CN109109068B

CN109109068B - Kelp cutting equipment

Info

Publication number: CN109109068B
Application number: CN201811293302.7A
Authority: CN
Inventors: 陈滢华
Original assignee: Fujian Tianyuan Aquatic Products Group Co ltd
Current assignee: Fujian Tianyuan Aquatic Products Group Co ltd
Priority date: 2018-11-01
Filing date: 2018-11-01
Publication date: 2024-02-13
Anticipated expiration: 2038-11-01
Also published as: CN109109068A

Abstract

The utility model relates to kelp cutting equipment, which comprises a frame, a conveying roller, a conveying belt, a cutter and a driving mechanism, wherein the driving mechanism at least comprises a main shaft, a supporting frame for driving the cutter to move up and down is connected between the main shaft and the cutter, and the lower end of the supporting frame is hinged at the eccentric position of the main shaft; the conveying roller rotates intermittently and drives the conveying belt to move forward intermittently, and an intermittent transmission mechanism for controlling the conveying belt to stop or move when the cutter is in the cutting position or the non-cutting position is connected between the main shaft and the conveying roller. The conveyer belt of the utility model moves intermittently, and the kelp and the conveyer belt are kept in a static state when the cutter cuts downwards, so that the damage of the cutter to the conveyer belt is reduced, and the cutting quality of the kelp is ensured; the cutter and the conveying roller are driven by the same driving mechanism, so that the motion synchronism of the cutter and the conveying roller is high, and the equipment operation stability is high; the pressing device can stretch and flatten the kelp, ensure that the kelp width cut each time is equal, and improve the cutting quality.

Description

Kelp cutting equipment

Technical Field

The utility model relates to the technical field of kelp processing equipment, in particular to kelp cutting equipment.

Background

After the kelp is picked from the sea water, a series of processing is required, wherein one procedure is to cut the kelp into kelp segments with the same size so as to facilitate packaging. The prior kelp cutting equipment, for example, chinese patent application No. 201721564933.9 discloses kelp cutting equipment, which comprises a cutting box, a conveyor belt, a dust extraction cover and a cutting knife, wherein a stepping motor is arranged on one side of the lower part of the inner part of the cutting box, a frame body is arranged at the middle position of the lower part of the inner part of the cutting box, a roller is uniformly arranged in the frame body, the output end of the stepping motor is connected with the roller through a belt pulley structure, the conveyor belt is arranged on the outer side of the roller, through holes are uniformly formed in the conveyor belt, a finished product bin is arranged on one side of the lower part of the cutting box, which is far away from the stepping motor, and is used for fixing kelp in the moving and cutting process of the kelp through a fixed compression roller, so that the kelp is prevented from shifting, but the conveyor belt and the kelp are always in a moving state when being cut, the cutting knife is easy to scratch the conveyor belt, and the kelp at the rear side is blocked from moving and curled.

Disclosure of Invention

The utility model provides kelp cutting equipment for solving the problems, which reduces damage of a cutter to a conveying belt and improves kelp cutting quality.

The above object of the present utility model is achieved by the following technical solutions: the kelp cutting equipment comprises a frame, conveying rollers arranged at the front end and the rear end of the frame, a conveying belt wound between the front conveying roller and the rear conveying roller, a cutter arranged above the conveying belt and a driving mechanism for driving the cutter to move up and down and the conveying rollers to rotate, wherein the driving device at least comprises a main shaft, the main shaft is rotationally arranged below the frame, a supporting frame for driving the cutter to move up and down is connected between the main shaft and the cutter, the upper end of the supporting frame is fixedly connected with the cutter, and the lower end of the supporting frame is hinged at the eccentric position of the main shaft; the conveying roller rotates intermittently and drives the conveying belt to move forward intermittently, and an intermittent transmission mechanism for controlling the conveying belt to stop or move when the cutter is located at the cutting position or the non-cutting position is connected between the main shaft and the conveying roller.

Preferably, the frame is provided with a knife rest, the front end of the knife rest is hinged on the support frame, the rear end of the knife rest is hinged on the frame, and the cutter is fixedly arranged on the knife rest.

Preferably, the intermittent transmission mechanism comprises a ratchet wheel arranged at the shaft end of the conveying roller, a swinging frame capable of reversely rotating relative to the ratchet wheel and a ratchet wheel capable of pushing the ratchet wheel to rotate positively when the swinging frame rotates positively, the ratchet wheel and the conveying roller rotate synchronously, the ratchet wheel is arranged between the swinging frame and the ratchet wheel, a transmission rod is arranged between the main shaft and the swinging frame, one end of the transmission rod is hinged to the swinging frame, the other end of the transmission rod is hinged to the eccentric position of the main shaft, and the main shaft drives the swinging frame to swing positively and negatively through the transmission rod when rotating.

Preferably, the end part of the main shaft is provided with an eccentric part, the eccentric part and the eccentric part synchronously rotate, and the end part of the transmission rod is hinged on the eccentric part.

Preferably, the main shaft is a crankshaft, and comprises a main shaft body and an eccentric shaft body, wherein the main shaft body and the eccentric shaft body are positioned on the same rotation axis, the eccentric shaft body rotates along the axis of the main shaft body, the lower end of the supporting frame is connected to the eccentric shaft body, and the eccentric piece and the main shaft body are coaxially arranged.

Preferably, when the eccentric shaft body is positioned at the furthest point of the rotation circumference, the hinge point of the transmission rod and the eccentric part is positioned at any point on the rotation path from the closest point to the furthest point of the rotation circumference.

The nearest point and the farthest point of the rotation circumference are two poles when the hinge points at the two ends of the support frame or the transmission rod and the rotation center point of the main shaft are positioned in the same straight line, the pole at one side close to the cutter or the swinging frame is the nearest point, and the pole at one side far away from the cutter or the swinging frame is the farthest point. When the eccentric shaft body is positioned at the furthest point of the rotating circumference, the cutter is positioned at the lowest point of downward cutting, and at the moment, the swinging frame reversely rotates to enable the swinging frame to rotate relative to the ratchet wheel so as to stop moving the conveying belt, and at the moment, the cutter is kept in a relatively static state relative to the conveying belt.

Preferably, a pressing device is arranged above the conveying belt, the pressing device comprises a pressing frame arranged above the conveying belt, driving rollers arranged at the front end and the rear end of the pressing frame, and a pressing belt wound between the front driving roller and the rear driving roller, the driving roller at least one end downwards presses the pressing belt against the conveying belt, and the moving directions of the pressing belt and the two opposite belt surfaces of the conveying belt are opposite.

Because the moving directions of the two belt surfaces of the pressing belt and the conveyor belt, which are close to each other, are opposite, the kelp positioned between the pressing belt and the conveyor belt is reversely stretched, so that the kelp is flattened through the pressure of the pressing belt, and the folded or wrinkled kelp is flattened through the reverse stretching, and the width of the kelp cut each time is ensured to be equal.

Preferably, the rear end of the pressing frame is rotatably mounted on the frame, the front end of the pressing frame is suspended above the conveyor belt, the driving roller positioned at the front end of the pressing frame is suspended on the conveyor belt, and the driving roller positioned at the rear end of the pressing frame is fixed above the conveyor belt and synchronously rotates with the conveying roller positioned at the front end of the frame through chain transmission.

Preferably, a pressing roller capable of moving up and down is arranged above the pressing belt, the pressing roller is positioned between the front driving roller and the rear driving roller and is pressed against the pressing belt downwards, two ends of the pressing roller are slidably arranged on the frame, and a spring for pulling the pressing roller downwards to move is connected between the end part of the pressing roller and the frame.

The utility model has the beneficial effects that:

1. the conveyer belt moves intermittently, and the kelp and the conveyer belt are kept in a static state when the cutter cuts downwards, so that damage of the cutter to the conveyer belt is reduced, and the cutting quality of the kelp is ensured;

2. the cutter and the conveying roller are driven by the same driving mechanism, so that the motion synchronism of the cutter and the conveying roller is high, and the equipment operation stability is high;

3. the pressing device can stretch and flatten the kelp, ensure that the kelp width cut each time is equal, and improve the cutting quality.

Drawings

FIG. 1 is a schematic diagram of an embodiment of the present utility model;

FIG. 2 is a side view of an embodiment of the present utility model;

FIG. 3 is a schematic view of the spindle structure in an embodiment of the present utility model;

FIG. 4 is a schematic view of the intermittent drive mechanism in accordance with an embodiment of the present utility model;

in the figure: 1-frame, 2-conveying roller, 3-conveying belt, 4-knife rest, 5-cutter, 6-driving mechanism, 61-main shaft, 611-main shaft body, 612-eccentric shaft body, 62-supporting frame, 63-eccentric piece, 64-transmission rod, 65-swinging frame, 66-ratchet, 67-ratchet, 7-compressing device, 71-compressing frame, 72-driving roller, 73-compressing belt, 74-compression roller, 75-sliding pull rod, 76-spring and 77-chain.

Detailed Description

The present utility model will be described in further detail with reference to the accompanying drawings. The present embodiment is only for explanation of the present utility model and is not to be construed as limiting the present utility model, and modifications to the present embodiment, which may not creatively contribute to the present utility model, may be made by those skilled in the art after reading the present specification, are only protected by patent laws within the scope of the claims of the present utility model.

Examples: as shown in fig. 1 to 4, a kelp cutting apparatus includes a frame 1, conveying rollers 2 provided at both front and rear ends of the frame 1, a conveying belt 3 wound between the front and rear conveying rollers 2, a cutter 5 provided above the conveying belt 3, and a driving mechanism 6 driving the cutter 5 to move up and down and the conveying rollers 2 to rotate. The driving device at least comprises a main shaft 61, the main shaft 61 is rotatably arranged below the frame 1, a supporting frame 62 for driving the cutter 5 to move up and down is connected between the main shaft 61 and the cutter 5, the upper end of the supporting frame 62 is fixedly connected with the cutter 5, and the lower end of the supporting frame is hinged at the eccentric position of the main shaft 61. The frame 1 is provided with a knife rest 4, the front end of the knife rest 4 is hinged on a supporting frame 62, the rear end of the knife rest 4 is hinged on the frame 1, and the cutter 5 is fixedly arranged on the knife rest 4. When the main shaft 61 rotates, the supporting frame 62 drives the knife rest 4 and the cutter 5 to swing up and down so as to realize kelp cutting.

The conveying roller 2 rotates intermittently and drives the conveying belt 3 to move forward intermittently. An intermittent transmission mechanism for controlling the conveyor belt 3 to stop or move when the cutter 5 is located at the cutting position or the non-cutting position is connected between the main shaft 61 and the conveying roller 2.

The intermittent transmission mechanism comprises a ratchet 66 arranged at the shaft end of the conveying roller 2, a swinging frame 65 capable of rotating reversely relative to the ratchet 66 and a ratchet 67 for pushing the ratchet 66 to rotate forwardly when the swinging frame 65 rotates forwardly, the ratchet 66 rotates synchronously with the conveying roller 2, and the ratchet 67 is arranged between the swinging frame 65 and the ratchet 66. A transmission rod 64 is arranged between the main shaft 61 and the swinging frame 65, one end of the transmission rod 64 is hinged on the swinging frame 65, the other end is hinged at the eccentric position of the main shaft 61, and the main shaft 61 drives the swinging frame 65 to swing positively and negatively through the transmission rod 64 when rotating.

As shown in fig. 4, the teeth of the ratchet 66 face the reverse direction of the ratchet 66, and one end of the ratchet 67 is hinged to the swing frame 65, and the other end abuts between the teeth of the ratchet 66. When the swing frame 65 rotates forward, the ratchet 67 pushes the ratchet 66 to rotate forward; when the swing frame 65 is reversed, the ratchet 67 slides over the ratchet 66, and the ratchet 66 remains stationary. Wherein forward rotation means that the rotation direction of the ratchet 66 or the swing frame 65 is the same as the rotation direction when the conveying roller 2 drives the conveying belt 3 to advance.

The end of the main shaft 61 is provided with an eccentric 63, the main shaft 61 rotates in synchronization with the eccentric 63, and the end of the transmission rod 64 is hinged to the eccentric 63. The eccentric 63 is a rotating wheel or a rotating arm, and the hinge point of the transmission rod 64 and the eccentric 63 is not coincident with the rotation center of the eccentric 63.

As shown in fig. 3, the main shaft 61 is a crankshaft, and includes a main shaft body 611 and an eccentric shaft body 612, which are located on the same rotation axis, the eccentric shaft body 612 rotates along the axis of the main shaft body 611, the lower end of the supporting frame 62 is connected to the eccentric shaft body 612, and the eccentric member 63 is coaxially disposed with the main shaft body 611.

When the eccentric shaft body 612 is located at the furthest point of the rotation circumference, the hinge point of the transmission rod 64 and the eccentric 63 is located at any point on the rotation path from the closest point to the furthest point of the rotation circumference. At this time, the cutter 5 swings to the lowest position, the swing frame 65 rotates reversely and idles, and the conveying roller 2 and the conveying belt 3 are in a stationary state.

As shown in fig. 1 and 2, a pressing device 7 is provided above the conveyor belt 3, and the pressing device 7 includes a pressing frame 71 provided above the conveyor belt 3, driving rollers 72 provided at front and rear ends of the pressing frame 71, and a pressing belt 73 wound between the front and rear driving rollers 72. The rear end of the pressing frame 71 is rotatably installed on the frame 1, the front end thereof is suspended above the conveyor belt 3, and the driving roller 72 positioned at the front end of the pressing frame 71 is suspended on the conveyor belt 3. The driving roller 72 at the front end presses the pressing belt 73 downward against the conveyor belt 3, and the driving roller 72 at the rear end of the pressing frame 71 is fixed above the conveyor belt 3. The rotation direction of the driving roller 72 is the same as that of the conveying roller 2, and both rotate in synchronization. The driving roller 72 at the rear end of the pressing frame 71 and the conveying roller 2 at the front end of the frame 1 synchronously rotate through chain transmission, and the chain transmission comprises a chain wheel arranged at the end parts of the driving roller 72 and the conveying roller 2 and a chain 77 wound on the chain wheel. The pressing belt 73 moves in the opposite direction to the opposite two belt surfaces of the conveyor belt 3 (the upper belt surface of the conveyor belt 3 and the lower belt surface of the pressing belt 73).

A pressing roller 74 capable of moving up and down is arranged above the pressing belt 73, and the pressing roller 74 is positioned between the front driving roller 72 and the rear driving roller 72 and is pressed against the pressing belt 73 downwards. Sliding pull rods 75 are arranged at two ends of the press roller 74, the sliding pull rods 75 are slidably arranged on the machine frame 1, and springs 76 which pull the press roller 74 downwards are connected between the lower ends of the sliding pull rods 75 and the machine frame 1.

Claims

1. The utility model provides a kelp cutting equipment, includes frame (1), sets up conveying roller (2) at both ends around frame (1), around setting up conveyer belt (3) between two conveying roller (2), cutter (5) and drive cutter (5) reciprocates and conveying roller (2) pivoted actuating mechanism (6), its characterized in that in conveyer belt (3) top: the driving mechanism at least comprises a main shaft (61), the main shaft (61) is rotatably arranged below the frame (1), a supporting frame (62) for driving the cutter (5) to move up and down is connected between the main shaft (61) and the cutter (5), the upper end of the supporting frame (62) is fixedly connected with the cutter (5), and the lower end of the supporting frame is hinged at the eccentric position of the main shaft (61); the conveying roller (2) rotates intermittently and drives the conveying belt (3) to move forward intermittently, and an intermittent transmission mechanism for controlling the conveying belt (3) to stop or move when the cutter (5) is positioned at a cutting position or a non-cutting position is connected between the main shaft (61) and the conveying roller (2);

the machine frame (1) is provided with a cutter frame (4), the front end of the cutter frame (4) is hinged on a supporting frame (62), the rear end of the cutter frame is hinged on the machine frame (1), and the cutter (5) is fixedly arranged on the cutter frame (4);

the intermittent transmission mechanism comprises a ratchet wheel (66) arranged at the shaft end of the conveying roller (2), a swinging frame (65) capable of rotating reversely relative to the ratchet wheel (66) and a ratchet (67) pushing the ratchet wheel (66) to rotate positively when the swinging frame (65) rotates positively, the ratchet (67) rotates synchronously with the conveying roller (2), the ratchet (67) is arranged between the swinging frame (65) and the ratchet (66), a transmission rod (64) is arranged between the main shaft (61) and the swinging frame (65), one end of the transmission rod (64) is hinged to the swinging frame (65), the other end of the transmission rod is hinged to the eccentric position of the main shaft (61), and the main shaft (61) drives the swinging frame (65) to swing positively and negatively through the transmission rod (64) when rotating;

an eccentric part (63) is arranged at the end part of the main shaft (61), the main shaft and the eccentric part synchronously rotate, and the end part of the transmission rod (64) is hinged on the eccentric part (63);

the main shaft (61) is a crankshaft and comprises a main shaft body (611) positioned on the same rotation axis and an eccentric shaft body (612) positioned on one side of the rotation axis, the eccentric shaft body (612) rotates along the axis of the main shaft body (611), the lower end of the supporting frame (62) is connected to the eccentric shaft body (612), and the eccentric part (63) and the main shaft body (611) are coaxially arranged;

when the eccentric shaft body (612) is positioned at the furthest point of the rotation circumference, the hinge point of the transmission rod (64) and the eccentric piece (63) is positioned at any point position on the rotation path from the nearest point to the furthest point of the rotation circumference;

a pressing device (7) is arranged above the conveying belt (3), the pressing device (7) comprises a pressing frame (71) arranged above the conveying belt (3), driving rollers (72) arranged at the front end and the rear end of the pressing frame (71) and a pressing belt (73) wound between the front driving roller and the rear driving roller (72), the driving roller (72) at least one end presses the pressing belt (73) downwards against the conveying belt (3), and the moving directions of the pressing belt (73) and the two opposite belt surfaces of the conveying belt (3) are opposite;

the rear end of the pressing frame (71) is rotatably arranged on the frame (1), the front end of the pressing frame is suspended above the conveying belt (3), a driving roller (72) positioned at the front end of the pressing frame (71) is suspended on the conveying belt (3), and the driving roller (72) positioned at the rear end of the pressing frame (71) is fixed above the conveying belt (3) and synchronously rotates with the conveying roller (2) positioned at the front end of the frame (1) through chain transmission;

the compression belt is characterized in that a compression roller (74) capable of moving up and down is arranged above the compression belt (73), the compression roller (74) is positioned between the front driving roller (72) and the rear driving roller (72) and is pressed against the compression belt (73) downwards, two ends of the compression roller (74) are slidably mounted on the frame (1), and a spring (76) for pulling the compression roller (74) downwards to move is connected between the end of the compression roller (74) and the frame (1).