阅读说明：本技术 一种魔芋代餐粉预加工装置 (Konjak meal replacement powder preprocessing device ) 是由 张远芬 于 2021-05-26 设计创作，主要内容包括：本发明涉及一种代餐粉加工领域,尤其涉及一种魔芋代餐粉预加工装置。技术问题为：提供一种魔芋代餐粉预加工装置。本发明的技术方案是：一种魔芋代餐粉预加工装置,包括有第一支腿、第二支腿、控制器、第三支腿、第四支腿、去皮分拣机构、内容切片机构和第五支腿等；第一支腿上方与去皮分拣机构进行焊接。本发明达到了对魔芋大部分的光洁面的表皮去除,剔除防止其腐败发生扩散传染以及污染品相良好的魔芋；防止表皮积存在表面的凹陷点,有碍对表面凹陷点的清洁；以及采用桶式操作在切片过程中可防止魔芋黏液的润滑作用下容易发生滚动,改变原有的在平面操作台上操作不服贴导致魔芋滚落的效果。(The invention relates to the field of food replacement powder processing, in particular to a konjak food replacement powder preprocessing device. The technical problem is as follows: provides a pre-processing device for konjak meal replacement powder. The technical scheme of the invention is as follows: a pre-processing device for konjac meal replacement powder comprises a first supporting leg, a second supporting leg, a controller, a third supporting leg, a fourth supporting leg, a peeling and sorting mechanism, a content slicing mechanism, a fifth supporting leg and the like; the upper part of the first supporting leg is welded with the peeling and sorting mechanism. The invention achieves the purposes of removing the surface of most smooth surfaces of the konjak, and removing the konjak which prevents the deterioration thereof from spreading infection and has good pollution appearance; the epidermis is prevented from accumulating in the concave points of the surface, and the cleaning of the concave points of the surface is prevented; and the barrel type operation is adopted to prevent the konjac from rolling easily under the lubricating effect of the mucus in the slicing process, so that the original effect of konjac rolling caused by non-compliant operation on a plane operation table is changed.)

1. A pre-processing device for konjac meal replacement powder comprises a first supporting leg, a second supporting leg and a controller, and is characterized by further comprising a third supporting leg, a fourth supporting leg, a peeling sorting mechanism, a content slicing mechanism, a fifth supporting leg, a concave point cleaning mechanism and a seventh supporting leg, wherein the peeling sorting mechanism is welded above the first supporting leg; one side of the first support leg is connected with the pit cleaning mechanism; the second supporting leg is connected with the peeling and sorting mechanism; the second supporting leg is connected with the content slicing mechanism; the rear side of the controller is connected with the peeling and sorting mechanism; the upper part of the third supporting leg is welded with the peeling and sorting mechanism; one side of the third supporting leg is connected with the pit cleaning mechanism; the fourth supporting leg is connected with the peeling and sorting mechanism; the fourth supporting leg is connected with the content slicing mechanism; the concave point cleaning mechanism below the peeling and sorting mechanism is connected with the content slicing mechanism; the peeling and sorting mechanism is connected with the fifth supporting leg; a concave point cleaning mechanism is arranged on the other side below the peeling and sorting mechanism; the peeling and sorting mechanism is connected with the seventh supporting leg; the content slicing mechanism is connected with the fifth supporting leg; the content slicing mechanism is connected with the pit cleaning mechanism; the content slicing mechanism is connected with the seventh leg.

2. The pre-processing device of konjak meal replacement powder as claimed in claim 1, wherein: the peeling and sorting mechanism comprises a first conveyor belt group, a first bracket, a first transmission shaft, a second transmission shaft, a first end fluted disc, a first bevel gear, a third transmission shaft, a first protection plate, a second bevel gear, a second bracket, a first probe, a second probe, a third bracket, a first electric slide rail group, a second electric slide rail group, a fourth bracket, a first cleaning rubber bowl, a first electric push rod, a fifth bracket and a first motor, the device comprises a guide wheel, a second cleaning rubber bowl, a first telescopic shaft, a second telescopic shaft, a sixth support, a first driving wheel, a second driving wheel, a third bevel gear, a fourth driving shaft, a transition plate, a hardness probe, a second protection plate, an elastic plate, a second electric push rod, an installation box, a fourth bevel gear, a fifth bevel gear, a second end-toothed disc and an eleventh support, wherein one side of a first conveying belt group is welded with the first support; the other side of the first conveyor belt group is welded with the eleventh bracket; the first conveyor belt group is spliced with the first drive wheel through the power input shaft; the first conveyor belt group is welded with the second supporting leg; the first conveyor belt group is welded with the fourth supporting leg; the first bracket is rotatably connected with the second transmission shaft; the first support is in rotary connection with the third transmission shaft finger through a bearing seat; the upper part of the first support is welded with the first protection plate; welding the first bracket and the transition plate; the first support is welded with the installation box; the first support and the third support leg are welded; the first support and the seventh support leg are welded; one side of the outer surface of the first transmission shaft is inserted into the fourth bevel gear; the other side of the outer surface of the first transmission shaft is spliced with a fifth bevel gear; one end of the first transmission shaft is welded with the first telescopic shaft; the other end of the first transmission shaft is in finger rotating connection with the eleventh bracket through a bearing seat; the upper part of the outer surface of the second transmission shaft is spliced with the first end fluted disc; the lower part of the outer surface of the second transmission shaft is spliced with a second transmission wheel; the outer surface of the second transmission shaft is connected with the fourth supporting leg; a first bevel gear is arranged on one side above the first end fluted disc; a second bevel gear is arranged on the other side above the first end fluted disc; the axis of the first bevel gear is inserted with the third transmission shaft; the outer surface of the third transmission shaft is spliced with the second bevel gear; the third transmission shaft is welded with the second telescopic shaft; the first protection plate is welded with the second support; the first protection plate is welded with the third support; the second bracket is inserted with the first probe; the second bracket is spliced with the second probe; the second support is welded with the second protection plate; one side below the third support is connected with the first electric slide rail group through a bolt; the other side below the third support is connected with a second electric slide rail group through a bolt; the middle part below the third bracket is welded with the first electric push rod; the lower part of the first electric sliding rail group is welded with the fourth bracket; the lower part of the second electric sliding rail group is welded with the sixth bracket; the fourth bracket is rotatably connected with the second telescopic shaft; the first cleaning rubber bowl is fixedly connected with the second telescopic shaft; the lower part of the first electric push rod is fixedly connected with the fifth bracket; one side of the fifth bracket is connected with the first motor through a bolt; the first motor is inserted into the guide wheel through the output shaft, and the guide wheel is positioned on the inner side of the fifth bracket; the second cleaning rubber bowl is fixedly connected with the first telescopic shaft; the first telescopic shaft is rotatably connected with the sixth bracket; the eleventh bracket is rotatably connected with the fourth transmission shaft; the first driving wheel is connected with the content slicing mechanism; the outer ring surface of the second driving wheel is in transmission connection with a third driving wheel through a belt; the axle center of the third driving wheel is spliced with the fourth transmission shaft; the axis of the third bevel gear is inserted with the fourth transmission shaft; the third bevel gear is connected with the content slicing mechanism; the outer surface of the fourth transmission shaft is spliced with the second end fluted disc; the upper part of the eleventh support is fixedly connected with the second protection plate; welding the eleventh bracket and the transition plate; the hardness detecting head is fixedly connected with the elastic plate through the elastic piece and is rotationally connected with the second electric push rod; the elastic plate and the second electric push rod are rotatably connected with the mounting box; the mounting box is fixedly connected with the eleventh bracket; a fourth bevel gear is arranged on one side above the second end fluted disc; a fifth bevel gear is arranged on the other side above the second end fluted disc; the eleventh bracket is welded with the first leg; and the eleventh bracket is welded with the fifth supporting leg.

3. The pre-processing device of konjak meal replacement powder as claimed in claim 2, wherein: the content slicing mechanism comprises a first guide-out box, a sixth supporting leg, a first mounting plate, a first rotating seat, a fourth driving wheel, an annular knife rest, a vertical blade, an arc-shaped side extrusion plate, a second motor, a second mounting plate, a second conveyor belt group, a fifth driving shaft, a fifth driving wheel, a sixth bevel gear, a sixth driving wheel, a seventh support, a third mounting plate, a slitting frame, a third electric push rod, a fourth electric push rod and an eighth support, wherein three groups of sixth supporting legs are arranged below the first guide-out box; the first leading-out box is rotationally connected with the annular knife rest; the axle center of the fourth driving wheel is inserted with the annular tool rest; the first rotating seat is rotationally connected with the annular tool rest; four groups of vertical blades are equidistantly arranged on the annular tool rest; an arc-shaped side extrusion plate is arranged in the annular tool rest; the arc-shaped side extrusion plate is welded with the second motor; the first mounting plate is connected with the second motor through bolts; welding the first mounting plate and the second mounting plate; the fourth driving wheel is connected with the pit cleaning mechanism; the second mounting plate and the second conveyor belt group; the second conveyor belt group is welded with the fifth transmission shaft; the second conveyor belt group is welded with the third mounting plate; the second mounting plate is fixedly connected with the slitting frame; the second mounting plate is fixedly connected with a third electric push rod; the second mounting plate is fixedly connected with the eighth bracket; the outer surface of the fifth transmission shaft is spliced with a fifth transmission wheel; the outer surface of the fifth transmission shaft is spliced with a sixth bevel gear; the outer surface of the fifth transmission shaft is spliced with a sixth transmission wheel; the fifth transmission shaft is rotatably connected with the seventh bracket; the third mounting plate is fixedly connected with the slitting frame; the third mounting plate is fixedly connected with the fourth electric push rod; the third mounting plate is fixedly connected with the eighth bracket; the outer ring surface of the fifth driving wheel is connected with the first driving wheel through a belt; the sixth bevel gear is connected with the third bevel gear; the sixth driving wheel is connected with the pit cleaning mechanism.

4. The pre-processing device of konjak meal replacement powder as claimed in claim 3, wherein: the concave trap point cleaning mechanism comprises a collecting frame, a throwing barrel, bristles, a one-way outlet baffle, a ninth support, a second guide box, a sixth transmission shaft, a seventh transmission wheel, a seventh bevel gear, an eighth bevel gear, a third motor, an eighth transmission wheel, a tenth support, a second rotating seat and a third rotating seat, wherein the throwing barrel is arranged below the collecting frame; bristles are arranged on the inner wall of the swinging barrel; the inner wall of the throwing barrel is fixedly connected with the one-way outlet baffle; the lower part of the inner wall of the swing barrel is welded with the ninth bracket; the ninth bracket is inserted with the sixth transmission shaft; the second lead-out box is rotationally connected with the sixth transmission shaft; the sixth transmission shaft is rotationally connected with the seventh transmission wheel; the sixth transmission shaft is rotatably connected with the second transmission shaft; a sixth transmission shaft of a seventh bevel gear is rotatably connected with the second rotating seat; the sixth transmission shaft is rotatably connected with the third rotating seat; the outer ring surface of the seventh driving wheel is connected with the fourth driving wheel through a belt; the seventh bevel gear is meshed with the eighth bevel gear; the shaft center of the eighth bevel gear is inserted with the third motor; the third motor is inserted with the eighth driving wheel; the third motor is rotationally connected with the tenth bracket; the eighth driving wheel is connected with the first driving wheel.

5. The pre-processing device of konjak meal replacement powder as claimed in claim 4, wherein: the slitting frame is provided with a telescopic structure, and the surface of the tail end of the telescopic structure is provided with a cutter.

6. The pre-processing device of konjak meal replacement powder as claimed in claim 5, wherein: the arc-shaped surface structure is arranged on one side of the surface of the arc-shaped side extrusion plate close to the center of the annular tool rest.

7. The pre-processing device of konjak meal replacement powder as claimed in claim 6, wherein: the inner content surfaces of the first cleaning rubber bowl and the second cleaning rubber bowl are provided with large-pore silk screen structures.

8. The pre-processing device of konjak meal replacement powder as claimed in claim 7, wherein: and a cover is arranged on the top of the one-way outlet baffle.

9. The pre-processing device of konjak meal replacement powder as claimed in claim 8, wherein: six groups of conical protruding structures are arranged at the bottom in the circular structure of the second leading-out box, a rough surface grid is arranged on the surface of each conical protruding structure, and the grid distance can be adjusted in a plastic mode.

Technical Field

The invention relates to the field of food replacement powder processing, in particular to a konjak food replacement powder preprocessing device.

Background

Due to the fact that the social and economic development and the material living level of China are continuously improved, the diet quality of Chinese residents is greatly improved, and due to the fact that the diet structure of part of people is unreasonable, the people have an excessive diet mode and mainly take carnivorous foods, the energy and fat intake is excessive, and the diet is unbalanced due to the lack of protein, vitamins and dietary fibers. Energy excess is one of the main causes of obesity, so that the number of obese people is increasing in recent years, and the health problems caused by obesity are not negligible; the konjak meal replacement powder is favored by the market because of the relative balance of the efficacy and the contained nutrition and the taste.

When the konjak becomes the konjak meal replacement powder after being processed, because the surface of the konjak cannot be effectively peeled due to the existence of the concave points on the surface of the konjak, the existing method can only be used for cutting off the konjak, but the existing cutting off means causes a large amount of konjak scraps to waste, and the konjak with konjak soft rot causes the defect of extremely low quality of the konjak processed product.

Disclosure of Invention

In order to overcome the defects that in the process of producing the konjak meal replacement powder, because the surface of the konjak cannot be effectively peeled due to the existence of concave points on the surface of the konjak, the existing method can only be used for cutting off, but the existing cutting-off means causes a large amount of konjak scraps to waste, and the konjak with konjak soft rot causes the quality of a konjak processing product to be extremely low, the technical problem is as follows: the utility model provides a can effectively reduce the production rim charge of konjaku and produce to reduce the wasting of resources, control manufacturing cost, and effectively prevent konjaku soft rot, improve a konjaku and replace meal powder preprocessing device of konjaku processing product quality.

The technical scheme of the invention is as follows: a pre-processing device for konjac meal replacement powder comprises a first supporting leg, a second supporting leg, a controller, a third supporting leg, a fourth supporting leg, a peeling and sorting mechanism, a content slicing mechanism, a fifth supporting leg, a concave point cleaning mechanism and a seventh supporting leg, wherein the peeling and sorting mechanism is welded above the first supporting leg; one side of the first support leg is connected with the pit cleaning mechanism; the second supporting leg is connected with the peeling and sorting mechanism; the second supporting leg is connected with the content slicing mechanism; the rear side of the controller is connected with the peeling and sorting mechanism; the upper part of the third supporting leg is welded with the peeling and sorting mechanism; one side of the third supporting leg is connected with the pit cleaning mechanism; the fourth supporting leg is connected with the peeling and sorting mechanism; the fourth supporting leg is connected with the content slicing mechanism; the concave point cleaning mechanism below the peeling and sorting mechanism is connected with the content slicing mechanism; the peeling and sorting mechanism is connected with the fifth supporting leg; a concave point cleaning mechanism is arranged on the other side below the peeling and sorting mechanism; the peeling and sorting mechanism is connected with the seventh supporting leg; the content slicing mechanism is connected with the fifth supporting leg; the content slicing mechanism is connected with the pit cleaning mechanism; the content slicing mechanism is connected with the seventh leg.

Further, the peeling and sorting mechanism comprises a first conveyor belt group, a first bracket, a first transmission shaft, a second transmission shaft, a first end fluted disc, a first bevel gear, a third transmission shaft, a first protection plate, a second bevel gear, a second bracket, a first probe, a second probe, a third bracket, a first electric slide rail group, a second electric slide rail group, a fourth bracket, a first cleaning rubber bowl, a first electric push rod, a fifth bracket and a first motor, the device comprises a guide wheel, a second cleaning rubber bowl, a first telescopic shaft, a second telescopic shaft, a sixth support, a first driving wheel, a second driving wheel, a third bevel gear, a fourth driving shaft, a transition plate, a hardness probe, a second protection plate, an elastic plate, a second electric push rod, an installation box, a fourth bevel gear, a fifth bevel gear, a second end-toothed disc and an eleventh support, wherein one side of a first conveying belt group is welded with the first support; the other side of the first conveyor belt group is welded with the eleventh bracket; the first conveyor belt group is spliced with the first drive wheel through the power input shaft; the first conveyor belt group is welded with the second supporting leg; the first conveyor belt group is welded with the fourth supporting leg; the first bracket is rotatably connected with the second transmission shaft; the first support is in rotary connection with the third transmission shaft finger through a bearing seat; the upper part of the first support is welded with the first protection plate; welding the first bracket and the transition plate; the first support is welded with the installation box; the first support and the third support leg are welded; the first support and the seventh support leg are welded; one side of the outer surface of the first transmission shaft is inserted into the fourth bevel gear; the other side of the outer surface of the first transmission shaft is spliced with a fifth bevel gear; one end of the first transmission shaft is welded with the first telescopic shaft; the other end of the first transmission shaft is in finger rotating connection with the eleventh bracket through a bearing seat; the upper part of the outer surface of the second transmission shaft is spliced with the first end fluted disc; the lower part of the outer surface of the second transmission shaft is spliced with a second transmission wheel; the outer surface of the second transmission shaft is connected with the fourth supporting leg; a first bevel gear is arranged on one side above the first end fluted disc; a second bevel gear is arranged on the other side above the first end fluted disc; the axis of the first bevel gear is inserted with the third transmission shaft; the outer surface of the third transmission shaft is spliced with the second bevel gear; the third transmission shaft is welded with the second telescopic shaft; the first protection plate is welded with the second support; the first protection plate is welded with the third support; the second bracket is inserted with the first probe; the second bracket is spliced with the second probe; the second support is welded with the second protection plate; one side below the third support is connected with the first electric slide rail group through a bolt; the other side below the third support is connected with a second electric slide rail group through a bolt; the middle part below the third bracket is welded with the first electric push rod; the lower part of the first electric sliding rail group is welded with the fourth bracket; the lower part of the second electric sliding rail group is welded with the sixth bracket; the fourth bracket is rotatably connected with the second telescopic shaft; the first cleaning rubber bowl is fixedly connected with the second telescopic shaft; the lower part of the first electric push rod is fixedly connected with the fifth bracket; one side of the fifth bracket is connected with the first motor through a bolt; the first motor is inserted into the guide wheel through the output shaft, and the guide wheel is positioned on the inner side of the fifth bracket; the second cleaning rubber bowl is fixedly connected with the first telescopic shaft; the first telescopic shaft is rotatably connected with the sixth bracket; the eleventh bracket is rotatably connected with the fourth transmission shaft; the first driving wheel is connected with the content slicing mechanism; the outer ring surface of the second driving wheel is in transmission connection with a third driving wheel through a belt; the axle center of the third driving wheel is spliced with the fourth transmission shaft; the axis of the third bevel gear is inserted with the fourth transmission shaft; the third bevel gear is connected with the content slicing mechanism; the outer surface of the fourth transmission shaft is spliced with the second end fluted disc; the upper part of the eleventh support is fixedly connected with the second protection plate; welding the eleventh bracket and the transition plate; the hardness detecting head is fixedly connected with the elastic plate through the elastic piece and is rotationally connected with the second electric push rod; the elastic plate and the second electric push rod are rotatably connected with the mounting box; the mounting box is fixedly connected with the eleventh bracket; a fourth bevel gear is arranged on one side above the second end fluted disc; a fifth bevel gear is arranged on the other side above the second end fluted disc; the eleventh bracket is welded with the first leg; and the eleventh bracket is welded with the fifth supporting leg.

Furthermore, the content slicing mechanism comprises a first guide box, a sixth supporting leg, a first mounting plate, a first rotating seat, a fourth driving wheel, a ring-shaped knife rest, a vertical blade, an arc-shaped side extrusion plate, a second motor, a second mounting plate, a second conveyor belt group, a fifth transmission shaft, a fifth driving wheel, a sixth bevel gear, a sixth driving wheel, a seventh support, a third mounting plate, a slitting frame, a third electric push rod, a fourth electric push rod and an eighth support, wherein three groups of sixth supporting legs are arranged below the first guide box; the first leading-out box is rotationally connected with the annular knife rest; the axle center of the fourth driving wheel is inserted with the annular tool rest; the first rotating seat is rotationally connected with the annular tool rest; four groups of vertical blades are equidistantly arranged on the annular tool rest; an arc-shaped side extrusion plate is arranged in the annular tool rest; the arc-shaped side extrusion plate is welded with the second motor; the first mounting plate is connected with the second motor through bolts; welding the first mounting plate and the second mounting plate; the fourth driving wheel is connected with the pit cleaning mechanism; the second mounting plate and the second conveyor belt group; the second conveyor belt group is welded with the fifth transmission shaft; the second conveyor belt group is welded with the third mounting plate; the second mounting plate is fixedly connected with the slitting frame; the second mounting plate is fixedly connected with a third electric push rod; the second mounting plate is fixedly connected with the eighth bracket; the outer surface of the fifth transmission shaft is spliced with a fifth transmission wheel; the outer surface of the fifth transmission shaft is spliced with a sixth bevel gear; the outer surface of the fifth transmission shaft is spliced with a sixth transmission wheel; the fifth transmission shaft is rotatably connected with the seventh bracket; the third mounting plate is fixedly connected with the slitting frame; the third mounting plate is fixedly connected with the fourth electric push rod; the third mounting plate is fixedly connected with the eighth bracket; the outer ring surface of the fifth driving wheel is connected with the first driving wheel through a belt; the sixth bevel gear is connected with the third bevel gear; the sixth driving wheel is connected with the pit cleaning mechanism.

Further, the depression point cleaning mechanism comprises a collecting frame, a throwing barrel, bristles, a one-way outlet baffle, a ninth support, a second guide box, a sixth transmission shaft, a seventh transmission wheel, a seventh bevel gear, an eighth bevel gear, a third motor, an eighth transmission wheel, a tenth support, a second rotating seat and a third rotating seat, wherein the throwing barrel is arranged below the collecting frame; bristles are arranged on the inner wall of the swinging barrel; the inner wall of the throwing barrel is fixedly connected with the one-way outlet baffle; the lower part of the inner wall of the swing barrel is welded with the ninth bracket; the ninth bracket is inserted with the sixth transmission shaft; the second lead-out box is rotationally connected with the sixth transmission shaft; the sixth transmission shaft is rotationally connected with the seventh transmission wheel; the sixth transmission shaft is rotatably connected with the second transmission shaft; a sixth transmission shaft of a seventh bevel gear is rotatably connected with the second rotating seat; the sixth transmission shaft is rotatably connected with the third rotating seat; the outer ring surface of the seventh driving wheel is connected with the fourth driving wheel through a belt; the seventh bevel gear is meshed with the eighth bevel gear; the shaft center of the eighth bevel gear is inserted with the third motor; the third motor is inserted with the eighth driving wheel; the third motor is rotationally connected with the tenth bracket; the eighth driving wheel is connected with the first driving wheel.

Further, the slitting frame is provided with a telescopic structure, and a cutter is arranged on the surface of the tail end of the telescopic structure.

Furthermore, the arc-shaped surface structure is arranged on one side, close to the center of the annular tool rest, of the surface of the arc-shaped side extrusion plate.

Furthermore, the inner content surfaces of the first cleaning rubber bowl and the second cleaning rubber bowl are provided with large-pore silk screen structures.

Furthermore, a cover is arranged on the top of the one-way outlet baffle.

Furthermore, six groups of conical protruding structures are arranged at the bottom in the circular structure of the second leading-out box, each conical protruding surface is provided with a rough surface grid, and the grid distance can be adjusted in a plastic mode.

The beneficial effects are that: in order to solve the problems that in the process of producing the konjac meal replacement powder, the surface of konjac cannot be effectively peeled due to the existence of pits on the surface of the konjac, the existing method can only be used for peeling, but the existing cutting means causes a large amount of konjac scraps to waste, and meanwhile, the konjac meal replacement powder has better quality control on processed konjac products.

The surface of the konjak on the peeling and sorting mechanism is rubbed to remove most of the surface skin of the smooth surface, then the peeling and sorting mechanism is used for carrying out color detection and hardness detection on the surface corruption of the konjak, then the concave point cleaning mechanism is used for cleaning the surface-removed surface skin, so that most of the surface skin is removed by brushing and the surface skin at the concave part is separated from the konjak, and then the content slicing mechanism is used for carrying out barrel type slicing treatment on the konjak.

The invention achieves the purposes of removing the surface of most smooth surfaces of the konjak, and removing the konjak which is rotten, prevented from spreading infection and has good pollution appearance in time; meanwhile, the epidermis is prevented from accumulating at the concave points of the surface, which hinders the cleaning of the concave points of the surface; and the barrel type operation is adopted to prevent the konjac from rolling easily under the lubricating effect of the mucus in the slicing process, so that the original effect of konjac rolling caused by non-compliant operation on a plane operation table is changed.

Drawings

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

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

FIG. 3 is a first perspective view of the peeling and sorting mechanism of the present invention;

FIG. 4 is a schematic diagram of a second perspective view of the peeling and sorting mechanism of the present invention;

FIG. 5 is a first perspective view of the content slicing mechanism according to the present invention;

FIG. 6 is a schematic perspective view of the content slicing mechanism of the present invention with the third mounting plate hidden from the second view;

FIG. 7 is a schematic perspective view of the arc-shaped side pressing plate according to the present invention;

FIG. 8 is a perspective view of the combination of the ring-type blade holder and the vertical blade of the present invention;

FIG. 9 is a schematic perspective view of a dimple clearing mechanism according to the present invention;

FIG. 10 is a perspective view of the combination of the swing barrel, the one-way exit baffle and the ninth support of the present invention;

fig. 11 is a schematic perspective view of a second lead-out box according to the present invention.

In the reference symbols: 1-a first leg, 2-a second leg, 3-a controller, 4-a third leg, 5-a fourth leg, 6-a peeling and sorting mechanism, 7-a content slicing mechanism, 8-a fifth leg, 9-a sinking point cleaning mechanism, 10-a seventh leg, 601-a first conveyor belt group, 602-a first support, 603-a first transmission shaft, 604-a second transmission shaft, 605-a first end gear disc, 606-a first bevel gear, 607-a third transmission shaft, 608-a first protection plate, 609-a second bevel gear, 6010-a second support, 6011-a first probe, 2-a second probe, 6013-a third support, 6014-a first electric slide rail group, 6015-a second electric slide rail group, 6016-a fourth support, 6017-a first cleaning rubber bowl, 6018-first electric push rod, 6019-fifth support, 6020-first motor, 6021-guide wheel, 6022-second cleaning rubber bowl, 6023-first telescopic shaft, 6024-second telescopic shaft, 6025-sixth support, 6026-first driving wheel, 6027-second driving wheel, 6028-third driving wheel, 6029-third bevel gear, 6030-fourth driving shaft, 6031-transition plate, 6032-hardness probe, 6033-second guard plate, 6034-spring plate, 6035-second electric push rod, 6036-installation box, 6037-fourth bevel gear, 6038-fifth bevel gear, 6039-second end fluted disc, 6040-eleventh support, 701-first guide box, 702-sixth support leg, 703-first installation plate, 704-first rotating seat, 705-a fourth driving wheel, 706-a ring-shaped knife rest, 707-a vertical blade, 708-an arc-shaped side extrusion plate, 709-a second motor, 7010-a second mounting plate, 7011-a second conveyor belt group, 7012-a fifth transmission shaft, 7013-a fifth driving wheel, 7014-a sixth bevel gear, 7015-a sixth driving wheel, 7016-a seventh support, 7017-a third mounting plate, 7018-a cutting frame, 7019-a third electric push rod, 7020-a fourth electric push rod, 7021-an eighth support, 901-a collection frame, 902-a swinging barrel, 903-bristles, 904-a one-way outlet baffle, 905-a ninth support, 906-a second outlet box, 907-a sixth transmission shaft, 908-a seventh transmission wheel, 909-a seventh bevel gear, 9010-an eighth bevel gear, 9011-a third motor, 9012-an eighth driving wheel, 9013-a tenth support, 9014-a second rotating seat and 9015-a third rotating seat.

Detailed Description

The invention is described in detail below with reference to the figures and the embodiments.

Example 1

A konjak meal replacement powder preprocessing device, which is shown in fig. 1-11 and comprises a first supporting leg 1, a second supporting leg 2, a controller 3, a third supporting leg 4, a fourth supporting leg 5, a peeling and sorting mechanism 6, a content slicing mechanism 7, a fifth supporting leg 8, a pit cleaning mechanism 9 and a seventh supporting leg 10, wherein the peeling and sorting mechanism 6 is welded above the first supporting leg 1; one side of the first supporting leg 1 is connected with a pit cleaning mechanism 9; the second supporting leg 2 is connected with a peeling and sorting mechanism 6; the second supporting leg 2 is connected with a content slicing mechanism 7; the rear side of the controller 3 is connected with a peeling and sorting mechanism 6; the upper part of the third supporting leg 4 is welded with the peeling and sorting mechanism 6; one side of the third supporting leg 4 is connected with a pit cleaning mechanism 9; the fourth supporting leg 5 is connected with a peeling and sorting mechanism 6; the fourth supporting leg 5 is connected with a content slicing mechanism 7; a pit cleaning mechanism 9 below the peeling and sorting mechanism 6 is connected with the content slicing mechanism 7; the peeling and sorting mechanism 6 is connected with a fifth supporting leg 8; a concave point cleaning mechanism 9 is arranged on the other side below the peeling and sorting mechanism 6; the peeling and sorting mechanism 6 is connected with a seventh supporting leg 10; the content slicing mechanism 7 is connected with a fifth supporting leg 8; the content slicing mechanism 7 is connected with the pit cleaning mechanism 9; the content slicer mechanism 7 is connected to a seventh leg 10.

The working principle is as follows: when a konjak meal replacement powder preprocessing device is used for processing, the device is firstly fixed on the horizontal ground of a workshop, then power testing and debugging equipment is switched on to stably operate, then the controller 3 is used for respectively controlling the operation of each mechanism, firstly, the konjak placed on the peeling and sorting mechanism 6 is subjected to skin friction treatment to remove most of the smooth surface skin, then, the peeling and sorting mechanism 6 is used for carrying out color detection and hardness detection on the surface corruption of the konjak, if the surface corruption or softening of the konjak is detected as konjak soft rot, and the konjak which is good in contamination and prevents the corruption from generating diffusion infection is removed in time; then, the sunk point cleaning mechanism 9 is used for brushing and cleaning the surface-removed epidermis to ensure that most of the epidermis which is separated from the epidermis is brushed away and the epidermis at the sunk part is separated from the konjak, and simultaneously, the epidermis is prevented from accumulating at the sunk point of the surface to prevent the surface sunk point from being cleaned; and then the konjak is sliced by using the content slicing mechanism 7, the barrel type operation can prevent the konjak mucus from easily rolling in the slicing process under the lubricating action, and the condition that the konjak falls off due to the fact that the original operation is not clung on a plane operation table is changed.

The peeling and sorting mechanism 6 comprises a first conveyor belt group 601, a first support 602, a first transmission shaft 603, a second transmission shaft 604, a first end-toothed disc 605, a first bevel gear 606, a third transmission shaft 607, a first protection plate 608, a second bevel gear 609, a second support 6010, a first probe 6011, a second probe 6012, a third support 6013, a first electric slide rail group 6014, a second electric slide rail group 6015, a fourth support 6016, a first cleaning rubber bowl 6017, a first electric push rod 6018, a fifth support 6019, a first motor 6020, a guide wheel 6021, a second cleaning rubber bowl 6022, a first telescopic shaft 6023, a second telescopic shaft 6024, a sixth support 6025, a first transmission wheel 6026, a second transmission wheel 6027, a third transmission wheel 6028, a third bevel gear wheel 6029, a fourth transmission shaft 6030, an excess probe 6031, a hardness 6032, a second protection plate 6033, an elastic plate 34, a second electric push rod 6035, a mounting box 6036, a fourth bevel gear 6037, a fourth bevel gear 609, a third cleaning rubber bowl 6013, a third cleaning rubber bowl 6021, a second cleaning rubber bowl 6022, a second cleaning rubber bowl 6023, a second cleaning rubber bowl 603, a third cleaning rubber bowl 604, a second cleaning rubber bowl 6023, a third cleaning rubber bowl 604, a third cleaning rubber bowl 6024, a third cleaning rubber bowl 604, a third cleaning rubber bowl 6029, a third cleaning rubber bowl 609, a third drive 6030, a third drive 607, a third drive 6030, a third drive 604, a second drive 6035, a third drive 6030, a third drive 6032, a third drive 6035, a third drive 6030, a third drive 6035, a third drive 607, a second guard plate, a third drive 6035, a third drive 607, a third drive 6030, a third drive 607, a third drive 6037, a third drive 6030, a third drive 6037, a third drive 6030, a second guard plate, a third drive 6030, a second guard, a third drive 6030, a third drive 607, a third drive 6030, a third drive 60, A fifth bevel gear 6038, a second end-toothed disc 6039 and an eleventh bracket 6040, wherein one side of the first conveyor belt group 601 is welded with the first bracket 602; the other side of the first conveyor belt group 601 is welded with an eleventh bracket 6040; the first conveyor belt group 601 is spliced with the first driving wheel 6026 through a power input shaft; the first conveyor belt group 601 is welded with the second leg 2; the first conveyor belt group 601 is welded with the fourth supporting leg 5; the first bracket 602 is rotatably connected with the second transmission shaft 604; the first bracket 602 is rotationally connected with a third transmission shaft 607 through a bearing seat; the upper part of the first bracket 602 is welded with the first protection plate 608; the first bracket 602 is welded to the transition plate 6031; the first bracket 602 is welded with the installation box 6036; the first bracket 602 is welded with the third leg 4; the first bracket 602 is welded with the seventh leg 10; one side of the outer surface of the first transmission shaft 603 is inserted into a fourth bevel gear 6037; the other side of the outer surface of the first transmission shaft 603 is spliced with a fifth bevel gear 6038; one end of the first transmission shaft 603 is welded with the first telescopic shaft 6023; the other end of the first transmission shaft 603 is in finger-rotating connection with an eleventh bracket 6040 through a bearing seat; the upper part of the outer surface of the second transmission shaft 604 is inserted into a first end fluted disc 605; the lower part of the outer surface of the second transmission shaft 604 is spliced with a second transmission wheel 6027; the outer surface of the second transmission shaft 604 is connected with the fourth supporting leg 5; a first bevel gear 606 is arranged on one side above the first end fluted disc 605; a second bevel gear 609 is arranged on the other side above the first end fluted disc 605; the axis of the first bevel gear 606 is inserted into the third transmission shaft 607; the outer surface of the third transmission shaft 607 is inserted with the second bevel gear 609; the third transmission shaft 607 is welded with the second telescopic shaft 6024; welding the first protection plate 608 with the second support 6010; the first protection plate 608 is welded with the third support 6013; the second support 6010 is inserted into the first probe 6011; the second support 6010 is inserted into the second probe 6012; the second support 6010 is welded with a second protection plate 6033; one side of the lower part of the third support 6013 is bolted to the first electric slide rail set 6014; the other side below the third support 6013 is bolted to a second electric slide rail set 6015; the middle part of the lower part of the third support 6013 is welded with the first electric push rod 6018; the lower part of the first electric slide rail group 6014 is welded with a fourth support 6016; the lower part of the second electric slide rail group 6015 is welded with a sixth bracket 6025; the fourth support 6016 is rotatably connected to the second telescopic shaft 6024; the first cleaning rubber bowl 6017 is fixedly connected with the second telescopic shaft 6024; the lower part of the first electric push rod 6018 is fixedly connected with a fifth bracket 6019; one side of the fifth bracket 6019 is bolted to the first motor 6020; the first motor 6020 is inserted into the guide wheel 6021 through the output shaft, and the guide wheel 6021 is positioned inside the fifth bracket 6019; the second cleaning rubber bowl 6022 is fixedly connected with the first telescopic shaft 6023; the first telescopic shaft 6023 is rotatably connected with the sixth bracket 6025; the eleventh bracket 6040 is rotatably connected to the fourth transmission shaft 6030; the first driving wheel 6026 is connected with the content slicing mechanism 7; the outer ring surface of the second driving wheel 6027 is in transmission connection with a third driving wheel 6028 through a belt; the axle center of the third driving wheel 6028 is spliced with the fourth transmission shaft 6030; the axis of the third bevel gear 6029 is spliced with a fourth transmission shaft 6030; the third bevel gear 6029 is connected to the content slicing mechanism 7; the outer surface of the fourth transmission shaft 6030 is inserted into the second end fluted disc 6039; the upper part of the eleventh bracket 6040 is fixedly connected with a second protection plate 6033; the eleventh bracket 6040 is welded to the transition plate 6031; the hardness detecting head 6032 is fixedly connected with the spring plate 6034 through an elastic part, and the spring plate 6034 is rotatably connected with the second electric push rod 6035; the spring plate 6034 and the second electric push rod 6035 are rotatably connected with the mounting box 6036; the mounting box 6036 is fixedly connected with an eleventh bracket 6040; a fourth bevel gear 6037 is arranged on one side above the second end-toothed disc 6039; a fifth bevel gear 6038 is arranged on the other side above the second end-toothed disc 6039; the eleventh bracket 6040 is welded to the first leg 1; the eleventh bracket 6040 is welded to the fifth leg 8.

When the peeling operation is required, the third motor 9011 is started, the eighth driving wheel 9012 rotates to drive the fifth driving wheel 7013 to rotate through a belt, the fifth driving shaft 7012 synchronously drives the sixth driving wheel 7015 to rotate, the first driving wheel 6026 is driven to rotate through belt transmission, so as to drive the first conveyor belt group 601 to operate, konjak is placed on the first conveyor belt group 601 to drive the sixth bevel gear 7014 to rotate through the fifth driving shaft 7012, the fourth driving shaft 6030 is driven to rotate through meshing with the third bevel gear 6029, the third driving wheel 6028 is driven to rotate through the fourth driving shaft 6030, the second driving wheel 6027 is driven to rotate through the belt, the second end gear disc 6039 is driven to rotate through rotation of the fourth driving shaft 6030, and only half of the tooth structures are arranged on the surface of the second end gear disc 6039, then the second end gear disc 6039 is engaged with the fourth bevel gear 6037 and the fifth bevel gear 6038 in the rotation, then the first transmission shaft 603 is driven to rotate in a reciprocating way by the engagement, so as to drive the first telescopic shaft 6023 to rotate, then the second cleaning rubber bowl 6022 is driven to rotate in a reciprocating way, when the konjak needs to be processed, the sixth bracket 6025 is moved by the second electric slide rail set 6015, then the second cleaning rubber bowl 6022 is made to approach the konjak, meanwhile, the second transmission wheel 6027 drives the second transmission shaft 604 to rotate, then the first end gear disc 605 is driven to rotate, then the first end gear disc 605 is engaged with the first bevel gear 606 or the second bevel gear 609 at different time, so as to drive the third transmission shaft 607 to rotate in a reciprocating way, thereby driving the second telescopic shaft 6024 to rotate in a reciprocating way, then the first cleaning rubber bowl 6017 is driven to rotate in a reciprocating way, when the konjak needs to be processed, a first electric slide rail group 6014 synchronously utilizes a fourth support 6016 to extend a second telescopic shaft 6024, a first cleaning rubber bowl 6017 is close to and attached with the konjac, the konjac is rotated on a first coordinate plane, steel wire meshes in the first cleaning rubber bowl 6017 and a second cleaning rubber bowl 6022 are utilized to rub and peel the konjac, a first electric push rod 6018 is used to extend, a guide wheel 6021 abuts against the konjac and is driven by a first motor 6020 to rotate, then the konjac is driven to rotate in a one-way direction on a second coordinate plane, the konjac can rotate in a one-way on a third coordinate plane under the rubbing action of a first conveyor belt group 601 below, the rotating speed ratio of the first electric push rod 6018 to the guide wheel 6021 is different, the overall peeling friction on the surface of the konjac is realized, and the steel wire meshes are large, so that the peeled surface and soil on the surface cannot be accumulated on the steel wire meshes to cause blockage; the peeled konjak is continuously conveyed by the first conveyor belt group 601, the falling of the peeled konjak is limited by the first protection plate 608 and the second protection plate 6033, the konjak is conveyed by the first conveyor belt group 601 to cross the transition plate 6031 to be prevented from being clamped in a crack, then the peeled konjak rolls on the mounting box 6036, the surface color of the konjak is monitored by the first probe 6011 and the second probe 6012, if the black deterioration phenomenon occurs, the color can be identified, then the elastic plate 6034 is rapidly pushed by the second electric push rod 6035 to pop up, then the deteriorated konjak is removed, the effect of sorting by using the color is achieved, meanwhile, the pressing and rebounding performance of the hardness detection head 6032 can be used for detecting the surface in contact with the mounting box 6036, when the konjak contacts and presses the hardness detection head 6032, if the hardness detection head 6032 rebounds slowly, the hardness detection head 6032 is indicated to be in contact with the deterioration area, and the second electric push rod 6035 is fed back to quickly push the spring plate 6034 to be ejected, then the rotten konjak is rejected, the effect of sorting by using hardness is achieved, the two sorting methods are mutually matched, the sorting effect and efficiency are improved, the production quality of the konjak is improved, and the konjak which is rotten, is prevented from being diffused and infected and has good pollution quality is timely rejected.

The content slicing mechanism 7 comprises a first guide box 701, a sixth supporting leg 702, a first mounting plate 703, a first rotating seat 704, a fourth driving wheel 705, a ring-shaped knife rest 706, a vertical blade 707, an arc-shaped side extrusion plate 708, a second motor 709, a second mounting plate 7010, a second conveyor belt group 7011, a fifth transmission shaft 7012, a fifth driving wheel 7013, a sixth bevel gear 7014, a sixth driving wheel 7015, a seventh support 7016, a third mounting plate 7017, a slitting frame 7018, a third electric push rod 7019, a fourth electric push rod 7020 and an eighth support 7021, wherein three groups of sixth supporting legs 702 are arranged below the first guide box 701; the first lead-out box 701 is rotationally connected with the annular tool rest 706; the axle center of the fourth driving wheel 705 is inserted with the annular tool rest 706; the first rotating seat 704 is rotatably connected with the annular tool rest 706; four groups of vertical blades 707 are equidistantly arranged on the annular tool rest 706; an arc-shaped side extrusion plate 708 is arranged in the annular tool rest 706; the arc-shaped side extrusion plate 708 is welded with a second motor 709; the first mounting plate 703 is bolted to the second motor 709; the first mounting plate 703 is welded to the second mounting plate 7010; the fourth transmission wheel 705 is connected with the pit cleaning mechanism 9; a second mounting plate 7010 and a second set of conveyor belts 7011; the second conveyor belt group 7011 is welded to the fifth transmission shaft 7012; the second conveyor belt group 7011 is welded to the third mounting plate 7017; the second mounting plate 7010 is fixedly connected with the cutting frame 7018; the second mounting plate 7010 is fixedly connected with a third electric push rod 7019; the second mounting plate 7010 is fixedly connected with the eighth bracket 7021; the outer surface of the fifth transmission shaft 7012 is spliced with a fifth transmission wheel 7013; the outer surface of the fifth transmission shaft 7012 is inserted into the sixth bevel gear 7014; the outer surface of the fifth transmission shaft 7012 is spliced with a sixth transmission wheel 7015; the fifth transmission shaft 7012 is rotatably connected with the seventh support 7016; the third mounting plate 7017 is fixedly connected with the cutting frame 7018; the third mounting plate 7017 is fixedly connected with a fourth electric push rod 7020; the third mounting plate 7017 is fixedly connected with the eighth bracket 7021; the outer ring surface of the fifth driving wheel 7013 is connected with the first driving wheel 6026 through a belt; the sixth bevel gear 7014 is connected with the third bevel gear 6029; the sixth driving wheel 7015 is connected to the pit cleaning mechanism 9.

When the content slicing mechanism 7 is used for slicing the konjak, firstly, the fifth driving wheel 7013 is used as power input to drive the second conveyor belt group 7011 to convey the konjak through the rotation of the fifth driving shaft 7012, when the konjak is between the third electric push rod 7019 and the fourth electric push rod 7020, firstly, the third electric push rod 7019 and the fourth electric push rod 7020 are simultaneously used for extending towards the middle, then the konjak is clamped, the konjak is rotated in situ through the friction of the second conveyor belt group 7011, then the cutting frame 7018 is put down to cut the konjak, thereby reducing the rolling of the konjak in the slicing process, simultaneously preventing the konjak from jumping out from the upper part after being extruded by the arc-shaped side extruding plate 708, then, the konjak is guided into the annular knife rest 706 through the transmission of the second conveyor belt group 7011 and slides down along the arc surface on one side of the arc-shaped side extruding plate 708, and then the annular knife rest 706 is driven to rotate on the first rotating seat 704 through the fourth driving wheel 705, then the arc-shaped side extrusion plate 708 is driven to rotate by the second motor 709, then the tail end of the arc-shaped side extrusion plate 708 is lifted upwards, the konjak is extruded to one side of the inner wall of the annular knife rest 706, the moving space of the konjak is limited, the section is cut by the vertical blade 707 through the rotation of the annular knife rest 706, the arc-shaped side extrusion plate 708 is continuously rotated to ensure that the konjak is constantly attached to one side of the inner wall of the annular knife rest 706, the sliced konjak is accumulated at the outlet of the first leading-out box 701 and is pushed outwards through accumulation, the collection is finally realized, then the sliced konjak is subjected to the same soaking, the sticky surface scraps and soil on the surface of the konjak and the surface scraps and soil cleaned from the concave points can be removed at one time, the effective water flow is utilized, the huge resource waste caused by repeated cleaning is prevented, and meanwhile, the barrel-type operation can prevent the konjak from easily rolling under the lubricating action of mucilage during the slicing process, the situation that the konjak falls due to the fact that the konjak is not attached to the plane operation table in the prior art is changed.

The concave point cleaning mechanism 9 comprises a collecting frame 901, a throwing barrel 902, bristles 903, a one-way outlet baffle 904, a ninth support 905, a second guide box 906, a sixth transmission shaft 907, a seventh transmission wheel 908, a seventh bevel gear 909, an eighth bevel gear 9010, a third motor 9011, an eighth transmission wheel 9012, a tenth support 9013, a second rotating seat 9014 and a third rotating seat 9015, wherein the throwing barrel 902 is arranged below the collecting frame 901; bristles 903 are arranged on the inner wall of the swinging barrel 902; the inner wall of the throwing barrel 902 is fixedly connected with a one-way outlet baffle 904; the lower part of the inner wall of the swinging barrel 902 is welded with a ninth bracket 905; the ninth bracket 905 is inserted into the sixth transmission shaft 907; the second delivery box 906 is rotatably connected with a sixth transmission shaft 907; the sixth transmission shaft 907 is rotatably connected with the seventh transmission wheel 908; the sixth transmission shaft 907 is connected with the rotary shaft; the sixth transmission shaft 907 of the seventh bevel gear 909 is rotatably connected with the second rotating seat 9014; the sixth transmission shaft 907 is rotatably connected with the third rotating seat 9015; the outer annular surface of the seventh driving wheel 908 is connected with the fourth driving wheel 705 through a belt; the seventh bevel gear 909 and the eighth bevel gear 9010 are engaged with each other; the axis of the eighth bevel gear 9010 is inserted into the third motor 9011; the third motor 9011 is connected with an eighth driving wheel 9012 in an inserting mode; the third motor 9011 is rotatably connected with the tenth bracket 9013; the eighth transmission wheel 9012 is connected with the first transmission wheel 6026.

When the concave point cleaning mechanism 9 is used for processing konjak, the third motor 9011 rotates to drive the eighth bevel gear 9010 to rotate, then the seventh bevel gear 909 is driven to rotate through meshing, then the ninth bracket 905 is driven to synchronously rotate with the swinging barrel 902 welded with the ninth bracket by the transmission of the sixth transmission shaft 907, then the konjak operated by the peeling and sorting mechanism 6 falls into the swinging barrel 902 through the collection frame 901, then the surface scraps and soil on the surface of the konjak are cleaned by the rotation of the swinging barrel 902 and the bristles 903, then when the konjak falls at the bottom of the swinging barrel 902, the bottom of the second guide box 906 rolls, when the concave point of the konjak is in contact with the conical protrusion with certain hardness of the silica gel structure at the bottom of the second guide box 906, the conical protrusion is compressed, the surface rough surface grid of the conical protrusion is passively adjusted under the action of pressure, the height of the conical protrusion is reduced until the shape of the conical protrusion is attached to the concave point of the konjak, the concave point of the konjak rubs against the conical protrusion in the whole contact process, so that the surface skin of the concave point of the konjak is separated under the action of friction force, then the eighth bevel gear 9010 is driven to be meshed with the seventh bevel gear 909 to rotate reversely through the reverse rotation of the third motor 9011, so that the swinging barrel 902 is driven to rotate reversely, when the swinging barrel 902 rotates reversely, the one-way outlet baffle 904 stops the continuation of the konjak in the swinging barrel 902, then the konjak is led out through the one-way outlet baffle 904, and after the konjak is separated from the swinging barrel 902, the konjak rolls outwards along the second leading-out box 906 to the second conveyor belt group 7011 for subsequent treatment, so that the concave point cleaning mechanism 9 is used for cleaning the surface-removed surface skin, most of the konjak is brushed away from the surface skin, and the surface skin of the concave point is separated from the konjak, then prevent the epidermis simultaneously and deposit the sunken point on the surface, hinder the cleanness to the sunken point of surface, carry out effectual cleanness to the sunken point simultaneously to reach the whole clean effect of konjaku.

The cutting frame 7018 is provided with a telescopic structure, and a cutter is provided on the tip surface of the telescopic structure.

The konjac is cut, so that the rolling of the konjac in the slicing process is reduced, and the konjac is prevented from jumping out from the upper side after being extruded by the arc-shaped side extrusion plate 708.

The arc-shaped side extrusion plate 708 is provided with an arc-shaped surface structure on the side close to the center of the ring-shaped tool holder 706.

The konjac is constantly attached to one side of the inner wall of the annular knife rest 706, and the sliced konjac is accumulated at the outlet of the first leading-out box 701 and is pushed outwards through accumulation, so that slicing is completed.

The inner content surfaces of the first cleaning rubber bowl 6017 and the second cleaning rubber bowl 6022 are provided with a large-pore wire mesh structure.

The comprehensive friction peeling of the surface of the taro is realized, and meanwhile, the steel wire mesh with large meshes can not accumulate the fallen skins and soil on the skins on the steel wire mesh to cause blockage.

A cover is provided on top of the one-way outlet baffle 904.

When the ground taro falls into the throwing barrel 902, the taro cannot be stuck in the triangular structure of the one-way outlet baffle 904.

The bottom in the circular structure of second derivation case 906 is provided with six group's conical protrusion structures to every conical protrusion surface is provided with the matte net, and plasticity regulation net interval.

When the depression points of the konjac are in contact with the cone-shaped protrusions with certain hardness of the silica gel structure at the bottom of the second leading-out box 906, the cone-shaped protrusions are compressed, the surface of the cone-shaped protrusions is rough, the meshes are passively adjusted under the action of pressure, the height of the cone-shaped protrusions is reduced until the shapes of the cone-shaped protrusions are attached to the depression points of the konjac, and the skins of the depression points are removed through friction.

The above-mentioned embodiments are merely preferred embodiments of the present invention, which are not intended to limit the scope of the present invention, and therefore, all equivalent changes made by the contents of the claims of the present invention should be included in the claims of the present invention.