CN112706224A

CN112706224A - Kelp segmentation continuous cutting processingequipment

Info

Publication number: CN112706224A
Application number: CN202011391203.XA
Authority: CN
Inventors: 曲洪进
Original assignee: Shandong Lidao Oceanic Technology Co ltd
Current assignee: Shandong Lidao Oceanic Technology Co ltd
Priority date: 2020-12-03
Filing date: 2020-12-03
Publication date: 2021-04-27
Anticipated expiration: 2040-12-03
Also published as: CN112706224B

Abstract

The invention belongs to the technical field of seaweed processing. In order to solve the technical problem of low efficiency caused by manual operation in the process of processing the kelp at present, the invention provides a kelp segmented continuous cutting and processing device, which comprises a suspended conveying chain, wherein a hook is arranged on the conveying chain, and the conveying chain can drive the kelp suspended on the hook to move forward under the driving of a driving device, and is characterized in that: the kelp tip cutting device and the at least one section cutting device are sequentially arranged below the conveying line of the conveying chain, the kelp tip and the kelp body are sequentially cut in the conveying process of the kelp, and the kelp body is cut into a plurality of sections after passing through the section cutting device. The device greatly improves the processing efficiency of the kelp and meets the requirement of industrial processing.

Description

Kelp segmentation continuous cutting processingequipment

Technical Field

The invention belongs to the technical field of seaweed processing, and particularly relates to a kelp subsection continuous cutting and processing device.

Background

At present, the processing steps of kelp at the early stage after harvesting mainly comprise the steps of blanching and sectional treatment, and the labor amount and the labor intensity are very large. With the increase of the kelp cultivation yield, the processing efficiency is more insufficient. Taking the blanching step as an example, the traditional blanching step needs to manually convey the kelp onto a conveyor belt, and the kelp is conveyed into a blanching pool through the conveyor belt to be blanched in the blanching pool. For raising the efficiency, there is the mode that processing enterprise design transport chain hung and send at present to go on, unload the point to float the top in boiling hot pond at the kelp and set up annular transport chain, unload the point and hang the whole root seedling rope of kelp on transport chain, transport through the transport chain makes the kelp whole cross the pond when blanching the pond and float and scald. The mode of adopting the chaining has greatly alleviateed operating personnel's intensity of labour. After the kelp is blanched, the kelp is subjected to sectional treatment, namely, the tip of the kelp is cut off, and then the kelp body is subjected to sectional cutting and kelp rhizoid collection. Since the kelp is in a flexible state, it is difficult to perform the above-mentioned segmental cutting operation while the kelp is suspended on the conveyor chain. Therefore, after the kelp is blanched, the kelp needs to be taken down from the conveying chain, and then each kelp is manually cut in a segmented manner, so that the steps of blanching and cutting cannot be effectively and continuously carried out, the processing efficiency of the kelp is greatly reduced, and the requirements of industrial large-scale processing are difficult to adapt.

Disclosure of Invention

In order to solve the technical problem of low efficiency caused by manual operation in the conventional kelp segmentation and cutting process, the invention provides the kelp segmentation and continuous cutting and processing device which can be used for automatically cutting the bleached kelp according to the number of segments required to be segmented, so that the continuity of kelp processing is ensured, the processing efficiency is greatly improved, and the requirements of industrial processing are met.

In order to achieve the technical purpose, the invention adopts the technical scheme that: the utility model provides a kelp segmentation continuous cutting processingequipment, it includes unsettled conveying chain that sets up, is equipped with the couple on the conveying chain, and the conveying chain can drive the kelp that hangs on the couple and move ahead its characterized in that under drive arrangement's drive: the kelp tip cutting device and the at least one section cutting device are sequentially arranged below the conveying line of the conveying chain, the kelp tip and the kelp body are sequentially cut in the conveying process of the kelp, and the kelp body is cut into a plurality of sections after passing through the section cutting device.

Furthermore, a receiving and conveying conveyor belt is respectively arranged below the kelp tip cutting device and the section cutting device, and the cut kelp tips or kelp bodies fall on the receiving and conveying conveyor belt and are conveyed away through the receiving and conveying conveyor belt.

Further, the kelp slightly cutting device comprises a box body arranged below the conveying chain, the front end of the box body is opened, and a cutter shaft is vertically fixed at the top in the box body; the cutter is characterized by also comprising a blade, wherein the blade is a rectangular strip-shaped blade, a cutter shaft penetrates through the blade body and is vertically fixed with the surface of the blade body, the cutter shaft is driven by a tip cutting motor, and the blade is driven to rotate by the rotation of the cutter shaft; the position of the cutter shaft penetrating through the blade body is located at the non-central position of the strip-shaped blade in the length direction, and when the blade rotates, part of the blade body can extend out of the front end opening of the box body.

Further, a cutter shaft supporting plate is further arranged in the box body, and the cutter shaft supporting plate is horizontally arranged and fixedly connected with the inner wall of the box body; the cutter shaft penetrates through the cutter shaft supporting plate, and a belt pulley is arranged at the bottom end of the cutter shaft; the top end of the cutter shaft and the top wall in the box are connected and fixed by bearings respectively.

Furthermore, the number of the cutter shafts and the number of the blades are two, and one blade is fixed on each cutter shaft.

Furthermore, the segmentation cutting device comprises support frames fixed on two sides below the conveying chain, clamping cylinders are fixed on the support frames on the two sides respectively, the two clamping cylinders are consistent in height and can rotate oppositely under the driving of a cutting motor, annular blade grooves with consistent height are formed in the cylinder bodies of the two clamping cylinders, a horizontally fixed segmentation blade is arranged behind the clamping cylinders, and the cutting edges of the segmentation blade extend into the blade grooves.

Furthermore, the blade grooves on the clamping cylinders are arranged in a plurality of ways from top to bottom on the cylinder body, and the plurality of blade grooves on the two clamping cylinders correspond to one another.

Furthermore, the segmented blade is fixed with the support frame through the blade carrier, and the blade carrier can be detached from the support frame.

Furthermore, an elastic fastening device is arranged between one clamping cylinder and the supporting frame on the same side, and the cylinder surfaces of the two clamping cylinders can be automatically separated and separated under the action of the elastic fastening device.

Furthermore, the elastic fastening device comprises a clamping cylinder mounting frame, the clamping cylinder is mounted on the clamping cylinder mounting frame and can rotate freely, a supporting spring is arranged between the clamping cylinder mounting frame and the supporting frame on the side, and two ends of the supporting spring are respectively connected with the supporting frame and the clamping cylinder mounting frame in an abutting mode.

The invention has the beneficial effects that: the device can make the kelp hang the in-process of operation and carry out the kelp slightly and the operation of kelp segmentation cutting automatically, whole in-process need not artifical the participation, can float the boiling hot step with hanging and link up smoothly, has greatly improved the machining efficiency of kelp, has adapted to the needs of batch production processing.

Drawings

FIG. 1 is a front view of the structure of the present invention.

Fig. 2 is a top view of the structure of the present invention.

Fig. 3 is a view from a-a in fig. 1.

Fig. 4 is a view from B-B in fig. 1.

Fig. 5 is an enlarged view of W in fig. 2.

Fig. 6 is a schematic view of a segmented blade structure.

Detailed Description

The invention is described in detail below with reference to the drawings and examples.

As shown in attached figures 1 and 2, the kelp segmentation continuous cutting and processing device comprises a suspended conveying chain 1, and a hook 2 is arranged on the conveying chain. Generally, when the kelp cutting machine is arranged in a workshop, the conveying chain 1 is arranged in a closed ring shape, the kelp 3 is hung on the conveying chain 1 through the hook 2, and the conveying chain drives the kelp to rotate through the driving device, so that the kelp sequentially passes through all processing steps until the kelp is cut.

As shown in the attached figure 1, a kelp tip cutting device 4 and a section cutting device 5 are sequentially arranged below a conveying line of a conveying chain 1, and in the advancing process of kelp, the kelp firstly passes through the kelp tip cutting device 4 to cut off the kelp tip, and then the kelp body is cut in sections through the section cutting device 5. The number of segment cutting means 5 is set according to the number of segments. As shown in fig. 1 and 2, in this embodiment, after the kelp body from which the kelp is removed is cut twice, the kelp body is divided into two sections, and the kelp rhizoid is kept on the transport chain to continue to move forward and is removed through the next process. If the number of the cutting sections of the sea-tangle body is increased, the number of the segmentation cutting devices is correspondingly increased, the cutting positions of the plurality of segmentation cutting devices on the sea-tangle body are sequentially increased along the transportation direction, and the cutting position of the last segmentation cutting device is basically close to the rhizoid part of the sea-tangle body, namely, the cutting device is used for cutting the rhizoid.

As shown in fig. 1 and 2, a receiving and conveying conveyor belt 6 is respectively arranged below the kelp tip cutting device 4 and the section cutting device 5, and the cut kelp tips or kelp bodies fall on the receiving and conveying conveyor belt 6 and are conveyed away by the receiving and conveying conveyor belt.

As shown in fig. 1, fig. 2 and fig. 3, in this embodiment, the kelp cutting device 4 includes a box 41 disposed below the conveyor chain, the front end of the box 41 is open, a knife shaft 42 is vertically fixed at the top of the box, the knife shaft 42 is driven by a cutting motor 43, a blade 44 is fixed on the knife shaft 42, and the blade 44 is driven to rotate by the rotation of the knife shaft 42. In this embodiment, the blade 44 is a rectangular strip-shaped blade, when rotating, part of the blade body of the blade can extend out of the front opening of the box, when the kelp advances to the position of the kelp slightly cutting device 4, the rotating blade 44 slightly cuts off the kelp with a length exceeding the position of the blade, and the cut kelp slightly falls down on the lower receiving and conveying belt 6 and is conveyed away by the conveying belt 6.

As shown in fig. 3, in order to increase the stability of the rotation of the blade 44, a knife shaft support plate 45 is further arranged in the box body 41, and the knife shaft support plate 45 is horizontally arranged and connected and fixed with the inner wall of the box body 41; the cutter shaft 42 penetrates through a cutter shaft supporting plate 45, a belt pulley 46 is arranged at the bottom end of the cutter shaft, and the belt pulley 46 and the tip cutting motor 43 are driven by a transmission belt; the top end of the cutter shaft 42 is connected and fixed with the top wall in the box, and the cutter shaft 42 is connected and fixed with the cutter shaft supporting plate 45 by a bearing 47.

As shown in fig. 3, in the present embodiment, there are two cutter shafts 42 and two blades 44, and one blade 44 is fixed to each cutter shaft 42, and the two cutter shafts 42 rotate synchronously.

In this embodiment, the blade 44 mainly performs sweeping cutting on the tip of the kelp, that is, the blade is used to rapidly sweep and cut the tip of the kelp in a moving state of the kelp.

As shown in fig. 3, the blade 44 and the knife shaft 42 are preferably installed in such a way that the position of the knife shaft 44 penetrating through the blade body is located at a non-central position in the length direction of the strip-shaped blade, i.e. the blade 44 is in an eccentric rotation state, firstly, the length of the blade 44 can be reduced, since the blade 44 needs to extend out of the front end opening of the box body to be slightly contacted with the kelp when rotating, and due to the adoption of the eccentric installation, the blade body with a longer side of the knife shaft 44 can extend out of the front end opening of the box body, which is equivalent to the length of the blade; the second step is as follows: compared with the central installation mode, the eccentric installation mode is adopted, and under the action of the eccentric force, the blade can generate larger sweeping and cutting force, so that the kelp can be slightly cut off.

Through the description and the attached drawing 3, when the double-blade cutting mode is adopted, because the rotation of the two cutter shafts has a certain phase difference, the two blades slightly sweep and cut the kelp with a certain time difference, and through the time difference, the two blades slightly perform the function of 'bisection' on the kelp, namely after one blade slightly cuts off the kelp of one kelp, the other blade blocks the next kelp, and the other blade slightly cuts off the kelp of the next kelp, so that the two blades can slightly and smoothly cut off the kelp even if the kelp is in a state of forward suspension.

The kelp body with the cut kelp later continues to move forward under the drive of the conveying chain 1 to reach the section cutting device 5.

As shown in fig. 1 and fig. 2, the segmentation cutting device 5 includes support frames 7 fixed on two sides below the conveying chain 1, and as shown in fig. 4, a clamping cylinder mounting frame 8 is respectively fixed on the support frames on two sides, a clamping cylinder 9 is mounted on the mounting frame 8, the two clamping cylinders 9 have the same height, and the two clamping cylinders can rotate in opposite directions under the driving of a cutting motor 10.

As shown in fig. 4, the cylinder bodies of the two holding cylinders are provided with annular blade grooves 11 with the same height, the blade grooves are arranged in a plurality of ways from top to bottom on the cylinder bodies, and the plurality of blade grooves on the two holding cylinders are in one-to-one correspondence. Referring to fig. 5, a horizontally fixed segmented blade 12 is provided at the rear of the clamping cylinder, and the cutting edge of the segmented blade 12 extends into the blade groove.

As shown in fig. 6, the segmented blade 12 is provided with a fixing hole 13, and referring to fig. 5, the segmented blade 12 is fixed with the blade holder 14 through the fixing hole 13, the blade holder 14 is fixed with the supporting frame 7, and the blade holder 14 can be freely detached from the supporting frame 7.

As shown in fig. 5 in conjunction with fig. 4, the sectioning blades 12 may be installed inside the annular blade grooves 11 of different heights according to the height of the cut kelp, and adjusted by the installation height of the blade holder 14. When the kelp moves forward under the driving of the conveying chain 1 and passes through the sectioning cutting device 5, the kelp is clamped by the two clamping cylinders 9 and moves forward under the combined action of the clamping of the conveying chain 1 and the two clamping cylinders 9, and after the kelp is contacted with the sectioning blade 12, the kelp is cut off by the sectioning blade 12, and the cut part falls on the lower receiving and conveying belt 6 and is conveyed away by the conveying belt 6.

As shown in fig. 1 and fig. 2, in this embodiment, when the kelp body with the tip removed from the kelp passes through the first sectioning point 5, the kelp body is cut by the first knife, the first section of the kelp body is cut off, and when the kelp body passes through the second sectioning point 5, the kelp body is cut by the second knife, generally, the sectioning blade of the second sectioning point 5 is close to the conveying chain 1, that is, after the kelp body is cut by the second sectioning point, substantially only the kelp root is retained on the conveying chain 1, and the whole kelp body is cut and falls off in two sections.

When the kelp body needs to be cut in multiple sections, only the number of the section cutting devices 5 needs to be increased, the heights of the section blades on the section cutting devices 5 are sequentially increased, and the height of the section blade on the last section cutting device 5 is close to the conveying chain 1.

As shown in fig. 2, an elastic fastening device is arranged between one clamping cylinder 9 of the segmentation cutting device 5 and the supporting frame 1 on the same side, the elastic fastening device comprises a clamping cylinder mounting frame 7, the clamping cylinder 9 is mounted on the clamping cylinder mounting frame 7 and can rotate freely, a supporting spring 14 is arranged between the clamping cylinder mounting frame 7 and the supporting frame 1 on the side, and two ends of the supporting spring 14 are respectively connected with the supporting frame and the clamping cylinder mounting frame in an abutting mode. The supporting spring 14 is arranged, so that the clamping cylinders 9 on the side can move back and forth, when the thickness of the kelp between the two clamping cylinders changes, the gap between the two clamping cylinders can be automatically adjusted, and the two clamping cylinders are always ensured to clamp the kelp.

Claims

1. The utility model provides a kelp segmentation continuous cutting processingequipment, it includes unsettled conveying chain that sets up, is equipped with the couple on the conveying chain, and the conveying chain can drive the kelp that hangs on the couple and move ahead its characterized in that under drive arrangement's drive: the kelp tip cutting device and the at least one section cutting device are sequentially arranged below the conveying line of the conveying chain, the kelp tip and the kelp body are sequentially cut in the conveying process of the kelp, and the kelp body is cut into a plurality of sections after passing through the section cutting device.

2. The device for cutting and processing kelp in sections and continuously according to claim 1, wherein: and the lower parts of the kelp tip cutting device and the section cutting device are respectively provided with a receiving and conveying belt, and the cut kelp tips or kelp bodies fall on the receiving and conveying belt and are conveyed away by the receiving and conveying belt.

3. The device for cutting and processing kelp in sections and continuously according to claim 1, wherein: the kelp tip cutting device comprises a box body arranged below the conveying chain, the front end of the box body is opened, and a cutter shaft is vertically fixed at the top in the box body; the cutter is characterized by also comprising a blade, wherein the blade is a rectangular strip-shaped blade, a cutter shaft penetrates through the blade body and is vertically fixed with the surface of the blade body, the cutter shaft is driven by a tip cutting motor, and the blade is driven to rotate by the rotation of the cutter shaft; the position of the cutter shaft penetrating through the blade body is located at the non-central position of the strip-shaped blade in the length direction, and when the blade rotates, part of the blade body can extend out of the front end opening of the box body.

4. The device for cutting and processing kelp in sections and continuously as claimed in claim 3, wherein: a cutter shaft supporting plate is further arranged in the box body, and the cutter shaft supporting plate is horizontally arranged and connected and fixed with the inner wall of the box body; the cutter shaft penetrates through the cutter shaft supporting plate, and a belt pulley is arranged at the bottom end of the cutter shaft; the top end of the cutter shaft and the top wall in the box are connected and fixed by bearings respectively.

5. The device for the segmental and continuous cutting processing of kelp according to claim 3 or 4, wherein: the cutter shaft and the blades are respectively two, and one blade is fixed on each cutter shaft.

6. The device for cutting and processing kelp in sections and continuously according to claim 1, wherein: the segmented cutting device comprises supporting frames fixed on two sides below the conveying chain, clamping cylinders are fixed on the supporting frames on the two sides respectively, the two clamping cylinders are consistent in height and can rotate oppositely under the driving of a cutting motor, annular blade grooves with consistent height are formed in the cylinder bodies of the two clamping cylinders, a horizontally fixed segmented blade is arranged behind the clamping cylinders, and the cutting edges of the segmented blade extend into the blade grooves.

7. The device for cutting and processing kelp in sections and continuously as claimed in claim 6, wherein: the blade grooves on the clamping cylinders are arranged in a plurality of ways from top to bottom on the cylinder body, and the plurality of blade grooves on the two clamping cylinders correspond to one another.

8. The device for the segmental and continuous cutting processing of kelp according to claim 6 or 7, wherein: the segmented blade is fixed with the support frame through the blade carrier, and the blade carrier can be detached from the support frame.

9. The device for the segmental and continuous cutting processing of kelp according to claim 6 or 7, wherein: an elastic fastening device is arranged between one clamping cylinder and the supporting frame on the same side, and the cylinder surfaces of the two clamping cylinders can be automatically separated and separated under the action of the elastic fastening device.

10. The device for cutting and processing kelp in sections and continuously as claimed in claim 9, wherein: the elastic fastening device comprises a clamping cylinder mounting frame, a clamping cylinder is mounted on the clamping cylinder mounting frame and can rotate freely, a supporting spring is arranged between the clamping cylinder mounting frame and the supporting frame on the side, and two ends of the supporting spring are respectively connected with the supporting frame and the clamping cylinder mounting frame in an abutting mode.