CN116078482B

CN116078482B - Fodder processing grinder

Info

Publication number: CN116078482B
Application number: CN202211734498.5A
Authority: CN
Inventors: 陈新文; 甘惠芳; 李梦晖; 张倩; 夏振东; 霍晓林; 成宜轩
Original assignee: Jiangsu Xianghe Agricultural Development Co ltd
Current assignee: Jiangsu Xianghe Agricultural Development Co ltd
Priority date: 2022-12-31
Filing date: 2022-12-31
Publication date: 2023-11-10
Anticipated expiration: 2042-12-31
Also published as: CN116078482A

Abstract

The invention provides a feed processing grinding device, which relates to the field of grinding devices and comprises: go up the mill, go up the mill and rotate the outside of connecting at the actuating lever, it does not have double disk drive structure to have solved the grinder of current fodder, only one grinding disc rotates when grinding, grinding efficiency has been low, and the fixed unable problem of adjusting of grinding particle diameter, grinding component has two kinds of grinding modes of double disk drive and single disk drive under the control of actuating component, go up mill and lower mill and can synchronous reversal when two disk drive modes, grinding efficiency has been improved, and go up the mill and rotate only down the mill and realize grinding operation when single disk drive mode is fixed, two kinds of modes can freely switch the use, can adapt to the different processing modes of fodder and use, adaptability is extremely strong, the grinding particle diameter of the device can also use through actuating component free adjustment simultaneously.

Description

Fodder processing grinder

Technical Field

The invention relates to the technical field of grinding devices, in particular to a feed processing and grinding device.

Background

The feed is a general term for the food of all animals raised by people, and in the feed processing or feeding process, a grinding device is required to grind the feed to a proper particle size before feeding the animals raised.

However, with the currently existing feed processing and grinding devices, there are the following disadvantages:

1. the double-disc driving structure is not adopted, only one grinding disc rotates during grinding, the grinding efficiency is low, and the practicability and the flexibility are poor;

2. the grinding particle size of the feed grinder cannot be adjusted, when the feed is required to be ground into different particle sizes, different grinding devices are required to be used, the feed grinder cannot be used for processing different types of feeds, the adaptability is poor, and the practicability is low.

Disclosure of Invention

In view of the above, the invention provides a feed processing grinding device, which is provided with a driving component and a grinding component, wherein the grinding component is provided with two grinding modes of double-disc driving and single-disc driving under the control of the driving component, the upper grinding disc and the lower grinding disc can synchronously rotate in the double-disc driving mode, the grinding efficiency is improved, the upper grinding disc is fixed only the lower grinding disc rotates to realize the grinding operation in the single-disc driving mode, the two modes can be freely switched for use, the feed processing grinding device can adapt to different processing modes of feeds for use, the adaptability is extremely high, meanwhile, the grinding particle size of the feed processing grinding device can also be freely adjusted for use through the driving component, and the adaptability, the flexibility, the adaptability and the practicability of the feed processing grinding device are further improved.

The invention provides a feed processing and grinding device, which specifically comprises: the mounting assembly comprises a mounting seat, a fixing seat, a positioning vertical rod, a feeding cylinder and a collecting disc, wherein the fixing seat is fixedly arranged at the top of the mounting seat, the positioning vertical rod is fixedly arranged at the top of the side surface of the mounting seat, the feeding cylinder is inserted into the outer part of the positioning vertical rod, and the collecting disc is fixedly arranged outside the fixing seat; the driving assembly comprises a driving motor, a driving gear, a driving rod, a synchronizing wheel, an adjusting rod and a positioning rod, wherein the driving motor is fixedly arranged at the bottom of the fixed seat, the driving gear is rotationally connected inside the fixed seat, a rotating shaft of the driving motor is in transmission connection with the driving gear, the driving rod is rotationally connected to the top of the driving gear, the synchronizing wheel is inserted into the outside of the driving rod, the adjusting rod is rotationally connected to the inside of the driving gear, and the positioning rod is inserted into the outside of the synchronizing wheel; the grinding assembly comprises an upper grinding disc and a lower grinding disc, wherein the upper grinding disc is rotationally connected with the outside of the driving rod, the lower grinding disc is rotationally connected with the outside of the fixing seat, and a rod body of the driving rod penetrates through the inside of the upper grinding disc.

Further, the bottom of lower mill is equipped with the counter gear, and the inside of fixing base is equipped with connecting gear, and the teeth of a cogwheel at connecting gear top and bottom respectively with the tooth interlock transmission of counter gear and drive gear.

Further, the cross section of the rod body of the driving rod is regular polygon, a synchronizing groove a is formed in the driving gear, a synchronizing groove b is formed in the synchronizing wheel, the rod body at the bottom of the driving rod is inserted into the synchronizing groove a, and the rod body at the middle of the driving rod is inserted into the synchronizing groove b.

Further, a synchronizing gear is arranged at the bottom of the synchronizing wheel, a synchronizing tooth groove is formed in the top of the upper grinding disc, and the synchronizing gear is inserted into the synchronizing tooth groove.

Further, the top of synchronizing wheel is equipped with synchronous top spring, and the both ends of synchronous top spring are fixed connection respectively at the top of synchronizing wheel and the top of actuating lever.

Further, the outside of the body of rod of adjusting the pole is equipped with the screw thread, and adjusts the pole and screw up in the inside of actuating lever through body of rod screw thread.

Further, a separating and positioning groove is formed in the side face of the rod body of the driving rod, a separating tension spring is sleeved outside the rod body of the positioning rod, and two ends of the separating tension spring are fixedly connected to the side face of the positioning rod and the inner portion of the synchronous wheel respectively.

Further, the top of location pole setting has cup jointed and has pressed the top spring, and the both ends of pressing the top spring are fixed connection respectively at the top of feed cylinder and the top of collecting tray, and the bottom of feed cylinder has pegged graft and has had the locking pin pole, and the top of last mill is equipped with the locking locating hole.

Further, the cross-sectional shape at lower mill top is triangle-shaped, and the bottom of last mill is equipped with the grinding groove that matches with lower mill top shape, and the inside of last mill is equipped with four feed tanks, and the quantity of feed tank is not limited to four, and its quantity can increase and decrease, and the feed tank communicates with the bottom of feed cylinder.

Advantageous effects

1. The device is when using, the control of drive assembly is grinding the subassembly and has two kinds of grinding modes of double disk drive and single disk drive down, wherein go up mill and lower mill can be in step reversal when double disk drive mode, improved grinding efficiency, and go up mill is fixed only down when single disk drive mode and rotate and realize grinding the operation, two kinds of modes can freely switch the use, can adapt to the different processing modes of fodder and use, adaptability is extremely strong, simultaneously the grinding particle diameter of the device also can freely adjust the use through drive assembly, further improved the adaptability of the device, flexibility, adaptability and practicality are extremely strong.

2. When the device is in double-disk drive mode, synchronous gear peg graft in synchronous tooth's socket's inside under the effect of compressing tightly top spring this moment, and locking pin pole does not peg graft in the inside of locking locating hole this moment, thereby go up the mill and can freely rotate this moment, go up mill and lower mill and can realize grinding operation under driving motor's drive synchronous reversal this moment, and convenient to use, grinding efficiency is high, when driving motor rotates in double-disk drive mode, driving motor drives driving gear and rotates, driving gear can drive the synchronous rotation of actuating lever in the time of rotating synchronous groove a, the actuating lever can drive synchronous wheel rotation through synchronous groove b when rotating, thereby synchronous gear can drive the mill rotation through synchronous tooth's socket when synchronous wheel rotates, meanwhile, can drive the synchronous rotation of reversing gear through connecting gear when driving gear rotates, and reversing gear and drive gear's rotation direction is opposite, thereby lower mill and last mill can realize grinding operation in step reversal, and convenient to use is nimble.

3. When the device is in single-disc drive mode, the locating lever is pegged graft in the inside of separation constant head tank under the effect of separation extension spring this moment, the synchronizing wheel is by the inside that the synchronizing gear deviate from synchronous tooth's socket of locating lever synchronous localization makes this moment, it is to be noted that, need peg graft the locking pin pole in step in the inside of feed section of thick bamboo and locking locating hole when single-disc drive mode, thereby go up the mill unable rotation this moment, only lower mill rotation realization grinding operation when driving motor rotates this moment, when driving motor rotates under this mode, the synchronizing wheel idle running can't drive go up the mill, and lower mill still can rotate under driving motor's drive, thereby realized the effect of single-disc grinding, and is convenient to use, the mode is various.

4. The use position of the synchronous wheel can be positioned through the positioning rod, the positioning rod can be automatically inserted into the separation positioning groove under the action of the separation tension spring after the synchronous wheel is pulled upwards in the double-disc driving mode, so that the positioning of the synchronous wheel and the separation of the synchronous gear and the synchronous tooth groove are realized, the device is switched to the single-disc driving mode, and after the positioning rod is pulled, the synchronous gear of the synchronous wheel can be automatically inserted into the double-disc driving mode again under the action of the synchronous top spring, and the switching is convenient and quick.

5. The device grinds the particle diameter and can freely adjust through adjusting the pole, when rotating the regulation pole, adjust the pole and can drive the actuating lever through body of rod screw thread and reciprocate to the actuating lever can drive the synchronous oscilaltion of mill when reciprocate and change the use position, thereby changed the grinding particle diameter of grinding assembly, can adapt to the processing user demand of the different particle diameters of fodder, and feed cylinder is pressed against the top at last mill all the time under the effect of top spring, and the inside fodder of feed cylinder can enter into the inside of grinding assembly through the feed chute and grind processing use, adaptability and stability are extremely strong.

Drawings

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

The drawings described below are only for illustration of some embodiments of the invention and are not intended to limit the invention.

In the drawings:

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

FIG. 2 is a schematic view of the structure of the present invention with the mounting assembly disassembled.

FIG. 3 is a schematic view of the structure of the inner portion of the polishing assembly of the present invention after disassembly.

Fig. 4 is a schematic view of the structure of the driving assembly of the present invention after being disassembled.

Fig. 5 is a schematic view of the structure of the inside of the present invention in the dual disk drive mode.

Fig. 6 is a schematic view of the structure of the inside in the single disk drive mode of the present invention.

FIG. 7 is a schematic view of the structure of the inside of the polishing member according to the present invention after adjusting the polishing particle size.

Fig. 8 is an enlarged schematic view of the structure of the portion a in fig. 5 according to the present invention.

Fig. 9 is an enlarged schematic view of the structure of the B part in fig. 5 according to the present invention.

Fig. 10 is an enlarged schematic view of the structure of the C part of fig. 6 according to the present invention.

Fig. 11 is an enlarged schematic view of the structure of the D portion of fig. 7 according to the present invention.

Fig. 12 is an enlarged schematic view of the structure of the present invention at the E-site in fig. 2.

FIG. 13 is a schematic view of a first cross-sectional configuration of a feeder of the present invention.

FIG. 14 is a second cross-sectional structural schematic view of the feeder of the present invention.

List of reference numerals

1. A mounting assembly; 101. a mounting base; 102. a fixing seat; 1021. a connecting gear; 103. positioning the vertical rod; 1031. pressing the top spring; 104. a feeding cylinder; 1041. a cylinder wall; 1042. a cone assembly; 10421. an arc shaft; 10422. a conical inclined plate; 10423. a first arcuate arm; 104231, first locking projections; 10424. a second arcuate arm; 104241, a second locking projection; 1043. a first moving block; 10431. a first seal ring; 10432. a third lock block; 1044. a second moving block; 10441. a second seal ring; 10442. a fourth lock block; 1045. a locking pin; 105. a collecting tray; 2. a drive assembly; 201. a driving motor; 202. a drive gear; 2021. a synchronization groove a; 203. a driving rod; 2031. separating the positioning groove; 204. a synchronizing wheel; 2041. a synchronization groove b; 2042. a synchronizing gear; 2043. a synchronous ejection spring; 205. an adjusting rod; 206. a positioning rod; 2061. separating the tension spring; 3. a grinding assembly; 301. an upper millstone; 3011. synchronizing the tooth slots; 3012. locking the positioning hole; 3013. a feed chute; 302. a lower grinding disc; 3021. and (3) reversing the gear.

Description of the embodiments

The technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings of the specific embodiments of the present invention.

Examples: please refer to fig. 1 to 14:

the invention provides a feed processing and grinding device, which comprises a mounting assembly 1, wherein the mounting assembly 1 comprises a mounting assembly 1, the mounting assembly 1 comprises a mounting seat 101, a fixed seat 102, a positioning vertical rod 103, a feeding cylinder 104 and a collecting disc 105, the fixed seat 102 is fixedly arranged at the top of the mounting seat 101, the positioning vertical rod 103 is fixedly arranged at the top of the side surface of the mounting seat 101, the feeding cylinder 104 is spliced outside the positioning vertical rod 103, and the collecting disc 105 is fixedly arranged outside the fixed seat 102; the driving assembly 2 comprises a driving motor 201, a driving gear 202, a driving rod 203, a synchronizing wheel 204, an adjusting rod 205 and a positioning rod 206, wherein the driving motor 201 is fixedly arranged at the bottom of the fixed seat 102, the driving gear 202 is rotationally connected inside the fixed seat 102, a rotating shaft of the driving motor 201 is in transmission connection with the driving gear 202, the driving rod 203 is rotationally connected at the top of the driving gear 202, the synchronizing wheel 204 is inserted outside the driving rod 203, the adjusting rod 205 is rotationally connected inside the driving gear 202, and the positioning rod 206 is inserted outside the synchronizing wheel 204; the grinding assembly 3, the grinding assembly 3 includes an upper grinding disc 301 and a lower grinding disc 302, the upper grinding disc 301 is rotatably connected to the outside of the driving rod 203, the lower grinding disc 302 is rotatably connected to the outside of the fixing seat 102, and the rod body of the driving rod 203 passes through the inside of the upper grinding disc 301.

The driving motor 201 is electrically connected with an external power supply and a control device, and the specific structure and the working principle thereof are the existing mature technology and are not described herein.

The bottom of the lower grinding disc 302 is provided with a reversing gear 3021, the inside of the fixed seat 102 is provided with a connecting gear 1021, gear teeth at the top and the bottom of the connecting gear 1021 are respectively meshed with gear teeth of the reversing gear 3021 and the driving gear 202 for transmission, in use, when the device is in a double-disc driving mode, the synchronizing gear 2042 is inserted into the synchronizing tooth socket 3011 under the action of the pressing top spring 1031, and the locking pin 1045 is not inserted into the locking positioning hole 3012, so that the upper grinding disc 301 can freely rotate, at the moment, the upper grinding disc 301 and the lower grinding disc 302 can synchronously rotate under the driving of the driving motor 201, the grinding efficiency is high, when the driving motor 201 rotates in a double-disc driving mode, the driving motor 201 drives the driving gear 202 to rotate, the rod body of the driving rod 203 is in a regular polygon shape, a synchronizing groove a2021 is arranged in the inside of the driving gear 202, the rod body at the bottom of the driving rod 203 is inserted into the synchronizing groove a 1, and the rod body 202203 in the middle of the synchronizing wheel 202b 202 can synchronously rotate under the synchronizing groove 202 b 202, and the synchronizing gear 302 can synchronously rotate under the driving of the driving motor 201, and the driving rod 202 can synchronously rotate under the driving of the driving motor 201 b, and synchronously rotate along with the synchronizing groove 202 a synchronous groove 202, so that the grinding wheel 302 can synchronously rotate, and synchronously rotate, when the driving gear 302 rotates, and synchronously rotate, so that the grinding wheel 302 can rotate, and the grinding wheel 203 can rotate.

The bottom of the synchronizing wheel 204 is provided with a synchronizing gear 2042, the top of the upper grinding disc 301 is provided with a synchronizing tooth slot 3011, the synchronizing gear 2042 is inserted into the synchronizing tooth slot 3011, when the device is in a single-disc driving mode, the positioning rod 206 is inserted into the separating positioning slot 2031 under the action of the separating tension spring 2061, the synchronizing wheel 204 is synchronously positioned by the positioning rod 206 so that the synchronizing gear 2042 is separated from the synchronizing tooth slot 3011, and it is noted that the locking pin 1045 is required to be synchronously inserted into the feeding cylinder 104 and the locking positioning hole 3012 in the single-disc driving mode, so that the upper grinding disc 301 cannot rotate at this time, only the lower grinding disc 302 rotates to realize grinding operation when the driving motor 201 rotates, the upper grinding disc 301 cannot be driven by the idling of the synchronizing wheel 204 when the driving motor 201 rotates in the mode, and the lower grinding disc 302 can still rotate under the driving of the driving motor 201, so that the single-disc grinding effect is realized, and the device is convenient to use and multiple modes.

The side of the rod body of the driving rod 203 is provided with a separation positioning groove 2031, the outside of the rod body of the positioning rod 206 is sleeved with a separation tension spring 2061, two ends of the separation tension spring 2061 are respectively and fixedly connected to the side of the positioning rod 206 and the inside of the synchronizing wheel 204, in use, the use position of the synchronizing wheel 204 can be positioned through the positioning rod 206, after the synchronizing wheel 204 is pulled upwards in a double-disk driving mode, the positioning rod 206 can be automatically inserted into the inside of the separation positioning groove 2031 under the action of the separation tension spring 2061 to realize the positioning of the synchronizing wheel 204 and the separation of the synchronizing gear 2042 and the synchronizing tooth socket 3011, so that the device is switched to a single-disk driving mode, the top of the synchronizing wheel 204 is provided with a synchronizing top spring 2043, two ends of the synchronizing top spring 2043 are respectively and fixedly connected to the top of the synchronizing wheel 204 and the top of the driving rod 203, and after the positioning rod 206 is pulled, the synchronizing gear 2042 of the synchronizing wheel 204 can be automatically inserted into the inside of the synchronizing tooth socket 3011 to be switched to the double-disk driving mode again under the action of the synchronizing top spring 2043.

The rod body of adjusting rod 205 is externally provided with threads, and adjusting rod 205 is screwed in the driving rod 203 through the rod body threads, in use, the grinding particle size of the device can be freely adjusted through the adjusting rod 205, when the adjusting rod 205 is rotated, the adjusting rod 205 can drive the driving rod 203 to move up and down through the rod body threads, thereby the driving rod 203 can drive the upper grinding disc 301 to move up and down synchronously to change the use position when moving up and down, thereby the grinding particle size of the grinding assembly 3 is changed, the processing use requirements of different particle sizes of feed can be met, the top of the positioning upright rod 103 is sheathed with a compression top spring 1031, two ends of the compression top spring 1031 are respectively fixedly connected at the top of the feeding cylinder 104 and the top of the collecting disc 105, the bottom of the feeding cylinder 104 is sheathed with a locking pin 1045, and the top of the upper grinding disc 301 is provided with a locking positioning hole 3012, the feeding cylinder 104 always abuts against the top of the upper grinding disc 301 under the action of the compression top spring 301, and the feed inside the feeding cylinder 104 can enter the grinding assembly 3 through the feeding groove 3013 for grinding processing use, and the feed inside the feeding cylinder is extremely strong in adaptability and stability.

Wherein, the cross-sectional shape at lower mill 302 top is triangle-shaped, and the bottom of last mill 301 is equipped with the grinding groove that matches with lower mill 302 top shape, the inside of last mill 301 is equipped with four feed grooves 3013, the quantity of feed groove 3013 is not limited to four, its quantity can increase and decrease, feed groove 3013 and the bottom intercommunication of feed cylinder 104, thereby this design has strengthened the grinding effect, thereby the fodder after grinding can fall into the inside of collecting tray 105 fast and collect, and the design of feed groove 3013 makes no matter whether last mill 301 rotates, feed cylinder 104 can grind the inside of feed feeding grinding component 3 through feed groove 3013 all the time, stable in use.

13-14, a cone assembly 1042 is provided on the wall 1041 of the feeder cylinder 104, the cone assembly comprising an arcuate shaft 10421 rotatably connected to the inside of the wall 1041 at the top end thereof; a conical inclined plate 10422, wherein one end of the conical inclined plate 10422 is rotatably connected to the cylinder wall through the arc shaft 10421; first arc arm 10423 and second arc arm 10424, the one end of first arc arm 10423 slide set up in the second arc arm 10424, the other end of awl inclined panel connect in first arc arm with on the second arc arm.

Further, the first arc arm slides and sets up in the one end in the second arc arm is provided with first locking protrusion 104231, the second arc arm is close to the one end of first arc arm is provided with the second locking protrusion 104241, the second locking protrusion with the protruding looks butt of first locking is set up.

Further, the feeding cylinder 104 is further provided with a first moving block 1043 and a second moving block 1044, the first moving block and the second moving block are slidably disposed relative to the cylinder wall of the feeding cylinder, the first moving block is abutted to the first arc-shaped arm, the second moving block is abutted to the second arc-shaped arm, preferably, the feeding cylinder is provided with a hole matched with the first moving block and the second moving block in size, and the first moving block and the second moving block are slidably disposed in the corresponding holes; a first sealing ring 10431 is arranged in the circumferential direction of the first moving block, and a second sealing ring 10441 is also arranged in the circumferential direction of the second moving block; the first moving block is further provided with a third locking block 10432, the third locking block is abutted to the outer side of the cylinder wall, the second moving block is further provided with a fourth locking block 10442, and the fourth locking block is abutted to the outer side of the cylinder wall.

Through the first movable block of operation and the second movable block of setting, make the conical surface subassembly take place to remove, specifically, awl inclined plane board rotates along the arc axle, and first arc arm slides in the second arc arm, until first locking protruding butt is on the second locking arch for the section of thick bamboo wall of feed section of thick bamboo forms certain tapering with the conical surface subassembly, the pouring and the pan feeding of the interior fodder of feed section of thick bamboo of being convenient for more improves grinding efficiency.

Specific use and action of the embodiment: in the invention, according to the actual grinding requirement, the grinding particle size and the driving mode of the device are regulated, the grinding particle size can be freely regulated by the regulating rod 205, when the regulating rod 205 is rotated, the regulating rod 205 can drive the driving rod 203 to move up and down through the rod body screw thread, so that the driving rod 203 can drive the upper grinding disc 301 to move up and down synchronously to change the using position when moving up and down, thereby changing the grinding particle size of the grinding component 3, adapting to the processing and using requirements of different particle sizes of feeds, the feeding cylinder 104 always abuts against the top of the upper grinding disc 301 under the action of the pressing top spring 1031, the feeds in the feeding cylinder 104 can enter the grinding component 3 through the feeding groove 3013 for grinding and use, the using position of the synchronous wheel 204 can be positioned through the positioning rod 206, the positioning rod 206 can be automatically inserted into the separating positioning groove 2031 under the action of the separating tension spring 2061 after the synchronous wheel 204 is pulled upwards in the double-disk driving mode to realize the positioning of the synchronous wheel 204 and the separation of the synchronous gear 2042 and the synchronous tooth groove 3011, so that the device is switched to the single-disk driving mode, after the positioning rod 206 is pulled, the synchronous gear 2042 of the synchronous wheel 204 can be automatically inserted into the synchronous tooth groove 3011 under the action of the synchronous top spring 2043 to be switched to the double-disk driving mode again, after the adjustment is finished, the power supply of the driving motor 201 can be started to grind the feed after the feed is placed into the interior of the feeding cylinder 104, the feeding groove 3013 is designed so that the feeding cylinder 104 can always grind the feed into the grinding assembly 3 through the feeding groove 3013 no matter whether the upper grinding disc 301 rotates, in the double-disk driving mode, at the moment, the synchronous gear 2042 is inserted into the interior of the synchronous tooth groove 3011 under the action of the pressing top spring 1031, the locking pin 1045 is not inserted into the locking positioning hole 3012, so that the upper grinding disc 301 can rotate freely at this time, the upper grinding disc 301 and the lower grinding disc 302 can synchronously rotate under the drive of the driving motor 201, the grinding efficiency is high, the grinding device is convenient to use, when in a double-disc driving mode, the driving motor 201 drives the driving gear 202 to rotate, the driving gear 202 can drive the driving rod 203 to synchronously rotate in the rotating synchronous groove a2021, the driving rod 203 can drive the synchronous wheel 204 to rotate through the synchronous groove b2041 during rotation, the synchronous gear 2042 can drive the upper grinding disc 301 to rotate through the synchronous tooth socket 3011 during rotation of the synchronous wheel 204, meanwhile, the lower grinding disc 302 and the upper grinding disc 301 can synchronously rotate through the connecting gear 1021, the rotating direction of the reversing gear 3021 is opposite to that of the driving gear 202, when in a single-disc driving mode, the positioning rod 206 is inserted into the inside of the separating positioning groove 202 under the action of the tension spring 2061, the synchronous wheel 204 is positioned by the positioning rod 206, the synchronous gear 301 can still rotate, and when the synchronous wheel 201 is in a single-disc driving mode, the synchronous rotation of the upper grinding disc 302 can not be realized, and the inner grinding disc 302 can still rotate synchronously rotate, and the lower grinding disc 301 can not rotate, when the synchronous shaft 201 is required to rotate, and the synchronous shaft 201 can still rotate, and the inner grinding disc is required to rotate in the single-disc 201, and the inner grinding disc is required to rotate, and the synchronous shaft is driven by the synchronous motor 201 when the synchronous motor 201 is driven to rotate, and the synchronous shaft is required to rotate, and can rotate, and only when the synchronous shaft 201, and can rotate and rotate, and the lower grinding shaft 201 and the grinding shaft. The ground feed can quickly fall into the interior of the tray 105 for collection.

Claims

1. A feed processing grinder, comprising: the mounting assembly (1), the mounting assembly (1) comprises a mounting seat (101), a fixing seat (102), a positioning vertical rod (103), a feeding cylinder (104) and a collecting disc (105), wherein the fixing seat (102) is fixedly arranged at the top of the mounting seat (101), the positioning vertical rod (103) is fixedly arranged at the top of the side surface of the mounting seat (101), the feeding cylinder (104) is inserted outside the positioning vertical rod (103), and the collecting disc (105) is fixedly arranged outside the fixing seat (102); the driving assembly (2) comprises a driving motor (201), a driving gear (202), a driving rod (203), a synchronizing wheel (204), an adjusting rod (205) and a positioning rod (206), wherein the driving motor (201) is fixedly arranged at the bottom of the fixed seat (102), the driving gear (202) is rotationally connected to the inside of the fixed seat (102), a rotating shaft of the driving motor (201) is in transmission connection with the driving gear (202), the driving rod (203) is rotationally connected to the top of the driving gear (202), the synchronizing wheel (204) is inserted into the outside of the driving rod (203), the adjusting rod (205) is rotationally connected to the inside of the driving gear (202), and the positioning rod (206) is inserted into the outside of the synchronizing wheel (204). The grinding assembly (3), the grinding assembly (3) comprises an upper grinding disc (301) and a lower grinding disc (302), the upper grinding disc (301) is rotationally connected to the outside of the driving rod (203), the lower grinding disc (302) is rotationally connected to the outside of the fixing seat (102), and a rod body of the driving rod (203) penetrates through the inside of the upper grinding disc (301);

a cone assembly (1042) is arranged on the cylinder wall (1041) of the feeding cylinder (104), and comprises an arc-shaped shaft (10421) which is rotatably connected to the top end of the inner side of the cylinder wall (1041); one end of the conical inclined plate (10422) is rotatably connected to the cylinder wall through the arc-shaped shaft (10421); a first arc-shaped arm (10423) and a second arc-shaped arm (10424), wherein one end of the first arc-shaped arm (10423) is slidably arranged in the second arc-shaped arm (10424), and the other end of the conical inclined panel (10422) is connected to the first arc-shaped arm and the second arc-shaped arm;

the first arc-shaped arm is arranged at one end in the second arc-shaped arm in a sliding manner, a first locking protrusion (104231) is arranged at one end, close to the first arc-shaped arm, of the second arc-shaped arm, a second locking protrusion (104241) is arranged at one end, close to the first arc-shaped arm, of the second arc-shaped arm, the second locking protrusion is in butt joint with the first locking protrusion, a first moving block (1043) and a second moving block (1044) are further arranged on the feeding cylinder (104), the first moving block and the second moving block are arranged in a sliding manner relative to the cylinder wall of the feeding cylinder, the first moving block is in butt joint with the first arc-shaped arm, and the second moving block is in butt joint with the second arc-shaped arm; a first sealing ring (10431) is arranged in the circumferential direction of the first moving block, and a second sealing ring (10441) is also arranged in the circumferential direction of the second moving block; the first movable block is further provided with a third locking block (10432), the third locking block is abutted to the outer side of the cylinder wall, the second movable block is further provided with a fourth locking block (10442), and the fourth locking block is abutted to the outer side of the cylinder wall.

2. A feed processing grinder as set forth in claim 1, wherein: the bottom of lower mill (302) is equipped with counter gear (3021), and the inside of fixing base (102) is equipped with connecting gear (1021), and the teeth of a cogwheel at connecting gear (1021) top and bottom respectively with the tooth interlock transmission of counter gear (3021) and drive gear (202).

3. A feed processing grinder as set forth in claim 1, wherein: the cross-section of the rod body of the driving rod (203) is regular polygon, a synchronizing groove a (2021) is arranged in the driving gear (202), a synchronizing groove b (2041) is arranged in the synchronizing wheel (204), the rod body at the bottom of the driving rod (203) is inserted into the synchronizing groove a (2021), and the rod body at the middle of the driving rod (203) is inserted into the synchronizing groove b (2041).

4. A feed processing grinder as set forth in claim 1, wherein: the bottom of synchronizing wheel (204) is equipped with synchronizing gear (2042), and the top of last mill (301) is equipped with synchronous tooth's socket (3011), and synchronizing gear (2042) peg graft in synchronous tooth's socket (3011) inside.

5. A feed processing grinder as set forth in claim 1, wherein: the top of synchronizing wheel (204) is equipped with synchronous top spring (2043), and the both ends of synchronous top spring (2043) are fixed connection respectively at the top of synchronizing wheel (204) and the top of actuating lever (203).

6. A feed processing grinder as set forth in claim 1, wherein: the outer part of the rod body of the adjusting rod (205) is provided with threads, and the adjusting rod (205) is screwed inside the driving rod (203) through the threads of the rod body.

7. A feed processing grinder as set forth in claim 1, wherein: the side of the rod body of the driving rod (203) is provided with a separation positioning groove (2031), the outside of the rod body of the positioning rod (206) is sleeved with a separation tension spring (2061), and two ends of the separation tension spring (2061) are respectively and fixedly connected with the side of the positioning rod (206) and the inside of the synchronous wheel (204).

8. A feed processing grinder as set forth in claim 1, wherein: the top of location pole setting (103) has cup jointed and has pressed top spring (1031), and the both ends of pressing top spring (1031) are fixed connection respectively at the top of feed cylinder (104) and the top of collecting tray (105), and the bottom of feed cylinder (104) has pegged graft locking pin pole (1045), and the top of last mill (301) is equipped with locking locating hole (3012).

9. A feed processing grinder as set forth in claim 1, wherein: the cross-sectional shape at the top of lower mill (302) is triangle-shaped, and the bottom of last mill (301) is equipped with the grinding groove that matches with lower mill (302) top shape, and the inside of last mill (301) is equipped with four feed tanks (3013), and the quantity of feed tanks (3013) is not limited to four, and its quantity can increase and decrease, and the bottom intercommunication of feed tank (3013) and feed cylinder (104).