CN114750230B - Multipurpose ginger garlic cutting intelligent processor - Google Patents

Abstract

The invention provides a multipurpose ginger and garlic cutting intelligent processor, which is applied to the technical field of automatic food cutting and comprises the following components: the device comprises a cutting device, a flow dividing device, a stirring device and a control device; the cutting device is fixedly connected with the flow dividing device, the other end of the cutting device is fixedly connected with the stirring device, and the control device is respectively electrically connected with the cutting device, the flow dividing device and the stirring device; the cutting device comprises a shell, a conveyor body, a first pressing component, a first cutting component, a second pressing component and a second cutting component; the upper end of the shell is fixedly connected with the conveyor main body, and the first compression assembly, the first cutting assembly, the second compression assembly and the second cutting assembly are sequentially and fixedly arranged on the shell; the first pressing assembly comprises a conveyor belt assembly, a sliding guide rail, a first pressing shaft, a first adjusting shaft, a connecting frame, a first motor and a fixing frame; the first pressing shaft comprises a first connecting piece, a first connecting rod, a second transmission shaft and a first elastic piece.

Description

Multipurpose ginger garlic cutting intelligent processor

Technical Field

The invention relates to the technical field of automatic food cutting, in particular to an intelligent processor for multi-purpose ginger garlic cutting.

Background

In the existing food cutting device, as the food cutting machine is directly conveyed by a conveyor and then cuts, the food is not fixed and is directly cut, or a roller is added at the upper end of the food to compress food during cutting, when the food with the size being similar to that of the food can be cut, the position of the food can be changed during cutting, so that the cut food is difficult to be cut by a knife, and the size is different after cutting; or the food materials are cut by rotating and cutting, and the food materials are cut by manual pushing, so that the situation that the food materials are mutually extruded can be caused, the tissue structure of the food materials can be damaged by excessive extrusion, and the taste of the food materials can be deteriorated after cutting; the existing designed food cutting machine uses different cutters according to different food materials, when foods in different states are to be cut, the cutters are required to be replaced correspondingly for processing, and only one state of food material can be cut in the cutting process, and slicing or shredding cannot be performed simultaneously; the food cutter of the present stage generally has the problem that garlic ginger is difficult to continuously process into slices and threads.

Disclosure of Invention

The invention aims to solve the background technical problem and provides a multipurpose intelligent ginger garlic cutting processor.

The invention provides a multipurpose ginger and garlic cutting intelligent processor, which comprises: the device comprises a cutting device, a flow dividing device, a stirring device and a control device; the cutting device is fixedly connected with the flow dividing device, the other end of the cutting device is fixedly connected with the stirring device, and the control device is respectively electrically connected with the cutting device, the flow dividing device and the stirring device;

the cutting device comprises a shell, a conveyor body, a first pressing component, a first cutting component, a second pressing component and a second cutting component; the upper end of the shell is fixedly connected with the conveyor main body, and the first compression assembly, the first cutting assembly, the second compression assembly and the second cutting assembly are sequentially and fixedly arranged on the shell;

the first pressing assembly comprises a conveyor belt assembly, a sliding guide rail, a first pressing shaft, a first adjusting shaft, a connecting frame, a first motor and a fixing frame; the two ends of the two main shafts of the conveyor belt assembly are movably connected with sliding guide rails, and the two ends of the fixing frame are respectively and fixedly connected with the two ends of the main shaft of the conveyor belt close to the splitting device; the fixing frame is U-shaped, the first motor is fixedly connected to the fixing frame, and the first motor is movably connected with a main shaft of the conveyor belt assembly through a driving belt; the first pressing shaft presses the conveyor belt assembly towards the conveyor body so that ginger garlic passing through a gap between the conveyor belt assembly and the conveyor body is tightly wrapped, and the ginger garlic is not slipped when being cut by the first cutting assembly.

Further, the multipurpose ginger and garlic cutting intelligent processor is characterized in that the first pressing shaft comprises a first connecting piece, a first connecting rod, a second transmission shaft and a first elastic piece; the first connecting piece one end fixed connection support, first connecting piece other one end swing joint head rod one end, first connecting rod other one end swing joint second transmission shaft, the second transmission shaft pastes with the conveyer belt internal surface of conveyer belt subassembly and is connected, first elastic component both ends fixed connection head rod and support respectively.

Further, the multipurpose ginger and garlic cutting intelligent processor comprises a sliding guide rail, a first spring and a second spring, wherein the sliding guide rail comprises a guide rail plate, a guide rail frame and a first spring; the two ends of the guide rail plate are respectively provided with a first vertical guide rail through hole, an axle center installation position is arranged in the middle of the guide rail plate, the first vertical guide rail through holes on two sides of the guide rail plate are respectively connected with two sides of the guide rail frame, the first spring is sleeved on the guide rail frame, and one end of the first spring is fixedly connected with the guide rail plate.

Further, the multipurpose ginger and garlic cutting intelligent processor is characterized in that the first adjusting shaft comprises an adjusting rod and a second pressure piece; the two ends of the adjusting rod are fixedly connected with a second pressure piece, the second pressure piece comprises a second spring and a telescopic rod, the second spring is sleeved on the telescopic rod, and the two ends of the telescopic rod are respectively fixedly connected with the support and the first adjusting shaft.

Further, the multipurpose ginger and garlic cutting intelligent processor comprises a cutter rest, a blade, a movable guide rail rod, a conversion piece and a second motor; the utility model discloses a rotary cutter for the rotary cutter, including cutter frame, movable guide, gear connection second motor transmission shaft, cutter frame, movable guide one end, the cutter frame both ends are equipped with the mounting hole, be equipped with two fixed hole sites in the middle of the cutter frame, the cutter frame passes through fixed hole site fixed connection blade, cutter frame both ends mounting hole is a fixed connection movable guide one end respectively, movable guide one end swing joint conversion spare in addition, the conversion spare is a cylinder both sides and is equipped with disc shape plate spare, be equipped with the gear on the cylinder in the middle of the conversion spare, one of them angle department of the face that the cylinder was kept away from to disc shape plate spare is equipped with a bellied conversion cylinder, conversion cylinder swing joint movable guide pole.

Further, the multipurpose ginger and garlic cutting intelligent processor is characterized in that the second pressing assembly comprises a first pressing shaft, a second pressing shaft, a third pressing shaft, an annular conveying belt, a conveying frame, a pressing frame and a third motor; the annular conveyer belt is internally wrapped with a first compression shaft, a second compression shaft, a third compression shaft, a compression frame and a third motor, the conveying frames are composed of two triangular frames, each opposite corner of each conveying frame is movably connected with the two ends of the first compression shaft, the second compression shaft and the two ends of the third compression shaft respectively, the two ends of each compression frame are fixedly connected with the positions, close to the second compression shaft and the third compression shaft, of the conveying frames, the third motor is fixedly connected above the two ends of each compression frame, the second compression assembly further comprises a movable guide rail, and the second compression assembly is connected with the casing through the sliding guide rail.

Further, the multipurpose ginger and garlic cutting intelligent processor comprises a supporting frame, a second connecting piece, a second connecting rod, a third transmission shaft and a second elastic piece; the support frame is a barrier-shaped square frame, each barrier of the support frame is fixedly connected with one end of a plurality of second connecting pieces, the other end of each second connecting piece is fixedly connected with the position of the second connecting rod, which is close to the end face, of each second connecting piece, one end of each second connecting rod, which is close to the second connecting piece, is movably connected with one end of each third connecting rod, the other end of each third connecting rod is movably connected with a third transmission shaft, and two ends of each second elastic piece are respectively fixedly connected with one end, which is close to the transmission shaft, of each third connecting rod, and one end, which is far away from the second connecting piece, of each second connecting rod.

Further, the multipurpose ginger and garlic cutting intelligent processor comprises a shell, a shell door and a protective cover; an inner cavity is formed above the shell, the side edge of the shell is movably connected with the shell door, the opposite positions of the two edges of the upper surface of the shell are respectively provided with a first installation double hole, a first installation single hole, a second installation double hole and a second installation single hole which are sequentially arranged, and one side edge of the upper surface of the shell is provided with a first discharge hole and a second discharge hole which are sequentially arranged; the casing is close to the terminal surface upper surface of second installation haplopore and is equipped with the third discharge gate, first discharge gate is located the position between first installation haplopore and the second installation diplopore, the second discharge gate is located the position between second installation haplopore and the third discharge gate, the casing upper surface that the angle department of first installation haplopore was kept away from to first discharge gate is equipped with first reposition of redundant personnel mounting hole, the casing upper surface that the angle department was kept away from to the second installation haplopore was equipped with the second reposition of redundant personnel mounting hole to the second discharge gate, the casing top is equipped with a plurality of safety covers.

Further, the multipurpose ginger and garlic cutting intelligent processor comprises a diversion baffle, a fourth motor and a diversion shaft; one end of the flow dividing baffle is fixedly connected with one end of the flow dividing shaft, and the other end of the flow dividing shaft is fixedly connected with a fourth motor.

Further, the multipurpose ginger and garlic cutting intelligent processor comprises a fifth motor, a stirring tank, a tank valve, a tank cover, a feeding piece, a protective cover and a stirring piece; the stirring tank is characterized in that a feeding hole and a plurality of feeding holes are formed in the tank cover, the feeding holes are connected with a feeding piece, the tank cover is movably connected above the stirring tank, a stirring mounting hole is formed in the lower end of the stirring tank, a tank valve is fixedly connected to the side edge of the lower end of the stirring tank, one end of the stirring piece penetrates through the stirring mounting hole from the inside of the stirring tank and is connected with a fifth motor, and the protective cover is connected to the bottom of the stirring tank; the charging piece comprises a charging piece and an electric control valve; one end of the electric control valve is movably connected with the charging port, and the other end of the electric control valve is fixedly connected with the charging piece.

The invention provides a multipurpose ginger garlic cutting intelligent processor, which has the following beneficial effects:

1. the first pressing component and the second pressing component enable each food material to be well fixed in the cutting process, so that the position of the food material is not changed in the cutting process, and the cutting effect is not affected;

2. Through the first pressing component and the first cutting component; the second pressing component and the second cutting component; the two functions enable food slicing and shredding to be carried out simultaneously, and the cutter is not required to be replaced;

3. the problem that the tissue structure of the food materials is damaged and the taste is affected due to the fact that the food materials are mutually extruded due to the fact that the first pressing assembly and the second pressing assembly need to be manually pushed to cut is solved;

4. the product in different states after cutting of the food material can be obtained simultaneously through the flow distribution assembly, and the simultaneous processing of the product in different states of the food material is not affected.

Drawings

FIG. 1 is a block diagram of one embodiment of a multi-purpose ginger garlic cutting intelligent processor of the present invention;

FIG. 2 is a partial block diagram of another embodiment of the multi-purpose ginger garlic cutting intelligent processor of the present invention;

FIG. 3 is a partial block diagram of another embodiment of the multi-purpose ginger garlic cutting intelligent processor of the present invention;

FIG. 4 is a partial block diagram of another embodiment of the multi-purpose ginger garlic cutting intelligent processor of the present invention;

FIG. 5 is a partial block diagram of another embodiment of the multi-purpose ginger garlic cutting intelligent processor of the present invention;

FIG. 6 is a partial block diagram of another embodiment of the multi-purpose ginger garlic cutting intelligent processor of the present invention;

FIG. 7 is a partial block diagram of another embodiment of the multi-purpose ginger garlic cutting intelligent processor of the present invention;

FIG. 8 is a partial block diagram of another embodiment of the multi-purpose ginger garlic cutting intelligent processor of the present invention;

FIG. 9 is a partial block diagram of another embodiment of the multi-purpose ginger garlic cutting intelligent processor of the present invention;

FIG. 10 is a partial block diagram of another embodiment of the multi-purpose ginger garlic cutting intelligent processor of the present invention;

FIG. 11 is a partial block diagram of another embodiment of the multi-purpose ginger garlic cutting intelligent processor of the present invention;

FIG. 12 is a partial block diagram of another embodiment of the multi-purpose ginger garlic cutting intelligent processor of the present invention;

FIG. 13 is a partial block diagram of another embodiment of the multi-purpose ginger garlic cutting intelligent processor of the present invention;

FIG. 14 is a partial block diagram of another embodiment of the multi-purpose ginger garlic cutting intelligent processor of the present invention;

FIG. 15 is a partial block diagram of another embodiment of the multi-purpose ginger garlic cutting intelligent processor of the present invention;

FIG. 16 is a partial block diagram of another embodiment of the multi-purpose ginger garlic cutting intelligent processor of the present invention;

FIG. 17 is a partial block diagram of another embodiment of the multi-purpose ginger garlic cutting intelligent processor of the present invention;

in the figure: the cutting apparatus 1, the flow dividing apparatus 2, the stirring apparatus 3, the control apparatus 4, the casing 11, the first pressing assembly 12, the first cutting assembly 13, the second pressing assembly 14, the second cutting assembly 15, the conveyor main body 16, the conveyor belt assembly 121, the slide rail 122, the first pressing shaft 123, the first regulation shaft 124, the connection frame 125, the bracket 1251, the first connection member 1231, the first connection rod 1232, the first elastic member 1233, the second transmission shaft 1234, the guide rail plate 1221, the guide rail frame 1222 and the first spring 1223, the regulation lever 1241, the regulation lever 1242, the second spring 12422, the telescopic rod 12421, the knife rest 131, the blade 132, the movable guide rod 133, the conversion member 134, the second motor 135, the first pressing shaft 123, the second pressing shaft 141, the third pressing shaft 142, the endless belt 144, the carrier 145, the pressing frame 146, the third motor 147, the support frame 1461, the second connection member 1232, the second connection rod 3, the third connection rod 4, the third transmission shaft 1465, the second elastic member 1466, the housing 111, the first housing 14633, the second valve housing 14623, the second valve attachment hole 11135, the second valve attachment hole 14635, the second valve attachment hole 14617, the second valve attachment hole 146and the second valve attachment hole 14617, the second valve attachment hole.

The realization, functional characteristics and advantages of the present invention are further described with reference to the accompanying drawings in combination with the embodiments.

Detailed Description

It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

The technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is apparent that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-17, a block diagram of a multipurpose ginger garlic cutting intelligent processor in an embodiment of the present invention is shown.

A multipurpose ginger garlic cutting intelligent processor comprises: a cutting device 1, a flow dividing device 2, a stirring device 3 and a control device 4; the cutting device 1 is fixedly connected with the flow dividing device 2, the other end of the cutting device 1 is fixedly connected with the stirring device 3, and the control device 4 is respectively electrically connected with the cutting device 1, the flow dividing device 2 and the stirring device 3;

The cutting device 1 comprises a housing 11, a conveyor body 16, a first compacting assembly 12, a first cutting assembly 13, a second compacting assembly 14 and a second cutting assembly 15; the upper end of the shell 11 is fixedly connected with a conveyor main body 16, and the first compression assembly 12, the first cutting assembly 13, the second compression assembly 14 and the second cutting assembly 15 are sequentially and fixedly arranged on the shell 11;

the first compressing assembly 12 comprises a conveyor belt assembly 121, a sliding guide rail 122, a first compressing shaft 123, a first adjusting shaft 124, a connecting frame 125, a first motor and a fixing frame; the two ends of the connecting frame 125 are fixedly connected between the two main shafts inside the conveyor belt assembly 121, the upper surface of the connecting frame 125 is fixedly connected with the first adjusting shaft 124, a plurality of brackets 1251 are arranged in the middle of the connecting frame 125, the brackets 1251 are movably connected with the first compression shaft 123, the two ends of the two main shafts of the conveyor belt assembly 121 are movably connected with the sliding guide rails 122, and the two ends of the fixing frame are respectively and fixedly connected with the two ends of the main shaft of the conveyor belt close to the flow dividing device 2; the fixing frame is U-shaped, the first motor is fixedly connected to the fixing frame, and the first motor is movably connected with a main shaft of the conveyor belt assembly 121 through a driving belt; the first pressing shaft 123 presses the conveyor belt assembly 121 toward the conveyor body 16 so that the ginger garlic passing through the nip between the conveyor belt assembly 121 and the conveyor body 16 is tightly wrapped, and thus the ginger garlic is not slipped when being cut by the first cutting assembly 13.

In this embodiment, the cutting device 1 is fixedly connected with the flow dividing device 2, the other end of the cutting device 1 is fixedly connected with the stirring device 3, and the control device 4 is respectively electrically connected with the cutting device 1, the flow dividing device 2 and the stirring device 3;

the upper end of the shell 11 is fixedly connected with a conveyor main body 16, and a first compression assembly 12, a first cutting assembly 13, a second compression assembly 14 and a second cutting assembly 15 are sequentially and fixedly arranged on the shell 11; the nearest distance between the first pressing component 12 and the first cutting component 13 is 2-8 mm, the conveyor main body 16 has the complete function of a conveyor, a conveying chain of the conveyor main body 16 is composed of a plurality of hard chopping board materials, a pressure sensor is further arranged on the conveying chain of the conveyor main body 16, a camera scanning piece is further arranged on the shell 11, the pressure sensor and the camera scanning piece are electrically connected with the control device 4, and the first pressing component 12 plays a role in fixing food materials;

the two ends of a connecting frame 125 are fixedly connected between two main shafts in the conveyor belt assembly 121, the conveyor belt assembly 121 is a transmission structure of a conveyor, the upper surface of the connecting frame 125 is fixedly connected with a first adjusting shaft 124, a plurality of brackets 1251 are arranged in the middle of the connecting frame 125, at least two first compression shafts 123 are movably connected on each bracket 1251, two ends of the two main shafts of the conveyor belt assembly 121 are movably connected with sliding guide rails 122, and two ends of a fixing frame are respectively and fixedly connected with two ends of the main shaft of the conveyor belt close to the splitting device 2; the fixing frame is U-shaped, the first motor is fixedly connected to the fixing frame, the first motor is movably connected with a main shaft of the conveyor belt assembly 121 through a driving belt, the fixing frame enables the first motor to move up and down along with the conveyor belt assembly 121, and the first motor is a speed regulating motor; the first cutting assembly 13 and the second cutting assembly 15 have the same structural function; the first pressing shaft 123 presses the conveyor belt assembly 121 toward the conveyor body 16 so that the ginger garlic passing through the nip between the conveyor belt assembly 121 and the conveyor body 16 is tightly wrapped, and thus the ginger garlic is not slipped when being cut by the first cutting assembly 13.

In specific implementation, when the control device 4 starts the equipment, and ginger garlic is put on the conveyor main body 16, a pressure sensor on the conveyor main body 16 detects the weight of the ginger garlic, or a camera scanning piece detects that an object is put in, the conveyor main body 16 runs, a first motor runs, when the conveyor main body 16 conveys the ginger garlic to the position of the first pressing component 12, the ginger garlic enters between the first pressing component 12 and the conveyor main body 16, the ginger garlic lifts up the conveyor belt component 121, two sides of the conveyor belt component 121 slide along the sliding guide rail 122 upwards, the vertical length of the conveyor belt component 121 is changed, the conveyor belt of the conveyor belt component 121 presses the first adjusting shaft 124 to generate a downward pulling force, the first adjusting shaft 124 moves downwards, when the pulling force of the conveyor belt component 121 on the first adjusting shaft 124 is reduced, the conveyor belt of the conveyor belt component 121 is pulled upwards, the conveyor belt is kept in a normal state, and the first adjusting shaft 124 adjusts the conveyor belt at the lower end of the conveyor main body 16, and the distance between the conveyor belt at the upper end is changed; when the ginger and garlic come out of the first compacting component 12 and reach the first cutting component 13, the speed of the conveyor main body 16 and the first compacting component 12 is changed, the first cutting component 13 is enabled to form slices or blocks, when the slices are needed, the control device 4 can control the flow dividing device 2 to take out the slices, when the ginger and garlic in other states are needed, the ginger and garlic continue to enter the second compacting component 14 under the driving of the conveyor main body 16, the second compacting component 14 compacts and fixes the cut ginger slices or garlic slices, the second cutting component 15 further cuts the ginger and garlic slices into filaments, the cut ginger and garlic slices can be taken out through the second compacting component 14, when the ginger and garlic are needed to be further processed, the ginger and garlic can further enter the stirring device 3 under the driving of the conveyor main body 16, and the stirring device 3 can stir the ginger and garlic into the sauce or just mix and stir the ginger and garlic uniformly.

In another embodiment, the vegetables and fruits may be placed in the conveyor body 16, which is sliced, diced and shredded by the cutting device 1; a feed hopper can also be added between the first cutting device 1 and the second compacting component 14, meat is placed into the adjusting conveyor main body 16, the running speed of the conveyor main body 16 and the first compacting component 12 is adjusted, the first cutting component 13 cuts the meat into strips, then the cut meat is taken out under the action of the splitting device 2, then the cut meat is placed into the feed hopper, and the second cutting component 15 cuts the meat into blocks.

In one embodiment, the first compression shaft 123 includes a first connection member 1231, a first connection rod 1232, a second transmission shaft 1234, and a first elastic member 1233; the first connecting piece 1231 one end fixed connection support 1251, the other one end swing joint head rod 1232 one end of first connecting piece 1231, the other one end swing joint second transmission shaft 1234 of head rod 1232, the second transmission shaft 1234 is connected with the conveyer belt internal surface of conveyer belt subassembly in paste, the head rod 1232 and support 1251 of fixed connection respectively in first elastic component 1233 both ends.

In this embodiment; the first compression shaft 123 and the other first compression shaft 123 are positioned in such a way that one end of the first compression shaft 123 is fixedly connected with the front bracket 1251, the other end of the first compression shaft 123 is fixedly connected with the middle bracket 1251, one end of the other first compression shaft 123 is connected with the middle bracket 1251, the other end of the other first compression shaft 123 is fixedly connected with the rear bracket 1251, and the positions of the first compression shaft 123 and the other first compression shaft 123 connected with the middle bracket 1251 are in staggered connection; one end of the first connecting piece 1231 is fixedly connected with the bracket 1251, the other end of the first connecting piece 1231 is movably connected with one end of the first connecting rod 1232, the other end of the first connecting rod 1232 is movably connected with the second transmission shaft 1234, the second transmission shaft 1234 is connected with the inner surface of the conveyor belt assembly in a pasting mode, and two ends of the first elastic piece 1233 are fixedly connected with the first connecting rod 1232 and the bracket 1251 respectively.

In the concrete implementation, ginger garlic of different heights jack up the second transmission shaft 1234 through the ring conveyer belt, the second transmission shaft 1234 exerts ascending power to the head rod 1232, the head rod 1232 rotates upwards with the point that head rod 1232 and first connecting piece 1231 are connected as the axle center, head rod 1232 extrudes first elastic component 1233, simultaneously first elastic component 1233 exerts a relative effort and fixes ginger garlic, first hold-down subassembly 12 and sliding guide 122 can be according to the different height real-time adjustment of ginger garlic, the ginger garlic of each piece has been guaranteed to fix that all can be fine, make it can not shift when cutting, guarantee the cutting effect.

In one embodiment, the slide rail 122 includes a rail plate 1221, a rail mount 1222, and a first spring 1223; the two ends of the guide rail plate 1221 are respectively provided with a first vertical guide rail through hole, an axle center installation position is arranged in the middle of the guide rail plate 1221, the first vertical guide rail through holes on the two sides of the guide rail plate 1221 are respectively connected with the two sides of the guide rail frame 1222, the first spring 1223 is sleeved on the guide rail frame 1222, and one end of the first spring 1223 is fixedly connected with the guide rail plate 1221.

In this embodiment, the two ends of the guide rail plate 1221 are respectively provided with a first vertical guide rail through hole, an axle center installation position is provided in the middle of the guide rail plate 1221, two ends of two main shafts of the conveyor belt assembly 121 are respectively movably connected with an axle center installation position of the guide rail plate 1221, the axle center installation position is also provided with a bearing post 362, the first vertical guide rail through holes on two sides of the guide rail plate 1221 are respectively connected with two sides of the guide rail frame 1222, the lowest height of the guide rail plate 1221 (front end guide rail plate 1221) far away from the first cutting assembly 13 is adjustable, the first spring 1223 is sleeved on the guide rail frame 1222, one end of the first spring 1223 is fixedly connected with the guide rail plate 1221, and the guide rail frame 1222 is fixedly connected with the side of the casing 11.

In particular, when ginger garlic enters the front end of the first pressing assembly 12, the front end of the conveyor belt assembly 121 is lifted upwards by the height of the ginger garlic, the front end guide rail plate 1221 presses the first spring 1223 upwards along the guide rail frame 1222, and when ginger garlic enters the first pressing assembly 12, the rear end guide rail plate 1221 presses the first spring 1223 upwards along the rear end guide rail frame 1222, and in this penetration, the first spring 1223 applies a relative force, and the first pressing guide rail plate 1221 and the conveyor belt assembly provide a gravity force to press and fix the ginger garlic.

In one embodiment, the first adjustment shaft 124 includes an adjustment rod 1241 and a second pressure member 1242; the two ends of the adjusting rod 1241 are fixedly connected with a second pressure member 1242, the second pressure member comprises a second spring 12422 and a telescopic rod 12421, the second spring 12422 is sleeved on the telescopic rod 12421, and the two ends of the telescopic rod 12421 are respectively fixedly connected with the bracket 1251 and the first adjusting shaft 124.

In this embodiment, two ends of the adjusting rod 1241 are fixedly connected with a second pressure member 1242, the second spring 12422 is sleeved on the telescopic rod 12421, the second spring 12422 provides power, two ends of the telescopic rod 12421 are respectively and fixedly connected with the bracket 1251 and the first adjusting shaft 124, and the telescopic rod 12421 plays roles of limiting position, fixing and guiding.

In particular, when the conveyor belt of the conveyor belt assembly 121 increases the downward pulling force on the first adjusting shaft 124, the pressure of the first adjusting rod 1241 is greater than the elastic force of the second spring 12422, the first adjusting shaft 124 presses the second spring 12422 to move downward and presses the telescopic rod 12421 to retract, and when the pressure of the conveyor belt assembly 121 decreases on the first adjusting shaft 124, the elastic force of the second spring 12422 is greater than the force applied by the first adjusting rod 1241, the second spring 12422 pushes the first adjusting rod 1241 upward, and the first adjusting rod 1241 tightens the conveyor belt of the conveyor belt assembly 121, so that the effect of fixing ginger and garlic can be better achieved.

In one embodiment, the first cutting assembly 13 includes a blade carrier 131, a blade 132, a movable rail bar 133, a switch 134, and a second motor 135; the utility model discloses a novel rotary cutter for the high-speed rotary cutter, including knife rest 131, movable guide rail, conversion piece 134, gear connection second motor 135 transmission shaft, the knife rest 131 is equipped with two fixed hole sites in the middle of, knife rest 131 passes through fixed hole site fixed connection blade 132, knife rest 131 both ends mounting hole is a fixed connection movable guide rail one end respectively, the other one end swing joint conversion piece 134 of movable guide rail, conversion piece 134 is a cylinder both sides and is equipped with disc shape plate spare, be equipped with the gear on the cylinder in the middle of the conversion piece 134, one of them angle department of the face that disc shape plate spare kept away from the cylinder is equipped with a bellied conversion cylinder, conversion cylinder swing joint movable guide rail pole 133.

In this embodiment, the blade 132 is fixed on the fixed hole by the blade holder 131 through screws or other detachable fixing pieces, the mounting holes at two ends of the blade holder 131 are respectively and fixedly connected with one end of a movable guide rail, the blade 132 can also be a cutter with other shapes (such as a dicing cutter formed by combining a plurality of blades 132, and other cutters), the other end of the movable guide rail is also movably connected with the conversion piece 134, the conversion piece 134 is also provided with a conversion connecting piece, the movable guide rail is movably connected with the conversion piece 134 through the conversion connecting piece, the middle section of the movable guide rail rod 133 passes through the side edge of the upper surface of the casing 11, one end of the movable guide rail rod 133 connected with the blade holder 131 is arranged above the casing 11, one end of the movable guide rail rod 133 connected with the conversion piece 134 is positioned in the casing 11, the conversion piece 134 is provided with disc-shaped plate pieces on two sides, a gear is arranged on the middle column of the conversion piece 134, the gear is connected with a transmission shaft of the second motor 135, the second motor 135 is fixedly connected with the casing 11, the conversion cylinder of the disc-shaped plate is movably connected with one end of the conversion connecting piece, the disc-shaped plate piece is arranged into a disc shape, that is guaranteed to be balanced, and the relative material saving of the disc-shaped plate can not generate in the rotation process.

In a specific implementation, when the second motor 135 receives the signal of the control device 4, the second motor 135 operates, the second motor 135 drives the conversion piece 134 to rotate through the gear, the disk-shaped plate piece on the conversion piece 134 rotates to drive the conversion connection piece and the movable guide rail rod 133 to operate, the direction and the movement direction of the conversion connection piece are changed, the movable guide rail rod 133 seat is made to slide up and down, the further sliding connection rod drives the knife rest 131 and the knife blade 132 to perform up and down cutting action, the knife blade 132 cuts ginger and garlic, and the cutting frequency is unchanged, the running speed of the main body of the conveyor belt is stable, so that the slicing thickness can be the same, and the frequency of the cutting action of the knife blade 132 can be changed by changing the rotating speed of the second motor 135, so that the effect of changing the slicing thickness is achieved.

In one embodiment, the second compression assembly 14 includes a first compression shaft 123, a second compression shaft 141, a third compression shaft 142, an endless conveyor belt 144, a conveyor frame 145, a compression frame 146, and a third motor 147; the first compression shaft 123, the second compression shaft 141, the third compression shaft 142, the compression frame 146 and the third motor 147 are wrapped inside the annular conveying belt 144, the conveying frame 145 is composed of two triangular frames, two ends of the first compression shaft 123, the second compression shaft 141 and the third compression shaft 142 are respectively and movably connected at each opposite angle of the two conveying frames 145, two ends of the compression frame 146 are fixedly connected with positions, close to the second compression shaft 141 and the third compression shaft 142, of the conveying frame 145, the compression frame 146 comprises a supporting frame 1461, a second connecting piece 1462, a second connecting rod 1463, a third connecting rod 1464, a third transmission shaft 1465 and a second elastic piece 1466; the supporting frame 1461 is a grid-shaped square frame, one end of each grid of the supporting frame 1461 is fixedly connected with a plurality of second connecting pieces 1462, the other end of each second connecting piece 1462 is fixedly connected with the position of the second connecting rod 1463 close to the end face, one end of each second connecting rod 1463 close to the second connecting piece 1462 is movably connected with one end of each third connecting rod 1464, the other end of each third connecting rod 1464 is movably connected with a third transmission shaft 1465, and two ends of each second elastic piece 1466 are respectively fixedly connected with one end of each third connecting rod 1464 close to the transmission shaft and one end of each second connecting rod 1463 far away from the second connecting piece 1462; the third motor 147 is fixedly connected above the two ends of the pressing frame 146, the second pressing assembly 14 further comprises a movable guide rail, and the second pressing assembly 14 is connected with the casing 11 through the sliding guide rail 122.

In this embodiment, the first compression shaft 123, the second compression shaft 141, the third compression shaft 142, the compression frame 146 and the third motor 147 are wrapped inside the annular conveying belt 144, the conveying frame 145 is composed of two obtuse triangle frames, the second compression assembly 14 further comprises a movable guide rail, the second compression assembly 14 is connected with the casing 11 through the sliding guide rail 122, two ends of the second compression shaft 141 and the third compression shaft 142 are connected with the guide rail plates 1221, two opposite corners of the two conveying frames 145 are respectively and movably connected with two ends of the first compression shaft 123, the second compression shaft 141 and the third compression shaft 142, the first compression shaft 123 is located at the uppermost part, the position where the first compression shaft 123 is connected with the conveying frame 145 has the function of a first adjusting shaft 124, the first compression shaft 123 can be finely adjusted to the upper and lower positions, two ends of the supporting frame 1461 are fixedly connected with the positions where the conveying frame 145 is close to the second compression shaft 141 and the third compression shaft 142, the supporting frame 1 is in a grid-shaped square frame, the supporting frame 1 plays a role of connection and is fixedly connected, each grid of the supporting frame 1461 is fixedly connected with one end of the second end face of the supporting frame 1461, two end of the supporting frame 1461 is respectively and the other end of the second end of the supporting frame 1461, the supporting frame is respectively and the other end of the supporting frame is close to the second end of the third end of the supporting frame 1462 is respectively and the third end of the supporting frame 1462 is in a position of the first end of the supporting frame 1462 is close to the first end of the supporting frame 1462 and the first end of the supporting frame 145 is close to the third end of the supporting frame 1462 and the first end of the third end 1462 is far from the third end of the first driving rod 1462 and the third driving rod 1462 is far away from the first end 2 and the other end of the first driving rod 1462 is respectively; the second elastic member 1466 is an elastic member with stable elastic potential energy, such as a spring, an elastic steel sheet, and the like, and is fixedly connected with the third motor 147 above two ends of the pressing frame 146, and the third motor 147 is rotatably connected with the second pressing shaft 141 or the third pressing shaft 142 through a belt.

In a specific implementation, when the third motor 147 receives the operation signal output by the control device 4, the third motor 147 operates to drive the second compression shaft 141 or the third compression shaft 142, the compression shaft drives the conveying belt to rotate, when the sliced ginger garlic enters the second compression assembly 14, the conveying belt jacks up the third transmission shaft 1465, the third transmission shaft 1465 drives the third connecting rod to rotate upwards by taking the connecting point of the third connecting rod and the second connecting rod as the axis, the third connecting rod extrudes the second elastic member 1466, and meanwhile, a relative acting force is generated to fix the ginger garlic well, so that the ginger garlic cannot shift during cutting, and the cutting effect is ensured.

In one embodiment, the housing 11 includes a housing 111, a housing door 112, and a protective cover; an inner cavity is arranged above the shell 111, the side edge of the shell 111 is movably connected with the shell door 112, the opposite positions of the two edges of the upper surface of the shell 111 are respectively provided with a first installation double hole 1111, a first installation single hole 1112, a second installation double hole 1113 and a second installation single hole 1114 which are sequentially arranged, and one side edge of the upper surface of the shell 111 is provided with a first discharge hole 1115 and a second discharge hole 1116 which are sequentially arranged; the casing 11 is close to the terminal surface upper surface of second installation haplopore 1114 and is equipped with the third discharge gate, first discharge gate 1115 is located the position between first installation haplopore 1112 and the second installation diplopore 1113, second discharge gate 1116 is located the position between second installation haplopore 1114 and the third discharge gate, the casing 11 upper surface of the angle department that first installation haplopore 1112 was kept away from to first discharge gate 1115 is equipped with first reposition of redundant personnel mounting hole 11151, the casing 11 upper surface of the angle department that second installation haplopore 1114 was kept away from to second discharge gate 1116 is equipped with second reposition of redundant personnel mounting hole 11161, casing 11 top is equipped with a plurality of safety covers.

In this embodiment, the side of the housing 111 is movably connected to the housing door 112, the housing door 112 is convenient for installation and maintenance of equipment, the opposite positions of two edges of the upper surface of the housing 111 are respectively provided with a first installation double hole 1111, a first installation single hole 1112, a second installation double hole 1113 and a second installation single hole 1114 which are sequentially arranged, the first installation double holes 1111 of the opposite positions of two sides of the upper surface of the housing 111 are hermetically connected with a guide rail frame 1222 of a first pressing member, the first installation single holes 1112 of the opposite positions of two sides of the upper surface of the housing 111 are hermetically and slidably connected with the middle section position of a sliding guide rail 122 of the first cutting assembly 13, the second installation double holes 1113 of the opposite positions of two sides of the upper surface of the housing 111 are respectively movably connected with the lower surfaces of pressing frames 146 of two ends of the second pressing assembly 14, and one side of the upper surface of the housing 111 is provided with a first discharge hole 1115 and a second discharge hole 1116 which are sequentially arranged; the casing 11 is close to the terminal surface upper surface of second installation haplopore 1114 and is equipped with the third discharge gate, first discharge gate 1115 is located the position between first installation haplopore 1112 and the second installation diplopore 1113, the second discharge gate 1116 is located the position between second installation haplopore 1114 and the third discharge gate, the casing 11 upper surface of the angle department that first discharge gate 1115 kept away from first installation haplopore 1112 is equipped with first reposition of redundant personnel mounting hole 11151, the casing 11 upper surface of the angle department that second discharge gate 1116 kept away from second installation haplopore 1114 is equipped with second reposition of redundant personnel mounting hole 11161, casing 11 top is equipped with a plurality of safety covers, the safety cover separates blade 132 and the conveyer belt of first clamp and second clamp, the condition that the cutter will cut together takes place for preventing it, the safety cover plays the effect that prevents that external world from causing injury to equipment and preventing that equipment from causing the injury to the human body, first reposition of redundant personnel mounting hole 11151 and second reposition of redundant personnel mounting hole 11161 all are airtight be connected with a diverging device 2.

In one embodiment, the shunt device 2 comprises a shunt baffle 21, a fourth motor 23 and a shunt shaft 22; one end of the shunt baffle 21 is fixedly connected with one end of the shunt shaft 22, and the other end of the shunt shaft 22 is fixedly connected with the fourth motor 23.

In this embodiment, one end of the shunt baffle 21 is fixedly connected to one end of the shunt shaft 22, the other end of the shunt shaft 22 is fixedly connected to the fourth motor 23, the fourth motor 23 is electrically connected to the control device 4, the length of the shunt baffle 21 is longer than the width of the main body of the conveyor belt, and the fourth motor 23 is a stepper motor.

In a specific implementation, when the ginger and garlic are cut into a required state, the control device 4 controls the fourth motor 23 to operate, the fourth motor 23 rotates to drive the split shaft 22 to rotate, the split shaft 22 drives the split baffle 21 to rotate, the split baffle 21 rotates to the other side of the conveyor belt main body to block the path of the conveyor belt main body, and because the length of the split baffle 21 is longer than the width of the conveyor belt, the split baffle 21 is in an inclined state at this moment, after the ginger and garlic are blocked by the split baffle 21, jiang Suanhui flows out from the first outlet or the second outlet along the split baffle 21, the split baffle 21 can also only rotate to the middle position of the conveyor belt main body to stop, at this moment, a part of the ginger and garlic is discharged from the outlet where the lock is located, and the other part of the ginger and garlic can continue to enter the next procedure, and at this moment, the effect of the ginger and garlic in various states can be obtained simultaneously.

In one embodiment, the stirring device 3 comprises a fifth motor 31, a stirring tank 32, a tank valve 33, a tank cover 34, a feeding member 35, a protective cover and a stirring member 36; the tank cover 34 is provided with a feeding hole and a plurality of feeding holes, the feeding holes are connected with a feeding piece 35, the tank cover 34 is movably connected above the stirring tank 32, the lower end of the stirring tank 32 is provided with a stirring mounting hole, the side edge of the lower end of the stirring tank 32 is fixedly connected with a tank valve 33, one end of a stirring piece 36 penetrates through the stirring mounting hole from the inside of the stirring tank 32 to be connected with a fifth motor 31, and the protective cover is connected to the bottom of the stirring tank 32; the charging element 35 comprises a charging element 352 and an electric control valve 351; one end of the electric control valve 351 is movably connected with a charging port, and the other end of the electric control valve 351 is fixedly connected with a charging piece 352.

In this embodiment, a feeding hole and a plurality of feeding holes are formed in the tank cover 34, a feeding piece 35 is connected to the feeding hole, one end of an electric control valve 351 is movably connected to the feeding hole, the other end of the electric control valve 351 is fixedly connected to a feeding piece 352, the fifth motor 31 and the electric control valve 351 are electrically connected to the control device 4, and the electric control valve 351 can control substances of the feeding piece 352 to enter the stirring tank 32; the tank cover 34 is movably connected above the stirring tank 32, a stirring installation hole is formed at the lower end of the stirring tank 32, a tank valve 33 is fixedly connected to the side edge of the lower end of the stirring tank 32, one end of a stirring piece 36 penetrates through the stirring installation hole from the inside of the stirring tank 32 and is connected with the fifth motor 31, the stirring piece 36 is composed of a stirring blade 361 and a bearing post 362, one side of the stirring blade 361 is in a sharp blade 132 shape, the other side of the stirring blade 361 is in a thick arc shape, and the protective cover is connected to the bottom of the stirring tank 32.

In a specific implementation, when the ginger and garlic falls into the stirring tank 32, the control device 4 controls the fifth motor 31 to operate, the fifth motor 31 drives the stirring piece 36 to rotate, when the fifth motor 31 rotates forward (the stirring piece 36 rotates along the sharp end in the direction), the stirring machine stirs the ginger and garlic into paste, when the fifth motor 31 rotates reversely, the thicker side of the stirring piece 36 stirs the ginger and garlic, only the effect of mixing the ginger and garlic is achieved, when the seasoning is required to be added in the stirring process, the seasoning can be put into the charging piece 352 in advance, the time for adding the seasoning is set by the control device 4, the control device 4 reaches the set time, the electric control valve 351 is controlled to be opened, the seasoning automatically enters the stirring tank 32, when one seasoning is required to be added in batches, the time for adding the seasoning can be further set by setting the time for cutting off the time, the state and the time for adding the seasoning can be solved, the labor is excessively focused, the labor cost is saved, the seasoning can be filled into a required container through the grooving valve 33, and other tools can be filled into the container through opening the grooving cover 34 from the upper end after the stirring of the ginger and garlic.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. Multipurpose ginger garlic cuts intelligent processor, its characterized in that includes: the device comprises a cutting device, a flow dividing device, a stirring device and a control device; the cutting device is fixedly connected with the flow dividing device, the other end of the cutting device is fixedly connected with the stirring device, and the control device is respectively electrically connected with the cutting device, the flow dividing device and the stirring device;

the cutting device comprises a shell, a conveyor body, a first pressing component, a first cutting component, a second pressing component and a second cutting component; the upper end of the shell is fixedly connected with the conveyor main body, and the first compression assembly, the first cutting assembly, the second compression assembly and the second cutting assembly are sequentially and fixedly arranged on the shell;

the first pressing assembly comprises a conveyor belt assembly, a sliding guide rail, a first pressing shaft, a first adjusting shaft, a connecting frame, a first motor and a fixing frame; the two ends of the two main shafts of the conveyor belt assembly are movably connected with sliding guide rails, and the two ends of the fixing frame are respectively and fixedly connected with the two ends of the main shaft of the conveyor belt close to the splitting device; the fixing frame is U-shaped, the first motor is fixedly connected to the fixing frame, and the first motor is movably connected with a main shaft of the conveyor belt assembly through a driving belt; the first pressing shaft presses the conveyor belt assembly towards the conveyor body so that ginger garlic passing through a crack between the conveyor belt assembly and the conveyor body is tightly wrapped, and the ginger garlic is not slipped when being cut by the first cutting assembly;

The first cutting assembly comprises a cutter rest, a blade, a movable guide rail rod, a conversion piece and a second motor; the two ends of the tool rest are provided with mounting holes, the middle of the tool rest is provided with two fixing holes, the tool rest is fixedly connected with a blade through the fixing holes, the mounting holes at the two ends of the tool rest are respectively and fixedly connected with one end of a movable guide rail, the other end of the movable guide rail is movably connected with a conversion piece, the conversion piece is a column body, two sides of the column body are provided with disc-shaped plate pieces, a gear is arranged on the middle column body of the conversion piece, the gear is connected with a second motor transmission shaft, one corner of the surface of the disc-shaped plate piece, which is far away from the column body, is provided with a protruding conversion column, and the conversion column is movably connected with a movable guide rail rod;

the second compaction assembly comprises a first compaction shaft, a second compaction shaft, a third compaction shaft, an annular conveying belt, a conveying frame, a compaction frame and a third motor; the annular conveying belt is internally wrapped with a first compression shaft, a second compression shaft, a third compression shaft, a compression frame and a third motor, the conveying frames are composed of two triangular frames, each opposite corner of the two conveying frames is movably connected with two ends of the first compression shaft, the second compression shaft and the third compression shaft respectively, two ends of the compression frame are fixedly connected with positions, close to the second compression shaft and the third compression shaft, of the conveying frames, the third motor is fixedly connected above two ends of the compression frame, the second compression assembly further comprises a movable guide rail, and the second compression assembly is connected with the casing through a sliding guide rail;

The pressing frame comprises a supporting frame, a second connecting piece, a second connecting rod, a third transmission shaft and a second elastic piece; the support frame is a barrier-shaped square frame, each barrier of the support frame is fixedly connected with one end of a plurality of second connecting pieces, the other end of each second connecting piece is fixedly connected with the position of the second connecting rod, which is close to the end face, of each second connecting piece, one end of each second connecting rod, which is close to the second connecting piece, is movably connected with one end of each third connecting rod, the other end of each third connecting rod is movably connected with a third transmission shaft, and two ends of each second elastic piece are respectively fixedly connected with one end, which is close to the transmission shaft, of each third connecting rod, and one end, which is far away from the second connecting piece, of each second connecting rod.

2. The multipurpose ginger garlic cutting intelligent processor according to claim 1, wherein the first pressing shaft comprises a first connecting piece, a first connecting rod, a second transmission shaft and a first elastic piece; the first connecting piece one end fixed connection support, first connecting piece other one end swing joint head rod one end, first connecting rod other one end swing joint second transmission shaft, the second transmission shaft pastes with the conveyer belt internal surface of conveyer belt subassembly and is connected, first elastic component both ends fixed connection head rod and support respectively.

3. The multipurpose ginger garlic cutting intelligent processor of claim 1, wherein the sliding guide comprises a guide plate, a guide frame and a first spring; the two ends of the guide rail plate are respectively provided with a first vertical guide rail through hole, an axle center installation position is arranged in the middle of the guide rail plate, the first vertical guide rail through holes on two sides of the guide rail plate are respectively connected with two sides of the guide rail frame, the first spring is sleeved on the guide rail frame, and one end of the first spring is fixedly connected with the guide rail plate.

4. The multipurpose ginger garlic cutting intelligent processor according to claim 1, wherein the first adjusting shaft includes an adjusting lever and a second pressure member; the two ends of the adjusting rod are fixedly connected with a second pressure piece, the second pressure piece comprises a second spring and a telescopic rod, the second spring is sleeved on the telescopic rod, and the two ends of the telescopic rod are respectively fixedly connected with the support and the first adjusting shaft.

5. The multipurpose ginger garlic cutting intelligent processor according to claim 1, wherein the housing comprises a shell, a housing door and a protective cover; an inner cavity is formed above the shell, the side edge of the shell is movably connected with the shell door, the opposite positions of the two edges of the upper surface of the shell are respectively provided with a first installation double hole, a first installation single hole, a second installation double hole and a second installation single hole which are sequentially arranged, and one side edge of the upper surface of the shell is provided with a first discharge hole and a second discharge hole which are sequentially arranged; the casing is close to the terminal surface upper surface of second installation haplopore and is equipped with the third discharge gate, first discharge gate is located the position between first installation haplopore and the second installation diplopore, the second discharge gate is located the position between second installation haplopore and the third discharge gate, the casing upper surface that the angle department of first installation haplopore was kept away from to first discharge gate is equipped with first reposition of redundant personnel mounting hole, the casing upper surface that the angle department was kept away from to the second installation haplopore was equipped with the second reposition of redundant personnel mounting hole to the second discharge gate, the casing top is equipped with a plurality of safety covers.

6. The multipurpose ginger garlic cutting intelligent processor according to claim 1, wherein the splitting device comprises a splitting baffle, a fourth motor and a splitting shaft; one end of the flow dividing baffle is fixedly connected with one end of the flow dividing shaft, and the other end of the flow dividing shaft is fixedly connected with a fourth motor.

7. The multipurpose ginger and garlic cutting intelligent processor according to claim 1, wherein the stirring device comprises a fifth motor, a stirring tank, a tank valve, a tank cover, a feeding member, a protective cover and a stirring member; the stirring tank is characterized in that a feeding hole and a plurality of feeding holes are formed in the tank cover, the feeding holes are connected with a feeding piece, the tank cover is movably connected above the stirring tank, a stirring mounting hole is formed in the lower end of the stirring tank, a tank valve is fixedly connected to the side edge of the lower end of the stirring tank, one end of the stirring piece penetrates through the stirring mounting hole from the inside of the stirring tank and is connected with a fifth motor, and the protective cover is connected to the bottom of the stirring tank; the charging piece comprises a charging piece and an electric control valve; one end of the electric control valve is movably connected with the charging port, and the other end of the electric control valve is fixedly connected with the charging piece.