CN211030186U

CN211030186U - Sugarcane cutting device for food processing

Info

Publication number: CN211030186U
Application number: CN201921141975.0U
Authority: CN
Inventors: 刘荣波; 张春芳
Original assignee: Jiangsu Weile Yisheng Food Technology Co ltd
Current assignee: Jiangsu Weile Yisheng Food Technology Co ltd
Priority date: 2019-07-20
Filing date: 2019-07-20
Publication date: 2020-07-17
Anticipated expiration: 2029-07-20

Abstract

A sugarcane cutting device for food processing is characterized in that a plurality of driven shafts are arranged at two ends of a rack respectively and connected through a conveying belt; the bottom of the rack is provided with a driving device I, and the driving device I is connected with one driven shaft through a transmission piece so as to drive the conveying belt to carry out conveying work; the middle part of the rack is also provided with a plurality of height adjusting shafts parallel to the driven shaft, and the height adjusting shafts are positioned above the conveyer belt, so that the conveyer belt positioned in the middle part of the rack sinks to form a concave surface; the machine frame is provided with a cross-over knife rest above the concave surface, and the knife rest is provided with a cutter assembly capable of moving up and down; the rack is provided with a pressing component on the left side of the knife rest, and the rack is also provided with an infrared sensing device and a sterilizing lamp which stretches across the conveying belt through a sterilizing base on the right side of the knife rest in sequence; the pressing assembly, the infrared sensing device, the sterilizing lamp, the cutter assembly and the driving device I are all connected with the controller. The utility model discloses, cut off convenient and fast, can realize continuous dissection, improved work efficiency greatly to the labour has been saved.

Description

Sugarcane cutting device for food processing

Technical Field

The utility model relates to a food processing technology field, especially a sugarcane dissection device for food processing.

Background

At present, food manufacturers generally need to cut processing raw materials into sections, so that the development of subsequent processes is facilitated, particularly in the processing industries of fruit and vegetable powder and nutritional meal replacement powder, in the industries, particularly, sugarcane needs to be cut into sections, and then the next step of processing is carried out, but the current food slicing mostly adopts manual cutting, the cutting efficiency is low, the sugarcane cannot move during cutting, and continuous cutting cannot be realized.

SUMMERY OF THE UTILITY MODEL

In view of the above, an object of the utility model is to provide a sugarcane dissection device for food processing, solve that the manual work dependence that appears among the prior art is great, realize continuous dissection, further provide machining efficiency.

The utility model adopts the technical proposal that: a sugarcane cutting device for food processing comprises a rack and a controller arranged on the rack; a plurality of driven shafts are respectively arranged at two ends of the rack and connected through a conveying belt; the bottom of the rack is provided with a driving device I, and the driving device I is connected with one driven shaft through a transmission piece so as to drive the conveying belt to carry out conveying work; the middle part of the rack is also provided with a plurality of height adjusting shafts parallel to the driven shaft, and the height adjusting shafts are positioned above the conveyer belt, so that the conveyer belt positioned in the middle part of the rack sinks to form a concave surface; the machine frame is provided with a cross-over knife rest above the concave surface, and the knife rest is provided with a cutter assembly capable of moving up and down; the rack is provided with a pressing component on the left side of the knife rest, and the rack is also provided with an infrared sensing device and a sterilizing lamp which stretches across the conveying belt through a sterilizing base on the right side of the knife rest in sequence; the pressing assembly, the infrared sensing device, the sterilizing lamp, the cutter assembly and the driving device I are all connected with the controller; the material is placed on the conveyer belt, is carried to infrared induction device department by the conveyer belt, receives material information and feeds back to the controller through infrared induction device, and the controller stops drive arrangement I and makes the conveyer belt stop transport work, and the while control ware makes to compress tightly the subassembly and pushes down fixed material, then makes cutter unit move down and carries out the dissection work, and the back is disinfected through the bactericidal lamp.

Preferably, the cutter assembly consists of a movable cutter holder, a telescopic cylinder, a connecting plate, a cutter holder plate, a cutter mounting seat with a cutter and a driving device II, wherein the telescopic cylinder is arranged at the left end of the movable cutter holder, and the connecting plate is arranged at the right end of the movable cutter holder; one end of the tool rest plate is hinged with the connecting plate, and the other end of the tool rest plate is connected with the top end of a piston of the telescopic cylinder; the cutter mounting seat with the cutter and the driving device II are arranged on the cutter frame plate, and the cutter is driven to rotate through the driving device II; make telescopic cylinder drive the tool rest board through the controller and use the pin joint as the centre of a circle and carry out anticlockwise or clockwise rotation, realize reciprocating of cutter.

Preferably, when the cutter moves downwards to cut the sections, the cutter is positioned between the two height adjusting shafts or above the height adjusting shafts.

Preferably, the tool rest is further provided with a screw rod and a driving device III, the driving device III is connected with the screw rod through a coupler, the cutter assembly is movably connected to the screw rod through a movable cutter holder, and the movable cutter holder is driven to move back and forth through the driving device III.

Preferably, the tool rest plate is further provided with a spring at one side of the joint of the telescopic cylinder, the tail end of the spring is connected with the movable tool apron, and the spring is used for buffering to further prolong the service life of the cutter assembly.

Preferably, be equipped with the spacing post that corresponds with the preceding/back facade of removal blade holder respectively on the knife rest, limit the removal blade holder through spacing post respectively and move forward or backward, prevent to move excessively, improve machining efficiency, spacing post still is equipped with the rubber sleeve with removal blade holder contact department, prevents to contact the in-process collision and improves life.

Preferably, the compressing assembly consists of a compressing block, a compressing cylinder and a fixing frame, the fixing frame is fixed on the rack and spans above the conveying belt, the compressing cylinder is fixed on the fixing frame, and the top end of a piston of the compressing cylinder is fixedly connected with the compressing block.

Preferably, a rubber cushion layer is arranged on the bottom surface of the pressing block, which is in contact with the material.

The utility model discloses, simple structure, convenient to use receives material information and feeds back to the controller through infrared induction device, and the controller makes the conveyer belt stop to carry work, and the simultaneous control ware makes to compress tightly the subassembly and pushes down fixed material, then makes cutter unit spare move down and carry out the dissection work to disinfect through the bactericidal lamp, realize continuous dissection, improved work efficiency greatly, and saved the labour.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

fig. 2 is a right side view of the portion of the tool holder of fig. 1.

In the figure: 1 frame, 2 driven shafts, 3 conveyer belts, 4 drive arrangement I, 5 altitude mixture control axles, 6 knife rests, 7 cutter unit spares 8 and compresses tightly subassembly, 9 infrared induction device, 10 bactericidal lamps.

Detailed Description

As shown in fig. 1 and 2, a sugarcane cutting device for food processing comprises a frame 1 and a controller arranged on the frame 1; a plurality of driven shafts 2 are respectively arranged at two ends of the rack 1, and the driven shafts 2 are connected through a conveying belt 3; the bottom of the rack 1 is provided with a driving device I4, and the driving device I4 is connected with one of the driven shafts 2 through a transmission part so as to drive the conveying belt 3 to carry out conveying work; the middle part of the rack 1 is also provided with a plurality of height adjusting shafts 5 parallel to the driven shaft 2, and the height adjusting shafts 5 are positioned above the conveyer belt 3, so that the conveyer belt 3 positioned in the middle part of the rack 1 sinks to form a concave surface; a cross-over tool rest 6 is arranged above the concave surface of the frame 1, and a cutter assembly 7 capable of moving up and down is arranged on the tool rest 6; the pressing assembly 8 is arranged on the left side of the tool rest 6 of the rack 1, and the infrared sensing device 9 is further arranged on the right side of the tool rest 6 of the rack 1; the rack 1 is also sequentially provided with an infrared sensing device 9 and a sterilizing lamp 10 which stretches across the conveying belt 3 through a sterilizing base on the right side of the knife rest 6; the pressing assembly 8, the infrared sensing device 9, the sterilizing lamp 10, the cutter assembly 7 and the driving device I4 are all connected with a controller; the material is placed on conveyer belt 3, is carried to infrared induction device 9 department by conveyer belt 3, receives material information and feeds back to the controller through infrared induction device 9, and the controller stops drive arrangement I4 and makes conveyer belt 3 stop to carry work, and the while controller makes to compress tightly subassembly 8 and pushes down fixed material, then makes cutter unit 7 move down and carries out the dissection work, and the back is disinfected through bactericidal lamp 10.

As shown in fig. 2, the cutter assembly 7 is composed of a movable cutter holder 71, a telescopic cylinder 72, a connecting plate 73, a cutter holder plate 74, a cutter mounting seat 76 with a cutter 75 and a driving device ii 77, wherein the telescopic cylinder 72 is arranged at the left end of the movable cutter holder 71, and the connecting plate 73 is arranged at the right end of the movable cutter holder 71; one end of the tool rest plate 74 is hinged with the connecting plate 73, and the other end of the tool rest plate is connected with the top end of the piston of the telescopic cylinder 72; the tool mounting seat 76 with the tool 75 and the driving device II 77 are arranged on the tool rest plate 74, and the tool 75 is driven to rotate by the driving device II 77; the telescopic cylinder 72 drives the tool rest plate 74 to rotate counterclockwise or clockwise around the hinge point through the controller, so as to move the tool 75 up and down. Preferably, when the cutter 75 moves downwards to cut into sections, the cutter 75 is located between the two height adjusting shafts 5 or above the height adjusting shafts 5, so that the cutter 75 is prevented from being damaged by contact with the height adjusting shafts 5 in the cutting process of the cutter 75, and the service life of the cutter 75 is further prolonged. The cutter frame 6 is also provided with a screw rod 61 and a driving device III 62, the driving device III 62 is connected with the screw rod 61 through a coupler, the cutter assembly 7 is movably connected to the screw rod 61 through a movable cutter holder 71, and the driving device III 62 drives the movable cutter holder 71 to move back and forth, so that the cutter 75 can move back and forth to cut all the input materials into sections, no cutting dead angle exists, and the processing efficiency is improved; a spring is further arranged on one side of the tool rest plate 74 at the joint of the telescopic cylinder 72, the tail end of the spring is connected with the movable tool rest 71, and the service life of the cutter assembly is further prolonged by buffering through the spring; the tool rest 6 is provided with limiting columns corresponding to the front/rear vertical surfaces of the movable tool apron 71 respectively, the movable tool apron 71 is limited to move forwards or backwards through the limiting columns respectively, excessive movement is prevented, machining efficiency is improved, the limiting columns are further provided with rubber sleeves at the contact positions with the movable tool apron 71, collision in the contact process is prevented, and service life is prolonged; the pressing assembly 8 is composed of a pressing block, a pressing cylinder and a fixing frame, the fixing frame is fixed on the rack 1 and stretches over the conveying belt 3, the pressing cylinder is fixed on the fixing frame, and the top end of a piston of the pressing cylinder is fixedly connected with the pressing block. The bottom surface of the pressing block, which is in contact with the material, is provided with a rubber cushion layer, and the surface of the pressed material is protected by the rubber cushion layer.

When the device is used, the device is connected with an external power supply, the device is powered on, materials are placed on the conveying belt 3, then the controller is operated to enable the driving device I4 to drive the conveying belt 3 to work, when the conveying belt 3 conveys the materials to the infrared sensing device 9, the infrared sensing device 9 receives material information and feeds the material information back to the controller, the controller stops the driving device I4 to enable the conveying belt 3 to stop conveying work, then the controller enables the pressing cylinder on the pressing assembly 8 to work to drive the pressing block to press down to fix the materials, then the controller enables the driving device II 77 to drive the cutter 75 to rotate, the telescopic cylinder 72 on the cutter assembly 7 extends to drive the cutter 75 to move downwards, the driving device III 62 drives the cutter 75 to move forwards and backwards to cut the materials below, after the cutting of the materials is finished, the controller enables the cutter 75 to stop rotating, and the telescopic cylinder 72 resets, and drives the cutter 75 to return to the initial position through the driving device III 62; then the conveyer belt 3 continues to carry out the conveying work, the cut materials are sterilized through the sterilizing lamp 10, and the above work is repeatedly circulated until the cutting is completed.

The utility model discloses, simple structure, convenient to use receives material information and feeds back to the controller through infrared induction device 9, and the controller makes conveyer belt 3 stop transport work, and the simultaneous control ware makes to compress tightly 8 fixed materials of pushing down of subassembly, then makes cutter unit spare 7 downstream carry out dissection work to disinfect through bactericidal lamp 10, realize continuous dissection, improved work efficiency greatly, and saved the labour.

Although specific embodiments of the present invention have been described above, it will be appreciated by those skilled in the art that these are merely examples and that many changes and modifications may be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims.

Claims

1. A sugarcane cutting device for food processing comprises a rack (1) and a controller arranged on the rack (1); the method is characterized in that: a plurality of driven shafts (2) are respectively arranged at two ends of the rack (1), and the driven shafts (2) are connected through a conveying belt (3); the bottom of the rack (1) is provided with a driving device I (4), and the driving device I (4) is connected with one driven shaft (2) through a transmission part so as to drive the conveying belt (3) to carry out conveying work; the middle of the rack (1) is also provided with a plurality of height adjusting shafts (5) parallel to the driven shaft (2), and the height adjusting shafts (5) are positioned above the conveyer belt (3) so that the conveyer belt (3) positioned in the middle of the rack (1) sinks to form a concave surface; a cross tool rest (6) is arranged above the concave surface of the frame (1), and a cutter assembly (7) capable of moving up and down is arranged on the tool rest (6); the rack (1) is provided with a pressing component (8) on the left side of the tool rest (6), and the rack (1) is also provided with an infrared sensing device (9) on the right side of the tool rest (6); the rack (1) is also sequentially provided with an infrared sensing device (9) and a sterilizing lamp (10) which stretches across the conveying belt (3) through a sterilizing base on the right side of the knife rest (6); the pressing assembly (8), the infrared sensing device (9), the bactericidal lamp (10), the cutter assembly (7) and the driving device I (4) are all connected with the controller; the material is placed on conveyer belt (3), is carried to infrared induction device (9) department by conveyer belt (3), receives material information and feeds back to the controller through infrared induction device (9), and the controller makes conveyer belt (3) stop to carry work, compresses tightly subassembly (8) and pushes down fixed material, and cutter unit spare (7) move down carries out the dissection work, and bactericidal lamp (10) disinfect.

2. The sugar cane cutting apparatus for food processing according to claim 1, wherein: the cutter assembly (7) consists of a movable cutter holder (71), a telescopic cylinder (72), a connecting plate (73), a cutter frame plate (74), a cutter mounting seat (76) with a cutter (75) and a driving device II (77), wherein the telescopic cylinder (72) is arranged at the left end of the movable cutter holder (71), and the connecting plate (73) is arranged at the right end of the movable cutter holder (71); one end of the tool rest plate (74) is hinged with the connecting plate (73), and the other end of the tool rest plate is connected with the top end of a piston of the telescopic cylinder (72); the cutter mounting seat (76) with the cutter (75) and the driving device II (77) are arranged on the cutter frame plate (74), and the cutter (75) is driven to rotate through the driving device II (77); the telescopic cylinder (72) drives the tool rest plate (74) to rotate anticlockwise or clockwise by taking the hinged point as a circle center, so that the tool (75) can move up and down.

3. The sugar cane cutting device for food processing according to claim 2, wherein: the cutting knife is characterized in that the knife rest (6) is further provided with a screw rod (61) and a driving device III (62), the driving device III (62) is connected with the screw rod (61) through a coupler, the cutting knife assembly (7) is movably connected onto the screw rod (61) through a movable knife holder (71), and the movable knife holder (71) is driven to move back and forth through the driving device III (62).

4. A sugar cane cutting apparatus for food processing according to claim 3, wherein: the cutter (75) is positioned between the two height adjusting shafts (5) or above the height adjusting shafts (5) when moving downwards for cutting.

5. The sugar cane cutting device for food processing according to claim 2, wherein: and a spring is further arranged on one side of the tool rest plate (74) at the joint of the telescopic cylinder (72), and the tail end of the spring is connected with the movable tool rest (71).

6. The sugar cane cutting device for food processing according to claim 2, wherein: the tool rest (6) is provided with a limiting column corresponding to the front/rear vertical surfaces of the movable tool apron (71), and a rubber sleeve is arranged at the contact position of the limiting column and the movable tool apron (71).

7. The sugar cane cutting apparatus for food processing according to claim 1, wherein: the pressing assembly (8) is composed of a pressing block, a pressing cylinder and a fixing frame, the fixing frame is fixed on the rack (1) and stretches over the conveying belt (3), the pressing cylinder is fixed on the fixing frame, and the top end of a piston of the pressing cylinder is fixedly connected with the pressing block.

8. The sugar cane cutting apparatus for food processing according to claim 7, wherein: and a rubber cushion layer is arranged on the bottom surface of the pressing block, which is in contact with the material.