CN114084414A - Sea sedge burst conveyor - Google Patents

Abstract

The invention discloses a seaweed slicing and conveying device which comprises a shaking-dispersing device and a slicing device, wherein the slicing device disperses piled seaweed to single seaweed; the shaking and stacking device comprises a vibration chamber, a dispersing and stacking mechanism and a connecting channel group, wherein the dispersing and stacking mechanism shakes and spreads the piled sea sedges to the connecting channel group in a vibration state, and transfers the piled sea sedges in a stacking cleaning state and carries out vibration and dispersion again; the slicing device comprises a slicing mechanism connected to the tail end of the connecting channel group and a vibration driving mechanism connected to the slicing mechanism, wherein the vibration driving mechanism is used for forming limiting areas on two sides of the slicing mechanism and adjusting the inclination angle of the slicing mechanism and driving the slicing mechanism to vibrate. According to the invention, the stacked sea sedges are subjected to dispersion treatment by the shaking and dispersing device, and the stacked sea sedges are conveyed to the slicing device in batches, so that the stacking of the sea sedges in the conveying process is avoided, and the sea sedges are gradually sliced to be in a single-slice state by the slicing device, so that the yield of the sea sedge production line is improved.

Description

Sea sedge burst conveyor

Technical Field

The invention relates to the technical field of sea sedge processing, in particular to a sea sedge slicing and conveying device.

Background

The sea sedge is a processed product of the laver, has crisp and tender mouthfeel and rich nutrition, tastes delicious after being subjected to seasoning processing, is a popular common food, the existing sea sedge processing needs to be subjected to secondary processing of seasoning and drying after being subjected to primary slicing processing, and the sea sedge slices need to be conveyed to processing stations in a processing preparation process in order to facilitate subsequent sea sedge slice processing.

The existing seaweed sheet processing production line adopts the manual work to place the seaweed sheets to be processed on the conveying belt one by one, the efficiency of the manual processing process is low, more manpower and material resources are consumed, and the timed processing of a subsequent processing device is inconvenient.

In the prior art, the piled sea sedge sheets are subjected to the slicing treatment in a slicing clamping mode, and the sliced sea sedge sheets are fragile, so that the external parts of the sliced sea sedge sheets are easily damaged in the slicing clamping mode, the slicing rate of the sea sedge is low, and the quality of the sea sedge products is influenced.

Disclosure of Invention

Therefore, the invention provides a seaweed slicing and conveying device which effectively solves the problems that the seaweed slicing rate is low and the quality of seaweed products is influenced in the prior art.

In order to solve the technical problems, the invention specifically provides the following technical scheme: a sea sedge slicing and conveying device comprises a shaking and scattering device and a slicing device which are connected in sequence, wherein the shaking and scattering device is used for shaking and scattering sea sedges, and the slicing device is used for gradually scattering piled sea sedges into single sea sedges;

the shaking and stacking device comprises a vibration chamber, a dispersing and stacking mechanism and a connecting channel group arranged at an outlet of the vibration chamber, wherein an inlet for entering the piled sea sedge is formed in the vibration chamber, the dispersing and stacking mechanism is used for shaking and stacking the piled sea sedge to the connecting channel group in a vibration state and transferring the piled sea sedge at the outlet of the vibration chamber to the other end of the vibration chamber in a cleaning and stacking state so as to enable the piled sea sedge to be vibrated and stacked again, and the connecting channel group is connected between the vibration chamber and the slicing device and is used for enabling the scattered sea sedge to enter the slicing device;

a workbench is arranged below the vibration chamber, and the vibration chamber is arranged on the workbench through the dispersing and accumulating mechanism;

the dispersion is piled up the mechanism and is in including setting up dispersion in the vibration chamber is dialled the piece and is set up drive assembly outside the vibration chamber, the dispersion is dialled the piece and is cleared up the start under the state of piling up and shift to pile up becomes a buttress sea sedge to the import department of vibration chamber, drive assembly drives respectively under the state is piled up in the clearance dispersion is dialled the piece and is moved and drive under the vibration state the vibration chamber vibration.

As a preferred scheme of the present invention, the dispersion shifting element includes a semicircular base pillar disposed in the vibration chamber, and a shifting plate rotatably connected to the semicircular base pillar, two ends of the shifting plate are connected to L-shaped connecting rods, the L-shaped connecting rods are embedded at two ends of the semicircular base pillar, and the shifting plate rotates about the semicircular base pillar as a rotation axis through the L-shaped connecting rods;

wherein, be provided with the transportation chamber that supplies the sea sedge vibration transportation in the semicircle pillar, the upper surface of transportation intracavity lower wall with dial the board and keep flat.

As a preferable scheme of the present invention, the driving assembly includes a first vibration motor disposed below the vibration chamber and a rotation motor connected to the L-shaped connecting rod, the first vibration motor drives the vibration chamber to vibrate, and the rotation motor drives the dial plate to rotate through the L-shaped connecting rod to drive the seaweed on the dial plate to be transferred to the other side of the semicircular base pillar.

As a preferable scheme of the present invention, the connection channel group includes a trapezoidal channel disposed at an outlet of the vibration chamber, and a straight channel connected to a terminal of the trapezoidal channel, and front ends of adjacent trapezoidal channels are connected to each other;

the width of the straight channel is slightly larger than that of the single sea sedge, the end part of the poking plate extends to the joint of the trapezoidal channel and the straight channel, and the end part of the poking plate is matched with the trapezoidal channel.

As a preferred scheme of the invention, the slicing device comprises a slicing mechanism connected to the tail end of the connecting channel group and a vibration driving mechanism connected to the slicing mechanism, the slicing mechanism is used for gradually dispersing stacked sea sedges to a single-chip state, the vibration driving mechanism is used for forming limiting areas on two sides of the slicing mechanism, adjusting the inclination angle of the slicing mechanism and driving the slicing mechanism to vibrate;

the slicing mechanism comprises a sorting table arranged at the tail end of the straight channel and a sorting orifice plate arranged at the tail end of the sorting table, the sorting tables are transversely arranged in a step shape, and each sorting table is arranged on the vibration driving mechanism;

the sorting pore plates are provided with sorting holes for the seaweed to pass through, the sorting holes in the sorting pore plates are sequentially reduced, and the height of the sorting holes in the sorting pore plates arranged at the tail ends is slightly smaller than the double thickness of the single seaweed.

As a preferred scheme of the invention, the vibration driving mechanism comprises limiting plates arranged at two sides of the sorting table, a vibration driven shaft connected to the limiting plates, a fixed seat connected to one end of the limiting plates, and a sliding seat connected to the other end of the limiting plates;

the sorting table is used for sorting seaweed, and comprises a sorting table, a sorting table and limiting plates, wherein the limiting plates are used for limiting two sides of the sorting table, and the distance between the limiting plates at two sides is slightly larger than the width of the seaweed;

one end of the limiting plate is rotatably connected to the fixed seat through a first rotating shaft, and the other end of the limiting plate is rotatably connected to the sliding seat through a second rotating shaft.

As a preferred scheme of the invention, a horizontal frame is arranged on the workbench, a horizontal beam is arranged on the horizontal frame according to gradient, the fixed seat is fixedly arranged on the horizontal beam, and the sliding seat is slidably arranged on the horizontal beam;

the sliding seat is composed of a sliding base, an adjusting cylinder and a fixed top seat, the sliding base is arranged on the horizontal beam in a sliding mode, the fixed top seat is connected to the sliding base through the adjusting cylinder, and the first rotating shaft is arranged on the fixed top seat in a rotating mode.

In a preferred embodiment of the present invention, the vibration driven wheel is connected to the shaft, the vibration driven wheel is connected to a second vibration motor via a transmission belt, the second vibration motor is attached to the horizontal beam, and a tension pulley is provided in the transmission belt.

According to the preferable scheme, the tension wheel is connected with a connecting seat, the lower end of the connecting seat is connected with a height-adjusting cylinder, the height-adjusting cylinder is fixedly arranged on the horizontal beam, and the tension wheel is rotatably connected to the connecting seat through a connecting shaft rod.

Compared with the prior art, the invention has the following beneficial effects:

according to the invention, the shaking and scattering device is arranged before the sea sedge is processed, the piled sea sedges are scattered and processed, the piled sea sedges are conveyed to the slicing device in batches, the accumulation in the sea sedge conveying process is avoided, the sea sedges are gradually sliced and processed to be in a single-slice state in the slicing device, the sea sedges are gradually scattered and sliced in a mode of firstly piling and then slicing, the single-output sea sedges are ensured to be in the single-slice state, the sea sedge slicing and conveying process is effectively completed, and the yield of the sea sedge production line is improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It should be apparent that the drawings in the following description are merely exemplary, and that other embodiments can be derived from the drawings provided by those of ordinary skill in the art without inventive effort.

Fig. 1 is a schematic structural view of a laver sheet conveying device according to an embodiment of the present invention;

FIG. 2 is a schematic view of the structure of the dispersion dial and the rotating motor in an embodiment of the present invention;

FIG. 3 is a schematic side view of a dispersion member according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a vibration driving mechanism in an embodiment of the present invention.

The reference numerals in the drawings denote the following, respectively:

1-a shaking and dispersing device; 2-a slicing device; 3-a workbench;

11-a vibration chamber; 12-a dispersive stacking mechanism; 13-connecting the channel group;

21-a slicing mechanism; 22-a vibration drive mechanism;

121-a dispersion dial; 122 — a drive assembly;

131-trapezoidal channels; 132-a straight channel;

211-a sorting table; 212-a sorting orifice plate; 213-sorting holes;

221-a limiting plate; 222-vibrating the driven shaft; 223-a fixed seat; 224-a slide mount; 225-a first rotating shaft; 226-a second rotating shaft; 227-horizontal shelf; 228-a horizontal beam; 229-vibrating from the wheel; 2210-a drive belt; 2211-a second vibration motor; 2212-tension wheel; 2213-a connecting seat; 2214-raise cylinder; 2215-connecting the shaft;

1211-half cylindrical column; 1212-dialing the board; 1213-L shaped connecting rods; 1214-a transport chamber;

1221-a first vibration motor; 1222-a rotating motor;

2241-a sliding base; 2242-adjusting the cylinder; 2243-fixing the top seat.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in figure 1, the invention provides a seaweed slicing and conveying device, a shaking and scattering device 1 is arranged before seaweed processing, piled seaweed is scattered, the piled seaweed is conveyed to a slicing device 2 in batches, accumulation in the seaweed conveying process is avoided, the seaweed is gradually sliced to be in a single-chip state by the slicing device 2, the seaweed is gradually scattered and sliced in a mode of firstly piling and then slicing, the seaweed output at a single time is ensured to be in the single-chip state, the seaweed slicing and conveying process is effectively finished, and the yield of a seaweed production line is improved.

The shaking and dispersing device 1 shakes and disperses the stacked sea sedges, the stacked sea sedges are periodically cleaned in order to avoid accumulation in the process of being transported to the separating device 2, the separated sea sedges are repeatedly dispersed by the separating device 2 until being dispersed to a single sea sedge, the whole process quickly and effectively realizes the separation of the sea sedges, and the quality of the sea sedge finished products is improved.

The invention comprises a shaking and dispersing device 1 and a slicing device 2 which are connected in sequence, wherein the shaking and dispersing device 1 is used for shaking and dispersing sea sedges, the slicing device 2 is used for gradually dispersing stacked sea sedges into single sea sedges, and the shaking and dispersing device 1 and the slicing device 2 are mainly explained below.

In order to realize shaking and dispersing the piled sea sedges, the shaking and dispersing device 1 mainly adopts a vibration dispersing mode, the shaking and dispersing device 1 mainly adopts the following preferred embodiment, the shaking and dispersing device 1 comprises a vibration chamber 11, a dispersing and accumulating mechanism 12 and a connecting channel group 13 arranged at the outlet of the vibration chamber 11, an inlet for the piled sea sedges to enter is arranged in the vibration chamber 11, and the piled sea sedges are directly placed into the vibration chamber 11 for vibration dispersing in the actual production process.

The shaking and scattering device 1 in this embodiment has two working states, namely a vibration state for vibrating and scattering the sea sedge and a cleaning and stacking state for cleaning the sea sedge stacked at the outlet, wherein the dispersing and stacking mechanism 12 shakes and scatters the stacked sea sedge to the connecting channel group 13 in the vibration state, and the dispersing and stacking mechanism 12 transfers the stacked sea sedge stacked at the outlet of the vibration chamber 11 to the other end of the vibration chamber 11 in the cleaning and stacking state to make the stacked sea sedge vibrate and scatter again.

In order to provide a working platform for the dispersing device 1 and the slicing device 2, a working platform 3 is arranged below the vibration chamber 11, and the vibration chamber 11 is arranged on the working platform 3 through a dispersing and accumulating mechanism 12.

The dispersing and stacking mechanism 12 in this embodiment mainly includes a dispersing and stacking member 121 disposed in the vibration chamber 11, and a driving component 122 disposed outside the vibration chamber 11, wherein the dispersing and stacking member 121 starts to transfer stacked sea weeds to an inlet of the vibration chamber 11 in a stacking cleaning state, and the driving component 122 drives the dispersing and stacking member 121 to operate in the stacking cleaning state and drives the vibration chamber 11 to vibrate in a vibration state, or in other words, two different mechanisms are disposed in the driving component 122, and the mechanism drives the dispersing and stacking device 1 to enter different states correspondingly.

As shown in fig. 2 and 3, the dispersing pusher 121 mainly brings the sea sedge stacked on the connecting channel group 13 to an initial shaking position, the main structure is a pusher 1212, the pusher is in a horizontal state under normal vibration, the sea sedge is stacked on the pusher 1212, the sea sedge is transferred by rotating the pusher 1212, a semi-circular base cylinder 1211 is disposed in the vibration chamber 11 and mainly used for rotating the pusher 1212, L-shaped connecting rods 1213 are connected to both ends of the pusher 1212, the L-shaped connecting rods 1213 are embedded at both ends of the semi-circular base cylinder 1211, the pusher 1212 rotates through the L-shaped connecting rods 1213 with the semi-circular base cylinder 1211 as a rotation axis, the pusher 1212 rotates to the left side to unload the stacked sea sedge and then resets to the initial position, and the vibration chamber 11 enters the vibration state again.

In order to smoothly feed the sea sedge into the left side of the semi-cylindrical column 1211, a transportation chamber 1214 for vibration transportation of the sea sedge is provided in the semi-cylindrical column 1211, the upper surface of the lower wall of the transportation chamber 1214 is flush with the poking plate 1212, and the sea sedge gradually passes through the transportation chamber 1214 and enters the connection passage group 13 under the influence of the vibration chamber 11.

In addition, as a more preferable embodiment of the present invention, a mounting groove for mounting the poking plate 1212 may be directly provided in the vibration chamber 11, and the poking plate 1212 may be normally housed in the mounting groove, and the poking plate 1212 may be rotated to drive the transfer position of the stacked sea sedge when the stacked sea sedge needs to be cleaned, and the transportation chamber 1214 provided in the present invention may also limit the amount of the sea sedge entering the semicircular base cylinder 1211.

In order to drive the shifting plate 1212 to rotate and drive the vibration chamber 11 to vibrate, the driving assembly 122 is provided in this embodiment, the driving assembly 122 includes a first vibration motor 1221 disposed below the vibration chamber 11 and a rotation motor 1222 connected to the L-shaped connecting rod 1213, the first vibration motor 1221 is operated to bring the dispersing device 1 into a vibration state, and the first vibration motor 1221 drives the vibration chamber 11 to vibrate; the rotating motor 1222 is operated to enable the shaking and scattering device 1 to enter a cleaning and stacking state, the rotating motor 1222 drives the stirring plate 1212 to rotate through the L-shaped connecting rod 1213 to drive the seaweed on the stirring plate 1212 to be transferred to the other side of the semicircular base column 1211, in this embodiment, the first vibrating motor 1221 and the rotating motor 1222 do not operate at the same time, one of the two operation modes is in a normal production process, the operation is stopped under the condition of detection and maintenance, the rotating motor 1222 in this embodiment is periodically started, a stacking detection assembly can be arranged at the connecting channel group 13, and when a certain amount of seaweed is detected to be stacked, the rotating motor 1222 is started.

The above-mentioned connection channel group 13 is used for providing a channel into the sheet separating device 2, the connection channel group 13 is connected between the vibration chamber 11 and the sheet separating device 2, and is used for the dispersed sea weed to enter the sheet separating device 2, the connection channel group 13 of the present invention mainly adopts the following preferred embodiment, the connection channel group 13 includes a trapezoidal channel 131 arranged at the outlet of the vibration chamber 11, and a straight channel 132 connected to the end of the trapezoidal channel 131, and the front ends of the adjacent trapezoidal channels 131 are connected with each other.

In this embodiment, the width of the straight channel 132 is slightly larger than that of the single laver, in order to transport the laver entering the slicing device 2 in the same direction, the end of the poking plate 1212 extends to the connection between the trapezoidal channel 131 and the straight channel 132, and the end of the poking plate 1212 is engaged with the trapezoidal channel 131, so that part of the laver with inaccurate position is accumulated at the connection between the trapezoidal channel 131 and the straight channel 132, and the direct rotation of the poking plate 1212 can drive the laver to rotate and shift to the initial shaking-out position for re-dispersing treatment.

After shaking and scattering the device 1, the sea sedge enters the slicing device 2, the slicing device 2 comprises a slicing mechanism 21 connected to the end of the connecting channel group 13 and a vibration driving mechanism 22 connected to the slicing mechanism 21, the slicing mechanism 21 is used for gradually scattering the stacked sea sedge to a single-slice state, the vibration driving mechanism 22 is used for forming a limiting area on two sides of the slicing mechanism 21, and adjusting the inclination angle of the slicing mechanism 21 and driving the slicing mechanism 21 to vibrate, and the slicing mode of the slicing mechanism 21 of the embodiment is also a vibration slicing mode.

The slicing mechanism 21 mainly includes a plurality of sorting tables 211 arranged at the end of the straight channel 132 and sorting orifice plates 212 arranged at the end of the sorting tables 211, the sorting tables 211 are arranged in a step-like manner along the transverse direction (only three sorting tables are shown in the figure), each sorting table 211 is arranged on the vibration driving mechanism 22, and a proper number of sorting tables 211 can be detected and set before actual production in the actual use process.

In this embodiment, the sorting holes 213 are formed in the sorting hole plates 212, through which the laver passes, and the laver in each sorting table 211 enters the next sorting table 211 through the sorting holes 213, the sorting holes 213 formed in the sequentially arranged sorting hole plates 212 in this embodiment are gradually reduced, and the height of the sorting hole 213 formed in the last sorting hole plate 212 is slightly less than twice the thickness of the laver, so that the laver separated from the last sorting table 211 is a single laver.

The invention adopts the vibration driving mechanism 22 to drive the sorting table 213 to vibrate, as shown in fig. 4, the vibration driving mechanism 22 comprises a limit plate 221 arranged at two sides of the sorting table 211, a vibration driven shaft 222 connected to the limit plate 221, a fixed seat 223 connected to one end of the limit plate 221, and a sliding seat 224 connected to the other end of the limit plate 221;

in this embodiment, the limiting plates 221 are used for limiting the two sides of the sorting table 211, the distance between the limiting plates 221 on the two sides is slightly larger than the width of the seaweed, and the seaweed is placed to be inclined in the spreading process.

The limiting plate 221 is connected to the sorting table 211, and the sorting table 211 directly enabling the sea sedge to fall into the next layer is easy to damage the sea sedge in the actual use process, so that the angle-adjustable sorting table 211 is arranged in the sea sedge sorting device, on one hand, the damage of the sea sedge in the transfer process is reduced, on the other hand, the efficiency of sea sedge dispersed transmission is improved, one end of the limiting plate 221 in the embodiment is rotatably connected to the fixing seat 223 through the first rotating shaft 225, the other end of the limiting plate 221 is rotatably connected to the sliding seat 224 through the second rotating shaft 226, and the angle of the sorting table 211 can be adjusted mainly by adjusting the height of the second rotating shaft 226.

The workbench 3 is provided with a horizontal frame 227, the horizontal frame 227 is provided with a horizontal beam 228 according to gradient, a fixed seat 223 is fixedly arranged on the horizontal beam 228, a sliding seat 224 is arranged on the horizontal beam 228 in a sliding manner, the embodiment mainly designs the sliding seat 224, the sliding seat 224 is composed of a sliding base 2241, an adjusting cylinder 2242 and a fixed top seat 2243, the sliding base 2241 is arranged on the horizontal beam 228 in a sliding manner, the fixed top seat 2243 is connected to the sliding base 2241 through the adjusting cylinder 2242, and a first rotating shaft 225 is arranged on the fixed top seat 2243 in a rotating manner.

The drive adjust cylinder 2242 drives fixed footstock 2243 and shifts up or move down, because the fixing base 223 position is unchangeable, when adjust cylinder 2242 drives fixed footstock 2243 and takes place the displacement, the holistic angle of letter sorting platform 211 changes, has realized the angle modulation of letter sorting platform 211.

In order to drive the sorting table 211 to vibrate, a vibration driven wheel 229 is connected to the vibration driven shaft 222, a second vibration motor 2211 is connected to the vibration driven wheel 229 through a transmission belt 2210, the second vibration motor 2211 is installed on the horizontal beam 228, and the second vibration motor 2211 drives the vibration driven wheel 229 to vibrate through the transmission belt 2210 so as to drive the sorting table 211 to vibrate.

In the process of changing the angle of the sorting table 211, the transmission belt 2210 is gradually loosened so that the second vibration motor 2211 cannot drive the sorting table 211 to vibrate through the transmission belt 2210, so a tension pulley 2212 is arranged in the transmission belt 2210, the tension pulley 2212 is connected with a connecting seat 2213, the lower end of the connecting seat 2213 is connected with an elevation cylinder 2214, the elevation cylinder 2214 is fixedly arranged on the horizontal beam 228, the tension pulley 2212 is rotatably connected to the connecting seat 2213 through a connecting shaft rod 2215, when the transmission belt 2210 is gradually loosened, the elevation cylinder 2214 is driven to drive the tension pulley 2212 to move down so that the tension pulley 2212 is attached to the transmission belt 2210, and the transmission belt 2210 can continuously drive the sorting table 211 to vibrate when being in a tensioned state.

In summary, the main embodiment of the present invention is to drive the first vibration motor 1221 to make the vibration chamber 11 in a vibration state, to place the stacked sea sedge in the vibration chamber 11, to gradually enter the slicing mechanism 21 through the connection channel group 13 under the vibration effect, to drive the rotation motor 1222 to drive the shifting plate 1212 to rotate at intervals to shift the stacked sea sedge to the initial vibration dispersing position, to complete the cleaning of the stacked sea sedge; the angle of the sorting table 211 and the position of the tension wheel 2212 are adjusted in advance, the sea sedge enters the sorting table 211, the second vibration motor 2211 drives the sorting table 211 to vibrate, and the sea sedge is gradually dispersed to be in a single-piece state through the sorting table 211, so that the separation of the sea sedge is realized.

The above embodiments are only exemplary embodiments of the present application, and are not intended to limit the present application, and the protection scope of the present application is defined by the claims. Various modifications and equivalents may be made by those skilled in the art within the spirit and scope of the present application and such modifications and equivalents should also be considered to be within the scope of the present application.

Claims (9)

1. A seaweed slicing and conveying device is characterized by comprising a shaking and scattering device (1) and a slicing device (2) which are sequentially connected, wherein the shaking and scattering device (1) is used for shaking and scattering seaweed, and the slicing device (2) is used for gradually scattering the piled seaweed to a single seaweed;

the shaking and dispersing device (1) comprises a vibration chamber (11), a dispersing and stacking mechanism (12) and a connecting channel group (13) arranged at the outlet of the vibration chamber (11), wherein an inlet for feeding the piled sea sedge is arranged in the vibration chamber (11), the dispersing and stacking mechanism (12) is used for shaking and dispersing the piled sea sedge to the connecting channel group (13) in a vibration state and transferring the piled sea sedge at the outlet of the vibration chamber (11) to the other end of the vibration chamber (11) in a cleaning and stacking state so as to vibrate and disperse the piled sea sedge again, and the connecting channel group (13) is connected between the vibration chamber (11) and the slicing device (2) and is used for feeding the dispersed sea sedge into the slicing device (2);

a workbench (3) is arranged below the vibration chamber (11), and the vibration chamber (11) is arranged on the workbench (3) through the dispersed accumulation mechanism (12);

disperse and pile up mechanism (12) including setting up dispersion plectrum (121) in vibration chamber (11) and setting up drive assembly (122) outside vibration chamber (11), dispersion plectrum (121) are in the clearance pile up the state under the start with piling up the sea sedge and shift to the import department of vibration chamber (11), drive assembly (122) drive respectively in the clearance pile up the state dispersion plectrum (121) operation and drive under the vibration state vibration chamber (11) vibration.

2. A laver slice delivery device according to claim 1, wherein the dispersion poking member (121) comprises a semi-circular base column (1211) arranged in the vibration chamber (11), and a poking plate (1212) rotatably connected to the semi-circular base column (1211), wherein L-shaped connecting rods (1213) are connected to both ends of the poking plate (1212), the L-shaped connecting rods (1213) are embedded in both ends of the semi-circular base column (1211), and the poking plate (1212) is rotated around the semi-circular base column (1211) through the L-shaped connecting rods (1213);

wherein, be provided with in the semicircle base pillar (1211) and supply the transportation chamber (1214) of sea sedge vibration transportation, the upper surface of the interior lower wall of transportation chamber (1214) is with dialling board (1212) is equal.

3. A laver slice delivery device according to claim 2, wherein the driving assembly (122) comprises a first vibrating motor (1221) disposed below the vibrating chamber (11) and a rotating motor (1222) connected to the L-shaped connecting rod (1213), the first vibrating motor (1221) drives the vibrating chamber (11) to vibrate, and the rotating motor (1222) drives the poking plate (1212) to rotate through the L-shaped connecting rod (1213) to drive the laver on the poking plate (1212) to be transferred to the other side of the semicircular base column (1211).

4. A laver slice delivery device according to claim 3, wherein the connection channel set (13) comprises a trapezoid channel (131) arranged at the outlet of the vibrating chamber (11), and a straight channel (132) connected to the end of the trapezoid channel (131), the adjacent trapezoid channels (131) being connected to each other at the front end;

wherein the width of the straight channel (132) is slightly larger than that of the single seaweed, the end of the poking plate (1212) extends to the joint of the trapezoidal channel (131) and the straight channel (132), and the end of the poking plate (1212) is matched with the trapezoidal channel (131).

5. The laver slice conveying device according to claim 4, wherein the slice separating device (2) comprises a slice separating mechanism (21) connected to the tail end of the connecting channel group (13), and a vibration driving mechanism (22) connected to the slice separating mechanism (21), the slice separating mechanism (21) is used for gradually dispersing stacked laver into single slices, the vibration driving mechanism (22) is used for forming limiting areas on two sides of the slice separating mechanism (21), adjusting the inclination angle of the slice separating mechanism (21) and driving the slice separating mechanism (21) to vibrate;

the slicing mechanism (21) comprises a sorting table (211) arranged at the tail end of the straight channel (132) and a sorting orifice plate (212) arranged at the tail end of the sorting table (211), the sorting table (211) is transversely arranged in a step shape, and each sorting table (211) is arranged on the vibration driving mechanism (22);

the sorting pore plates (212) are provided with sorting holes (213) for the seaweed to pass through, the sorting holes (213) on the sorting pore plates (212) which are sequentially arranged are gradually reduced, and the height of the sorting holes (213) on the sorting pore plates (212) arranged at the tail end is slightly smaller than the thickness of two times of the single seaweed.

6. A laver slice delivery device according to claim 5, wherein the vibration driving mechanism (22) comprises a limiting plate (221) arranged at both sides of the sorting table (211), a vibration driven shaft (222) connected to the limiting plate (221), a fixed seat (223) connected to one end of the limiting plate (221), and a sliding seat (224) connected to the other end of the limiting plate (221);

the limiting plates (221) are used for limiting the two sides of the sorting table (211), and the distance between the limiting plates (221) on the two sides is slightly larger than the width of the sea sedge;

limiting plate (221) one end is passed through first axis of rotation (225) and is rotated the connection in on fixing base (223), limiting plate (221) other end passes through second axis of rotation (226) and rotates the connection in on sliding seat (224).

7. A laver slice delivery device according to claim 6, wherein a horizontal frame (227) is arranged on the working table (3), the horizontal frame (227) is provided with a horizontal beam (228) according to gradient, the fixed seat (223) is fixedly arranged on the horizontal beam (228), and the sliding seat (224) is slidably arranged on the horizontal beam (228);

wherein, sliding seat (224) comprise sliding bottom (2241), adjust cylinder (2242), fixed footstock (2243), sliding bottom (2241) slides and sets up on horizontal beam (228), fixed footstock (2243) is connected through adjust cylinder (2242) on sliding bottom (2241), first axis of rotation (225) rotate and set up on fixed footstock (2243).

8. A laver piece-separating and conveying device according to claim 7, wherein a vibration driven wheel (229) is connected to the vibration driven shaft (222), a second vibration motor (2211) is connected to the vibration driven wheel (229) through a transmission belt (2210), the second vibration motor (2211) is installed on the horizontal beam (228), and a tension wheel (2212) is arranged in the transmission belt (2210).

9. The laver splitting and conveying device according to claim 8, wherein a connecting seat (2213) is connected to the tension wheel (2212), an elevation cylinder (2214) is connected to the lower end of the connecting seat (2213), the elevation cylinder (2214) is fixedly arranged on the horizontal beam (228), and the tension wheel (2212) is rotatably connected to the connecting seat (2213) through a connecting shaft rod (2215).

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