CN112045756B - Intelligence food processing section device - Google Patents

Abstract

The invention relates to a slicing device, in particular to an intelligent food processing and slicing device, which comprises a device bracket, a conveying mechanism, feeding mechanisms, clamping mechanisms, a discharging mechanism, a cutting mechanism, a pushing mechanism I, a pushing mechanism II and driving mechanisms, wherein the two feeding mechanisms are in transmission connection with the conveying mechanism, the two feeding mechanisms are in sliding connection with a plurality of clamping mechanisms, a compression spring is fixedly connected between each clamping mechanism and the corresponding feeding mechanism, the discharging mechanism is fixedly connected with the device bracket, the discharging mechanism penetrates through the two feeding mechanisms, the discharging mechanism is positioned between the two feeding mechanisms, the cutting mechanism is fixedly connected with the discharging mechanism, the pushing mechanism I is fixedly connected with the upper end of the device bracket, the pushing mechanism II is connected with the device bracket, part of the pushing mechanism I is in contact with the pushing mechanism II, and the two driving mechanisms are fixedly connected with the device bracket, can be used for slicing a large batch of food.

Description

Intelligence food processing section device

Technical Field

The invention relates to a slicing device, in particular to an intelligent food processing slicing device.

Background

For example, publication No. CN107263578A discloses a pueraria slicing device, which includes: the slicing device comprises a support and a slicing device body, wherein the slicing device body is arranged on the support, one side of the slicing device body is hinged with a side cover, a feeding hole is formed in the side cover, the feeding hole is matched with a slicing device arranged inside the slicing device body, the slicing device is connected with a driving device, the driving device is arranged on the support, the driving device is connected with a control device, the control device is arranged on the slicing device body, an adjusting device is also arranged on the slicing device, the adjusting device is used for adjusting the thickness of the cutting radix puerariae of the slicing device, a discharging hole is also formed in the lower portion of the slicing device, and the discharging; the disadvantage of this invention is that the cutting cannot be repeated quickly.

Disclosure of Invention

The invention aims to provide an intelligent food processing and slicing device which can be used for slicing large batches of food.

The purpose of the invention is realized by the following technical scheme:

an intelligent food processing and slicing device comprises a device support, a conveying mechanism, two feeding mechanisms, two clamping mechanisms, a blanking mechanism, a cutting mechanism, a pushing mechanism I, a pushing mechanism II and a driving mechanism, wherein the conveying mechanism is connected to the device support, the two feeding mechanisms are rotationally connected to the middle part of the device support, the two feeding mechanisms are in transmission connection with the conveying mechanism, the two feeding mechanisms are in sliding connection with the plurality of clamping mechanisms, a compression spring is fixedly connected between each clamping mechanism and the corresponding feeding mechanism, the blanking mechanism is fixedly connected to the device support and penetrates through the two feeding mechanisms, the blanking mechanism is positioned between the two feeding mechanisms, the cutting mechanism is fixedly connected to the blanking mechanism, the pushing mechanism I is fixedly connected to the upper end of the device support, and the pushing mechanism II is connected to the device support, part pushing mechanism I and pushing mechanism II contact through the clamping machine structure, and two actuating mechanisms are fixedly connected to the device support.

As a further optimization of the technical scheme, the intelligent food processing and slicing device comprises a device support, a feeding support and a top support, wherein the feeding support is fixedly connected to the middle of the feeding support, and the top support is fixedly connected to the feeding support.

As the technical scheme is further optimized, the intelligent food processing and slicing device comprises a conveying motor, a batch wheel I, a conveying wheel I, a batch wheel II, a conveying belt and protrusions, wherein the conveying motor is fixedly connected to a conveying support, the batch wheel I is fixedly connected to an output shaft of the conveying motor, the conveying wheel I is rotatably connected to the conveying support, the batch wheel II is fixedly connected to the conveying wheel I, the batch wheel II and the batch wheel I are in intermittent transmission, the conveying wheel II is rotatably connected to the conveying support, the conveying wheel I and the conveying wheel II are in transmission connection through the conveying belt, and the plurality of protrusions are fixedly connected to the conveying belt.

As the technical scheme is further optimized, the intelligent food processing and slicing device comprises a feeding mechanism, a feeding disc, a plurality of sliding waist holes and spring baffles, wherein the feeding disc is fixedly connected onto the hollow shaft, the plurality of sliding waist holes are formed in the feeding disc, the plurality of spring baffles are fixedly connected onto the feeding disc, the number of the spring baffles is the same as that of the sliding waist holes, the hollow shaft is rotatably connected to the left side and the right side of a feeding support, and the two hollow shafts are in transmission connection with a transport wheel I.

As the technical scheme is further optimized, the intelligent food processing and slicing device comprises a clamping mechanism, a telescopic mechanism I, a conical friction wheel I, a sensor, a sliding column, a clamping bottom plate and a pushing ring, wherein the clamping mechanism I is connected to the clamping slider in a rotating mode, the conical friction wheel I is fixedly connected to the telescopic mechanism I, the sensor and the sliding column are fixedly connected to the clamping slider, the sensor is connected with the telescopic mechanism I, the clamping bottom plate is fixedly connected to the telescopic end of the telescopic mechanism I, the pushing ring is connected to the clamping slider in a rotating mode, the clamping sliders are connected to a plurality of sliding waist holes in a sliding mode, the sliding column is connected to the corresponding spring baffle in a sliding mode, and a compression spring is fixedly connected between the spring baffle and the clamping slider.

As a further optimization of the technical scheme, the intelligent food processing and slicing device comprises a blanking mechanism and connecting columns, wherein the connecting columns are fixedly connected to the left side and the right side of the blanking mechanism, the two connecting columns are fixedly connected to an feeding support, the two connecting columns respectively penetrate through two hollow shafts, and the upper end face of the inner side of the blanking mechanism is obliquely arranged.

As a further optimization of the technical scheme, the intelligent food processing and slicing device comprises a cutting mechanism, two cutting connecting plates, two cutting motors and two cutting tools, wherein the two cutting connecting plates are respectively and fixedly connected to two connecting columns, the cutting motors are fixedly connected to the cutting connecting plate on one side, the cutting tools are detachably and fixedly connected to an output shaft of each cutting motor, and the cutting tools are located on the upper side of a discharging box.

As the technical scheme is further optimized, the intelligent food processing and slicing device comprises a telescopic mechanism I, a pushing bottom plate and arc push plates I, wherein the telescopic mechanism II is fixedly connected to a top support, the telescopic end of the telescopic mechanism II is fixedly connected with the pushing bottom plate, the left side and the right side of the pushing bottom plate are both fixedly connected with the arc push plates I, and the two arc push plates I are respectively positioned on the upper sides of two pushing rings positioned on the upper sides.

As the technical scheme is further optimized, the intelligent food processing and slicing device comprises a pushing mechanism II, a threaded rod and an arc push plate II, the threaded rod is rotatably connected to a transport support, the two ends of the threaded rod are both connected with the arc push plate II through threads, the thread turning directions of the two ends of the threaded rod are opposite, the two arc push plates II are both connected to the transport support in a sliding mode, and part of sensors on the two sides are respectively in contact with the two arc push plates II.

As a further optimization of the technical scheme, the intelligent food processing and slicing device comprises a driving mechanism, wherein the driving mechanism comprises a driving motor and a conical friction wheel II, the conical friction wheel II is fixedly connected to an output shaft of the driving motor, and the driving motor is fixedly connected to the left side and the right side of a feeding support.

The intelligent food processing and slicing device has the beneficial effects that:

the invention relates to an intelligent food processing and slicing device which can move together through a conveying mechanism and a feeding mechanism, wherein the feeding mechanism drives a clamping mechanism to move when moving, the clamping mechanism moving to the side II of a pushing mechanism moves, the clamping mechanisms at two sides move to clamp food on the conveying mechanism, the conveying mechanism and the feeding mechanism move in a matched mode, so that the food sequentially moves to the lower side of a pushing mechanism I, the pushing mechanism I pushes the two corresponding clamping mechanisms to move downwards, the food moves downwards to be in contact with a cutting mechanism and cut, meanwhile, the driving mechanism drives the clamping mechanisms to rotate, the food rotates, the cutting mechanism can completely slice the food, the conveying mechanism and the feeding mechanism do continuous movement, and a large batch of food can be sliced.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic diagram of the overall structure of the intelligent food processing slicing device of the present invention;

FIG. 2 is a schematic view of the device support structure of the present invention;

FIG. 3 is a schematic view of the transport mechanism of the present invention;

FIG. 4 is a schematic view of the feed mechanism of the present invention;

FIG. 5 is a schematic structural view of a clamping mechanism of the present invention;

FIG. 6 is a schematic structural view of a blanking mechanism of the present invention;

FIG. 7 is a schematic view of the cutting mechanism of the present invention;

FIG. 8 is a schematic view of the structure of a pushing mechanism I of the present invention;

FIG. 9 is a schematic structural view of a pushing mechanism II of the present invention;

fig. 10 is a schematic view of the driving mechanism of the present invention.

In the figure: a device holder 1; a transport support 101; a feeding support 102; a top bracket 103; a transport mechanism 2; a transport motor 201; a batch wheel I202; a transport wheel I203; a intermittent wheel II 204; a transport wheel II 205; a conveyor belt 206; a projection 207; a feeding mechanism 3; a hollow shaft 301; a feeding tray 302; a sliding waist hole 303; a spring retainer 304; a clamping mechanism 4; clamping a sliding block 401; a telescoping mechanism I402; a conical friction wheel I403; a sensor 404; a sliding post 405; a clamping base plate 406; a push ring 407; a blanking mechanism 5; a blanking box 501; a connecting column 502; a cutting mechanism 6; cutting the connecting plate 601; a cutting motor 602; a cutting tool 603; a pushing mechanism I7; a telescoping mechanism II 701; pushing the base plate 702; an arc push plate I703; a pushing mechanism II 8; a threaded rod 801; an arc push plate II 802; a drive mechanism 9; a drive motor 901; and a conical friction wheel II 902.

Detailed Description

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

In the description of the present invention, it should be noted that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "top", "bottom", "inner", "outer" and "upright", etc., indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, it should be noted that unless otherwise explicitly stated or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected, directly or indirectly connected through an intermediate medium, and may be a communication between two members. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In addition, in the description of the present invention, the meaning of "a plurality", and "a plurality" is two or more unless otherwise specified.

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1-10, an intelligent food processing and slicing device comprises a device support 1, a conveying mechanism 2, feeding mechanisms 3, two clamping mechanisms 4, a blanking mechanism 5, a cutting mechanism 6, a pushing mechanism i 7, a pushing mechanism ii 8 and a driving mechanism 9, wherein the conveying mechanism 2 is connected to the device support 1, the two feeding mechanisms 3 are arranged on the device support 1, the two feeding mechanisms 3 are rotatably connected to the middle part of the device support 1, the two feeding mechanisms 3 are in transmission connection with the conveying mechanism 2, the two feeding mechanisms 3 are in sliding connection with a plurality of clamping mechanisms 4, a compression spring is fixedly connected between each clamping mechanism 4 and the corresponding feeding mechanism 3, the blanking mechanism 5 is fixedly connected to the device support 1, the blanking mechanism 5 passes through the two feeding mechanisms 3, and the blanking mechanism 5 is positioned between the two feeding mechanisms 3, the blanking mechanism 5 is fixedly connected with a cutting mechanism 6, the upper end of the device support 1 is fixedly connected with a pushing mechanism I7, the device support 1 is connected with a pushing mechanism II 8, part of the pushing mechanism I7 is contacted with the pushing mechanism II 8 through the clamping mechanism 4, and the device support 1 is fixedly connected with two driving mechanisms 9; can move jointly between transport mechanism 2 and feed mechanism 3, feed mechanism 3 will drive clamping mechanism 4 during the motion and move, move the clamping mechanism 4 of pushing mechanism II 8 side and move, the clamping mechanism 4 of both sides moves the food on transport mechanism 2 and carries out the clamping, transport mechanism 2 and feed mechanism 3 motion of mutually supporting, make food move the downside of pushing mechanism I7 in proper order, pushing mechanism I7 promotes two clamping mechanism 4 that correspond and moves downwards, make food downstream and the contact of cutting mechanism 6 and cutting, actuating mechanism 9 drives clamping mechanism 4 simultaneously and rotates, food rotates, make cutting mechanism 6 can be complete to carry out the section to food, transport mechanism 2 and feed mechanism 3 do not stop the motion, can carry out section processing to large batch food.

The second embodiment is as follows:

the present embodiment is described below with reference to fig. 1 to 10, and the present embodiment further describes the first embodiment, where the apparatus frame 1 includes a transportation frame 101, a feeding frame 102 and a top frame 103, the feeding frame 102 is fixedly connected to the middle of the transportation frame 101, and the top frame 103 is fixedly connected to the upper of the transportation frame 101.

The third concrete implementation mode:

the second embodiment is further described with reference to fig. 1 to 10, where the transportation mechanism 2 includes a transportation motor 201, a pause wheel i 202, a transportation wheel i 203, a pause wheel ii 204, a transportation wheel ii 205, a transportation belt 206 and a protrusion 207, the transportation motor 201 is fixedly connected to the transportation bracket 101, the pause wheel i 202 is fixedly connected to an output shaft of the transportation motor 201, the transportation wheel i 203 is rotatably connected to the transportation bracket 101, the pause wheel ii 204 is fixedly connected to the transportation wheel i 203, the pause wheel ii 204 and the pause wheel i 202 perform intermittent transmission, the transportation wheel ii 205 is rotatably connected to the transportation bracket 101, the transportation wheel i 203 and the transportation wheel ii 205 are in transmission connection through the transportation belt 206, and the transportation belt 206 is fixedly connected with a plurality of protrusions 207.

The fourth concrete implementation mode:

the third embodiment is further described with reference to fig. 1 to 10, the feeding mechanism 3 includes a hollow shaft 301, a feeding tray 302, a sliding waist hole 303 and spring baffles 304, the feeding tray 302 is fixedly connected to the hollow shaft 301, the feeding tray 302 is provided with a plurality of sliding waist holes 303, the feeding tray 302 is fixedly connected to the spring baffles 304, the number of the spring baffles 304 is the same as that of the sliding waist holes 303, the hollow shaft 301 is rotatably connected to both left and right sides of the feeding support 102, and the two hollow shafts 301 are in transmission connection with the transport wheel i 203.

The fifth concrete implementation mode:

this embodiment will be described with reference to fig. 1 to 10, and this embodiment will further describe embodiment four, clamping machine constructs 4 including clamping slider 401, I402 of telescopic machanism, toper friction pulley I403, sensor 404, slip post 405, clamping bottom plate 406 and promotion ring 407, it is connected with I402 of telescopic machanism to rotate on the clamping slider 401, I403 of fixedly connected with toper friction pulley on I402 of telescopic machanism, fixedly connected with sensor 404 and slip post 405 on the clamping slider 401, sensor 404 and I402 of telescopic machanism are connected, the flexible fixedly connected with clamping bottom plate 406 of I402 of telescopic machanism, it is connected with the promotion ring 407 to rotate on the clamping slider 401, equal sliding connection has clamping slider 401 in a plurality of slip waist holes 303, slip post 405 sliding connection is on the spring retainer 304 that corresponds, fixedly connected with compression spring between spring retainer 304 and the clamping slider 401.

The sixth specific implementation mode:

the present embodiment is described below with reference to fig. 1 to 10, and the fifth embodiment is further described in the present embodiment, the blanking mechanism 5 includes a blanking box 501 and a connecting column 502, the connecting column 502 is fixedly connected to both the left and right sides of the blanking box 501, both the connecting columns 502 are fixedly connected to the feeding bracket 102, both the connecting columns 502 pass through the two hollow shafts 301, and the upper end surface of the inner side of the blanking box 501 is disposed in an inclined manner.

The seventh embodiment:

the following describes the present embodiment with reference to fig. 1 to 10, and the sixth embodiment is further described in the present embodiment, the cutting mechanism 6 includes two cutting connecting plates 601, two cutting motors 602 and two cutting tools 603, the two cutting connecting plates 601 are respectively and fixedly connected to the two connecting columns 502, the cutting motor 602 is fixedly connected to the cutting connecting plate 601 on one side, the cutting tool 603 is detachably and fixedly connected to the output shaft of the cutting motor 602, and the cutting tool 603 is located on the upper side of the blanking box 501.

The specific implementation mode is eight:

the following describes the present embodiment with reference to fig. 1 to 10, and the seventh embodiment is further described in the present embodiment, where the pushing mechanism i 7 includes a telescoping mechanism ii 701, a pushing base plate 702, and an arc push plate i 703, the telescoping mechanism ii 701 is fixedly connected to the top bracket 103, the telescoping end of the telescoping mechanism ii 701 is fixedly connected to the pushing base plate 702, the left and right sides of the pushing base plate 702 are both fixedly connected to the arc push plate i 703, and the two arc push plates i 703 are respectively located on the upper sides of the two pushing rings 407 located on the upper side.

The specific implementation method nine:

the embodiment is described below with reference to fig. 1 to 10, and the embodiment further describes an eighth embodiment, where the pushing mechanism ii 8 includes a threaded rod 801 and an arc push plate ii 802, the transport support 101 is rotatably connected with the threaded rod 801, both ends of the threaded rod 801 are connected with the arc push plate ii 802 through threads, the thread directions of both ends of the threaded rod 801 are opposite, the two arc push plates ii 802 are slidably connected to the transport support 101, and the sensors 404 on both sides are respectively in contact with the two arc push plates ii 802.

The detailed implementation mode is ten:

the present embodiment is described below with reference to fig. 1 to 10, and the ninth embodiment is further described in the present embodiment, where the driving mechanism 9 includes a driving motor 901 and a tapered friction wheel ii 902, the tapered friction wheel ii 902 is fixedly connected to an output shaft of the driving motor 901, and the driving motors 901 are fixedly connected to both left and right sides of the feeding support 102.

The invention relates to an intelligent food processing and slicing device, which has the working principle that:

when in use, the food to be processed is placed on the conveyer belt 206 in sequence, the food to be processed is placed on the front side of the protrusions 207, only one food is placed on the front side of each protrusion 207, and it should be noted that, the distance between two adjacent protrusions 207 needs to be reasonably set, as shown in fig. 3, when the intermittent wheel I202 rotates, the intermittent wheel II 204 is driven to rotate for a quarter of a circle, the intermittent wheel II 204 drives the conveyer belt 206 to move, the conveyer belt 206 drives the positions of the plurality of protrusions 207 to be changed, when the positions of the plurality of protrusions 207 are changed, food is ensured to move between two clamping mechanisms 4 positioned at the lower side in sequence, as shown in fig. 4, the transmission ratio between the conveying mechanism 2 and the feeding mechanism 3 is reasonably set according to the number of the sliding waist holes 303, and when each food moves to a clamping position, two corresponding clamping mechanisms 4 clamp the food; the conveying motor 201, the cutting motor 602 and the driving motor 901 are started simultaneously, the output shafts of the conveying motor 201, the cutting motor 602 and the driving motor 901 rotate together, when the output shaft of the conveying motor 201 rotates, the intermittent wheel I202 is driven to rotate, the intermittent wheel I202 drives the intermittent wheel II 204 to rotate intermittently, the intermittent wheel II 204 drives the conveying belt 206 to move, the conveying belt 206 drives food on the conveying belt to move, and the food sequentially moves to a clamping position; the transportation wheel I203 is rotationally connected with the two hollow shafts 301, the transportation wheel I203 drives the two hollow shafts 301 to rotate, as shown in figure 4, six sliding waist holes 303 are arranged, the transportation wheel I203 drives the two hollow shafts 301 to intermittently rotate, the two hollow shafts 301 rotate one sixth of a circle each time, as shown in figure 1, partial sensors 404 on two sides are respectively contacted with two arc push plates II 802, sensors 404 on the lower side, the rear side and the upper side are contacted with the arc push plates II 802, the sensors 404 can be extrusion sensors or contact sensors, when the sensors 404 are subjected to the pressure of the arc push plates II 802, the sensors 404 control the telescopic ends corresponding to the telescopic mechanisms I402 to extend out, the telescopic mechanisms I402 can be electric push rods or hydraulic cylinders, as shown in figure 1, when the transportation belt 206 drives food to move forwards, the upper tray 302 rotates clockwise, and when the two sensors 404 moving to the lower side are contacted with the arc push plates II 802, the corresponding telescopic mechanism I402 moves, in the time that the intermittent wheel I202 does not drive the intermittent wheel II 204 to rotate, the two telescopic mechanisms I402 on the lower side clamp food, under the extrusion of the arc push plate II 802, the two telescopic mechanisms I402 are always in the clamping state of the food in the process of moving to the upper side, when the two telescopic mechanisms I402 clamp the food to move to the upper side, as shown in figure 8, the arc push plates I703 are fixedly connected to the left side and the right side of the push base plate 702, the two arc push plates I703 are respectively positioned on the upper sides of the two push rings 407 on the upper side, the telescopic mechanism II 701 is started in advance, the telescopic mechanism II 701 can be an electric push rod or a hydraulic cylinder, when the telescopic end of the telescopic mechanism II 701 is started, the horizontal height of the two arc push plates I703 is adjusted, so that the two push rings 407 can be in contact with the two arc push plates I703 in the process of moving to the upper side of the, the two circular arc push plates I703 push the two push rings 407 to move downwards, the two push rings 407 drive the clamping mechanism 4 to move downwards, the width of the circular arc push plate II 802 is greater than that of the sensor 404, so that in the downward movement process of the sensor 404, the circular arc push plate II 802 still extrudes the sensor 404, the two clamping mechanisms 4 are still in a clamping state, a cutting tool 603 is detachably and fixedly connected to an output shaft of the cutting motor 602, the cutting tool 603 is positioned on the upper side of the blanking box 501, the output shaft of the cutting motor 602 drives the cutting tool 603 to rotate, the cutting tool 603 slices food, and meanwhile, when the position where the two circular arc push plates I703 push the two push rings 407 to move downwards is just right when the clamping mechanism 4 moves to the upper side, a certain pause exists in gap transmission between the intermittent wheel I202 and the intermittent wheel II 204 at this time, the conical friction wheel I403 and the conical friction wheel II 902 enter friction transmission, an output shaft of a driving motor 901 drives a conical friction wheel II 902 to rotate, the conical friction wheel II 902 drives a conical friction wheel I403 to rotate, the conical friction wheel I403 drives a telescopic mechanism I402 to rotate, the telescopic mechanism I402 drives food to rotate, so that a cutting mechanism 6 can completely slice the food, the upper end surface of the inner side of a blanking box 501 is obliquely arranged, the sliced food drops on the blanking box 501, a feeding mechanism 3 continuously rotates intermittently, a pushing mechanism I7 and a pushing mechanism II 8 are not contacted with a clamping mechanism 4 any more, a sensor 404 is not extruded by an arc push plate II 802 any more, the telescopic end of the telescopic mechanism I402 is withdrawn, a threaded rod 801 is rotatably connected on a transport support 101, two ends of the threaded rod 801 are respectively connected with an arc push plate II 802 through threads, the thread turning directions of the two ends of the threaded rod 801 are opposite, the two arc push plates II 802 are both slidably connected on the transport support 101, the partial sensors 404 on two sides are respectively in contact with the two arc push plates II 802, the threaded rod 801 is rotated, the threaded rod 801 adjusts the positions of the two arc push plates II 802 through threads, the conveying mechanism 2 and the feeding mechanism 3 do not stop moving, and large batches of food can be sliced.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (10)

1. The utility model provides an intelligence food processing section device, includes device support (1), transport mechanism (2), feed mechanism (3), clamping machine structure (4), unloading mechanism (5), cutting mechanism (6), pushing mechanism I (7), pushing mechanism II (8) and actuating mechanism (9), its characterized in that: the device is characterized in that a conveying mechanism (2) is connected to a device support (1), two feeding mechanisms (3) are arranged, the two feeding mechanisms (3) are rotatably connected to the middle of the device support (1), the two feeding mechanisms (3) are in transmission connection with the conveying mechanism (2), the two feeding mechanisms (3) are in sliding connection with a plurality of clamping mechanisms (4), a compression spring is fixedly connected between each clamping mechanism (4) and the corresponding feeding mechanism (3), a blanking mechanism (5) is fixedly connected to the device support (1), the blanking mechanism (5) penetrates through the two feeding mechanisms (3), the blanking mechanism (5) is located between the two feeding mechanisms (3), a cutting mechanism (6) is fixedly connected to the blanking mechanism (5), a pushing mechanism I (7) is fixedly connected to the upper end of the device support (1), and a pushing mechanism II (8) is connected to the device support (1), the pushing mechanism I (7) comprises an arc pushing plate I (703), the arc pushing plate I (703) is in contact with the pushing mechanism II (8) through the clamping mechanism (4), and the device support (1) is fixedly connected with two driving mechanisms (9).

2. The intelligent food processing slicing apparatus of claim 1, wherein: the device support (1) comprises a conveying support (101), a feeding support (102) and a top support (103), the middle of the conveying support (101) is fixedly connected with the feeding support (102), and the upper of the conveying support (101) is fixedly connected with the top support (103).

3. The intelligent food processing and slicing device of claim 2, wherein: transport mechanism (2) are including transport motor (201), intermittent type wheel I (202), transport wheel I (203), intermittent type wheel II (204), transport wheel II (205), transport area (206) and arch (207), transport motor (201) fixed connection is on transport support (101), fixedly connected with intermittent type wheel I (202) on the output shaft of transport motor (201), transport wheel I (203) rotates to be connected on transport support (101), fixedly connected with intermittent type wheel II (204) on transport wheel I (203), intermittent type wheel II (204) and intermittent type wheel I (202) intermittent type transmission, transport wheel II (205) rotate to be connected on transport support (101), connect through transport area (206) transmission between transport wheel I (203) and the transport wheel II (205), a plurality of archs (207) of fixedly connected with on transport area (206).

4. The intelligent food processing and slicing device of claim 3, wherein: feeding mechanism (3) are including hollow shaft (301), go up charging tray (302), slip waist hole (303) and spring retainer (304), fixedly connected with goes up charging tray (302) on hollow shaft (301), it is provided with a plurality of slip waist holes (303) on charging tray (302), go up a plurality of spring retainer (304) of fixedly connected with on charging tray (302), spring retainer (304) are the same with the quantity of slip waist hole (303), the left and right sides of material loading support (102) all rotates and is connected with hollow shaft (301), two hollow shafts (301) all are connected with I (203) transmission of haulage wheel.

5. The intelligent food processing and slicing device of claim 4, wherein: the clamping mechanism (4) comprises a clamping slide block (401), a telescopic mechanism I (402), a conical friction wheel I (403), a sensor (404), a sliding column (405), a clamping bottom plate (406) and a pushing ring (407), rotate on clamping slider (401) and be connected with telescopic machanism I (402), fixedly connected with toper friction pulley I (403) on telescopic machanism I (402), fixedly connected with sensor (404) and slip post (405) on clamping slider (401), sensor (404) and telescopic machanism I (402) are connected, the flexible end fixedly connected with clamping bottom plate (406) of telescopic machanism I (402), it is connected with propelling ring (407) to rotate on clamping slider (401), equal sliding connection has clamping slider (401) in a plurality of slip waist holes (303), slip post (405) sliding connection is on the spring baffle (304) that corresponds, fixedly connected with compression spring between spring baffle (304) and clamping slider (401).

6. The intelligent food processing and slicing device of claim 5, wherein: unloading mechanism (5) are including unloading case (501) and spliced pole (502), the equal fixedly connected with spliced pole (502) of the left and right sides of unloading case (501), and two equal fixed connection of spliced pole (502) are on material loading support (102), and two hollow shafts (301) are passed respectively in two spliced poles (502), and the inboard up end slope of unloading case (501) sets up.

7. The intelligent food processing and slicing device of claim 6, wherein: cutting mechanism (6) is including cutting even board (601), cutting motor (602) and cutting tool (603), and the cutting is provided with two even board (601), and two cutting are even board (601) fixed connection respectively on two spliced poles (502), and cutting motor (602) fixed connection is on the cutting even board (601) of one side, can dismantle fixedly connected with cutting tool (603) on the output shaft of cutting motor (602), and cutting tool (603) are located the upside of workbin (501) down.

8. The intelligent food processing and slicing device of claim 7, wherein: push mechanism I (7) still include telescopic machanism II (701) and promote bottom plate (702), and telescopic machanism II (701) fixed connection is on top support (103), and the flexible fixedly connected with of telescopic machanism II (701) promotes bottom plate (702), promotes equal fixedly connected with circular arc push pedal I (703) in the left and right sides of bottom plate (702), and two circular arc push pedals I (703) are located the upside that is located two promotion rings (407) of upside respectively.

9. The intelligent food processing and slicing apparatus of claim 8, wherein: pushing mechanism II (8) are including threaded rod (801) and circular arc push pedal II (802), rotate on transport support (101) and be connected with threaded rod (801), and there are circular arc push pedal II (802) at the both ends of threaded rod (801) all through threaded connection, and the screw thread at threaded rod (801) both ends is turned around to opposite, and two equal sliding connection in circular arc push pedal II (802) are on transport support (101), and the partial sensor (404) that are located both sides contact with two circular arc push pedal II (802) respectively.

10. The intelligent food processing and slicing apparatus of claim 9, wherein: the driving mechanism (9) comprises a driving motor (901) and a conical friction wheel II (902), the conical friction wheel II (902) is fixedly connected to an output shaft of the driving motor (901), and the driving motor (901) is fixedly connected to the left side and the right side of the feeding support (102).

Images