CN213616956U - Fruit and vegetable cutting machine using clamp - Google Patents

Abstract

The utility model discloses a fruit and vegetable cutting machine using a clamp, which comprises a shell component, a cutting mechanism and a driving mechanism which are positioned in the shell component, and a feeding mechanism, a small material cutting mechanism and a sensing device which are positioned outside the shell component, wherein the driving mechanism controls the cutting motion of the cutting mechanism, the sensing device is started by controlling the intermittence of the driving mechanism, the feeding mechanism comprises a rotating plate, a driving rod, a pressure plate which is connected with the driving rod, and a fixing device which is connected with the driving rod and the rotating plate, the fixing device controls the hovering of the pressure plate, the small material cutting mechanism comprises a clamp and a clamp piece, and the clamp piece is used as a clamp support and a fixing part, and adopt the fixed mode of magnetism to inhale, realize the pressure disk function of hovering, through induction system, realized the incessant reciprocal work of circulation of equipment.

Description

Fruit and vegetable cutting machine using clamp

Technical Field

The utility model belongs to the miller field relates to an utilize fruit vegetables miller of anchor clamps.

Background

At present, the existing fruit cutting device is only suitable for fruits with regular shapes, otherwise a large amount of pulp is wasted, the peeling mode of the vegetable cutting device for irregular vegetables such as potatoes is original, the efficiency is low, in addition, the fruit cutting device and the vegetable cutting device are separated from each other, the functions are single, and great inconvenience is brought to daily life; meanwhile, the existing fruit and vegetable cutting machine generally directly puts materials in the fruit and vegetable cutting machine, then covers a cover plate to directly cut the machine, so that the materials are easy to be incompletely cut, a certain amount of large residues are left, and the next time of cutting the materials can be carried out only by manually pressing a switch each time, so that the operation is complicated, and the service life of the product is shortened; in addition, the general fruit and vegetable cutting machine is suitable for larger cutting materials, when fruits or vegetables like hot peppers and similar sizes need to be cut, extra machines are needed for processing, the cost is high, the use is inconvenient, and the device effectively solves the problem.

Disclosure of Invention

The utility model provides an overcome the not enough of prior art, provide an utilize fruit vegetables miller of anchor clamps.

In order to achieve the above purpose, the utility model adopts the following technical scheme: the utility model provides an utilize fruit vegetables miller of anchor clamps which characterized in that: including casing subassembly, the cutting mechanism and the actuating mechanism that are located casing subassembly and the feeding mechanism, small powder cutting mechanism and the induction system that are located the casing subassembly outside, actuating mechanism control cutting mechanism's cutting motion, induction system control actuating mechanism's intermittent type starts, feeding mechanism includes rotor plate, actuating lever, is connected the pressure disk that sets up and is connected the fixing device of actuating lever and rotor plate with the actuating lever, and hovering of fixing device control pressure disk, small powder cutting mechanism includes anchor clamps and fastener, the fastener supports and fixed part as anchor clamps.

Further, the method comprises the following steps of; the casing subassembly is including cutting upper box, cutting lower box and cutting upper cover, the cutting upper box is located the upside of cutting lower box, the cutting upper cover is located cutting upper box upside, the cutting upper cover rotates and is connected with the hasp, the cutting upper cover with the cutting upper box rotates and connects and install through the hasp, the cutting upper box has set firmly the cutting chamber, cutting mechanism is located the cutting intracavity, the cutting lower box has set firmly the drive chamber, drive mechanism is located the drive intracavity, the cutting upper box sets firmly the connection with the cutting lower box, the cutting upper box side has set firmly and has drawed the board, it is convenient for to draw the board to cut the separation of upper box and cutting lower box.

Further, the method comprises the following steps of; feeding mechanism still including setting firmly in the feeding piece of cutting upper cover upside, feeding piece sets up to heart type structure, the feeding piece has set firmly the feed inlet in, feed inlet and cutting chamber intercommunication, the rotor plate set up in feeding piece top and one end with feeding piece rotates to be connected, and the other end sets up sliding connection and has the actuating lever, the actuating lever upper end has set firmly the handle, the actuating lever lower extreme with the pressure disk sets firmly to be connected, the pressure disk follows reciprocating of actuating lever is in remove in the feed inlet, the structure of pressure disk with feeding piece structure is the same, sets up to heart type structure, and this heart type structure includes indent and evagination structure, feeding piece's indent and evagination structure with the indent and the evagination structure of pressure disk match, and the restriction pressure disk is in the moving direction of feed inlet.

Further, the method comprises the following steps of; the fixing device comprises an attraction component positioned on the rotating plate and an induction magnet positioned on the driving rod, the attraction component comprises induction holes which are formed by a fixed magnet and an annular array and are arranged in even numbers, the fixed magnet is fixedly arranged in any two groups of induction holes which are opposite, the action surfaces of the fixed magnet are opposite, the action forces of the two groups of fixed magnets are equal to the action force of the induction magnet, the induction magnet penetrates through the driving rod, the side surface of the induction magnet is flush with the outer surface of the driving rod, the action surface of one side of the induction magnet is parallel to the action surface of one group of the fixed magnet, the action surface of the other side of the induction magnet is parallel to the action surface of the other group of the fixed magnet, the action forces between the fixed magnet and the induction magnet are parallel to each other, and the position of the induction magnet limits the distance between the hovering position of, the position of the induction magnet is satisfied when the pressure plate needs to be lifted, the hovering position of the pressure plate is higher than the material inlet block, and when the pressure plate is at the hovering position, the pressure plate is separated from the material inlet block.

Further, the method comprises the following steps of; the fixing device further comprises an anti-rotation block fixedly arranged on the side face of the perforation, the anti-rotation block is arranged into six groups of structures in an annular array, the driving rod is arranged into a hexagonal prism structure, six faces of the outer surface of the driving rod are respectively abutted against the anti-rotation block to limit the driving rod and the rotating plate to rotate, and the fixed magnet and the action face between the induction magnets are controlled to be in a parallel state.

Further, the method comprises the following steps of; still include controlling means, controlling means is including setting firmly control panel and the button in cutting upper box side, opening and closing of button control fruit vegetables miller, induction system includes response portion and sets firmly the induction zone in feed block side, the induction zone is in under the response portion, the rotor plate rotates, response portion and induction zone disconnection, actuating mechanism stop work, the rotor plate resets, response portion and induction zone reconnection, actuating mechanism restarts work.

Further, the method comprises the following steps of; the clamp comprises a pressing component and a supporting component arranged on the upper side of the pressing component, wherein a clamping component is arranged on the pressing component and used for pressing materials, a feeding hole used for material to enter and exit is fixedly formed in the pressing component, the diameter of the feeding hole is set to be 18-50cm, a clamping piece is fixedly arranged on a cutting upper cover and is of a cylindrical structure, an observation cavity is fixedly formed in the clamping piece and communicated with a cutting cavity, the observation cavity serves as an observation port and is used for observing whether fruit and vegetable materials are completely cut or not, symmetrical clamping blocks are fixedly arranged on the side face of the observation cavity, the clamping component is clamped with the clamping blocks, a pressing rod is arranged in a matched mode with the diameter of the feeding hole, and the pressing rod presses the cutting materials placed in the feeding hole. Further, the method comprises the following steps of; the cutting mechanism comprises a cutting plate and a cutting blade, a cutting cavity is fixedly arranged in the cutting plate, one end of the cutting blade is fixedly arranged at the center of the cutting cavity, the other end of the cutting blade is fixedly arranged on the upper side surface of the cutting plate, a material falling cavity is arranged on the lower side surface of the cutting cavity in a penetrating way, the cutting blade cuts materials, the cut materials are discharged into the material falling cavity and then fall into the cutting upper box below the cutting upper box, a connecting rod is fixedly arranged at the central position of the lower side of the cutting plate, the cutting mechanism is fixedly connected with a discharging device through the connecting rod, the discharging device comprises a material pushing disc, a material discharging cover plate and a material discharging block, the material pushing disc is positioned in the cutting cavity, two groups of arc-shaped structures are fixedly arranged on the upper side surface of the material pushing disc, a pushing block with a triangular cross section is fixedly arranged on, the discharging block and the discharging cover plate form a discharging channel, and the arc block and the pushing block throw out materials under the action of centrifugal force and then discharge the materials to an external space through the discharging hole.

Further, the method comprises the following steps of; the actuating mechanism includes motor, drive mechanism and is used for installing drive mechanism's installation fixed plate, drive mechanism include with the action wheel, from the driving wheel and connect the action wheel and follow the hold-in range of driving wheel, the action wheel with the output shaft of motor sets firmly and connects, the action wheel transmits power to the action wheel, action wheel center pivot is connected with cutting mechanism and discharging device power.

Further, the method comprises the following steps of; the clamping part comprises an upper part and a lower part, the upper part is positioned on the upper side, the lower part is positioned on the lower side, an angle formed by the lower part and the upper part is larger than 90 degrees, an angle formed by the lower part and the outer surface of the material pressing part is smaller than 90 degrees, the inclined surface is used for guiding, the clamping block comprises an upper clamping block and a lower clamping block, the lower clamping block is arranged on the lower side of the upper clamping block, the length of the lower clamping block is smaller than that of the upper clamping block, two groups of clamping grooves are formed between the side surface of the lower clamping block and the side surface of the upper clamping block, when the clamp is installed, clamping is carried out through bidirectional rotation, the distance between the two groups of upper parts in the clamping part is matched with the diameter of the observation cavity, the distance between the upper part and the upper side surface of the material pressing part is consistent with the height of the upper clamping block, the side, limiting the movement of the clamp in the left and right directions; the diameter of the supporting part is larger than that of the clamping part, the upper side face of the upper part is connected with the upper side face of the clamping groove, and the upper side face of the clamping part is abutted to the lower side face of the supporting part to limit the vertical movement of the clamp.

Compared with the prior art, the utility model discloses following beneficial effect has:

(1) the utility model discloses an anchor clamps cut fruit vegetables material, avoid the material to take place to skid, improved the roughness of tangent plane and sliced pleasing to the eye degree, increased the application range of equipment simultaneously.

(2) The utility model discloses a drive mechanism drives cutting mechanism and discharging device simultaneously through the mode with power transmission to even axle, has realized the simultaneous movement of equipment cutting and the ejection of compact.

(3) The utility model discloses a fixed mode that magnetism was inhaled makes the pressure disk realize the function of hovering, avoids need manual the drawing when the feeding, has improved work efficiency.

(4) The utility model discloses be provided with induction system, when the material is laid to needs, the rotor plate rotates, and induction system breaks off, then the motor stop work, and when the rotor plate resets, the motor normally works, prevents that operating personnel from leading to the emergence of the situation of the damage of product because of frequent button on the control panel, has improved the life of equipment, has realized the incessant reciprocal work of circulation of equipment simultaneously, has improved the security and the reliability of equipment.

Drawings

FIG. 1 is a first schematic structural view of the fruit and vegetable cutting machine of the present invention;

FIG. 2 is a schematic structural view of a fruit and vegetable cutting machine according to the present invention;

FIG. 3 is a schematic view of the structure of the middle cutting upper cover of the present invention;

FIG. 4 is a schematic view of a middle-cut upper box structure of the present invention;

FIG. 5 is a schematic diagram of a middle-cut upper box structure of the present invention;

FIG. 6 is a schematic view of a middle-cutting lower box according to the present invention;

FIG. 7 is a second schematic structural view of a middle cutting lower box of the present invention;

FIG. 8 is a schematic view of the internal structure of the fruit and vegetable cutting machine of the present invention;

fig. 9 is a schematic structural view of the middle fixing device of the present invention;

fig. 10 is a schematic view of the structure of the rotating plate according to the present invention;

fig. 11 is a first schematic structural view of the clamp of the present invention;

fig. 12 is a front view of the clamp of the present invention;

fig. 13 is a top view of the clamp of the present invention;

fig. 14 is a schematic structural view of the middle clip member of the present invention;

FIG. 15 is a schematic view of the cutting mechanism of the present invention;

FIG. 16 is a first schematic structural view of a middle pushing tray and an arc block of the present invention;

fig. 17 is a schematic structural view of a middle pushing tray and a pushing block of the present invention;

fig. 18 is a schematic view of a first clamp structure according to a second embodiment of the present invention;

fig. 19 is a second schematic view of a second clamp structure according to a second embodiment of the present invention.

Reference numerals: cutting cavity 100, cutting plate 101, cutting blade 102, blanking cavity 103, connecting shaft 106, connecting rod 107, cutting upper box 110, cutting lower box 111, cutting upper cover 112, inner cavity 113, connecting cavity 114, shielding plate 115, transfer cavity 116, upper transfer hole 117, upper transfer block 118, connecting hole 119, push plate 124, clasp 125, fastener 126, clasp cavity 127, rotating rod 128, wire assembly 129, clasp hole 130, slot 131, lower transfer hole 132, lower transfer block 133, upper hole 135, cover block 137, cutting cavity 138, starting cavity 140, butt hole 141, mounting hole 142, extracting plate 143, connecting block 144, butt block 145, mounting cavity 146, butt plate 150, support block 151, fixing block 152, heat dissipation hole 153, inner counter bore 155, heat dissipation cavity 156, positioning cavity 157, support foot 158, driving cavity 160, rib plate 161, strength plate 162, support cavity 163, partition plate 164, connecting hole 165, mounting column 166, mounting bottom block 167, outer mounting block 170, mounting rod 171, The device comprises a motor 200, a mounting fixing plate 201, a driving wheel 202, a mounting connecting block 203, a mounting butt-joint block 204, a driven wheel 205, a synchronous belt 206, a feeding block 301, a handle 302, a rotating plate 303, a sensing part 304, a sensing area 305, a butt-joint plate 307, a driving rod 308, a sensing magnet 309, a pressure plate 310, a feeding hole 312, an attraction component 315, a sensing hole 316, a fixing magnet 317, a through hole 318, an anti-rotation block 319, an arc block 400, a pushing plate 401, a rotating shaft 402, a pushing block 403, a discharging cover plate 404, a discharging hole 405, a discharging block 406, a clamping piece 501, a connecting and fixing block 504, a pressing component 505, a supporting component 506, a thickened component 507, a feeding hole 509, an upper block 510, an upper component 511, a lower component 512, a clamping component 513, a clamping block 520, an observation cavity 521, a lower clamping block 522, an upper clamping block

Detailed Description

The following description of the embodiments of the present invention is provided for illustrative purposes, and other advantages and effects of the present invention will be readily apparent to those skilled in the art from the disclosure herein. The present invention can also be implemented or applied through other different specific embodiments, and various details in the present specification can be modified or changed based on different viewpoints and applications without departing from the spirit of the present invention. It is to be noted that the features in the following embodiments and examples may be combined with each other without conflict.

It should be noted that the drawings provided in the following embodiments are only for illustrating the basic concept of the present invention, and the components related to the present invention are only shown in the drawings rather than drawn according to the number, shape and size of the components in actual implementation, and the form, amount and ratio of the components in actual implementation may be changed at will, and the layout of the components may be more complicated.

All directional indicators (such as upper, lower, left, right, front, rear, horizontal, vertical … …) in the embodiments of the present invention are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture, if the specific posture changes, the directional indicator changes accordingly.

The first embodiment is as follows:

as shown in fig. 1-17, a fruit and vegetable cutting machine using a clamp comprises a housing assembly, a cutting mechanism and a driving mechanism located in the housing assembly, and a feeding mechanism, a small material cutting mechanism and a sensing device located outside the housing assembly, wherein the driving mechanism controls the cutting motion of the cutting mechanism, the sensing device controls the intermittent start of the driving mechanism, the feeding mechanism comprises a rotating plate 303, a driving rod 308, a pressing plate 310 connected with the driving rod 308, and a fixing device connected with the driving rod 308 and the rotating plate 303, the fixing device controls the hovering of the pressing plate 310, the small material cutting mechanism comprises a clamp and a clamping piece 501, and the clamping piece 501 serves as a clamp supporting and fixing part.

As shown in fig. 1 to 7, the housing assembly includes a cutting upper box 110, a cutting lower box 111 and a cutting upper cover 112, the cutting upper box 110 is located on the upper side of the cutting lower box 111, the cutting upper cover 112 is located on the upper side of the cutting upper box 110, according to the visual angle of fig. 3, in this embodiment, an inner cavity 113, a turn-through cavity 116 located on the right side of the inner cavity 113 and a communicating cavity 114 symmetrically arranged to pass through the front and rear sides of the turn-through cavity 116 are fixedly provided on the cutting upper cover 112, a through connecting hole 119 is fixedly provided on the rear wall of the inner cavity 113, a fastening rod is fixedly secured to the connecting hole 119, a shielding plate 115 for shielding is fixedly provided near the outer side of the turn-through cavity 116, the length of the shielding plate 115 is smaller than the length of the turn-through cavity 116, specifically, an installation gap exists between the front and rear sides of the shielding plate 115 and the front and rear sides of the turn-through cavity 116, an upper rotating, two sets of upper rotating blocks 118 are fixedly provided with symmetrical upper rotating holes 117 which penetrate through from front to back.

As shown in fig. 4-5, in this embodiment, the upper cutting box 110 is configured to be a square structure, according to the visual angle shown in fig. 4, the upper cutting box 110 is fixedly provided with a cutting cavity 138 with an upward opening, a cover block 137 with a circular ring structure is fixedly provided at a central position of a lower side of the cutting cavity 138, the cover block 137 includes an inclined surface, an angle formed by the inclined surface and an upper side of the cover block 137 is greater than 90 °, an angle formed by the inclined surface and a lower side of the cover block 137 is less than 90 °, an upper hole 135 penetrating up and down is fixedly provided at a central position of a lower side of the cutting cavity 138, a fastening hole 130 is fixedly provided at a side of the upper cutting box 110, a fastening cavity 127 is fixedly connected in the fastening hole 130, according to the visual angle shown in fig. 5, the upper cutting box 110 is fixedly provided with a mounting cavity 146, three sets of starting cavities 140 arranged in a transverse direction and penetrating through are fixedly provided at, the electric wire assembly 129 penetrates through the groove 131, a plurality of groups of abutting blocks 145 and connecting blocks 144 are fixedly arranged on the side face of the installation cavity 146, the heights of the abutting blocks 145 and the connecting blocks 144 are smaller than the longitudinal height of the installation cavity 146, an extraction plate 143 is fixedly arranged on the right side face of the upper cutting box 110, the upper plane of the extraction plate 143 is flush with the upper plane of the upper cutting box 110, the extraction plate 143 provides a force application point to facilitate taking and placing of the upper cutting box 110, four groups of butt joint holes 141 in an annular array with the upper holes 135 as circle centers are fixedly arranged on the bottom face of the upper cutting box 110, mounting holes 142 are fixedly arranged on the side faces of two groups of butt joint holes 141, and a reinforcing plate for reinforcing strength is fixedly arranged between the bottom face and the side face of the upper cutting box 110.

As shown in fig. 1, when the upper cutting cover 112 and the upper cutting box 110 are mounted, the lower rotating block 133 is clamped into a mounting gap on the upper cutting cover 112, a central connecting line between the upper rotating holes 117 and a central connecting line between the lower rotating holes 132 are overlapped, the rotating rod 128 sequentially rotates to penetrate through the upper rotating holes 117 and the lower rotating holes 132, so as to connect the upper cutting cover 112 and the upper cutting box 110, the hook 125 is rotatably connected with a fastening rod on the upper cutting cover 112, a push plate 124 is fixedly arranged on the hook 125, a force applying point for rotating the hook 125 is increased, so as to facilitate manual operation of the hook 125, an arc-shaped fastening cavity 127 is fixedly arranged on the hook 125, when the upper cutting cover 112 is fixed to the upper cutting box 110, detain the chamber 127 with the fastener 126 is detained mutually, works as when cutting upper cover 112 needs to be opened, manual operation the clasp 125, will the fastener 126 break away from with detain the chamber 127 the state of detaining mutually can, be convenient for cutting upper cover 112 open and change the cutting mechanism, simultaneously the clasp 125 sets up to a protection mechanism, when the clasp 125 with detain the chamber 127 and break away from the state of detaining mutually, equipment outage avoids equipment to start when cutting upper cover 112 does not reset the state, improves the security of equipment.

As shown in fig. 6-7, in this embodiment, the cutting lower box 111 is a square structure, the cutting lower box 111 is provided with a driving cavity 160 with an upward opening, a plurality of strength plates 162 are fixedly arranged between the side surface and the bottom surface of the driving cavity 160, the strength plates 162 are used for enhancing the strength of the side surface of the cutting lower box 111 and preventing deformation and bending under the action of external force, a partition plate 164 is fixedly arranged between the front side surface and the rear side surface of the driving cavity 160, a mounting bottom block 167 is fixedly arranged on the bottom surface of the driving cavity 160 and located at a front-back symmetrical position of the partition plate 164, a mounting column 166 is fixedly arranged on the mounting bottom block 167, when the cutting upper box 110 and the cutting lower box 111 are mounted, the mounting column 166 is opposite to the position of the coupling hole 142, the height of the mounting column 166 is flush with the partition plate 164 to maintain the flatness of the whole body, so as to prevent interference with other parts, and rib surfaces of the mounting column 166 and the mounting bottom block 167 and the The plate 161 is configured to enhance the strength of the mounting post 166, so as to ensure the integrity of the whole mounting post 166 when connected with other parts, and improve the service life, further, the strength of the partition 164 is enhanced by fixedly connecting two sets of the mounting posts 166 with the partition 164, the mounting post 166 is provided with a connecting hole 165 penetrating up and down, the partition 164 divides the driving cavity 160 into two sets of working sections, specifically, a left working section and a right working section, a plurality of sets of heat dissipation holes 153 for ventilation and heat dissipation are fixedly arranged on the bottom surface of the driving cavity 160 located in the left working section, and a plurality of sets of heat dissipation cavities 156 for ventilation and heat dissipation are fixedly arranged on the bottom surface of the driving cavity 160 located in the right working section, in this embodiment, the heat dissipation holes 153 are arranged in a longitudinal array, and the heat dissipation cavities 156 are arranged in an annular array; a resisting plate 150 is fixedly arranged on the upper side door of the cutting lower box 111, the width of the resisting plate 150 is larger than that of the cutting lower box 111, specifically, the inner side surface of the resisting plate 150 is flush with the side surface of the driving cavity 160, the outer side surface of the resisting plate 150 extends outwards and is higher than the side surface of the cutting lower box 111, the height of the resisting plate 150 is smaller than or equal to the height difference between the resisting block 145 and the connecting block 144 and the cutting upper box 110, when the cutting lower box 111 is mounted with the cutting upper box 110, the resisting plate 150 is contacted with the resisting block 145 and the connecting block 144, the whole resisting plate 150 enters the mounting cavity 146, on the other hand, when the cutting upper box 110 is mounted with the cutting lower box 111, a gap exists between the outer surfaces of the cutting upper box 110 and the cutting lower box 111, and the cutting upper box 110 can be separated through the gap, the supporting plate 150 is fixedly provided with a supporting block 151, one side of the supporting block 151, which is close to the driving cavity 160, is fixedly provided with a supporting cavity 163 with an outward opening, one side of the supporting block 151, which is far away from the driving cavity 160, is fixedly provided with a fixing block 152, the head of the electric wire assembly 129 is clamped with the supporting cavity 163 and is supported through the supporting cavity 163, the fixing block 152 supports the tail of the electric wire assembly 129, four corners of the bottom surface of the cutting lower box 111 are fixedly provided with cushion feet 158, the cushion feet 158 support the whole equipment, and simultaneously avoid the influence of damp air on internal parts when the bottom of the cutting lower box 111 is directly contacted with the ground or other placing surfaces, the dragging difficulty of the cutting lower box 111 is reduced, the cutting lower box 111 is prevented from being scratched when being dragged, the reliability of the equipment is further improved, the bottom surface of the cutting lower box 111 is further provided with a positioning cavity 157 for installing a nameplate, an inner counter bore 155 is fixedly arranged at the relative position of, install external installation piece 170 in the interior counter bore 155, external installation piece 170 with the erection column 166 sets firmly through installation pole 171 and connects, installation pole 171 run through connecting hole 165 and upwards extend with actuating mechanism sets firmly and connects, will through above-mentioned structure the cutting is gone up case 110 and is set firmly with cutting nowel 111, through interior counter bore 155 with the part that erection column 166 carries out the connection is fixed, compare in following operate in the connecting hole 165, through for installation and dismantlement provide working range when interior counter bore 155 operates, improved the efficiency and the convenience of installation.

As shown in fig. 1-2 and 8, the feeding mechanism further includes a feeding block 301 fixed on the upper side of the cutting upper cover 112, in this embodiment, the feeding block 301 is configured as a heart-shaped structure, a feeding hole 312 penetrating vertically is fixed in the feeding block 301, the feeding hole 312 penetrates the cutting upper cover 112 downwards and communicates with the cutting cavity 138, the rotating plate 303 is disposed above the feeding block 301, one end of the rotating plate 303 is rotatably connected with the feeding block 301, the other end of the rotating plate 301 is provided with a through hole 318 slidably connected with the rotating plate 303, a handle 302 is fixed on the upper end of a driving rod 308 located on the upper side of the rotating plate 303, the handle 302 is manually lifted, so as to control the up-and-down movement of the driving rod 308, thereby making the operation process more comfortable and convenient, the lower end of the driving rod 308 located on the rotating plate 303 is fixedly connected with the pressing plate 310, pressure disk 310 is followed reciprocating of actuating lever 308 and being in remove in the feed inlet 312, pressure disk 310's structure with feed block 301 structure is unanimous, presents for heart type structure, and heart type structure includes indent and evagination structure, through feed block 301 with the setting of pressure disk 310 indent and evagination structure, and then the restriction pressure disk 310 is in feed inlet 312 is inside can only to be removed, and can't take place to rotate, has guaranteed to a certain extent pressure disk 310's stability, and through pressure disk 310 will the feeding region of feed inlet 312 carries out the closing cap, guarantees to carry out even effective suppression to the fruit vegetables blank, avoids the fruit vegetables blank to move extremely reduce cutting effect in the feed inlet 312 to improve cutting effect.

As shown in fig. 9-10, the fixing device includes an attraction component 315 located on the rotating plate 303 and an induction magnet 309 located on the driving rod 308, where the attraction component 315 includes a fixed magnet 317 and induction holes 316 arranged in an annular array with the through hole 318 as a center, in this embodiment, the induction holes 316 are arranged in six groups, the fixed magnet 317 is fixedly disposed in any two groups of induction holes 316, so as to ensure that the acting surfaces of the fixed magnet 317 are opposite, thereby making the acting forces of the two groups of fixed magnets 317 on the induction magnet 309 equal, improving the stability of the driving rod 308, the induction magnet 309 penetrates through the driving rod 308, and meanwhile, the side surface of the induction magnet 309 is flush with the outer surface of the driving rod 308, so as to avoid interference, the acting surface of one side of the induction magnet 309 is parallel to the acting surfaces of the group of fixed magnets 317, the action surface of the other side of the induction magnet 309 is parallel to the action surface of the other group of the fixed magnet 317, so that the action forces between the fixed magnet 317 and the induction magnet 309 are ensured to be parallel to each other, thereby ensuring the high-efficiency attraction force between the fixed magnet 317 and the induction magnet 309, the position of the induction magnet 309 determines the distance between the hovering position of the pressure plate 310 and the rotating plate 303, and the position of the induction magnet 309 is satisfied that when the pressure plate 310 needs to be lifted, the hovering position of the pressure plate 310 is higher than that of the material inlet block 301, so that the material inlet block 301 cannot be separated when the pressure plate 310 is in the hovering position.

For preventing the actuating lever 308 takes place rotatory influence efficiency in the operation process, feeding mechanism still including set firmly in the piece 319 prevents changeing of perforation 318 side, in this embodiment prevent changeing the piece 319 and set up to six group's structures of annular array, actuating lever 308 sets up to hexagonal prism structure, six faces of actuating lever 308 surface respectively with prevent changeing piece 319 and offset, avoid actuating lever 308 with take place rotatoryly between the rotor plate 303, ensure fixed magnet 317 with the working face between induction magnet 309 is parallel all the time, avoids carrying simultaneously and draws during the actuating lever 308, fixed magnet 317 with dislocation, influence actuation force take place for the working face between induction magnet 309.

In the implementation of the feeding mechanism of this embodiment, when the device is in use, the driving rod 308 is pulled, thereby driving the pressure plate 310 to move upwards to separate from the feeding block 301, and at this time, by the attraction force between the fixed magnet 317 and the induction magnet 309, the platen 310 is suspended over the inlet block 301, the handle 302 is manually rotated, the rotating plate 303 rotates, at the moment, the pressing plate 310 moves to one side to be communicated with the feeding hole 312 on the feeding block 301 and the outside, the fruit and vegetable cut material needing to be cut is put into the pressing plate at the moment, the driving rod 308 and the pressing plate 310 are reset through the rotating plate 303, the pressing plate 310 moves downwards to press the fruit and vegetable material, the fruit and vegetable material is prevented from longitudinally moving under the cutting force action of the cutting mechanism, the cutting efficiency is reduced, and therefore the fruit and vegetable material is fully cut.

As shown in fig. 2, the sensing device includes a sensing portion 304 and a sensing area 305 fixed on a side surface of the feeding block 301, the sensing portion 304 is connected to the rotating plate 303 through a docking plate 307 fixed on the rotating plate 303, the docking plate 307 is disposed on a side surface of the rotating plate 303, in this embodiment, an angle formed between the docking plate 307 and the rotating plate 303 is less than 90 °, the sensing portion 304 is disposed on a lower side surface of the docking plate 307, and when the rotating plate 303 does not rotate, that is, the pressure plate 310 does not move to one side, so that the feeding hole 312 communicates with the outside, the sensing area 305 is located right below the sensing portion 304.

In this embodiment in induction system's implementation, actuating mechanism starts, when rotating plate 303, the response portion 304 on rotating plate 303 is kept away from induction zone 305, and actuating mechanism stop work this moment, when rotating plate 303 resets, induction portion 304 on rotating plate 303 resets in induction zone 305's top, actuating mechanism restarts work, and then stop work when the equipment feeding is realized, the incessant reciprocating circular work of automatic start after the feeding, has improved the security and the reliability of equipment, can prevent simultaneously that operating personnel from leading to the emergence of the condition of the damage of product because of frequently pressing the button on the control panel, has improved the life of equipment.

As shown in fig. 1 and 11-13, the small material cutting mechanism includes a clamp and a clamping piece 501, the clamp includes a pressing member 505 and a supporting member 506 disposed on the upper side of the pressing member 505, the pressing member 505 is provided with a clamping member 513, the pressing member 505 is used for pressing, and the pressing member 505 is fixedly provided with a feeding hole 509 for material to enter and exit.

The pressing member 505 is of a cylindrical structure, the clamping member 513 is symmetrically and fixedly arranged on the outer surface of the pressing member 505, the clamping member 513 is used for clamping the clamping piece 501, specifically, the clamping member 513 comprises an upper member 511 positioned on the upper side and a lower member 512 positioned on the lower side, the lower member 512 is of an inclined surface, the angle formed by the lower member 512 and the upper member 511 is greater than 90 degrees, the angle formed by the lower member 512 and the outer surface of the pressing member 505 is less than 90 degrees, the inclined surface is used for guiding so as to facilitate the installation of the clamp and the clamping piece 501, the supporting member 506 is fixedly arranged on the upper side of the pressing member 505, the diameter of the supporting member 506 is greater than that of the pressing member 505, an upper block 510 of a circular ring structure is fixedly arranged on the upper side of the supporting member 506, a thickened part 507 is fixedly arranged on the upper side of the upper block 510, and the thickness of the thickened part 507 is, the clamp is convenient to take.

In this embodiment, the diameter of feed port 509 sets up to 18cm, feed port 509 sets up to three groups and annular array and distributes, in the implementation, manually with fruit vegetables material in diameter range, material such as eggplant or hot pepper put into in the feed port 509 to carry out the pressing with the pressure material stick (not shown) that matches with feed port 509 can, cut through the anchor clamps, the material can not take place to skid, the tangent plane is level simultaneously, holistic aesthetic property is high.

As shown in fig. 1 and 14, the clamping member 501 is fixedly arranged on the cutting upper cover 112, in this embodiment, the clamping member 501 is arranged in a cylindrical structure, the clamping member 501 is located at an inward concave position of a heart-shaped structure of the feeding block 301, so as to achieve reasonable arrangement of occupied areas of various components, the clamping member 501 is connected with the feeding block 301 through a connecting and fixing block 504 fixedly arranged on the cutting upper cover 112, so as to further enhance the stability of the clamping member 501, the height of the connecting and fixing block 504 is consistent with the height of the clamping member 501, an observation cavity 521 vertically penetrating is fixedly arranged in the clamping member 501, the lower side of the observation cavity 521 is communicated with the cutting cavity 138, the observation cavity 521 can be used as an observation port for observing whether fruit and vegetable materials are completely cut, symmetrical clamping blocks 520 are fixedly arranged on the side surface of the observation cavity 521, and each clamping block 520 includes an upper clamping block 523 and a, the opposite surfaces of the two sets of upper clamping blocks 523 are arc-shaped surfaces, the lower clamping block 522 is arranged at the middle position of the lower side of the upper clamping block 523, the length of the lower clamping block 522 is smaller than that of the upper clamping block 523, specifically, clamping grooves 524 are formed between the left and right side surfaces of the lower clamping block 522 and the left and right side surfaces of the upper clamping block 523, so that the clamp is clamped through bidirectional rotation when being installed.

In this embodiment, the distance between two sets of upper members 511 in the engaging member 513 is matched with the diameter of the observation cavity 521, the distance between the upper members 511 and the upper side surface of the pressing member 505 is consistent with the height of the upper fixture block 523, so as to ensure the stability of the fixture after the engaging member 511 and the pressing member 505 are installed in a matching manner, specifically, the engaging process between the engaging member 513 and the fixture block 520 is that the upper members 511 are inserted into the engaging grooves 524 of the upper fixture block 523 and the lower fixture block 522, the side surface of one set of the engaging member 513 abuts against the left side surface of one set of the lower fixture block 522, and the side surface of the other set of the engaging member 513 abuts against the right side surface of the other set of the lower fixture block 522, so as to; the diameter of the supporting part 506 in the clamp is larger than that of the clamping piece 501, the upper side of the upper part 511 is connected with the upper side of the clamping groove 524, the upper side of the clamping piece 501 abuts against the lower side of the supporting part 506 to support, so that the clamp is limited to move in the vertical direction, the clamp is kept in a stable state, the phenomenon that the clamp shakes during operation is avoided, and the reliability of the clamp is improved.

As shown in fig. 8 and 15, the cutting mechanism includes a cutting plate 101 and a cutting blade 102, the cutting plate 101 is set to be a cylindrical structure, the diameter of the cutting plate 101 is smaller than the width of the cutting cavity 138, the cutting plate 101 is located in the cutting cavity 138, the cutting cavity 100 with an upward opening is fixed in the cutting plate 101, one end of the cutting blade 102 is fixed at the center of the cutting cavity 100, the other end is fixed with the upper side of the cutting plate 101, the lower side of the cutting cavity 100 is provided with a material dropping cavity 103 in a penetrating manner, in the implementation process, when the cutting mechanism rotates, the cutting blade 102 cuts the material, the cut material passes through the material dropping cavity 103 and drops into the upper cutting box 110 below, the center of the lower side of the cutting plate 101 is provided with a connecting rod 107, the connecting rod 107 is provided with a connecting hole (not shown in the figure) in a penetrating manner, the cutting plate 101 is provided with different structures, in the present embodiment, the cutting blade 102 is used for slicing, and in other embodiments, the cutting blade 102 may be provided in a wavy, grid or other structure, and used for slitting, dicing, ripping or shaving, so as to implement a wide range of applications and all functions, and at the same time, the adjustment of the distance between the cutting cavity 100 on the edge side of the cutting blade 102 and the edge of the cutting blade 102 enables applications with different thicknesses, thereby improving the applicability of the device.

As shown in fig. 8 and 16-17, the fruit and vegetable cutting machine further comprises a discharging device, the discharging device comprises a material pushing plate 401 and an arc block 400 for discharging materials, a material discharging cover plate 404 fixedly arranged on the cutting upper cover 112 and a material discharging block 406 fixedly arranged on the cutting upper box 110, the cutting plate 101 and the material pushing plate 401 are arranged in a cylindrical structure, the diameter of the material pushing plate 401 is smaller than the width of the cutting cavity 138, the material pushing plate 401 is positioned in the cutting cavity 138, an assembly part matched with the cover block 137 is fixedly arranged on the lower side surface of the material pushing plate 401, the assembly part is used for fixing the material pushing plate 401, the arc block 400 is fixedly arranged on the upper side surface of the material pushing plate 401, the arc blocks 400 are arranged in two arc groups, after the material pushing plate 401 rotates, the connecting shaft 106 throws out materials falling on the upper side surface of the material pushing plate 401 through centrifugal force, the lower side surface of the material pushing plate 401 is fixedly arranged on, the cross section of the pushing block 403 is triangular, so that the discharging capacity of materials is improved, the pushing block 403 is used for throwing out materials falling on the bottom surface of the cutting cavity 138, the materials can be efficiently thrown out through two groups of material throwing structures, the working efficiency is improved, a discharging hole 405 communicated with the cutting cavity 138 is fixedly arranged on the discharging block 406, the discharging block 406 and the discharging cover plate 404 form a discharging channel, and the materials thrown out through the arc block 400 and the pushing block 403 are discharged through the discharging hole 405.

The shallow charging tray 401 intermediate position has set firmly pivot 402, pivot 402 upwards extends to in the connecting rod 107, pivot 402 with connecting rod 107 threaded connection, the through hole has set firmly on the pivot 402, the through hole with even hole on the connecting rod 107 is relative, the through hole sets firmly with even hole and is connected with even axle 106, through even axle 106 sets firmly the connection with cutting mechanism and discharging device, actuating mechanism is through with power transmission extremely even axle 106 and then drive cutting mechanism and discharging device simultaneously, has realized the synchronous motion of equipment cutting and ejection of compact.

As shown in fig. 8, the driving mechanism includes a motor 200, a transmission mechanism, and an installation fixing plate 201 for installing the transmission mechanism, the transmission mechanism includes a driving wheel 202, a driven wheel 205, and a synchronous belt 206 connecting the driving wheel 202 and the driven wheel 205, the driving wheel 202 and the driven wheel 205 are rotatably connected to the installation fixing plate 201, the driving wheel 202 is fixedly connected to an output shaft of the motor 200, and a central rotating shaft of the driven wheel 205 is fixedly connected to a rotating shaft 402 of the discharging device.

In the implementation process, the motor 200 transmits power to the driving wheel 202, the driving wheel 202 transmits power to the driven wheel 205 through the synchronous belt 206, and transmits power to the rotating shaft 402 through the central rotating shaft of the driven wheel 205, so as to transmit power to the discharging device and the cutting mechanism, the mounting fixing plate 201 is fixedly provided with the mounting butt-joint block 204 which is opposite to the butt-joint hole 141 and fixedly connected with the butt-joint hole 141, the mounting fixing plate 201 is fixedly provided with the mounting connection block 203 which is opposite to the mounting hole 142 and fixedly connected with the mounting hole 142, so as to fixedly connect the mounting fixing plate 201 with the upper cutting box 110, and the mounting rod 171 extends upwards to be fixedly connected with the mounting connection block 203, so as to fixedly connect the lower cutting box 111 with the upper cutting box 110.

As shown in fig. 2, the fruit and vegetable cutting machine further comprises a control device, the control device comprises a control panel 600 fixedly arranged on the side surface of the upper cutting box 110 and a button 601, the button 601 is installed through the starting cavity 140, and the button 601 controls the opening and closing of the fruit and vegetable cutting machine.

Example two:

as shown in fig. 18-19, the difference between this embodiment and the first embodiment is that the diameter of the feeding hole 509 is set to be 50cm, the feeding hole 509 is set to be a single-hole structure, and during the implementation, the fruit and vegetable material, such as eggplant or cucumber, within the diameter range is manually cut into the feeding hole 509, so as to expand the application range of the device.

In summary, the diameter of the inlet opening 509 is set in the range of 18 to 50 cm.

In addition, in other embodiments, the cutting upper cover 112, the feeding block 301 and the clamping piece 501 can be provided as an integrally formed structure, and by adopting the structure, the production efficiency of equipment parts can be improved, and the structure of the feeding block 301 and the clamping piece 501 is more compact.

It is obvious that the described embodiments are only some of the embodiments of the present invention, and not all of them. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts shall belong to the protection scope of the present invention.

Claims (10)

1. The utility model provides an utilize fruit vegetables miller of anchor clamps which characterized in that: including casing subassembly, the cutting mechanism and the actuating mechanism that are located casing subassembly and the feeding mechanism, small powder cutting mechanism and the induction system that are located the casing subassembly outside, actuating mechanism control cutting mechanism's cutting motion, induction system control actuating mechanism's intermittent type starts, feeding mechanism includes rotor plate, actuating lever, is connected the pressure disk that sets up and is connected the fixing device of actuating lever and rotor plate with the actuating lever, and hovering of fixing device control pressure disk, small powder cutting mechanism includes anchor clamps and fastener, the fastener supports and fixed part as anchor clamps.

2. The fruit and vegetable cutting machine using a jig according to claim 1, wherein: the casing subassembly is including cutting upper box, cutting lower box and cutting upper cover, the cutting upper box is located the upside of cutting lower box, the cutting upper cover is located cutting upper box upside, the cutting upper cover rotates and is connected with the hasp, the cutting upper cover with the cutting upper box rotates and connects and install through the hasp, the cutting upper box has set firmly the cutting chamber, cutting mechanism is located the cutting intracavity, the cutting lower box has set firmly the drive chamber, drive mechanism is located the drive intracavity, the cutting upper box sets firmly the connection with the cutting lower box, the cutting upper box side has set firmly and has drawed the board, it is convenient for to draw the board to cut the separation of upper box and cutting lower box.

3. The fruit and vegetable cutting machine using a jig according to claim 1, wherein: feeding mechanism still including setting firmly in the feeding piece of cutting upper cover upside, feeding piece sets up to heart type structure, the feeding piece has set firmly the feed inlet in, feed inlet and cutting chamber intercommunication, the rotor plate set up in feeding piece top and one end with feeding piece rotates to be connected, and the other end sets up sliding connection and has the actuating lever, the actuating lever upper end has set firmly the handle, the actuating lever lower extreme with the pressure disk sets firmly to be connected, the pressure disk follows reciprocating of actuating lever is in remove in the feed inlet, the structure of pressure disk with feeding piece structure is the same, sets up to heart type structure, and this heart type structure includes indent and evagination structure, feeding piece's indent and evagination structure with the indent and the evagination structure of pressure disk match, and the restriction pressure disk is in the moving direction of feed inlet.

4. The fruit and vegetable cutting machine using a jig according to claim 3, wherein: the fixing device comprises an attraction component positioned on the rotating plate and an induction magnet positioned on the driving rod, the attraction component comprises a fixed magnet and induction holes arranged in an annular array and an even number, the fixed magnet is fixedly arranged in any two groups of induction holes, the action surfaces of the fixed magnet are opposite, the action surfaces of the two groups of fixed magnets are equal to the action force of the induction magnet, the induction magnet penetrates through the driving rod, the side surface of the induction magnet is flush with the outer surface of the driving rod, the action surface of one side of the induction magnet is parallel to the action surface of one group of the fixed magnet, the action surface of the other side of the induction magnet is parallel to the action surface of the other group of the fixed magnet, the action forces between the fixed magnet and the induction magnet are parallel to each other, and the position of the induction magnet limits the distance between the hovering position of the pressure plate and the rotating plate, the position of the induction magnet is satisfied when the pressure plate needs to be lifted, the hovering position of the pressure plate is higher than the material inlet block, and when the pressure plate is at the hovering position, the pressure plate is separated from the material inlet block.

5. The fruit and vegetable cutting machine using a jig according to claim 4, wherein: the fixing device further comprises an anti-rotation block fixedly arranged on the rotating plate, the anti-rotation block is arranged into six groups of structures in an annular array, the driving rod is arranged into a hexagonal prism structure, six faces of the outer surface of the driving rod are respectively abutted against the anti-rotation block to limit the driving rod and the rotating plate to rotate, and the fixed magnet and the induction magnet are controlled to be in a parallel state.

6. The fruit and vegetable cutting machine using a jig according to claim 1, wherein: still include controlling means, controlling means is including setting firmly control panel and the button in cutting upper box side, opening and closing of button control fruit vegetables miller, induction system includes response portion and sets firmly the induction zone in feed block side, the induction zone is in under the response portion, the rotor plate rotates, response portion and induction zone disconnection, actuating mechanism stop work, the rotor plate resets, response portion and induction zone reconnection, actuating mechanism restarts work.

7. The fruit and vegetable cutting machine using a jig according to claim 1, wherein: the clamp comprises a pressing component and a supporting component arranged on the upper side of the pressing component, wherein a clamping component is arranged on the pressing component and used for pressing materials, a feeding hole used for material to enter and exit is fixedly formed in the pressing component, the diameter of the feeding hole is set to be 18-50cm, a clamping piece is fixedly arranged on a cutting upper cover and is of a cylindrical structure, an observation cavity is fixedly formed in the clamping piece and communicated with a cutting cavity, the observation cavity serves as an observation port and is used for observing whether fruit and vegetable materials are completely cut or not, symmetrical clamping blocks are fixedly arranged on the side face of the observation cavity, the clamping component is clamped with the clamping blocks, a pressing rod is arranged in a matched mode with the diameter of the feeding hole, and the pressing rod presses the cutting materials placed in the feeding hole.

8. The fruit and vegetable cutting machine using a jig according to claim 1, wherein: the cutting mechanism comprises a cutting plate and a cutting blade, a cutting cavity is fixedly arranged in the cutting plate, one end of the cutting blade is fixedly arranged at the center of the cutting cavity, the other end of the cutting blade is fixedly arranged on the upper side surface of the cutting plate, a material falling cavity is arranged on the lower side surface of the cutting cavity in a penetrating way, the cutting blade cuts materials, the cut materials are discharged into the material falling cavity and then fall into the cutting upper box below the cutting upper box, a connecting rod is fixedly arranged at the central position of the lower side of the cutting plate, the cutting mechanism is fixedly connected with a discharging device through the connecting rod, the discharging device comprises a material pushing disc, a material discharging cover plate and a material discharging block, the material pushing disc is positioned in the cutting cavity, two groups of arc-shaped structures are fixedly arranged on the upper side surface of the material pushing disc, a pushing block with a triangular cross section is fixedly arranged on, the discharging block and the discharging cover plate form a discharging channel, and the arc block and the pushing block throw out materials under the action of centrifugal force and then discharge the materials to an external space through the discharging hole.

9. The fruit and vegetable cutting machine using a jig according to claim 1, wherein: the actuating mechanism includes motor, drive mechanism and is used for installing drive mechanism's installation fixed plate, drive mechanism include with the action wheel, from the driving wheel and connect the action wheel and follow the hold-in range of driving wheel, the action wheel with the output shaft of motor sets firmly and connects, the action wheel transmits power to the action wheel, action wheel center pivot is connected with cutting mechanism and discharging device power.

10. The fruit and vegetable cutting machine using a jig according to claim 7, wherein: the clamping part comprises an upper part and a lower part, the upper part is positioned on the upper side, the lower part is positioned on the lower side, an angle formed by the lower part and the upper part is larger than 90 degrees, an angle formed by the lower part and the outer surface of the material pressing part is smaller than 90 degrees, the inclined surface is used for guiding, the clamping block comprises an upper clamping block and a lower clamping block, the lower clamping block is arranged on the lower side of the upper clamping block, the length of the lower clamping block is smaller than that of the upper clamping block, two groups of clamping grooves are formed between the side surface of the lower clamping block and the side surface of the upper clamping block, when the clamp is installed, clamping is carried out through bidirectional rotation, the distance between the two groups of upper parts in the clamping part is matched with the diameter of the observation cavity, the distance between the upper part and the upper side surface of the material pressing part is consistent with the height of the upper clamping block, the side, limiting the movement of the clamp in the left and right directions; the diameter of the supporting part is larger than that of the clamping part, the upper side face of the upper part is connected with the upper side face of the clamping groove, and the upper side face of the clamping part is abutted to the lower side face of the supporting part to limit the vertical movement of the clamp.

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