so that the pushing cylinder pushes the push rod upwards, the push rod drives the transmission rod to move upwards, the push plate pushes the push plate on the hard material barrel, when the push plate is pushed, the push plate rotates along the third hinged plate, the push plate drives the first abutting plate to rotate, the first abutting plate abuts against the two transmission plates downwards, the two first flashboards rotate downwards along the hinged positions with the frustum-shaped material containing barrel, so that the feed raw materials in the frustum-shaped material containing barrel fall into the weighing mechanism, the weighing mechanism is used for weighing, the weighing mechanism generates weight to the controller in an electric signal mode at any time, the controller is used for carrying out numerical analysis, when the weight reaches a preset value, the controller controls the output end of the pushing cylinder to withdraw, the upper push plate does not abut against the push plate, so that the two first tension springs quickly pull the lower pull plate upwards, and the two first flashboards cover the bottom of the prismatic table-shaped material containing barrel;

s4: the process of opening a gate component of the weighing mechanism;

when the output end of the pushing cylinder is retracted, the pushing cylinder drives the two lower push plates to move downwards, so that the two lower push plates are enabled to abut against the two second abutting plates, the two second flashboards are enabled to be opened, and the feed raw materials in the weighing mechanism fall into the stirring box;

s5: mixing the feed raw materials;

the drive cabinet is controlled by the controller to work, so that the drive cabinet drives the transmission shaft to rotate, the transmission shaft drives the stirring paddle to rotate, and the stirring paddle is used for mixing and stirring the feed raw materials in the stirring box.

The invention has the beneficial effects that: this accurate proportioning equipment of feed ingredient, it is rotatory to drive the swivel mount through the rotary drive cabinet, and then drive water feed cylinder and hard feed cylinder and rotate, rethread control mechanism that opens and shuts control water feed cylinder, opening and closing of hard feed cylinder and gate subassembly, and then can feed in raw feed or the feed ingredient of solution form to the stereoplasm, the variety of feed ingredient's ratio mode has been increased, and the reinforced only need two motor drive of multiple plastic materials, great reduction the cost of manufacture of equipment, do benefit to the popularization and the application of equipment.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the embodiments of the present invention will be briefly described below.

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a partial perspective view of the first embodiment of the present invention;

FIG. 3 is a schematic view of the body structure of the rotating frame;

FIG. 4 is an exploded perspective view of the rotary drive cabinet;

FIG. 5 is a schematic perspective view of a water cartridge;

FIG. 6 is an enlarged view of a portion of FIG. 5 at A;

FIG. 7 is a schematic perspective view of a rigid cartridge;

FIG. 8 is a partial perspective view of the second embodiment of the present invention;

FIG. 9 is a third schematic view of a partial perspective structure of the present invention;

FIG. 10 is a schematic perspective view of the stirring mechanism;

in the figure:

1. a rotary drive cabinet; 1a, a guide plate; 1b, a first bevel gear; 1c, a second bevel gear; 1d, a servo motor; 1e, a support housing;

2. a rotating frame; 2a, rotating the plate; 2a1, round hole; 2a2, square hole; 2b, a rotating shaft; 2c, a support ring; 2d, reinforcing ribs;

3. a water charging barrel; 3a, a material containing cylinder; 3b, a conical cylinder; 3c, sealing the cover plate; 3d, an extension plate; 3e, bending the plate; 3f, a first hinge plate; 3h, a second hinged plate; 3i, abutting against a spring; 3g, a guide post;

4. a rigid cartridge; 4a, a first gate plate; 4b, pulling down a plate; 4c, pulling up the plate; 4d, a first tension spring; 4e, a first abutting plate; 4f, pushing a plate; 4h, a third hinge plate; 4i, a frustum pyramid-shaped material containing barrel; 4g, a transmission plate;

5. a stirring mechanism; 5a, a driving cabinet; 5b, a transmission shaft; 5c, a stirring paddle;

6. a weighing mechanism; 6a, a gate component; 6a1, second shutter; 6a2, a second resisting plate; 6a3, a second tension spring; 6b, a material containing barrel; 6c, a support frame; 6d, connecting the battens; 6e, a guide plate; 6f, an electronic weigher; 6h, pressing a plate;

7. an opening and closing control mechanism; 7a, a pushing cylinder; 7b, a push rod; 7c, a frame-shaped limiting ring; 7d, a transmission rod; 7e, pushing the plate upwards; 7f, a lower push plate; 7h, connecting rods;

8. a stirring box;

9. a transparent plate;

10. a display screen;

11. and a controller.

Detailed Description

The technical scheme of the invention is further explained by the specific implementation mode in combination with the attached drawings.

Wherein the showings are for the purpose of illustration only and are shown by way of illustration only and not in actual form, and are not to be construed as limiting the present patent; to better illustrate the embodiments of the present invention, some components of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product.

Referring to fig. 1 to 10, an accurate feed material proportioning device comprises a rotary driving cabinet 1, a rotary frame 2, a stirring mechanism 5, a weighing mechanism 6, an opening and closing control mechanism 7, a stirring box 8, a plurality of water material cylinders 3 and hard material cylinders 4, wherein the stirring mechanism 5 for stirring the raw materials is fixedly arranged on the stirring box 8, the weighing mechanism 6 is fixedly arranged in the stirring box 8, the bottom of the weighing mechanism 6 is provided with a gate component 6a, the opening and closing control mechanism 7 for opening and closing the gate component 6a is arranged in the stirring box 8, the rotary driving cabinet 1 is fixedly arranged on one side of the stirring box 8, the rotary frame 2 is fixedly arranged on the rotary driving cabinet 1, the plurality of water material cylinders 3 and the hard material cylinders 4 for feeding in the weighing mechanism 6 are fixedly arranged on the rotary frame 2, and the plurality of water material cylinders 3 and the hard material cylinders 4 are uniformly distributed along the axial direction of the rotary frame 2, opening and shutting control mechanism 7 all is connected with a plurality of water feed cylinder 3 and the transmission of hard feed cylinder 4, fixedly on one side of agitator tank 8 being provided with transparent plate 9, is provided with display screen 10 on one side of agitator tank 8 perpendicular and transparent plate 9, and display screen 10 passes through mounting panel fixed mounting on agitator tank 8, and still fixedly on the agitator tank 8 be provided with controller 11, controller 11 all with weighing mechanism 6, opening and shutting control mechanism 7 and display screen 10 electricity are connected. When the feed raw materials are required to be accurately proportioned, firstly, a controller is started by a worker, the controller controls the rotary driving cabinet 1 to work, then the rotary driving cabinet 1 drives the rotary frame 2 to rotate, then the rotary frame 2 drives the water material barrel 3 and the hard material barrel 4 to rotate, the water material barrel 3 or the hard material barrel 4 moves to the top of the weighing mechanism 6, then the controller controls the opening and closing control mechanism 7 to move, further the opening and closing control mechanism 7 opens the water material barrel 3 or the hard material barrel 4, so that the raw materials in the water material barrel 3 or the hard material barrel 4 fall into the weighing mechanism 6, then the weighing mechanism 6 is used for weighing, in addition, the weighing mechanism 6 generates the weight to the controller 11 in an electric signal mode at any time, then the controller 11 is used for numerical analysis, after the weight reaches a preset value, the controller 11 controls the opening and closing control mechanism 7 to move, so that the opening and closing control mechanism 7 closes the water material barrel 3 or the hard material barrel 4, and simultaneously the opening and closing control mechanism 7 controls the gate component 6a to open, so that the feed raw materials in the weighing mechanism 6 fall into the stirring box 8, the stirring mechanism 5 is controlled by the controller to work, further leading the stirring mechanism 5 to stir the feed raw materials, repeating the process, further weighing and proportioning the feed raw materials in the water charging barrels 3 and the hard charging barrels 4, thereby completing the accurate proportioning of the feed raw materials, and observing the proportioning process through the transparent plate 9, after the controller calculates, the controller controls the display screen 10 to display corresponding weight values, the water charging barrel 3 is filled with the raw material in the state of solution, and the hard charging barrel 4 is filled with the raw material in the state of hard particles.

The rotating frame 2 comprises a rotating plate 2a, a rotating shaft 2b, a supporting ring 2c and four reinforcing ribs 2d, one end of the rotating shaft 2b is fixedly arranged in the rotary driving cabinet 1, the rotating plate 2a is fixedly arranged at the top of the rotating shaft 2b, the rotating plate 2a and the rotating shaft 2b are coaxial, the supporting ring 2c is sleeved on the rotating shaft 2b, the top of the supporting ring 2c is fixedly connected with the top of the rotating plate 2a, the four reinforcing ribs 2d are all fixedly arranged on the outer edge of the supporting ring 2c, the top of the four reinforcing ribs 2d is fixedly connected with the bottom of the rotating plate 2a, the rotating plate 2a is provided with a plurality of round holes 2a1 for a plurality of water charging barrels 3 to be installed, a plurality of round holes 2a1 are uniformly distributed along the axial direction of the rotating shaft 2b, the rotating plate 2a is provided with a plurality of square holes 2a2 for a plurality of hard charging barrels 4 to be installed, a plurality of square holes 2a2 are uniformly distributed along the axial direction of the rotating shaft 2b, and the axes of the plurality of square holes 2a2 and the axis of the round hole 2a1 are in the same circle. Drive pivot 2b through rotary drive cabinet 1 and rotate, and then make pivot 2b drive commentaries on classics board 2a and rotate, and then make commentaries on classics board 2a drive a plurality of water feed cylinder 3 and the hard feed cylinder 4 of fixed mounting at commentaries on classics board 2a and rotate.

The rotary driving cabinet 1 comprises a first bevel gear 1b, a second bevel gear 1c, a servo motor 1d, a supporting shell 1e and two guide plates A1a, the supporting shell 1e is fixedly arranged at one side of the stirring box 8, the two guide plates A1a are positioned in the supporting shell 1e, the two guide plates A1a are both fixedly arranged on the stirring box 8, the two guide plates A1a are respectively arranged up and down, the output end of a rotating shaft 2b sequentially penetrates through the top of the supporting shell 1e and the two guide plates A1a, two bearings are sleeved on the outer edge of the rotating shaft 2b and are respectively positioned in the two guide plates A1a, mounting holes for mounting the bearings are formed in the two guide plates A1a, shaft covers are respectively arranged at the upper end and the lower end of each bearing and are fixedly connected with the guide plates A1a, the first bevel gear 1b is fixedly arranged on the rotating shaft 2b, and the second bevel gear 1c is meshed with the first bevel gear 1b, the output end of the servo motor 1d is fixedly connected with the second bevel gear 1c, the servo motor 1d is fixedly installed on the guide plate A1a through a motor frame, and the bottom of the inner side of the supporting shell 1e is fixedly provided with a limiting ring for limiting the rotating shaft 2 b. Control servo motor 1d through the controller and move, and then make servo motor 1d drive second helical gear 1c and rotate, and then make second helical gear 1c drive first helical gear 1b and carry out rotary motion, and then make first helical gear 1b drive pivot 2b and rotate, play the effect of location to pivot 2b through two deflector A1 a.

Each water material cylinder 3 comprises a material containing cylinder 3a, a conical cylinder 3b, a sealing cover plate 3c, an extending plate 3d, a bending plate 3e, a first hinged plate 3f, a second hinged plate 3h, an abutting spring 3i and a guide post 3g, the bottom of the material containing cylinder 3a penetrates through a round hole 2a1, the outer edge of the material containing cylinder 3a is fixedly connected with the rotating plate 2a, the conical cylinder 3b is fixedly arranged at the bottom of the material containing cylinder 3a, the sealing cover plate 3c is covered at the bottom of the conical cylinder 3b, the extending plate 3d is fixedly arranged on the outer edge of the sealing cover plate 3c, the extending plate 3d is positioned at one side of the conical cylinder 3b close to the rotating shaft 2b, the bending plate 3e is obliquely and fixedly arranged on the extending plate 3d, the top end of the bending plate 3e is positioned above the opening and closing control mechanism 7, the first hinged plate 3f is fixedly arranged on the extending plate 3d, the second hinged plate 3h is fixedly arranged on the conical cylinder 3b, and the top of first articulated slab 3f and the bottom of second articulated slab 3h are articulated, and the one end fixed mounting of contradicting spring 3i is on extending plate 3d, and the other end of contradicting spring 3i and the one end of bending plate 3e and being close to a toper section of thick bamboo 3b are contradicted, and guide post 3g is located contradicting spring 3i, and the one end of guide post 3g and the outer fringe fixed connection of a toper section of thick bamboo 3b, guide post 3g and conflict spring 3i coaxial line. When the opening and closing control mechanism 7 moves upwards, the bending plate 3e is pushed, the first hinged plate 3f rotates along the second hinged plate 3h, the first hinged plate 3f drives the extension plate 3d to rotate, the sealing cover plate 3c covering the conical barrel 3b rotates, feed raw materials in the conical barrel 3b flow into the weighing mechanism 6 and are weighed by the weighing mechanism 6, the weighing mechanism 6 generates weight to the controller 11 in an electric signal mode at any time, the controller 11 performs numerical analysis, when the weight reaches a preset value, the controller 11 controls the opening and closing control mechanism 7 to move downwards, the opening and closing control mechanism 7 does not collide with the bending plate 3e, and the collision spring 3i collides with the bending plate 3e, thereby causing the sealing cover plate 3c to quickly close the conical cylinder 3 b.

Each hard charging barrel 4 comprises a first abutting plate 4e, a push plate 4f, a third hinged plate 4h, a prismoid containing charging barrel 4i, two first flashboards 4a, a lower pull plate 4b, a transmission plate 4g, an upper pull plate 4c and a first tension spring 4d, the bottom of the prismoid containing charging barrel 4i passes through a square hole 2a2, the outer edge of the prismoid containing charging barrel 4i is fixedly connected with a rotating plate 2a, the two first flashboards 4a are covered at the bottom of the prismoid containing charging barrel 4i, the inner sides of the two first flashboards 4a are mutually contacted, the top end of one side of the two first flashboards 4a which are mutually contacted is provided with an avoiding gap for avoiding each other, the outer sides of the two first flashboards 4a are hinged with the two sides of the bottom of the prismoid containing charging barrel 4i, the two lower pull plates 4b are fixedly arranged at one side of the two first flashboards 4a which is close to the rotating shaft 2b, and the two upper pull plates 4c are respectively positioned right above the two lower pull plates 4b, two upper pulling plates 4c are fixedly connected with the frustum pyramid-shaped material containing barrel 4i, two first tension springs 4d are positioned between two lower pulling plates 4b and the upper pulling plates 4c, the tops of the two first tension springs 4d are fixedly connected with the two upper pulling plates 4c, the bottoms of the two first tension springs 4d are fixedly connected with the two lower pulling plates 4b, two transmission plates 4g are respectively and fixedly arranged on one sides of the two first flashboards 4a close to the rotating shaft 2b, two transmission plates 4g are positioned between the two lower pulling plates 4b, a first abutting plate 4e is positioned on the tops of the two transmission plates 4g, the bottom of the first abutting plate 4e is contacted with the top of the transmission plate 4g, the bottom end of a push plate 4f is fixedly arranged on the top of the first abutting plate 4e, the push plate 4f is obliquely arranged towards the rotating shaft 2b, one end of a third hinge plate 4h is fixedly arranged on the frustum pyramid-shaped material containing barrel 4i, and the bottom of the third hinge plate 4h is hinged with the middle of the push plate 4f, and the top end of the push plate 4f is positioned above the opening and closing control mechanism 7. When the opening and closing control mechanism 7 moves upwards, the push plate 4f is pushed, the push plate 4f rotates along the third hinge plate 4h, the push plate 4f drives the first abutting plate 4e to rotate, the first abutting plate 4e abuts against the two transmission plates 4g downwards, the two first flashboards 4a rotate downwards along the hinge joint with the frustum-shaped material containing barrel 4i, feed raw materials in the frustum-shaped material containing barrel 4i fall into the weighing mechanism 6, the weighing mechanism 6 is used for weighing, the weighing mechanism 6 generates weight to the controller 11 in an electric signal mode at any time, the controller 11 is used for carrying out numerical analysis, when the weight reaches a preset value, the controller 11 is used for controlling the opening and closing control mechanism 7 to move downwards, and the opening and closing control mechanism 7 is further used for not abutting against the push plate 4f, and then make two first extension springs 4d upwards pull down plate 4b fast, and then make two first flashboards 4a cover the bottom of prismatic table shape container barrel 4i and close.

The weighing mechanism 6 comprises a material containing barrel 6B, a supporting frame 6c, two connecting strips 6d, a guide plate B6e, an electronic weighing device 6f and a pressing plate 6h, the material containing barrel 6B is vertically positioned in the stirring box 8, the supporting frame 6c is sleeved on the outer edge of the material containing barrel 6B and is fixedly connected with the material containing barrel 6B, the two connecting strips 6d are fixedly arranged on two sides of the supporting frame 6c which is vertical to the transparent plate 9, the two guide plates B6e are respectively positioned on the outer sides of the two connecting strips 6d, the inner sides of the two guide plates B6e are respectively fixedly connected with the outer sides of the two connecting strips 6d, two ends of each guide plate B6e in the length direction are respectively attached to the inner side of the material containing barrel 6B, the two pressing plates 6h are respectively fixedly arranged at the bottom ends of the two guide plates B6e, one side of the two pressing plates 6h far away from each other penetrates through the stirring box 8, the two electronic weighing devices 6f are positioned on the outer side of the stirring box 8, two electronic weighing ware 6f and agitator tank 8 fixed connection, and the top of two electronic weighing ware 6f is contradicted with the bottom of two clamp plates 6h respectively, holds the top and the bottom of feed cylinder 6b and is open structure, and gate subassembly 6a fixed mounting holds the bottom opening part of feed cylinder 6 b. When feed ingredient enters into holding feed cylinder 6B, and then by holding feed cylinder 6B and save, and then through carriage 6c, connect slat 6d, deflector B6e and clamp plate 6 h's effect, and then transmit weight for two electronic weighing ware 6f, transmit weight for controller 11 with the mode of signal of telecommunication through two electronic weighing ware 6f, the numerical value of two electronic weighing ware 6f carries out the addition operation through controller 11, after weight reaches the numerical value of setting for in advance, rethread controller 11 controls switching control mechanism 7 and moves, and then make switching control mechanism 7 close water cylinder 3 or hard feed cylinder 4, and switching control mechanism 7 controls gate subassembly 6a opens simultaneously, and then make the feed ingredient in the weighing mechanism 6 fall into agitator tank 8, it is transparent material to hold feed cylinder 6B.

The gate assembly 6a comprises two second shutters 6a1, a second abutting plate 6a2 and a second tension spring 6a3, the two second shutters 6a1 are arranged at the bottom of the material containing barrel 6b in a covering mode, the two adjacent sides of the two second gate plates 6a1 are contacted with each other, the tops of the adjacent sides of the two second gate plates 6a1 are provided with avoidance notches for avoiding each other, the sides of the two second gate plates 6a1, which are far away from each other, are hinged with the bottom of the material containing barrel 6b, the two second abutting plates 6a2 are fixedly arranged on the two second gate plates 6a1, and two second abutting plates 6a2 are positioned below the opening and closing control mechanism 7, each second tension spring 6a3 is positioned above one second abutting plate 6a2, the bottom end of each second tension spring 6a3 is fixedly connected with the top of the second abutting plate 6a2, the top of each second tension spring 6a3 is fixedly connected with the peripheral wall of the material containing barrel 6b, and the peripheral wall of the material containing barrel 6b is fixedly provided with a pull ring fixedly connected with the top of the second tension spring 6a 3. Through opening and shutting control mechanism 7 downstream, and then make opening and shutting control mechanism 7 push down two second support plate 6a2, and then make two second support plate 6a2 rotate along the articulated department with holding feed cylinder 6b, and then hold the raw materials that the ratio is good in the feed cylinder 6b and flow into agitator tank 8, after opening and shutting control mechanism 7 upward movement, through the pulling force effect of second extension spring 6a3, and then make two second extension springs 6a3 pull two second flashboards 6a1 fast, and then make two second flashboards 6a1 lid tightly hold the bottom of feed cylinder 6 b.

The opening and closing control mechanism 7 comprises a pushing cylinder 7a, a push rod 7b, a transmission rod 7d, an upper push plate 7e, a connecting rod 7h, two frame-shaped limit rings 7c and a lower push plate 7f, the tops of the two lower push plates 7f are respectively positioned right above the two second abutting plates 6a2, the bottoms of the two lower push plates 7f are fixedly connected with the connecting rod 7h, the transmission rod 7d is vertically arranged, the outer edge of the bottom of the transmission rod 7d is fixedly connected with the connecting rod 7h, the outer edge of the top of the transmission rod 7d is fixedly connected with the upper push plate 7e, one end of the push rod 7b is fixedly connected with the transmission rod 7d, the other end of the push rod 7b penetrates through a stirring box 8 to be fixedly connected with the output end of the pushing cylinder 7a, a strip-shaped slide hole for the push rod 7b to slide up and down is formed in the stirring box 8, the pushing cylinder 7a is fixedly arranged on the outer side of the stirring box 8 through a supporting plate, the two frame-shaped limit rings 7c are fixedly arranged on the outer edge of the push rod 7b, and one push rod 7b is located the agitator tank 8 inboard, and another push rod 7b is located the agitator tank 8 outside, and two push rod 7b inboards all laminate with agitator tank 8. When the water material barrel 3 or the hard material barrel 4 is required to be opened, the pushing cylinder 7a is controlled to move through the controller, so that the pushing cylinder 7a pushes the push rod 7b upwards, the push rod 7b drives the transmission rod 7d to move upwards, the upper push plate 7e pushes the bent plate 3e on the water material barrel 3, or the upper push plate 7e pushes the push plate 4f on the hard material barrel 4, so that feed raw materials in the material containing barrel 3a or the frustum pyramid-shaped material containing barrel 4i fall into the material containing barrel 6b, when the water material barrel 3 or the hard material barrel 4 is required to be closed, the output end of the pushing cylinder 7a is withdrawn, the pushing cylinder 7a drives the two lower push plates 7f to move downwards while the output end of the pushing cylinder 7a is withdrawn, so that the two lower push plates 7f abut against the two second abutting plates 6a2, so that the two second gate plates 6a1 are opened, and the feed raw materials in the weighing mechanism 6 fall into the stirring box 8; rabbling mechanism 5 includes drive cabinet 5a, transmission shaft 5b and stirring rake 5c, and drive cabinet 5a fixed mounting is in the bottom of agitator tank 8, and the bottom fixed mounting of transmission shaft 5b is in drive cabinet 5a, and the top of transmission shaft 5b passes the bottom of agitator tank 8 and is located agitator tank 8, and stirring rake 5c fixed mounting is on transmission shaft 5 b. Carry out work through controller control drive cabinet 5a, and then make drive cabinet 5a drive transmission shaft 5b rotate, and then make transmission shaft 5b drive stirring rake 5c rotate, and then make stirring rake 5c mix the stirring to the feed ingredient in agitator tank 8.

A working method of feed raw material accurate proportioning equipment, which is characterized in that,

s1: rotating process of feed raw material proportioning;

when the feed raw materials are required to be accurately proportioned, firstly, a worker starts the controller, the controller controls the servo motor 1d to move, so that the servo motor 1d drives the second bevel gear 1c to rotate, so that the second bevel gear 1c drives the first bevel gear 1b to rotate, so that the first bevel gear 1b drives the rotating shaft 2b to rotate, so that the rotating shaft 2b drives the rotating plate 2a to rotate, so that the rotating plate 2a drives a plurality of water material cylinders 3 and hard material cylinders 4 which are fixedly arranged on the rotating plate 2a to rotate, so that the water material cylinders 3 or the hard material cylinders 4 move to the top of the weighing mechanism 6,

s2: a water material feeding process of feed raw material proportioning;

then the controller controls the pushing cylinder 7a to move, so that the pushing cylinder 7a pushes the push rod 7b upwards, the push rod 7b drives the transmission rod 7d to move upwards, the push plate 7e pushes the bending plate 3e on the water feed cylinder 3, when the bending plate 3e is pushed, the first hinged plate 3f rotates along the second hinged plate 3h, the first hinged plate 3f drives the extension plate 3d to rotate, the sealing cover plate 3c covering the conical cylinder 3b rotates, so that the feed raw material in the conical cylinder 3b flows into the weighing mechanism 6, the weighing mechanism 6 weighs, the weighing mechanism 6 generates weight to the controller 11 in an electric signal mode at any time, the controller 11 performs numerical analysis, and when the weight reaches a preset value, the controller 11 controls the output end of the pushing cylinder 7a to retract, so that the push plate 7e does not abut against the bent plate 3e, the abutting spring 3i abuts against the bent plate 3e, and the sealing cover plate 3c covers the conical barrel 3b quickly;

s3: a hard material feeding process of feed raw material proportioning;

then the pushing cylinder 7a is controlled by the controller to move, so that the pushing cylinder 7a pushes the pushing rod 7b upwards, the pushing rod 7b drives the transmission rod 7d to move upwards, the pushing plate 4f on the hard material barrel 4 is pushed by the pushing plate 7e, when the pushing plate 4f is pushed, the pushing plate 4f rotates along the third hinge plate 4h, the pushing plate 4f drives the first abutting plate 4e to rotate, the first abutting plate 4e abuts against the two transmission plates 4g downwards, the two first gate plates 4a rotate downwards along the hinge joints with the frustum-shaped material containing barrel 4i, feed raw materials in the frustum-shaped material containing barrel 4i fall into the weighing mechanism 6, the weighing mechanism 6 is used for weighing, and the weighing mechanism 6 sends the weight to the controller 11 in an electric signal mode all the time, the controller 11 is used for carrying out numerical analysis, when the weight reaches a preset value, the controller 11 is used for controlling the output end of the pushing cylinder 7a to retract, so that the upper pushing plate 7e does not collide with the pushing plate 4f, the two first tension springs 4d are used for rapidly pulling the lower pulling plate 4b upwards, and the two first flashboards 4a are used for covering the bottoms of the frustum-shaped material containing barrels 4 i;

s4: the process of opening a gate component of the weighing mechanism;

when the output end of the pushing cylinder 7a is retracted, the pushing cylinder 7a drives the two lower push plates 7f to move downwards, so that the two lower push plates 7f abut against the two second abutting plates 6a2, the two second gate plates 6a1 are opened, and the feed raw materials in the weighing mechanism 6 fall into the stirring box 8;

s5: mixing the feed raw materials;

work is carried out through controller control drive cabinet 5a again, and then makes drive cabinet 5a drive transmission shaft 5b rotate, and then makes transmission shaft 5b drive stirring rake 5c rotate, and then makes stirring rake 5c mix the stirring to the feed ingredient in agitator tank 8.

The working principle is as follows: when the feed raw materials are required to be accurately proportioned, firstly, a worker starts the controller, the controller controls the servo motor 1d to move, so that the servo motor 1d drives the second bevel gear 1c to rotate, so that the second bevel gear 1c drives the first bevel gear 1b to rotate, so that the first bevel gear 1b drives the rotating shaft 2b to rotate, so that the rotating shaft 2b drives the rotating plate 2a to rotate, so that the rotating plate 2a drives a plurality of water material cylinders 3 and hard material cylinders 4 fixedly arranged on the rotating plate 2a to rotate, so that the water material cylinders 3 or the hard material cylinders 4 move to the top of the weighing mechanism 6, then the controller controls the pushing cylinder 7a to move, so that the pushing cylinder 7a pushes the push rod 7b upwards, and the push rod 7b drives the transmission rod 7d to move upwards, and then make the push-up board 7e push the bending board 3e on the water feed cylinder 3, or push the push board 4f on the hard feed cylinder 4 with the push-up board 7e, when pushing the bending board 3e, and then make the first articulated slab 3f rotate along the second articulated slab 3h, and then make the first articulated slab 3f drive the extension board 3d to rotate, and then the sealed cover plate 3c that covers on the cone 3b rotates, and then make the feed material in the cone 3b flow into the weighing mechanism 6, and then weigh through the weighing mechanism 6, and the weighing mechanism 6 will give out the weight to the controller 11 in the way of electric signal at any time, and then carry out the numerical analysis through the controller 11, after the weight reaches the preset value, and then control the output end of the push cylinder 7a to withdraw through the controller 11, and then make the push-up board 7e not collide with the bending board 3e, and further making the abutting spring 3i abut against the bent plate 3e, further making the sealing cover plate 3c cover the conical barrel 3b quickly, when pushing the push plate 4f, further making the push plate 4f rotate along the third hinge plate 4h, further making the push plate 4f drive the first abutting plate 4e to rotate, further making the first abutting plate 4e abut against the two transmission plates 4g downwards, further making the two first flashboards 4a rotate downwards along the hinge joint with the frustum-shaped containing barrel 4i, further making the feed raw material in the frustum-shaped containing barrel 4i fall into the weighing mechanism 6, then weighing by the weighing mechanism 6, and the weighing mechanism 6 generates weight to the controller 11 in an electric signal manner at all times, and then carrying out numerical analysis by the controller 11, when the weight reaches a preset value, then controlling the output end of the pushing cylinder 7a to withdraw by the controller 11, so that the upper pushing plate 7e does not collide with the pushing plate 4f, and then the two first tension springs 4d rapidly pull the lower pulling plate 4b upwards, so that the two first flashboards 4a cover the bottom of the frustum-shaped material containing barrel 4i, and when the output end of the pushing cylinder 7a is withdrawn, the pushing cylinder 7a drives the two lower pushing plates 7f to move downwards, so that the two lower pushing plates 7f collide with the two second abutting plates 6a2, so that the two second flashboards 6a1 are opened, so that the feed raw materials in the weighing mechanism 6 fall into the stirring box 8, the driving cabinet 5a is controlled by the controller to work, so that the driving cabinet 5a drives the transmission shaft 5b to rotate, so that the transmission shaft 5b drives the stirring paddle 5c to rotate, and then the stirring paddle 5c mixes and stirs the feed raw materials in the stirring box 8, and then repeating the above process, weighing and proportioning the feed raw materials in the water feed cylinders 3 and the hard feed cylinders 4, completing the precise proportioning of the feed raw materials, observing the proportioning process through the transparent plate 9, and controlling the display screen 10 to display corresponding weight numerical values after the controller operates.

Claims (2)

1. The accurate proportioning equipment of the feed raw materials is not applied to demonstration but applied to actual production and is characterized by comprising a rotary driving cabinet (1), a rotary frame (2), a stirring mechanism (5), a weighing mechanism (6), an opening and closing control mechanism (7), a stirring box (8), a plurality of water material cylinders (3) and hard material cylinders (4), wherein the stirring mechanism (5) used for stirring the raw materials is fixedly arranged on the stirring box (8), the weighing mechanism (6) is fixedly arranged in the stirring box (8), the bottom of the weighing mechanism (6) is provided with a gate component (6 a), the opening and closing control mechanism (7) used for opening and closing the gate component (6 a) is arranged in the stirring box (8), the rotary driving cabinet (1) is fixedly arranged on one side of the stirring box (8), and the rotary frame (2) is fixedly arranged on the rotary driving cabinet (1), a plurality of water material cylinders (3) and hard material cylinders (4) which are used for feeding materials in a weighing mechanism (6) are fixedly arranged on a rotating frame (2), the water material cylinders (3) and the hard material cylinders (4) are uniformly distributed along the axis direction of the rotating frame (2), an opening and closing control mechanism (7) is in transmission connection with the water material cylinders (3) and the hard material cylinders (4), a transparent plate (9) is fixedly arranged on one side of a stirring box (8), a display screen (10) is arranged on one side, perpendicular to the transparent plate (9), of the stirring box (8), the display screen (10) is fixedly arranged on the stirring box (8) through a mounting plate, a controller (11) is further fixedly arranged on the stirring box (8), and the controller (11) is electrically connected with the weighing mechanism (6), the opening and closing control mechanism (7) and the display screen (10);

the weighing mechanism (6) comprises a material containing barrel (6B), a supporting frame (6 c), two connecting laths (6 d), guide plates B (6e), an electronic weighing device (6 f) and press plates (6 h), the material containing barrel (6B) is vertically positioned in the stirring box (8), the supporting frame (6 c) is sleeved on the outer edge of the material containing barrel (6B), the supporting frame (6 c) is fixedly connected with the material containing barrel (6B), the two connecting laths (6 d) are fixedly arranged on two sides of the supporting frame (6 c) vertical to the transparent plate (9), the two guide plates B (6e) are respectively positioned on the outer sides of the two connecting laths (6 d), the inner sides of the two guide plates B (6e) are fixedly connected with the outer sides of the two connecting laths (6 d), two ends of each guide plate B (6e) in the length direction are respectively attached to the inner sides of the material containing barrel (6B), the two press plates (6 h) are respectively and fixedly arranged at the bottom ends of the two guide plates B (6e), one side, far away from each other, of each of the two pressing plates (6 h) penetrates through the stirring box (8), the two electronic weighing devices (6 f) are located on the outer side of the stirring box (8), the two electronic weighing devices (6 f) are fixedly connected with the stirring box (8), the tops of the two electronic weighing devices (6 f) are respectively abutted to the bottoms of the two pressing plates (6 h), the top and the bottom of the material containing barrel (6 b) are both of an opening structure, and the gate assembly (6 a) is fixedly installed at an opening at the bottom of the material containing barrel (6 b);

the gate assembly (6 a) comprises two second gate plates (6 a 1), a second abutting plate (6 a 2) and second tension springs (6 a 3), the two second gate plates (6 a 1) are arranged at the bottom of the material containing barrel (6 b) in a covering mode, one sides, close to each other, of the two second gate plates (6 a 1) are in contact with each other, the tops, close to each other, of the two second gate plates (6 a 1) are provided with avoiding notches for avoiding each other, one sides, far away from each other, of the two second gate plates (6 a 1) are hinged with the bottom of the material containing barrel (6 b), the two second abutting plates (6 a 2) are fixedly installed on the two second gate plates (6 a 1), the two second abutting plates (6 a 2) are located below the opening and closing control mechanism (7), each second tension spring (6 a 3) is located above one second abutting plate (6 a 2), and the bottom end of each second tension spring (6 a 3) is fixedly connected with the top of the second abutting plate (6 a 2), the top of each second tension spring (6 a 3) is fixedly connected with the peripheral wall of the material containing barrel (6 b), and a pull ring fixedly connected with the top of the second tension spring (6 a 3) is fixedly arranged on the peripheral wall of the material containing barrel (6 b).

2. The opening and closing control mechanism of the feed raw material precise proportioning device according to claim 1, characterized in that the opening and closing control mechanism (7) comprises a pushing cylinder (7 a), a push rod (7 b), a transmission rod (7 d), an upper push plate (7 e), a connecting rod (7 h), two frame-shaped limiting rings (7 c) and a lower push plate (7 f), the tops of the two lower push plates (7 f) are respectively positioned right above the two second abutting plates (6 a 2), the bottoms of the two lower push plates (7 f) are fixedly connected with the connecting rod (7 h) and the transmission rod (7 d) is vertically arranged, the outer edge of the bottom of the transmission rod (7 d) is fixedly connected with the connecting rod (7 h), the outer edge of the top of the transmission rod (7 d) is fixedly connected with the upper push plate (7 e), one end of the push rod (7 b) is fixedly connected with the transmission rod (7 d), and the other end of the push rod (7 b) passes through a stirring box (8) and is fixedly connected with the output end of the pushing cylinder (7 a), set up on agitator tank (8) and supply gliding bar slide opening from top to bottom of push rod (7 b), promote cylinder (7 a) and pass through backup pad fixed mounting in the outside of agitator tank (8), two frame shape spacing rings (7 c) fixed mounting are on the outer fringe of push rod (7 b), and one push rod (7 b) are located agitator tank (8) inboard, another push rod (7 b) are located agitator tank (8) outside, and two push rod (7 b) inboards all laminate with agitator tank (8).

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