CN211541405U - Commercial clean vegetable cutting equipment - Google Patents

Abstract

The utility model discloses a commercial clean dish surely makes equipment, including frame, conveying part, pressure dish part, cutter part, pressure dish cover, prevent that the section of thick bamboo from splashing mechanism, the automatic tilting mechanism of feed cylinder, section thickness automatic adjustment structure, cutter transmission part and intelligent control part. The utility model combines the PLC digital programming control and the system self-feedback control system to realize the quick automatic adjustment of the specification, the operation parameters and the state of the dish product; the utility model discloses the product degree of automation is high, and the processing of the multiple type vegetables and fruits of user, the different specification goods of surely making is satisfied in the digital operation of intelligence, uses extensively, has good market prospect and sales space, can play positive impetus to the development of vegetables and fruits processing industry.

Description

Commercial clean vegetable cutting equipment

Technical Field

The utility model relates to a commercial clean dish surely makes equipment belongs to cooking machine technical field.

Background

Commercial clean dish cutting equipment is one of the main equipment of vegetables and fruits processing machinery, and the vegetable-chopper of producing in the market at present at home and abroad all is manual operation and realizes the adjustment of different specifications, the required vegetable-cutting speed of different vegetables and fruits and cutting length, and the cutting scope is little, and troublesome poeration is difficult for adjusting to the ideal specification of cutting the dish, wastes time and energy. In recent years, competition among vegetable processing industries is increasingly fierce, labor cost is higher and higher, profits are reduced, and a vegetable and fruit processing machine with high automation degree, high safety performance, high efficiency and the like is urgently needed in the market so as to meet requirements of people on aspects of intelligent digital control, automation, safety, sanitation, environmental protection and the like.

Disclosure of Invention

The utility model aims to solve the technical problem that to the defect that prior art exists, a commercial clean dish surely system equipment is provided.

In order to solve the technical problem, the utility model provides a commercial clean vegetable cutting device, which comprises a frame, a conveying part, a vegetable pressing part, a cutter part, a vegetable pressing cover, a cutting piece splashing prevention mechanism, a charging barrel automatic turnover mechanism, a cutting piece thickness automatic adjustment mechanism, a cutter transmission part and an intelligent control part; the conveying part, the vegetable pressing part, the cutter part, the vegetable pressing cover, the cutting piece splashing prevention mechanism, the charging barrel, the automatic cutting piece thickness adjusting mechanism and the intelligent control part are arranged on the upper part of the rack; a cutter transmission part, a motor and a servo motor are arranged in the rack; the cutter transmission part comprises a front shaft, a support, an eccentric shaft, a small shaft and a joint, the cutter part comprises a cutter, a cutter frame, a guide pillar, a swing rod welding part and a stud, and the cutter transmission part and the cutter part are connected with the joint through the stud; the motor transmits power to a front shaft of the cutter transmission part through a motor wheel, a common V-shaped belt and a large grooved pulley, the front shaft drives a cutter rest and a cutter to reciprocate up and down through an eccentric part, a joint and a stud, and a guide pillar is arranged in a guide sleeve of the rack to realize guiding; a medium chain wheel and a medium gear are arranged on one side of the rack; the conveying part comprises a conveying driving roller, a bearing seat, a conveying rear roller, a conveying belt, a screw rod seat and an adjusting screw rod; a conveying driving roller chain wheel and a conveying driving roller wheel are arranged at the shaft end of the conveying driving roller, and the conveying driving roller is arranged on one side of the rack through a bearing seat; the servo motor is fixed in the rack through a servo motor fixing plate, and the servo motor transmits power to a conveying driving roller of the conveying part through a servo motor wheel, a belt and a conveying driving roller wheel; the conveying part transmits power to a rotary center of the vegetable pressing part through a conveying driving roller chain wheel, a chain, a medium gear and a vegetable pressing driving roller gear to drive the vegetable pressing belt and the conveying belt to rotate reversely and at the same speed, and the vegetable pressing part comprises a vegetable pressing front roller, a vegetable pressing belt supporting plate, a spring and a vegetable pressing driving roller; the vegetable pressing driving roller and the vegetable pressing front roller are arranged on a vegetable pressing belt support plate, the vegetable pressing part can rotate around the rotating center of the vegetable pressing part, and the pressing force of the vegetable pressing belt and the conveying belt is realized through a spring to enable the cut materials to be conveyed forwards under the combined action of the vegetable pressing belt and the conveying belt.

The automatic charging barrel overturning mechanism comprises a charging barrel, a support plate, a support shaft, a charging barrel rotating shaft, a fixing plate, a charging barrel overturning speed reducer, a bearing chamber and a bearing chamber fixing plate; the charging barrel is provided with a slicing knife; the support plate and the fixed plate are respectively fixed on two sides of the charging barrel, the support shaft is fixed in the support plate, the rotating shaft of the charging barrel is fixed with the fixed plate, and the bearing chamber fixed plate are respectively fixed on two sides of the frame; the rotating shaft of the charging barrel is arranged in the bearing chamber and the bearing chamber fixing plate through a bearing and can rotate around the centers of the bearing chamber and the bearing chamber fixing plate, and the rotating center of the charging barrel is the centers of the bearing chamber and the bearing chamber fixing plate; the feed cylinder upset speed reducer is installed at the axle head of feed cylinder pivot, can drive the whole rotation of feed cylinder when feed cylinder upset speed reducer rotates.

The feed cylinder includes into hopper, group charging tray, dials material axle, feed cylinder bearing chamber, bearing gland fixing base, dials the charging tray speed reducer and feed cylinder bottom plate, bearing gland fixing base, group charging tray speed reducer are fixed on feed cylinder bearing chamber, dial the charging tray speed reducer and install and dial the epaxial, can drive group charging tray rotation, the steerable different rotational speeds of dialling the charging tray speed reducer of intelligence control system.

The automatic slicing thickness adjusting mechanism comprises a material barrel adjusting cover, a fixed groove block, a groove rail frame, a lead screw, a screw sleeve and a stepping motor, wherein the groove rail frame is fixed on the material barrel, the fixed groove block is fixed on the material barrel adjusting cover through a screw, one end of the material barrel adjusting cover is hinged with the material barrel at the rotating center of the material barrel adjusting cover and can rotate around the rotating center of the material barrel adjusting cover, so that a certain distance e is generated between one end of the material barrel adjusting cover and a slicing knife, and the slicing thickness adjustment is realized; one end of the screw rod is fixed on an output shaft of the stepping motor, and the stepping motor can drive the screw rod to rotate when rotating; the fixed groove block is provided with an inclined elongated groove, and the fixed groove block is provided with a horizontal elongated groove; the screw sleeve can slide in the inclined long groove and the horizontal long groove, and when the stepping motor drives the screw rod to rotate, the screw rod drives the screw sleeve to slide in the inclined long groove and the horizontal long groove, so that the charging barrel adjusting cover is driven to rotate around the rotating center of the charging barrel adjusting cover, and the slice thickness adjustment is realized.

The slice splashing prevention mechanism comprises organic glass, a right side plate and a left side plate, and the organic glass connects the right side plate and the left side plate into a whole; the right side plate and the left side plate are provided with locking sliding grooves, shaft position screws are fixed above the rack, and the slicing splashing prevention mechanism is locked through the shaft position screws and the locking sliding grooves.

The vegetable pressing cover is of an integral structure, the vegetable cover support is fixed on the upper part of the rack, and the vegetable pressing cover and the vegetable cover support are hinged at the rotating center of the vegetable pressing cover and can rotate around the rotating center of the vegetable pressing cover; the bottom of the vegetable pressing cover is provided with a vegetable pressing cover photoelectric switch, and when the vegetable pressing cover rotates around the rotating center of the vegetable pressing cover and is not in contact with the vegetable pressing cover photoelectric switch, the machine stops rotating.

And a vegetable receiving dustpan is arranged on one side of the rack.

The bottom of the frame is provided with an adjusting base and a bottom wheel.

The intelligent control part combines a PLC digital programming control system and a system self-feedback control system to realize the quick and automatic adjustment of the specifications, the running parameters and the states of the dish products.

The commercial clean vegetable cutting equipment further comprises a human-computer interaction interface, when the equipment is used, a vegetable pressing cover is covered, the length data and the thickness data of the cut section are input from the human-computer interaction interface, after the equipment is started, the distance of the intelligent control part for automatically controlling the intermittent motion of the conveying belt is the same as the input data, and the distance e between the adjusting cover of the charging barrel and the slicing knife is the same as the input thickness data of the cut section.

Has the advantages that: the utility model combines the PLC digital programming control and the system self-feedback control system to realize the quick automatic adjustment of the specification, the operation parameters and the state of the dish product; the PLC is used for controlling the synchronism of the servo conveying and the reciprocating motion of the cutter, so that the digital control of the cutting length is realized; a fuzzy control system is adopted to realize automatic adjustment of the rotating speed of a material stirring disc of the centrifugal slicing mechanism, so that the automatic adjustment is suitable for slicing the vegetables and fruits with different water contents; the slice thickness digital stepless regulation in the design range is realized by combining a stepping spiral slice thickness regulating mechanism and a digital control system; the automatic overturning structure of the charging barrel is applied, so that the operation space is increased when the leaf vegetables are cut; the optical-mechanical-electrical integration technology and the safety protection system are adopted, so that the product is safe and reliable; and the phenomenon that the cutter damages the conveying belt is avoided by adopting the automatic cutter-changing positioning device. The automatic vegetable and fruit cutting machine has the advantages that the product automation degree is high, the intelligent digital operation is realized, the processing of various vegetables and fruits and the processing of cutting products with different specifications of a user are met, the application is wide, the market prospect and the sales space are good, and the positive promotion effect on the development of the vegetable and fruit processing industry can be realized.

Drawings

Fig. 1 is a schematic view of the working state structure of the present invention;

FIG. 2 is a schematic structural view of the material barrel in a turning state;

3 FIG. 33 3 is 3 a 3 schematic 3 sectional 3 view 3 of 3 the 3 present 3 invention 3 A 3- 3 A 3; 3

FIG. 4 is a schematic view of the transmission structure of the conveyer belt of the present invention;

FIG. 5 is a schematic cross-sectional view of the present invention B-B;

FIG. 6 is a schematic view of a sheet thickness adjusting structure of the present invention;

FIG. 7 is a schematic diagram of a second slice thickness adjusting structure of the present invention;

FIG. 8 is a schematic view of the structure of the channel rail rack of the present invention;

FIG. 9 is a schematic view of the fixing base of the present invention;

FIG. 10 is a schematic view of the anti-splashing structure of the utility model;

FIG. 11 is a top view of the anti-splashing structure of the utility model;

fig. 12 is a schematic view of the structure of the dish pressing cover of the present invention.

In the figure: 1 frame, 2 motors, 3 motor wheels, 4 common V belts, 5 large grooved wheels, 6 cutter transmission parts, 7 adjustment bases, 8 bottom wheels, 9 servo motor fixing plates, 10 servo motors, 11 servo motor wheels, 12 vegetable receiving dustpans, 13 belts, 14 conveying driving roller wheels, 15 conveying parts, 16 chains, 17 photoelectric switch plates, 18 vegetable pressing cover photoelectric switches, 19 cutter parts, 20 vegetable pressing covers, 21 cutter photoelectric switches, 22 vegetable pressing parts, 23 intelligent control parts, 24 anti-cutting splashing mechanisms, 25-slice thickness automatic adjustment mechanisms, 26 material cylinders, 27 support plates, 28 support shafts, 29 material cylinder overturning photoelectric switches, 30 material cylinder rotating shafts, 31 material cylinder rotating centers, 32 fixing plates, 33 material cylinder resetting photoelectric switches, 34 speed reducing motors, 35 conveying driving roller chain wheels, 36 vegetable pressing front rollers, 37 vegetable pressing belts, 38 vegetable pressing belt support plates, 39 springs, 40 medium chain wheels, 37 vegetable pressing belt, 41 vegetable pressing driving roller gear, 42 vegetable pressing driving roller, 43 medium gear, 44 vegetable pressing part rotation center, 45 conveyer belt, 46 material cylinder bottom plate, 47 conveying rear roller, 48 small shaft, 49 joint, 50 stud, 51 swing rod welding, 52 guide post, 53 guide sleeve, 54 cutter frame, 55 cutter, 56 front shaft, 57 support, 58 eccentricity, 59 bearing seat, 60 screw seat, 61 adjusting screw, 63 bearing chamber, 64 material shifting disc speed reducer, 65 material shifting shaft, 66 bearing gland fixing seat, 67 material cylinder bearing chamber, 68 material shifting disc, 70 material feeding hopper, 71 bearing chamber fixing plate, 72 material cylinder turning speed reducer, 73 sheet knife, 74 material cylinder adjusting cover, 75 fixing groove block, 76 groove rail frame, 77 screw rod, 78 wire sleeve, 79 material cylinder adjusting cover rotation center, 80 screw, 81 stepping motor, 83 horizontal groove, 84 oblique groove, 85 shaft position screw, 86 organic glass, 87 right side plate, 88 locking slide groove, 89 left side plate, 90 vegetable pressing cover rotating center, 91 vegetable cover supporting, 92 knife changing and positioning photoelectric switch, 93 conveying driving roller and 94 charging barrel automatic turnover mechanism.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings and examples.

Fig. 1 is a schematic view of the working state structure of the present invention.

Fig. 2 is a schematic diagram showing the structure of the charging barrel in a turning state.

3 fig. 33 3 is 3 a 3 schematic 3 sectional 3 view 3 of 3 a 3- 3 a 3 of 3 the 3 present 3 invention 3. 3

Fig. 4 is a schematic view of the transmission structure of the conveyer belt of the present invention.

The utility model provides a commercial clean vegetable cutting device, which comprises a frame 1, a conveying part 15, a vegetable pressing part 22, a cutter part 19, a vegetable pressing cover 20, a cutting piece splashing prevention mechanism 24, a charging barrel automatic turnover mechanism 94, a cutting piece thickness automatic adjustment mechanism 25, a cutter transmission part 6 and an intelligent control part 23; the conveying part 15, the vegetable pressing part 22, the cutter part 19, the vegetable pressing cover 20, the cutting piece splashing prevention mechanism 24, the charging barrel 26, the automatic slice thickness adjusting mechanism 25 and the intelligent control part 23 are arranged on the upper part of the rack 1; a cutter transmission part 6, a motor 2 and a servo motor 10 are arranged in the frame 1; the cutter transmission part 6 comprises a front shaft 56, a support 57, an eccentric 58, a small shaft 48 and a joint 49, the cutter part 19 comprises a cutter 55, a cutter holder 54, a guide post 52, a swing rod welding joint 51 and a stud 50, and the cutter transmission part 6 and the cutter part 19 are connected with the joint 49 through the stud 50; the motor 2 transmits power to a front shaft 56 of the cutter transmission part 6 through the motor wheel 3, the common V-belt 4 and the large grooved wheel 5, the front shaft 56 drives a cutter rest 54 and a cutter 55 to reciprocate up and down through an eccentric 58, a joint 49 and a stud 50, and the guide post 52 is arranged in a guide sleeve 53 of the frame 1 to realize guiding; a medium chain wheel 40 and a medium gear 43 are arranged on one side of the frame 1; the conveying part 15 comprises a conveying driving roller 93, a bearing seat 59, a conveying rear roller 47, a conveying belt 45, a screw seat 60 and an adjusting screw 61; the shaft end of the conveying driving roller 93 is provided with a conveying driving roller chain wheel 35 and a conveying driving roller wheel 14, and the conveying driving roller 93 is arranged on one side of the rack 1 through a bearing seat 59; the servo motor 10 is arranged on a servo motor fixing plate 9, the servo motor fixing plate 9 is fixed in the rack 1, and the servo motor 10 transmits power to a conveying driving roller 93 of a conveying part 15 through a servo motor wheel 11, a belt 13 and a conveying driving roller 14; the conveying part 15 transmits power to a vegetable pressing part rotating center 44 through a conveying driving roller chain wheel 35, a chain 16, a medium gear 43 and a vegetable pressing driving roller gear 41 to drive a vegetable pressing belt 37 and a conveying belt 45 to rotate reversely and at the same speed, and the vegetable pressing part 22 comprises a vegetable pressing front roller 36, a vegetable pressing belt 37, a vegetable pressing belt support plate 38, a spring 39 and a vegetable pressing driving roller 42; the dish pressing driving roller 42 and the dish pressing front roller 36 are arranged on the dish pressing belt support plate 38, the dish pressing part 22 can rotate around a dish pressing part rotating center 44, and the pressing force of the dish pressing belt 37 and the conveying belt 45 is realized through a spring 39, so that the cut materials are conveyed forwards under the combined action of the dish pressing belt 37 and the conveying belt 45.

The automatic charging barrel overturning mechanism 94 comprises a charging barrel 26, a support plate 27, a support shaft 28, a charging barrel rotating shaft 30, a fixing plate 32, a charging barrel overturning speed reducer 72, a bearing chamber 63 and a bearing chamber fixing plate 71; a slicing knife 73 is arranged on the material barrel 26; the support plate 27 and the fixing plate 32 are respectively fixed at two sides of the charging barrel 26, the supporting shaft 28 is fixed inside the support plate 27, the charging barrel rotating shaft 30 is fixed with the fixing plate 32, and the bearing chamber 63 and the bearing chamber fixing plate 71 are respectively fixed at two sides of the frame 1; the charging barrel rotating shaft 30 is arranged in the bearing chamber 63 and the bearing chamber fixing plate 71 through bearings and can rotate around the centers of the bearing chamber 63 and the bearing chamber fixing plate 71, and the charging barrel rotating center 31 is the center of the bearing chamber 63 and the bearing chamber fixing plate 71; the charging barrel overturning speed reducer 72 is installed at the shaft end of the charging barrel rotating shaft 30, and the charging barrel overturning speed reducer 72 can drive 72 the charging barrel 26 to integrally rotate when rotating.

Fig. 5 is a schematic sectional view of the present invention B-B.

The feed cylinder 26 comprises a feeding hopper 70, a material stirring disc 68, a material stirring shaft 65, a feed cylinder bearing chamber 67, a bearing gland fixing seat 66, a material stirring disc speed reducer 64 and a feed cylinder bottom plate 46, wherein the bearing gland fixing seat 66 and the material stirring disc speed reducer 64 are fixed on the feed cylinder bearing chamber 67, the material stirring disc speed reducer 64 is installed on the material stirring shaft 65 and can drive the material stirring disc 68 to rotate, and the intelligent control system can control different rotating speeds of the material stirring disc speed reducer 64.

Fig. 6 is a schematic view of a sheet thickness adjusting structure according to the present invention.

Fig. 7 is a schematic diagram of a sheet thickness adjusting structure according to the present invention.

Fig. 8 is a schematic view of the structure of the grooved rail frame of the present invention.

Fig. 9 is a schematic view of the fixing base of the present invention.

The automatic slicing thickness adjusting mechanism 25 comprises a material barrel adjusting cover 74, a fixed groove block 75, a groove rail frame 76, a screw rod 77, a screw sleeve 78 and a stepping motor 81, the automatic slicing thickness adjusting mechanism 25 is fixed on the material barrel 26 through the groove rail frame 76, the fixed groove block 75 is fixed on the material barrel adjusting cover 74 through a screw 80, one end of the material barrel adjusting cover 74 is hinged with the material barrel 26 at a material barrel adjusting cover rotating center 79 and can rotate around the material barrel adjusting cover rotating center 79, so that a certain distance e is generated between one end of the material barrel adjusting cover 74 and the slicing knife 73, and slicing thickness adjustment is realized; one end of the screw rod 77 is fixed on an output shaft of the stepping motor 81, and the screw rod 77 can be driven to rotate when the stepping motor 81 rotates; the fixed groove block 75 is provided with an inclined long groove 84, and the fixed groove block 75 is provided with a horizontal long groove 83; the screw sleeve 78 can slide in the inclined long groove 84 and the horizontal long groove 83, and when the stepping motor 81 drives the screw rod 77 to rotate, the screw rod 77 drives the screw sleeve 78 to slide in the inclined long groove 84 and the horizontal long groove 83, so that the material cylinder adjusting cover 74 is driven to rotate around the material cylinder adjusting cover rotation center 79, and slice thickness adjustment is achieved.

Fig. 10 is a schematic view of the slice splashing preventing structure of the present invention.

Fig. 11 is a top view of the anti-splashing structure of the utility model.

The slice splash preventing mechanism 24 comprises an organic glass 86, a right side plate 87 and a left side plate 89, wherein the organic glass 86 connects the right side plate 87 and the left side plate 89 into a whole; the right side plate 87 and the left side plate 89 are provided with locking chutes 88, shaft position screws 85 are fixed above the frame 1, and the cutting piece splashing prevention mechanism 24 realizes locking through the shaft position screws 85 and the locking chutes 88.

Fig. 12 is a schematic view of the structure of the dish pressing cover of the present invention.

The vegetable pressing cover 20 is of an integral structure, the vegetable cover support 91 is fixed on the upper part of the rack 1, and the vegetable pressing cover 20 and the vegetable cover support 91 are hinged at the vegetable pressing cover rotation center 90 and can rotate around the vegetable pressing cover rotation center 90; the bottom of the dish pressing cover 20 is provided with a dish pressing cover photoelectric switch 18, and when the dish pressing cover 20 rotates around a dish pressing cover rotation center 90 and does not contact the dish pressing cover photoelectric switch 18, the machine stops rotating.

A vegetable receiving dustpan 12 is arranged on one side of the frame 1.

The bottom of the frame 1 is provided with an adjusting base 7 and a bottom wheel 8.

A tool changing and positioning photoelectric switch 92 is further arranged in the rack 1, and when the tool rest 54 of the cutting part 19 moves to the lowest point, the intelligent control part 23 can control the cutting part 19 to stop running.

The intelligent control part 23 combines a PLC digital programming control system and a system self-feedback control system to realize the quick and automatic adjustment of the specifications, the running parameters and the states of the dish products.

The PLC is used for controlling the reciprocating motion synchronism of the conveyer belt 45 and the cutter 55, when the cutter is cut, the speed of the cutter 55 is controlled by an internal electric appliance, the servo motor 10 responds quickly according to the action of the cutter 55, the conveyer belt 45 is driven to run intermittently by the belt 13, when the photoelectric switch board 17 reaches the position of the photoelectric switch 21 of the cutter, the conveyer belt 45 stops running and waits for cutting, when the photoelectric switch board 17 leaves the position of the photoelectric switch 21 of the cutter, the conveyer belt 45 runs for a corresponding distance, after the distance is finished, the cutter 55 is waited for cutting, namely, when the conveyer belt 45 stops, the cutter 55 cuts the conveyer belt and cuts vegetables, when the cutter 55 runs to a high point, the conveyer belt 45 runs for a certain distance quickly, and the digital control of the cutting length is realized through information feedback; the intelligent control part 23 can control the running speed of the material shifting disc speed reducer 64, realize the automatic adjustment of the rotating speed of the material shifting disc 68 and adapt to the slicing of the vegetables and fruits with different water contents; the intelligent control part 23 controls the rotating pulse quantity of the stepping motor 81 to enable the charging barrel adjusting cover 74 and the slicing knife 73 to form a certain gap e, and digital stepless adjustment of the slicing thickness is realized through information feedback; the intelligent control part 23 drives the automatic charging barrel overturning mechanism 94 to rotate for a certain angle by controlling the charging barrel overturning speed reducer 72, when the charging barrel 26 overturns and the charging barrel bottom plate 46 senses the charging barrel overturning photoelectric switch 29, the charging barrel 26 stops rotating, when the charging barrel 26 resets to a working state, the intelligent control part 23 drives the automatic charging barrel overturning mechanism 94 to rotate by controlling the charging barrel overturning speed reducer 72, when the supporting shaft 28 senses the charging barrel resetting photoelectric switch 33, the charging barrel 26 stops rotating, automatic overturning and resetting of the charging barrel 26 are realized, and the operation space for cutting the leaf vegetables is increased; the cover-lifting parking machine has the advantages that the cover-pressing photoelectric switch 18 is combined with the cover-pressing photoelectric switch 20, the machine can work when the cover-pressing photoelectric switch 20 senses the cover-pressing photoelectric switch 18, and the machine stops working when the cover-pressing photoelectric switch 20 is lifted and separated from the cover-pressing photoelectric switch 18, so that the cover-lifting parking function is realized, and the product is safe and reliable; by combining the tool changing positioning photoelectric switch 92 with the swing rod welding switch 51, when the swing rod welding switch 51 operates to the lowest point and is sensed by the tool changing positioning photoelectric switch 92, the swing rod welding switch 51 and the tool rest 54 stop operating, the cutter 55 can be replaced at the moment, the automatic tool changing positioning is realized, and the phenomenon that the cutter damages a conveying belt is avoided.

The commercial clean vegetable cutting equipment further comprises a human-computer interaction interface, when the equipment is used, the vegetable pressing cover 20 is covered, the length data and the thickness data of the cut section are input from the human-computer interaction interface, after the equipment is started, the intelligent control part 23 automatically controls the distance of the intermittent motion of the conveying belt 45 to be the same as the input data, and the distance e between the charging barrel adjusting cover 74 and the slicing knife 73 is the same as the input data of the thickness of the cut section. The root and stem materials to be cut are fed into the charging barrel from the feeding hopper 70, the material is cut into pieces by the slicing knife 73 under the action of the material poking disc 82, the pieces fall onto the conveying belt 45, the pieces are conveyed for a certain distance intermittently under the combined action of the conveying belt 45 and the vegetable pressing belt 37, the material is cut into products with a certain length by the cutter 55, and the products fall onto the vegetable receiving dustpan 12; when the leaf vegetables are cut, the material cylinder turning key is clicked, the material cylinder 26 is turned, the vegetables are placed on the conveying belt 45, the conveying belt 45 and the vegetable pressing belt 37 are used together to intermittently convey the materials for a certain distance, the cutter 55 cuts the materials into products with certain length, and the products fall onto the vegetable receiving dustpan 12.

The utility model discloses degree of automation is high, and the processing of the multiple type vegetables and fruits of user, the processing of the different specification goods of surely making is satisfied in the digital operation of intelligence, uses extensively.

The above embodiments of the present invention are merely examples, not the only ones, and all changes within the scope of the present invention or the same range of the present invention are all surrounded by the present invention.

Claims (10)

1. The utility model provides a commercial clean dish surely makes equipment which characterized in that: comprises a frame (1), a conveying part (15), a vegetable pressing part (22), a cutter part (19), a vegetable pressing cover (20), a slice splashing prevention mechanism (24), a charging barrel automatic turnover mechanism (94), a slice thickness automatic adjustment mechanism (25), a cutter transmission part (6) and an intelligent control part (23); the conveying part (15), the vegetable pressing part (22), the cutter part (19), the vegetable pressing cover (20), the cutting piece splashing prevention mechanism (24), the charging barrel (26), the automatic cutting piece thickness adjusting mechanism (25) and the intelligent control part (23) are arranged on the upper part of the rack (1); a cutter transmission part (6), a motor (2) and a servo motor (10) are arranged in the rack (1); the cutter transmission part (6) comprises a front shaft (56), a support (57), an eccentric part (58), a small shaft (48) and a joint (49), the cutter part (19) comprises a cutter (55), a cutter rest (54), a guide post (52), a swing rod welding joint (51) and a stud (50), and the cutter transmission part (6) and the cutter part (19) are connected with the joint (49) through the stud (50); the motor (2) transmits power to a front shaft (56) of the cutter transmission part (6) through a motor wheel (3), a common V-shaped belt (4) and a large grooved wheel (5), the front shaft (56) drives a cutter rest (54) and a cutter (55) to reciprocate up and down through an eccentric shaft (58), a joint (49) and a stud (50), and a guide post (52) is arranged in a guide sleeve (53) of the rack (1) to realize guiding; a medium chain wheel (40) and a medium gear (43) are arranged on one side of the rack (1); the conveying part (15) comprises a conveying driving roller (93), a bearing seat (59), a conveying rear roller (47), a conveying belt (45), a screw rod seat (60) and an adjusting screw rod (61); a conveying driving roller chain wheel (35) and a conveying driving roller wheel (14) are arranged at the shaft end of the conveying driving roller (93), and the conveying driving roller (93) is installed on one side of the rack (1) through a bearing seat (59); the servo motor (10) transmits power to a conveying driving roller (93) of the conveying part (15) through a servo motor wheel (11), a belt (13) and a conveying driving roller wheel (14); the conveying part (15) transmits power to a rotary center (44) of the vegetable pressing part through a conveying driving roller chain wheel (35), a chain (16), a medium gear (43) and a vegetable pressing driving roller gear (41) to drive a vegetable pressing belt (37) and a conveying belt (45) to rotate reversely and at the same speed, and the vegetable pressing part (22) comprises a vegetable pressing front roller (36), a vegetable pressing belt (37), a vegetable pressing belt support plate (38), a spring (39) and a vegetable pressing driving roller (42); the vegetable pressing driving roller (42) and the vegetable pressing front roller (36) are arranged on a vegetable pressing belt support plate (38), the vegetable pressing part (22) can rotate around a vegetable pressing part rotating center (44), and pressing force of the vegetable pressing belt (37) and the conveying belt (45) is achieved through a spring (39) to enable cut materials to be conveyed forwards under the combined action of the vegetable pressing belt (37) and the conveying belt (45).

2. The commercial clean vegetable cutting device according to claim 1, characterized in that: the automatic charging barrel overturning mechanism (94) comprises a charging barrel (26), a support plate (27), a support shaft (28), a charging barrel rotating shaft (30), a fixing plate (32), a charging barrel overturning speed reducer (72), a bearing chamber (63) and a bearing chamber fixing plate (71); a blade knife (73) is arranged on the charging barrel (26); the support plate (27) and the fixing plate (32) are respectively fixed on two sides of the charging barrel (26), the supporting shaft (28) is fixed inside the support plate (27), the charging barrel rotating shaft (30) is fixed with the fixing plate (32), and the bearing chamber (63) and the bearing chamber fixing plate (71) are respectively fixed on two sides of the rack (1); the charging barrel rotating shaft (30) is arranged in the bearing chamber (63) and the bearing chamber fixing plate (71) through bearings and can rotate around the centers of the bearing chamber (63) and the bearing chamber fixing plate (71), and the charging barrel rotating center (31) is the centers of the bearing chamber (63) and the bearing chamber fixing plate (71); the charging barrel overturning speed reducer (72) is installed at the shaft end of the charging barrel rotating shaft (30), and the charging barrel overturning speed reducer (72) can drive the charging barrel (26) to integrally rotate when rotating.

3. The commercial clean vegetable cutting device according to claim 1, characterized in that: the feed cylinder (26) includes into hopper (70), dials charging tray (68), dials charging shaft (65), feed cylinder bearing room (67), bearing gland fixing base (66), dials charging tray speed reducer (64) and feed cylinder bottom plate (46), bearing gland fixing base (66), dials charging tray speed reducer (64) and fixes on feed cylinder bearing room (67), dial charging tray speed reducer (64) install dial charging shaft (65) on, can drive dial charging tray (68) and rotate, the steerable different rotational speeds of dialling charging tray speed reducer (64) of intelligence control system.

4. The commercial clean vegetable cutting device according to claim 1, characterized in that: the automatic slicing thickness adjusting mechanism (25) comprises a material barrel adjusting cover (74), a fixed groove block (75), a groove rail frame (76), a screw rod (77), a screw sleeve (78) and a stepping motor (81), wherein the groove rail frame (76) is fixed on the material barrel (26), the fixed groove block (75) is fixed on the material barrel adjusting cover (74) through a screw (80), one end of the material barrel adjusting cover (74) is hinged with the material barrel (26) at a material barrel adjusting cover rotating center (79) and can rotate around the material barrel adjusting cover rotating center (79), so that a certain distance e is generated between one end of the material barrel adjusting cover (74) and a slicing knife (73), and slicing thickness adjustment is realized; one end of the screw rod (77) is fixed on an output shaft of the stepping motor (81), and the stepping motor (81) can drive the screw rod (77) to rotate when rotating; an inclined long groove (84) is formed in the fixed groove block (75), and a horizontal long groove (83) is formed in the fixed groove block (75); the screw sleeve (78) can slide in the inclined long groove (84) and the horizontal long groove (83), when the stepping motor (81) drives the screw rod (77) to rotate, the screw rod (77) drives the screw sleeve (78) to slide in the inclined long groove (84) and the horizontal long groove (83), and therefore the material barrel adjusting cover (74) is driven to rotate around the rotating center (79) of the material barrel adjusting cover, and slice thickness adjustment is achieved.

5. The commercial clean vegetable cutting device according to claim 1, characterized in that: the slice splashing preventing mechanism (24) comprises organic glass (86), a right side plate (87) and a left side plate (89), wherein the organic glass (86) connects the right side plate (87) and the left side plate (89) into a whole; the right side plate (87) and the left side plate (89) are provided with locking sliding grooves (88), shaft position screws (85) are fixed above the rack (1), and the slice splashing prevention mechanism (24) is locked through the shaft position screws (85) and the locking sliding grooves (88).

6. The commercial clean vegetable cutting device according to claim 1, characterized in that: the vegetable pressing cover (20) is of an integral structure, a vegetable cover support (91) is fixed on the upper part of the rack (1), and the vegetable pressing cover (20) and the vegetable cover support (91) are hinged at a vegetable pressing cover rotation center (90) and can rotate around the vegetable pressing cover rotation center (90); the bottom of the dish pressing cover (20) is provided with a photoelectric switch (18), and when the dish pressing cover (20) rotates around a dish pressing cover rotating center (90) and is not in contact with the photoelectric switch (18), the machine stops rotating.

7. The commercial clean vegetable cutting device according to claim 1, characterized in that: a vegetable receiving dustpan (12) is arranged on one side of the frame (1).

8. The commercial clean vegetable cutting device according to claim 1, characterized in that: the bottom of the frame (1) is provided with an adjusting base (7) and a bottom wheel (8).

9. The commercial clean vegetable cutting device according to claim 1, characterized in that: the intelligent control part (23) combines a PLC digital programming control system and a system self-feedback control system to realize the quick and automatic adjustment of the specifications, the running parameters and the states of the dish products.

10. A commercial net vegetable cutting apparatus according to any one of claims 1-9, characterized in that: when the intelligent kitchen knife is used, the vegetable pressing cover (20) is covered, the length data and the thickness data of the cut slices are input from the human-computer interaction interface, after the intelligent kitchen knife is started, the intelligent control part (23) automatically controls the distance of the intermittent motion of the conveying belt (45) to be the same as the input data, and the distance e between the charging barrel adjusting cover (74) and the slicing knife (73) is the same as the input data of the thickness of the cut slices.

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