CN217573177U - Material distribution mechanism for food slicing machine - Google Patents

Abstract

The utility model relates to a feed mechanism for food slicer, which comprises a frame, be equipped with the pay-off guipure in the frame, centre gripping translation rotary device, height finding unloader, the section device, feed back conveying mesh belt and ejection of compact conveying mesh belt, still locate left baffle and the right baffle of feed back conveying mesh belt and ejection of compact conveying mesh belt left and right sides including the symmetry, and the control end, the material loops through the pay-off guipure feed, height finding unloader measurement height and unloading, the control end is according to material height control material by feed back conveying mesh belt loopback last process, the control material passes through centre gripping translation rotary device centre gripping and translation rotary transport to section device, section device will cut the material to next process through ejection of compact conveying mesh belt to the material section. The utility model discloses automatically, effectively separate non-sliced food material and sliced food material, prevent both and mix together to reduce the cost of labor of letter sorting, and improved work efficiency.

Description

Material distribution mechanism for food slicing machine

Technical Field

The utility model relates to a section equipment among the food production, a feed mechanism for food slicer specifically says so.

Background

In the traditional slicing machine for food to be cut, such as an areca slicing machine, the slicing of some areca nuts is realized by fixing the areca nuts in a mold with a certain shape, the areca nuts enter the mold with certain randomness, the qualification rate of the cut areca nuts is not high, in the slicing machine for some areca nuts, the clamping and slicing of a single areca nut are adopted, but due to the diversity of the shapes of the areca nuts, some areca nuts are not suitable for mechanical slicing, if the mechanical slicing is adopted, the areca nuts can be cut to be waste or reduced in grade, the uncut areca nuts and the cut areca nuts need to be separated, and otherwise, the personnel cost is increased for sorting.

SUMMERY OF THE UTILITY MODEL

To the above problem, the utility model provides an automatic with not sliced food material separately with sliced food material, reduce personnel's letter sorting cost, improve work efficiency's a feed mechanism for food slicer.

The utility model provides a technical scheme that above-mentioned technical problem adopted does: the utility model provides a feed mechanism for food slicer, includes the frame, is equipped with pay-off guipure, centre gripping translation rotary device, height finding unloader, section device, feed back conveying mesh belt and ejection of compact conveying mesh belt in the frame, feed back conveying mesh belt and ejection of compact conveying mesh belt set up along same water flat line, still including the symmetry locate feed back conveying mesh belt and ejection of compact conveying mesh belt left and right sides's left baffle and right baffle to and the control end, the material loops through pay-off guipure feed, height finding unloader measurement height and unloading, and the control end is according to material height control material by feed back conveying mesh belt loopback last process, control material through centre gripping translation rotary device centre gripping and translation rotary transport to section device, section device section the material and carry the material that has cut to next process through ejection of compact conveying mesh belt.

Preferably, the height measuring and blanking device comprises an installation plate, a height measuring device arranged on the front side of the installation plate and arranged above the feeding net belt, a blanking device arranged on the back side of the installation plate and a camera arranged above the height measuring device, and the camera is in signal connection with the control end.

Preferably, the height measuring device comprises a posture adjusting guide rail and a posture adjusting cylinder which are arranged on the front side of the mounting plate, the posture adjusting guide rail is connected with a posture adjusting connecting block in a sliding mode, a posture adjusting pressing block is arranged at the lower end of the posture adjusting connecting block, a piston rod of the posture adjusting cylinder is connected with the posture adjusting connecting block, the posture adjusting cylinder drives the posture adjusting connecting block to slide up and down on the posture adjusting guide rail, the posture adjusting pressing block is made to achieve compaction and leveling, the height measuring connecting rod device simultaneously connected with the mounting plate and the posture adjusting connecting block is further included, the blanking device comprises a blanking guide rail and a blanking cylinder which are arranged on the back side of the mounting plate, the blanking guide rail is connected with a blanking connecting block in a sliding mode, the lower end of the blanking connecting block is provided with a blanking separation blade, the piston rod of the blanking cylinder is connected with the blanking connecting block, the blanking cylinder drives the blanking sliding block to slide up and down on the blanking guide rail, and accordingly blanking separation blade is made to achieve blanking.

Preferably, the height measuring connecting rod device comprises a fixed shaft and a moving shaft, one end of the fixed shaft is in threaded connection with the mounting plate, the other end of the fixed shaft is in rotating connection with the head end of the rotating connecting plate through a bearing, one end of the moving shaft is in threaded connection with the posture adjusting connecting block, the other end of the moving shaft is slidably mounted in a long sliding groove formed in the rotating connecting plate, a height measuring rod is mounted at the tail end of the rotating connecting plate, when the posture adjusting cylinder piston rod is in a complete contraction state, the rotating connecting plate is in a horizontal state, when the posture adjusting cylinder piston rod moves, the posture adjusting cylinder piston rod drives the connected posture adjusting connecting block to move up and down, so that the posture adjusting pressing block connected with the posture adjusting connecting block is driven to move up and down with the moving shaft, and the moving shaft drives the rotating connecting plate and the height measuring rod connected with the rotating connecting plate to rotate around the fixed shaft through moving up and down.

Preferably, the posture adjusting pressing block is arranged in a horizontal L shape.

Preferably, the feed back conveying mesh belt is located below the feeding mesh belt, the discharging conveying mesh belt is located below a base plate at the bottom of the slicing device, a chuck is arranged at the top of the clamping translation rotating device and comprises symmetrically arranged clamping fingers, and the two clamping fingers penetrate through materials on the clamping feeding mesh belt from two sides of the feed back conveying mesh belt and the two sides of the discharging conveying mesh belt respectively to perform translation rotation.

Preferably, the discharge port is defined by the tail end of the feeding mesh belt, the front end of the base plate, the feed back mesh belt, the discharge mesh belt, the left side plate and the right side plate, mutually abutted partitions are symmetrically arranged on opposite sides of the left side plate and the right side plate, the partitions divide the discharge port into a first feed opening and a second feed opening, the feed back mesh belt is abutted below the first feed opening, and the discharge mesh belt is abutted below the second feed opening.

Preferably, the feeding baffle is positioned above the second feeding opening.

Preferably, the back conveying mesh belt runs in a counter-clockwise direction, and the discharging mesh belt runs in a clockwise direction.

Preferably, the partition is a herringbone partition.

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

1. the utility model can effectively separate food materials which are not suitable for slicing from sliced food materials, and prevent the food materials and the sliced food materials from being mixed together, thereby reducing the sorting cost of personnel in the next procedure and improving the working efficiency;

2. the utility model has the advantages that the structure is ingenious, the food materials which are not sliced directly fall onto the feed back conveying mesh belt to be fed back to the previous process, the processes of clamping to a slicing device and slicing are not needed, the time is saved, and the efficiency is improved;

3. the utility model directly limits the released food material at the second feed opening through the feed stop sheet and enters the discharge conveying net belt to be conveyed to the next process, thereby saving time and improving efficiency;

4. the utility model discloses well feed back conveying mesh belt and ejection of compact conveying mesh belt all can prevent through the setting of left baffle and right baffle that the material from conveying mesh belt side dropping, and the stable transports food material, has improved the conveying efficiency of guipure, and prevents the jam of material;

5. the utility model discloses a height finding unloader measures its height to every to wait to cut into slices food material before the section, judges whether this material is fit for the section to judge how to carry out of next process, avoid cutting out unqualified section, improved the yield.

Drawings

Fig. 1 is a schematic view of a part of a three-dimensional structure of the present invention (a frame is not shown);

FIG. 2 is a side view of the present invention (frame not shown);

fig. 3 is a top view of the present invention (frame not shown);

FIG. 4 is a side view of the clamping and rotating device of the present invention;

FIG. 5 is a side view of the middle height measuring and blanking device of the present invention;

fig. 6 is a schematic structural view of the middle height-measuring link device of the present invention;

fig. 7 is a side view of the middle slicing device of the present invention;

FIG. 8 is a schematic view of the connection between the conveying belt and the baffle plate of the present invention;

FIG. 9 is a schematic view of the structure of the middle left baffle of the present invention;

fig. 10 is a schematic view of the structure of the right baffle of the present invention.

Detailed Description

The present invention will be described in detail with reference to fig. 1-10, wherein exemplary embodiments and descriptions of the present invention are provided to explain the present invention, but not to limit the present invention.

A material distributing mechanism for a food slicer comprises a frame, wherein a feeding mesh belt 1, a clamping translation rotating device 2, a height measuring blanking device 3, a slicing device 4, a feed back conveying mesh belt 5 and a discharging conveying mesh belt 6 are arranged on the frame, the feed back conveying mesh belt and the discharging conveying mesh belt are arranged along the same horizontal line and are both belts, the feed back conveying mesh belt runs in the reverse time direction, the discharging conveying mesh belt runs in the clockwise direction, the material distributing mechanism also comprises a left baffle 7 and a right baffle 8 which are symmetrically arranged on the left side and the right side of the feed back conveying mesh belt and the discharging conveying mesh belt, a control end, the feed back conveying mesh belt is positioned below the feeding mesh belt, the discharging conveying mesh belt is positioned below a bottom base plate 401 of the slicing device, and a chuck 201 is arranged at the top of the clamping translation rotating device, the chuck includes the centre gripping finger that the symmetry set up, two centre gripping fingers pass the material on the centre gripping pay-off guipure from the both sides of feed back guipure and ejection of compact conveying guipure respectively and carry out the translation rotation, pay-off guipure tail end, the backing plate front end, feed back guipure, ejection of compact conveying guipure, left side board and right side hoarding become the discharge gate, the relative lateral symmetry of left side board and right side board is equipped with the wall 9 of mutual butt, and cut off and establish to the chevron shape, cut off and divide into first feed opening 10 and second feed opening 11 with the discharge gate, first feed opening is the feed opening of non-section material, and butt joint feed back guipure below first feed opening, the second feed opening is the feed opening of sliced material and butt joint ejection of compact conveying guipure below the second feed opening.

The height measurement blanking device comprises a mounting plate 303, a height measurement device arranged on the front side of the mounting plate and arranged above the feeding mesh belt, a blanking device arranged on the back side of the mounting plate and a camera arranged above the height measurement device, wherein the camera is connected with a control end in a signal mode and used for collecting images, the height measurement device is used for clamping the height of materials, and the control end calculates the height of the materials through image information collected by the camera and judges the execution of the next process.

The height measuring device comprises a posture adjusting 305 and a posture adjusting cylinder 304 which are arranged on the front side of the mounting plate, the posture adjusting guide rail is connected with a posture adjusting connecting block 307 in a sliding manner, the lower end of the posture adjusting connecting block is provided with a posture adjusting press block 301, a piston rod of the posture adjusting cylinder is connected with the posture adjusting connecting block, the posture adjusting cylinder drives the posture adjusting connecting block to slide up and down on the posture adjusting guide rail, so that the posture adjusting press block realizes compaction and leveling, the posture adjusting press block is in a horizontal L shape, the height measuring connecting rod device also comprises a height measuring connecting rod device 306 which is simultaneously connected with the mounting plate and the posture adjusting connecting block, the discharging device comprises a discharging guide rail 309 and a discharging cylinder 308 which are arranged on the back side of the mounting plate, the discharging guide rail is connected with a discharging connecting block 310 in a sliding manner, the lower end of the discharging connecting block is provided with a discharging baffle plate 302, meanwhile, the piston rod of the discharging cylinder is connected with the discharging connecting block, the discharging cylinder drives the discharging slide block to slide up and down on the discharging guide rail, the blanking separation blade is pressed downwards to realize blanking, the height measuring connecting rod device comprises a fixed shaft 30601 and a moving shaft 30602, one end of the fixed shaft is connected with a mounting plate through screw threads, the other end of the fixed shaft is connected with the head end of a rotating connecting plate 30603 through a bearing in a rotating way, one end of the moving shaft is connected with a posture adjusting connecting block through screw threads, the other end of the moving shaft is arranged in a long sliding groove 30605 arranged on the rotating connecting plate in a sliding way, a height measuring rod 30604 is arranged at the tail end of the rotating connecting plate, when a piston rod of a posture adjusting cylinder is in a completely contracted state, the rotating connecting plate is in a horizontal state, when the piston rod of the posture adjusting cylinder moves, the posture adjusting connecting block, the posture adjusting pressing block and the moving shaft are driven to move up and down, so that the moving shaft drives the rotating connecting block connected with the posture adjusting connecting block to move downwards, the moving shaft slides in the long sliding groove, the moving shaft drives the rotating connecting plate and the height measuring rod connected with the rotating connecting plate to rotate around the fixed shaft, finally, the image information of the projection length of the height measuring rod on the feeding net belt is collected through the camera, and the height of the material is measured by calculating the image information to a certain extent through the control end.

Specifically, the height of the material conveyed by the feeding mesh belt is measured by the height measuring and blanking device, when the height is not suitable for slicing, the posture adjusting pressing block of the height measuring and blanking device is lifted, the control end controls the feeding mesh belt to continue to operate, the material is conveyed forwards and directly falls to a first blanking port, and the material is conveyed to the previous working procedure by the feed back conveying mesh belt; when highly being fit for the section, the control end control material is passed through centre gripping translation rotary device centre gripping and translation rotary transport and is sliced to the backing plate of section device on, the section is accomplished the back, centre gripping translation rotary device centre gripping material back-to-back motion after the section, when the material leaves the backing plate of section device, the release material, simultaneously through height finding unloader's unloading separation blade down, the material restriction that will release drops on ejection of compact conveying mesh belt at the second feed opening that is close to the backing plate, along with the operation of ejection of compact conveying mesh belt, carry the next process with the material.

A feed mechanism for food slicing back, its pay-off, height finding, section, unloading and feed back and ejection of compact all accomplish in a narrow and small passageway, compact structure, and this feed mechanism is different according to sliced passageway quantity in addition, can be equipped with corresponding quantity's feed mechanism.

In the implementation process, a feeding mesh belt conveys a material (single areca nut) to a position adjusting press block of a height measuring blanking device, the position adjusting press block is pressed to the highest point of the material under the action of a position adjusting cylinder, the projection length of a height measuring rod on the feeding mesh belt and the projection length of the height measuring rod on the feeding mesh belt when a piston rod of the position adjusting cylinder is completely contracted are measured through image acquisition of a camera, corresponding calculation is carried out through a control end, so that the height of the material is measured, if the measured height is not suitable for slicing, the position adjusting press block is lifted under the action of the position adjusting cylinder, the feeding mesh belt continuously conveys the material forwards, the material falls to a first discharge port from the tail end of the feeding mesh belt and then falls onto a return conveying mesh belt, a left baffle and a right baffle are arranged on two sides of the return conveying mesh belt, the material is prevented from falling from the side face of the return conveying mesh belt, and the non-sliced material is conveyed back to the previous process through the operation of the return conveying mesh belt anticlockwise; if the measured height is suitable for slicing, a chuck of the clamping translation rotating device clamps materials, the posture adjusting press block is lifted, the materials are conveyed to a base plate of the slicing device, in the conveying process, the materials are changed in proper positions and angles through the clamping translation rotating device, the materials are made to be in preset positions, a blade of the slicing device slices the materials, after slicing is completed, the chuck clamps the materials and moves towards the material taking direction, when the materials leave the base plate of the slicing device, the chuck is loosened to release the materials, before the materials are released, a blanking separation blade of the height measuring blanking device is pressed down under the action of a blanking cylinder, the released materials fall onto the discharging conveying mesh belt from a second discharge port, a left baffle plate and a right baffle plate on two sides of the discharging conveying mesh belt can also prevent the materials from falling from the side face of the discharging conveying mesh belt, and the sliced materials are conveyed to the next process through clockwise operation of the discharging conveying mesh belt. The unsliced and sliced materials are effectively separated by circulating the way.

The technical solutions provided by the embodiments of the present invention are introduced in detail, and the principles and embodiments of the present invention are explained by using specific examples, and the explanations of the above embodiments are only applicable to help understanding the principles of the embodiments of the present invention; meanwhile, for a person skilled in the art, according to the embodiments of the present invention, there may be variations in the specific implementation manners and application ranges, and in summary, the contents of the present specification should not be construed as limitations of the present invention.

Claims (10)

1. The utility model provides a feed mechanism for food slicer which characterized in that: the automatic height measurement device comprises a frame, be equipped with pay-off guipure (1), centre gripping translation rotary device (2), height measurement unloader (3), section device (4), feed back conveying mesh belt (5) and ejection of compact conveying mesh belt (6) in the frame, feed back conveying mesh belt and ejection of compact conveying mesh belt set up along same water flat line, still including left baffle (7) and right baffle (8) of symmetrically locating feed back conveying mesh belt and ejection of compact conveying mesh belt left and right sides to and control end, the material loops through the pay-off guipure feed, height measurement unloader height measurement and unloading, control end is according to material height control material by feed back conveying mesh belt loopback to former process, control material passes through centre gripping translation rotary device centre gripping and translation rotary transport to section device, section device is to the material section and will be cut the material through ejection of compact conveying mesh belt and carry to next process.

2. The feed mechanism of claim 1, wherein: the height measurement blanking device comprises a mounting plate (303), a height measurement device arranged on the front side of the mounting plate and arranged above the feeding net belt, a blanking device arranged on the back side of the mounting plate and a camera arranged above the height measurement device, wherein the camera is connected with a control end through signals.

3. The feed mechanism of claim 2, wherein: height measuring device is including locating positive accent appearance guide rail (305) of mounting panel and transferring appearance cylinder (304), transfer sliding connection on the appearance guide rail and transfer appearance connecting block (307), transfer appearance connecting block lower extreme to be equipped with and transfer appearance briquetting (301), the piston rod of transferring the appearance cylinder links to each other with transferring the appearance connecting block, transfer the appearance cylinder and transfer the appearance connecting block through the drive and transfer the appearance guide rail and slide from top to bottom transferring, make transfer the appearance briquetting to realize the compaction leveling, still include height measurement link means (306) that link to each other with the mounting panel with transferring the appearance connecting block simultaneously, unloader is including locating unloading guide rail (309) and the unloading cylinder (308) of mounting panel reverse side, sliding connection has unloading connecting block (310) on the unloading guide rail, the lower extreme of unloading connecting block is equipped with unloading separation blade (302), the piston rod of unloading cylinder links to each other with the unloading connecting block, the unloading cylinder makes through driving the unloading slider and sliding from top to bottom at the unloading guide rail thereby the unloading separation blade is realized pushing down the unloading.

4. The feed mechanism of claim 3, wherein: the height measuring connecting rod device comprises a fixed shaft (30601) and a moving shaft (30602), one end of the fixed shaft is in threaded connection with the mounting plate, the other end of the fixed shaft is in rotating connection with the head end of a rotating connecting plate (30603) through a bearing, one end of the moving shaft is in threaded connection with the posture adjusting connecting block, the other end of the moving shaft is slidably mounted in a long sliding groove (30605) formed in the rotating connecting plate, a height measuring rod (30604) is mounted at the tail end of the rotating connecting plate, when the posture adjusting cylinder piston rod is in a completely contracted state, the rotating connecting plate is in a horizontal state, when the posture adjusting cylinder piston rod moves, the posture adjusting cylinder piston rod drives the connected posture adjusting connecting block to move up and down, so that the posture adjusting pressing block connected with the posture adjusting connecting block and the moving shaft are driven to move up and down, and the moving shaft drives the rotating connecting plate and the height measuring rod connected with the rotating connecting plate to rotate around the fixed shaft through moving up and down.

5. The feed mechanism of claim 3, wherein: the posture adjusting pressing block is arranged in a horizontal L shape.

6. The feed mechanism of claim 3, wherein: the utility model discloses a material conveying device, including cutting device, feed back conveying mesh belt, ejection of compact conveying mesh belt, centre gripping translation rotary device, chuck (201) are equipped with to the top of centre gripping translation rotary device, the chuck includes the centre gripping finger that the symmetry set up, two the centre gripping finger passes the material on the centre gripping conveying mesh belt from the both sides of feed back conveying mesh belt and ejection of compact conveying mesh belt respectively and carries out the translation rotation.

7. The feed mechanism of claim 6, wherein: pay-off guipure tail end, backing plate front end, feed back conveying mesh belt, ejection of compact conveying mesh belt, left side board and right side hoarding synthesis discharge gate, the relative one-sided symmetry of left side board and right side board is equipped with wall (9) of mutual butt, the wall divide into first feed opening (10) and second feed opening (11) with the discharge gate, butt joint feed back conveying mesh belt below the first feed opening, butt joint ejection of compact conveying mesh belt below the second feed opening.

8. The feed mechanism of claim 7, wherein: the blanking baffle is positioned above the second blanking opening.

9. The feed mechanism of claim 1, wherein: the back conveying mesh belt runs in the reverse time direction, and the discharging mesh belt runs in the clockwise direction.

10. The feed mechanism of claim 7, wherein: the partition is a herringbone partition.

Images