Disclosure of Invention
(1) Technical problem to be solved
The invention aims to overcome the defects that beet stalks are separated from a cutter, the beet stalks are manually carded, the size of a cut finished product is not uniform, and more impurities exist in the cut finished product due to the hard characteristic of the beet stalks during cutting.
The invention is achieved by the following specific technical means:
the utility model provides a green plant preprocessing device of production plant foam type fire extinguishing agent, including the feed plate, comb bars, the cam, first drive wheel, reposition of redundant personnel carding unit, the second drive wheel, the cutting hand hay cutter, strain and wash collection mechanism and stir reposition of redundant personnel mechanism, feed plate bottom front side is provided with comb bars, the feed plate bottom is connected with reposition of redundant personnel carding unit, comb bars front end middle part is rotated with the cam and is connected, cam front end top is rotated with first drive wheel and is connected, and first drive wheel is connected with the reposition of redundant personnel carding unit's of below left end transmission, reposition of redundant personnel carding unit left end middle part is connected with the second drive wheel, reposition of redundant personnel carding unit bottom is provided with the cutting hand hay cutter, reposition of redundant personnel carding unit front end middle and upper portion is provided with stirs reposition of redundant personnel mechanism, the cutting hand.
Furthermore, the shunting carding device comprises a carding conveying workbench, a first hourglass-shaped shunting plate, a second hourglass-shaped shunting plate, a third driving wheel, a first bevel gear, a second bevel gear, a chassis fixed wheel, a first distributing wheel, a second distributing wheel, a third distributing wheel, a fourth distributing wheel, a fifth distributing wheel, a sixth distributing wheel, a seventh distributing wheel and an eighth distributing wheel, wherein the left side of the front end of the carding conveying workbench is provided with the first hourglass-shaped shunting plate, the right side of the front end of the carding conveying workbench is provided with the second hourglass-shaped shunting plate, the middle part of the right end of the carding conveying workbench is rotatably connected with the third driving wheel, the middle part of the right end of the third right end of the carding conveying workbench is rotatably connected with the first bevel gear, the bottom of the right end of the first bevel gear is mutually meshed with the second bevel gear, the middle part of the bottom end of the first bevel gear is rotatably connected with the chassis fixed wheel, the second bevel gear is in transmission connection with the first distributing wheel on the left, the middle part of the bottom end of the first dial wheel is connected with a carding conveying workbench, the chassis fixed wheel is in transmission connection with a fifth dial wheel at the lower left part through a belt, the middle part of the bottom end of the fifth dial wheel is connected with the carding conveying workbench, the first dial wheel is in transmission connection with a second dial wheel at the left end through a belt, the middle part of the bottom end of the second dial wheel is connected with the carding conveying workbench, the second dial wheel is in transmission connection with a third dial wheel at the lower end through a belt, the middle part of the bottom end of the third dial wheel is connected with the carding conveying workbench, the third dial wheel is in transmission connection with a fourth dial wheel at the right end through a belt, the middle part of the bottom end of the fourth dial wheel is connected with the carding conveying workbench, the fifth dial wheel is in transmission connection with a sixth dial wheel at the left end through a belt, and the middle part of the bottom end of the sixth dial wheel is connected with the carding conveying workbench, sixth dial minute wheel top is dialled through the belt and is divided the wheel with the seventh and carry out the transmission and be connected, and seventh dial minute wheel bottom middle part is connected with the conveying table of combing, seventh dial minute wheel is divided the wheel through the belt and is carried out the transmission with the eighth of right-hand member and is connected, and eighth dial minute wheel bottom middle part is connected with the conveying table of combing, it is connected with the feed plate to comb conveying table top, it is connected with the second drive wheel to comb conveying table left end middle part, it is connected with the cutting hand hay cutter to comb conveying table bottom front side, it is connected with stirring reposition of redundant personnel mechanism to comb upper portion in the conveying table, the third drive wheel is connected with the cutting hand hay cutter of bottom.
Furthermore, the cutting chopper comprises a chopper frame, a first sliding support, a second sliding support, a first strip-shaped sliding rail, a second strip-shaped sliding rail, a first chopper, a second chopper, a first cutting knife, a second cutting knife, a middle shaft sliding rod, a central control shaft, a first spring rod, a second spring rod, a fourth transmission wheel, a linkage eccentric gear, a linkage rod and a cylinder, wherein the first sliding support is arranged below the top end in the chopper frame, the second sliding support is arranged at the middle upper part in the chopper frame, the middle lower part at the left end of the chopper frame is rotatably connected with the fourth transmission wheel, the cylinder is arranged at the middle part at the bottom end in the chopper frame, the left side at the rear end of the first sliding support is slidably connected with the first chopper, the bottom end of the first chopper is connected with the second sliding support, the right side at the rear end of the first sliding support is slidably connected with the second chopper, and the bottom end of the second sliding support is connected with the second sliding support, the left middle part of the rear end of the first sliding support is in sliding connection with the first cutting knife, the right middle part of the rear end of the first sliding support is in sliding connection with the second cutting knife, the left middle part of the bottom end of the second sliding support is connected with the first strip-shaped slide rail, the right middle part of the bottom end of the second sliding support is connected with the second strip-shaped slide rail, the middle part of the front end of the first strip-shaped slide rail is in sliding connection with the first spring rod through a slide block, the middle part of the front end of the second strip-shaped slide rail is in sliding connection with the second spring rod through a slide block, the bottom end of the first cutting knife is connected with the middle shaft slide bar through a tension spring, the right side of the middle upper part of the outer surface of the middle shaft slide bar is connected with the second cutting knife, the middle part of the outer surface of the middle shaft slide bar is sleeved with the central control shaft, the bottom end of the middle shaft sliding rod is connected with the air cylinder, the right end of the fourth driving wheel is rotatably connected with the linkage eccentric gear, the right end of the linkage eccentric gear is connected with the linkage rod, the bottom end of the chopping knife rest is connected with the shunting carding device, and the fourth driving wheel is connected with the shunting carding device at the front end.
Further, it includes the footing to filter and wash collection mechanism, filter the edulcoration cabin, the filter, the spoiler, the blowing canal board, the cabin of stewing, collect cabin and baiting valve, the footing top is connected with the edulcoration cabin of filtering, it is provided with the filter to filter the edulcoration under-deck middle part, it is provided with the spoiler to filter the edulcoration under-deck left end top, it is provided with the blowing canal board to filter edulcoration cabin left end middle part, blowing canal board bottom is connected with the cabin of stewing, it is provided with the collection cabin to stew under-deck bottom, it is provided with the baiting valve to collect the cabin left end, it is connected with the cutting hand.
Further, stir reposition of redundant personnel mechanism and include motor, pivot pole and dial the board, motor top middle part rotates with the pivot pole to be connected, and pivot pole left end downside is connected with dialling the board, dials the board bottom and is connected with reposition of redundant personnel carding unit.
Furthermore, the right side of the first fodder chopper and the left side of the second fodder chopper are both in a sawtooth shape.
Furthermore, four carding rods are equidistantly arranged at the bottom end of the carding grid.
Furthermore, the standing cabin is provided with a left sub-chamber and a right sub-chamber, and the bottom end of each sub-chamber is provided with four groups of baffle switches capable of being opened.
Compared with the prior art, the invention has the following beneficial effects:
(1) in order to solve the problems that in the prior art, the beet stalks are hard, and are disorderly and difficultly processed when being collected, so that when the beet stalks are cut, because of the hard characteristic, the beet stalks can be separated from the cutter during cutting, the beet stalks are scattered on the ground to cause the waste of the beet stalks, the beet stalks are manually carded, and the cut finished product has uneven size and more impurities, a shunting carding device, a cutting chopper, a filtering and washing collecting mechanism and a shifting and shunting mechanism are designed, when in use, the shifting and shunting mechanism is matched with the shunting carding device to complete the carding and the adjustment of the stacked beet stalks, and the cut beet stalks are further cut into beet pulp by the cutting chopper, and finally, impurities are removed through a filtering, washing and collecting mechanism, the preparation of the fire extinguishing agent raw material is completed, the effects of automatically carding and stacking the beet stalks, cutting the beet stalks with high efficiency, stability, no scattering and waste, and accurately removing the impurities to obtain pure beet pulp are achieved.
Detailed Description
The invention is further described below with reference to the figures and examples.
Examples
A green environmental protection plant pretreatment device for producing plant foam type fire extinguishing agent is disclosed, as shown in figure 1-7, comprising a feeding plate 1, a carding grid 2, a cam 3, a first driving wheel 4, a shunt carding device 5, a second driving wheel 6, a cutting chopper 7, a filtering and washing collecting mechanism 8 and a stirring and shunting mechanism 9, wherein the carding grid 2 is arranged on the front side of the bottom end of the feeding plate 1, the bottom end of the feeding plate 1 is connected with the shunt carding device 5, the middle part of the front end of the carding grid 2 is rotationally connected with the cam 3, the top part of the front end of the cam 3 is rotationally connected with the first driving wheel 4, the first driving wheel 4 is in transmission connection with the left end of the shunt carding device 5 below, the middle part of the left end of the shunt carding device 5 is connected with the second driving wheel 6, the bottom end of the shunt carding device 5 is provided with the cutting chopper 7, the middle-upper, the bottom end of the cutting guillotine 7 is provided with a filtering and washing collecting mechanism 8.
The shunting carding device 5 comprises a carding conveying workbench 501, a first hourglass-shaped shunting plate 502, a second hourglass-shaped shunting plate 503, a third driving wheel 504, a first bevel gear 505, a second bevel gear 506, a chassis fixing wheel 507, a first distributing wheel 508, a second distributing wheel 509, a third distributing wheel 5010, a fourth distributing wheel 5011, a fifth distributing wheel 5012, a sixth distributing wheel 5013, a seventh distributing wheel 5014 and an eighth distributing wheel 5015, wherein the left side of the front end of the carding conveying workbench 501 is provided with the first hourglass-shaped shunting plate 502, the right side of the front end of the carding conveying workbench 501 is provided with the second hourglass-shaped shunting plate 503, the middle part of the right end of the carding conveying workbench 501 is rotatably connected with the third driving wheel 504, the middle part of the right end of the third driving wheel 504 is rotatably connected with the first bevel gear 505, the bottom of the right end of the first bevel gear 505 is meshed with the second bevel gear 506, the middle part of the bottom end of the second bevel gear 506 is rotatably connected with the chassis fixing wheel 507, the chassis fixing wheel 507 is in transmission connection with a first dial wheel 508 on the upper left through a belt, the middle of the bottom end of the first dial wheel 508 is connected with the carding transmission workbench 501, the chassis fixing wheel 507 is in transmission connection with a fifth dial wheel 5012 on the lower left through a belt, the middle of the bottom end of the fifth dial wheel 5012 is connected with the carding transmission workbench 501, the first dial wheel 508 is in transmission connection with a second dial wheel 509 on the left end through a belt, the middle of the bottom end of the second dial wheel 509 is connected with the carding transmission workbench 501, the second dial wheel is in transmission connection with a third dial wheel 5010 on the lower end through a belt, the middle of the bottom end of the third dial wheel 5010 is connected with the carding transmission workbench 501, the third dial wheel 5010 is in transmission connection with a fourth dial wheel 5011 on the right end through a belt, and the middle of the fourth dial wheel 5011 is connected with the bottom end of the carding transmission workbench 501, the fifth dial wheel 5012 is in transmission connection with a sixth dial wheel 5013 at the left end through a belt, and the middle part of the bottom end of the sixth dial wheel 5013 is connected with the carding conveying workbench 501, the sixth dial wheel 5013 is in transmission connection with the seventh dial wheel 5014 at the upper end through a belt, and the middle part of the bottom end of the seventh dial wheel 5014 is connected with the carding conveying workbench 501, the seventh dial wheel 5014 is in transmission connection with the eighth dial wheel 5015 at the right end through a belt, and eighth dial minute wheel 5015 bottom middle part is connected with combing and conveying workstation 501, combs the top of conveying workstation 501 and is connected with feed plate 1, combs the left end middle part of conveying workstation 501 and is connected with second drive wheel 6, combs the bottom front side of conveying workstation 501 and is connected with cutting hand hay cutter 7, combs upper portion and is connected with stirring reposition of redundant personnel mechanism 9 in the conveying workstation 501, and third drive wheel 504 is connected with the cutting hand hay cutter 7 of bottom.
The cutting guillotine 7 comprises a guillotine rack 701, a first sliding support 702, a second sliding support 703, a first strip-shaped sliding rail 704, a second strip-shaped sliding rail 705, a first guillotine 706, a second guillotine 707, a first cutting knife 708, a second cutting knife 709, a middle shaft sliding bar 7010, a central control shaft 7011, a first spring bar 7012, a second spring bar 7013, a fourth transmission wheel 7014, a linkage eccentric gear 7015, a linkage bar 7016 and an air cylinder 7017, wherein the first sliding support 702 is arranged below the inner top end of the guillotine rack 701, the second sliding support 703 is arranged at the middle upper part in the guillotine rack 701, the middle lower part at the left end of the guillotine rack 701 is rotatably connected with the fourth transmission wheel 7014, the air cylinder 7017 is arranged at the middle part at the inner bottom end of the guillotine rack 701, the left side at the rear end of the first sliding support 702 is slidably connected with the first guillotine 706, the bottom end of the first sliding support 703 is connected with the second sliding support 703, the right side at the rear, the bottom end of the second guillotine 707 is connected with the second sliding support 703, the left middle part of the rear end of the first sliding support 702 is connected with the first cutter 708 in a sliding manner, the right middle part of the rear end of the first sliding support 702 is connected with the second cutter 709 in a sliding manner, the left middle part of the bottom end of the second sliding support 703 is connected with the first bar-shaped slide rail 704, the right middle part of the bottom end of the second sliding support 703 is connected with the second bar-shaped slide rail 705, the middle part of the front end of the first bar-shaped slide rail 704 is connected with the first spring bar 7012 in a sliding manner through a slider, the middle part of the front end of the second bar-shaped slide rail 705 is connected with the second spring bar 7013 in a sliding manner through a slider, the bottom end of the first cutter 708 is connected with the middle shaft slide bar 7010 through a tension spring, the right side of the middle upper part of the outer surface of the middle shaft slide bar 7010 is connected with the second spring, the right end of a central control shaft 7011 is connected with a second spring bar 7013, the middle lower part of the outer surface of a central shaft sliding rod 7010 is rotatably connected with a linkage bar 7016, the bottom end of the central shaft sliding rod 7010 is connected with an air cylinder 7017, the right end of a fourth driving wheel 7014 is rotatably connected with a linkage eccentric gear 7015, the right end of the linkage eccentric gear 7015 is connected with the linkage bar 7016, the bottom end of a guillotine rack 701 is connected with a shunting carding device 5, and the fourth driving wheel 7014 is connected with a shunting carding device 5 at the front end.
The filtering and washing collecting mechanism 8 comprises a footing 801, a filtering and impurity removing cabin 802, a filter plate 803, a spoiler 804, a discharging channel plate 805, a standing cabin 806, a collecting cabin 807 and a discharging valve 808, wherein the top end of the footing 801 is connected with the filtering and impurity removing cabin 802, the filter plate 803 is arranged in the middle of the filtering and impurity removing cabin 802, the spoiler 804 is arranged at the top of the left end of the filtering and impurity removing cabin 802, the discharging channel plate 805 is arranged in the middle of the left end of the filtering and impurity removing cabin 802, the bottom end of the discharging channel plate 805 is connected with the standing cabin 806, the collecting cabin 807 is arranged below the bottom end of the standing cabin 806, the discharging valve 808 is arranged at the left end of the collecting cabin 807, and the left.
Toggle shunting mechanism 9 and include motor 901, pivot pole 902 and dial board 903, and motor 901 top middle part rotates with pivot pole 902 to be connected, and pivot pole 902 left end downside is connected with dial board 903, dials board 903 bottom and is connected with reposition of redundant personnel carding unit 5.
The right side of the first guillotine 706 and the left side of the second guillotine 707 are both serrated.
Four carding rods are arranged at the bottom end of the carding grid 2 at equal intervals.
The standing cabin 806 is provided with a left sub-chamber and a right sub-chamber, and the bottom end of each sub-chamber is provided with four groups of baffle switches capable of being opened.
A green environmental protection plant pretreatment device for producing plant foam type fire extinguishing agent comprises a feeding plate 1, a carding grid 2, a cam 3, a first driving wheel 4, a shunt carding device 5, a second driving wheel 6, a cutting chopper 7, a filter-washing collecting mechanism 8 and a stirring and shunting mechanism 9, wherein the carding grid 2 is arranged on the front side of the bottom end of the feeding plate 1, the bottom end of the feeding plate 1 is connected with the shunt carding device 5, the middle part of the front end of the carding grid 2 is rotationally connected with the cam 3, the top of the front end of the cam 3 is rotationally connected with the first driving wheel 4, and first drive wheel 4 left side below is connected with reposition of redundant personnel carding unit 5, and reposition of redundant personnel carding unit 5 left end middle part is connected with second drive wheel 6, and reposition of redundant personnel carding unit 5 bottom is provided with cutting hand hay cutter 7, and upper portion is provided with stirring reposition of redundant personnel mechanism 9 in reposition of redundant personnel carding unit 5 front end, and cutting hand hay cutter 7 bottom is provided with straining and washing collection mechanism 8.
When the device is used, a green environment-friendly plant pretreatment device for producing the plant foam type fire extinguishing agent is horizontally placed on a working plane, then an internal power cylinder 7017 is started, a motor 901 is started to drive the device to operate, sugar beet stalks are manually added into the device through a feeding plate 1, then a first driving wheel 4 drives a cam 3 to rotate, the cam 3 drives a carding grid 2 to do linear reciprocating motion, the effect of carding the stacked sugar beet stalks by the movement of the carding grid 2 is achieved, the stacked sugar beet stalks are uniformly paved at the front end of a shunting carding device 5, a shunting mechanism 9 is stirred to divide the sugar beet stalks into two parts, the two parts enter two carding channels of the shunting carding device 5 to further carry out transmission and shunting treatment on the sugar beet stalks, the sugar beet stalks with different directions are carded to be in the same direction, then a guillotine 7 is cut to carry out cutting treatment on the sugar beet stalks, the sugar beet stalks are easier to be subjected, the artificial impurity removal, filtration and washing operation is carried out on the fire extinguishing agent to achieve clean beet pulp, and the preparation of the fire retardant raw material beet pulp in the fire extinguishing agent is completed.
The shunting carding device 5 comprises a carding conveying workbench 501, a first hourglass-shaped shunting plate 502, a second hourglass-shaped shunting plate 503, a third driving wheel 504, a first bevel gear 505, a second bevel gear 506, a chassis fixing wheel 507, a first distributing wheel 508, a second distributing wheel 509, a third distributing wheel 5010, a fourth distributing wheel 5011, a fifth distributing wheel 5012, a sixth distributing wheel 5013, a seventh distributing wheel 5014 and an eighth distributing wheel 5015, wherein the left side of the front end of the carding conveying workbench 501 is provided with the first hourglass-shaped shunting plate 502, the right side of the front end of the carding conveying workbench 501 is provided with the second hourglass-shaped shunting plate 503, the middle part of the right end of the carding conveying workbench 501 is rotatably connected with the third driving wheel 504, the middle part of the right end of the third driving wheel 504 is rotatably connected with the first bevel gear 505, the bottom of the right end of the first bevel gear 505 is meshed with the second bevel gear 506, the middle part of the bottom end of the second bevel gear 506 is rotatably connected with the chassis fixing wheel 507, the upper left side of a chassis fixed wheel 507 is in transmission connection with a first dial wheel 508 through a belt, the middle of the bottom end of the first dial wheel 508 is connected with a carding transmission workbench 501, the lower left side of the chassis fixed wheel 507 is in transmission connection with a fifth dial wheel 5012 through a belt, the middle of the bottom end of the fifth dial wheel 5012 is connected with the carding transmission workbench 501, the left end of the first dial wheel 508 is in transmission connection with a second dial wheel 509 through a belt, the middle of the bottom end of the second dial wheel 509 is connected with the carding transmission workbench 501, the bottom end of the second dial wheel 509 is in transmission connection with a third dial wheel 5010 through a belt, the middle of the bottom end of the third dial wheel 5010 is connected with the carding transmission workbench 501, the right end of the third dial wheel 5010 is in transmission connection with a fourth dial wheel 5011 through a belt, and the middle of the bottom end of the fourth dial wheel 5011 is connected with the carding transmission workbench 501, the left end of the fifth dial wheel 5012 is in transmission connection with the sixth dial wheel 5013 through a belt, and the middle part of the bottom end of the sixth dial wheel 5013 is connected with the carding conveying workbench 501, the top end of the sixth dial wheel 5013 is in transmission connection with the seventh dial wheel 5014 through a belt, the middle part of the bottom end of the seventh dial wheel 5014 is connected with the carding transmission workbench 501, the right end of the seventh dial wheel 5014 is in transmission connection with the eighth dial wheel 5015 through a belt, and eighth dial minute wheel 5015 bottom middle part is connected with combing and conveying workstation 501, combs the top of conveying workstation 501 and is connected with feed plate 1, combs the left end middle part of conveying workstation 501 and is connected with second drive wheel 6, combs the bottom front side of conveying workstation 501 and is connected with cutting hand hay cutter 7, combs upper portion and is connected with stirring reposition of redundant personnel mechanism 9 in the conveying workstation 501, and third drive wheel 504 bottom is connected with cutting hand hay cutter 7.
When the sugar beet stalks are divided by the dividing mechanism 9 and enter the dividing and carding device 5, then the fourth driving wheel 7014 drives the third driving wheel 504 to rotate through a belt, then the first bevel gear 505 rotates along with the first bevel gear 505, the first bevel gear 505 drives the second bevel gear 506 engaged with the bottom of the right end of the first bevel gear 505, then the chassis fixed wheel 507 rotates along with the second bevel gear, the first dial wheel 508 rotates through a belt at the upper left of the chassis fixed wheel 507, the fifth dial wheel 5012 rotates through a belt at the lower left of the chassis fixed wheel 507, then the second dial wheel 509 rotates through a belt at the left of the first dial wheel 508, then the third dial wheel 5010 at the bottom of the second dial wheel 509 rotates through a belt, then the third dial wheel 5010 drives the fourth dial wheel 5011 at the right end of the third dial wheel 5010 through a belt, simultaneously the left of the fifth dial wheel 5012 drives the sixth dial wheel 5013 to rotate through a belt, and then the top of the sixth dial wheel 5013 drives the seventh dial wheel 5014 to rotate through a belt, then the right end of the seventh poking wheel 5014 drives the eighth poking wheel 5015 at the right end to rotate through a belt, and then the sugar beet stalks on the inner sides of the first hourglass-shaped splitter plate 502 and the second hourglass-shaped splitter plate 503 are combed to a uniform direction, so that the subsequent cutting operation is convenient.
The cutting guillotine 7 comprises a guillotine rack 701, a first sliding support 702, a second sliding support 703, a first strip-shaped sliding rail 704, a second strip-shaped sliding rail 705, a first guillotine 706, a second guillotine 707, a first cutting knife 708, a second cutting knife 709, a middle shaft sliding rod 7010, a central control shaft 7011, a first spring bar 7012, a second spring bar 7013, a fourth transmission wheel 7014, a linkage eccentric gear 7015, a linkage bar 7016 and an air cylinder 7017, wherein the first sliding support 702 is arranged below the inner top end of the guillotine rack 701, the second sliding support 703 is arranged at the middle upper part in the guillotine rack 701, the middle lower part at the left end of the guillotine rack 701 is rotatably connected with the fourth transmission wheel 7014, the air cylinder 7017 is arranged at the middle part at the inner bottom end of the guillotine rack 701, the left side at the rear end of the first sliding support 702 is slidably connected with the first guillotine 706, the bottom end of the first sliding support 703 is connected with the second sliding support 703, the right side at the rear, the bottom end of the second guillotine 707 is connected with the second sliding support 703, the left middle part of the rear end of the first sliding support 702 is connected with the first cutter 708 in a sliding manner, the right middle part of the rear end of the first sliding support 702 is connected with the second cutter 709 in a sliding manner, the left middle part of the bottom end of the second sliding support 703 is connected with the first bar-shaped slide rail 704, the right middle part of the bottom end of the second sliding support 703 is connected with the second bar-shaped slide rail 705, the middle part of the front end of the first bar-shaped slide rail 704 is connected with the first spring bar 7012 in a sliding manner through a slider, the middle part of the front end of the second bar-shaped slide rail 705 is connected with the second spring bar 7013 in a sliding manner through a slider, the bottom end of the first cutter 708 is connected with the middle shaft slide bar 7010 through a tension spring, the right side of the middle upper part of the outer surface of the middle shaft slide bar 7010 is connected with the second spring, the right end of a central control shaft 7011 is connected with a second spring bar 7013, the middle lower part of the outer surface of a central shaft sliding rod 7010 is rotatably connected with a linkage bar 7016, the bottom end of the central shaft sliding rod 7010 is connected with an air cylinder 7017, the right end of a fourth driving wheel 7014 is rotatably connected with a linkage eccentric gear 7015, the right end of the linkage eccentric gear 7015 is connected with the linkage bar 7016, the bottom end of a guillotine rack 701 is connected with a shunting carding device 5, and the front end of the fourth driving wheel 7014 is connected with the shunting carding device 5.
When the sugar beet stalks come to the chopping knife rest 701, the air cylinder 7017 moves up and down to drive the middle shaft sliding rod 7010 to move up and down, then the middle shaft sliding bar 7010 drives the linkage bar 7016 to move, simultaneously the linkage bar 7016 drives the linkage eccentric gear 7015 to rotate, then the eccentric gear 7015 is linked to drive the fourth driving wheel 7014 at the left end to rotate, then the middle shaft sliding rod 7010 drives the first spring bar 7012 and the second spring bar 7013 to slide on the first strip-shaped sliding rail 704 and the second strip-shaped sliding rail 705 through the central control shaft 7011, then the middle shaft sliding bar 7010 drives the first cutting knife 708 and the second cutting knife 709 to slide on the first sliding bracket 702, then the first cutter 708 and the second cutter 709 move leftwards and rightwards respectively to form cutting twisting with the first chopper 706 and the second chopper 707 respectively, and the beet stalks passing through the inner sides of the first cutter and the second cutter are cut into beet pulp, so that the beet stalks are efficiently cut into the beet pulp for subsequent impurity removal operation.
The filtering and washing collecting mechanism 8 comprises a footing 801, a filtering and impurity removing cabin 802, a filter plate 803, a spoiler 804, a discharging channel plate 805, a standing cabin 806, a collecting cabin 807 and a discharging valve 808, wherein the top end of the footing 801 is connected with the filtering and impurity removing cabin 802, the filter plate 803 is arranged in the middle of the filtering and impurity removing cabin 802, the spoiler 804 is arranged on the left side of the top of the left end in the filtering and impurity removing cabin 802, the discharging channel plate 805 is arranged in the middle of the left end of the filtering and impurity removing cabin 802, the bottom end of the discharging channel plate 805 is connected with the standing cabin 806, the collecting cabin 807 is arranged below the bottom end of the standing cabin 806, the discharging valve 808 is arranged at the left end of the collecting cabin 807.
The beet stalks that the cutting is accomplished become the sediment, get into the filter plate 803, then add a small amount of water, and then inside foreign particles gets into inside the filtration edulcoration cabin 802 along with water through the filter plate 803, then the spoiler 804 blocks the beet pulp in the filter plate 803 top, then the edulcoration of waterlogging caused by excessive rainfall is accomplished, then wait for the beet pulp waterlogging caused by excessive rainfall to accomplish, and pile up to excessive, then the beet pulp gets into the cabin 806 that stews through blowing trench plate 805, divide into two cabins inside, wait to stew and dry, open the cabin 806 bottom switch baffle that stews, inside the beet pulp gets into collection cabin 807, then the beet pulp preliminary treatment is accomplished, can carry out follow-up fire extinguishing agent fire retardant.
Toggle shunting mechanism 9 and include motor 901, pivot pole 902 and dial board 903, and motor 901 top middle part rotates with pivot pole 902 to be connected, and pivot pole 902 left end downside is connected with dial board 903, dials board 903 bottom and is connected with reposition of redundant personnel carding unit 5.
When the sugar beet stalks are conveyed to the top end of a carding conveying workbench 501, a motor 901 rotates, a poking plate 903 is driven by a rotating shaft rod 902 to divide the sugar beet stalks into two paths, and the two paths respectively enter a first hourglass-shaped flow distribution plate 502 and a second hourglass-shaped flow distribution plate 503 to carry out carding operation.
The right side of the first fodder chopper 706 and the left side of the second fodder chopper 707 are both serrated, so that when the sugar beet stalks are cut, the serrated cutting edges can enhance the biting force of the sugar beet stalks, and the sugar beet stalks which are not cut are prevented from being separated from the cutter, so that the sugar beet stalks with harder texture are not easy to scatter to the ground when being cut to cause waste of the sugar beet stalks.
Four carding rods are equidistantly arranged at the bottom end of the carding grid 2, so that stacked beet stalks can be scattered through the carding rods when the cam 3 drives the carding grid 2 to move, and the beet stalks are easier to perform subsequent shunting carding operation.
The cabin 806 that stews is provided with two locuses about altogether, and every locuses bottom all is provided with four groups and can open the baffle switch to the beet pulp can not be in a cabin adhesion, is difficult to separate, and two locuses make its air-dry efficiency higher simultaneously.
The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.