CN108850109B

CN108850109B - Skew rolling type equipment convenient for extracting fish brain

Info

Publication number: CN108850109B
Application number: CN201811048301.6A
Authority: CN
Inventors: 江杰
Original assignee: Yiwu Anhang Technology Co Ltd
Current assignee: Yiwu Anhang Technology Co., Ltd
Priority date: 2018-09-10
Filing date: 2018-09-10
Publication date: 2020-11-17
Anticipated expiration: 2038-09-10
Also published as: CN108850109A; CN111642550A

Abstract

The invention discloses a skew rolling type device convenient for extracting fish brain, which comprises a frame, a feeding component, a front positioning mechanism, a rear positioning mechanism and a puncture brain sucking mechanism, wherein the feeding component is arranged at one end of the frame; the fish brain extraction device adopts the combination of the front positioning block and the rear positioning block to form the clamp, so that the fish is fixed, then the fish can be directly punctured into the brain cavity from the inside of the fish mouth and the fish brain is extracted through the puncturing brain suction mechanism, and the bone connected from the lower jaw of the fish to the brain cavity is very thin and soft and is far less hard and thick than the top of the brain shell, so the brain is punctured upwards from the mouth, the fish brain is more easily extracted, the appearance and the appearance of the fish are not influenced, and meanwhile, the brain suction pipe is arranged in the drilling sleeve, so that the fish position is not required to be moved after the hole is drilled, the fish brain extraction can be realized, and the fish brain extraction device has the advantages of simple structure, high efficiency.

Description

Skew rolling type equipment convenient for extracting fish brain

Technical Field

The invention relates to a skew rolling type device convenient for extracting fish brain.

Background

As in the patent nos.: ZL201310391450.3 introduces that in fish processing production, leftover bits and pieces such as fish head, viscera, fish bone etc. account for the proportion very high, and these kind of leftover bits and pieces are mainly as the raw material of animal feed at present, and its economic benefits that produces is extremely low. If the by-products generated in fish processing can be fully utilized, and the fine processing way of the by-products is developed, the economic benefit of the fish processing and producing industry can be improved. The fish brain accounts for about 1 percent of the weight of the fish, contains rich cephalin and other bioactive substances, has high price of high-purity cephalin on the market, and can develop a new way for the whole fish processing and producing industry by utilizing the fish brain.

However, the patent technical solution ZL201310391450.3 has the following disadvantages: 1. the operation speed is low, and the fish needs to be drilled and then moved to a specific position for brain suction operation each time; 2. the machine is complicated and is easy to hurt people; 3. The most important point is that the brain is taken from the top of the skull, firstly, the top of the skull is very hard and thick, so the fish needs to be drilled, secondly, the appearance of the fish is greatly influenced, the fish is not favorable for secondary sale, and bacteria breeding is easily caused.

Disclosure of Invention

The invention aims to overcome the defects and provide a skew rolling type device convenient for extracting fish brain.

In order to achieve the purpose, the invention adopts the following specific scheme: a skew rolling type device convenient for extracting fish brain comprises a rack, a feeding member, a front positioning mechanism, a rear positioning mechanism and a puncture brain sucking mechanism, wherein the feeding member is arranged at one end of the rack, and the front positioning mechanism, the rear positioning mechanism and the puncture brain sucking mechanism are all arranged at the other end of the rack;

the feeding component comprises a conveying belt, two power rollers, a feeding steel wire wheel and a jig bottom plate, wherein two ends of the two power rollers are connected to the rack in a shaft mode, the conveying belt is wound on the two power rollers and is connected end to end, the jig bottom plate is arranged on the rack and is attached to one end of the conveying belt in parallel, and the feeding steel wire wheel is connected to the rack and is located above the jig bottom plate;

the front positioning mechanism comprises a sliding support plate, two linear slide rails, a front positioning block and a front positioning cylinder, the two linear slide rails are fixed on the rack in parallel opposite directions, the sliding support plate is in sliding connection with the two linear slide rails, the front positioning block is fixed on the sliding support plate, the front positioning cylinder is arranged on the sliding support plate, the output end of the front positioning cylinder is connected with the front positioning block, and a fish-shaped concave surface is arranged on one surface of the front positioning block facing the feeding component;

the rear positioning mechanism comprises a rear positioning fixing plate, a rear positioning cylinder and a rear positioning block, the rear positioning fixing plate is arranged on the rack and is positioned above the space between the sliding support plate and the front positioning block, the rear positioning cylinder is fixed on the rear positioning fixing plate and penetrates through the rear positioning fixing plate to be connected with the rear positioning block, and an arc-shaped concave surface is arranged on one surface of the rear positioning block, which faces the front positioning block;

the puncture and brain suction mechanism comprises a servo electric cylinder, an electric cylinder sliding table, a puncture box body, a drilling sleeve, a brain suction pipe and a stepping motor, wherein the servo electric cylinder is fixed on the rack through a puncture support, the servo electric cylinder is obliquely arranged and faces the jig bottom plate, the electric cylinder sliding table is connected with the servo electric cylinder and is connected with the output end of the servo electric cylinder, the puncture box body is fixed on the electric cylinder sliding table, the puncture box body is provided with a cover plate, the stepping motor is fixed on the cover plate, the output end of the stepping motor extends into the puncture box body, the output end of the stepping motor is connected with a driving gear, one end of the drilling sleeve is fixedly provided with a sleeve gear and is positioned in the puncture box body, the driving gear is meshed with the sleeve gear, and the other end of the drilling sleeve extends outwards and points to one end of a cavity formed when the front positioning block and the rear positioning block, the brain suction pipe is arranged in the drilling sleeve and can penetrate through the drilling sleeve and the puncture box body.

The feeding component further comprises two side vertical plates, the two side vertical plates are fixed on the rack and are respectively located on two sides of the conveyor belt, and two ends of the power roller respectively penetrate through the side vertical plates and then are movably connected to the rack.

The jig comprises a jig base plate, a sliding support plate and a discharging groove, wherein the discharging groove is fixed at one end, close to the sliding support plate, of the bottom surface of the jig base plate and is obliquely arranged towards the lower portion of the sliding support plate.

The front positioning mechanism further comprises two sliding blocks, the two sliding blocks are respectively connected with the two linear sliding rails in a sliding mode, and two ends of the sliding support plate are respectively fixedly connected with the sliding blocks.

The rear positioning mechanism further comprises two guide shafts and a guide shaft fixing bottom plate, one ends of the guide shafts are fixedly connected with the guide shaft fixing bottom plate, the other ends of the guide shafts are movably connected with the rear positioning fixing plate through linear bearings, the guide shaft fixing bottom plate is fixed on the rear positioning block, and the output end of the rear positioning cylinder is connected with the guide shaft fixing bottom plate through a connecting block.

The middle part of the feeding steel wire wheel is arranged in a cylindrical manner, two end parts of the feeding steel wire wheel are arranged in a frustum manner, and the diameter of the bottom end of one end part is larger than that of the bottom end of the other end part.

The invention has the beneficial effects that: the fish scale conveying device adopts the conveying belt for conveying, has a simple structure and high efficiency, adopts the conveying steel wire wheel for conveying the front positioning block and the rear positioning block, has reliable conveying process, and effectively avoids the phenomenon of friction and slippage with fish scales; the front positioning block and the rear positioning block are combined to form a clamp, so that the fish is fixed, then the fish is directly punctured into a brain cavity from the inside of a fish mouth through a puncturing and brain sucking mechanism, and the fish brain is extracted; according to the invention, the brain suction pipe is arranged in the drilling sleeve, the fish brain can be extracted without moving the position of the fish after drilling, and the device has the advantages of simple structure, high efficiency and safety.

Drawings

FIG. 1 is a top view of the present invention;

FIG. 2 is a left side view of the present invention;

FIG. 3 is a perspective view of the present invention;

FIG. 4 is a schematic view of the feed member of the present invention mounted to a frame;

FIG. 5 is a schematic view of the front positioning mechanism of the present invention mounted to a frame;

FIG. 6 is a schematic view of the rear positioning mechanism of the present invention mounted to a frame;

FIG. 7 is a schematic view of the puncture and aspiration mechanism of the present invention mounted on the frame;

FIG. 8 is a schematic view of a portion of the piercing-aspirating mechanism of the present invention;

FIG. 9 is a schematic view of a front locating block of the present invention;

FIG. 10 is a schematic view of a rear locating block of the present invention;

description of reference numerals: 1-a frame; 21-a conveyor belt; 22-a feeding wire wheel; 23-a jig base plate; 24-side vertical plates; 31-sliding bracket plate; 32-linear slide rail; 33-front positioning block; 331-fish-shaped concavity; 34-a front positioning cylinder; 35-a slide block; 41-rear positioning fixing plate; 42-rear positioning cylinder; 43-rear positioning block; 431-a concave arc; 44-a guide shaft; 45-guide shaft fixing bottom plate; 51-servo electric cylinder; 52-electric cylinder slide; 53-puncture box body; 531-cover plate; 54-borehole casing; 55-a siphunculus; 56-step motor; 57-a drive gear; 58-sleeve gear; 6-a discharge chute.

Detailed Description

The invention will be described in further detail with reference to the following figures and specific examples, without limiting the scope of the invention.

As shown in fig. 1 to 10, the skew rolling type device for conveniently extracting fish brain in this embodiment includes a frame 1, a feeding member, a front positioning mechanism, a rear positioning mechanism, and a piercing brain-sucking mechanism, where the feeding member is disposed at one end of the frame 1, and the front positioning mechanism, the rear positioning mechanism, and the piercing brain-sucking mechanism are all disposed at the other end of the frame 1;

the feeding component comprises a conveyor belt 21, two power rollers, a feeding steel wire wheel 22 and a jig bottom plate 23, two ends of the two power rollers are connected to the rack 1 in a shaft mode, the conveyor belt 21 is wound on the two power rollers and is connected end to end, the jig bottom plate 23 is arranged on the rack 1 and is attached to one end of the conveyor belt 21 in parallel, and the feeding steel wire wheel 22 is connected to the rack 1 in a shaft mode and is located above the jig bottom plate 23;

the front positioning mechanism comprises a sliding support plate 31, two linear sliding rails 32, a front positioning block 33 and a front positioning cylinder 34, the two linear sliding rails 32 are fixed on the rack 1 side by side in opposite directions, preferably, the sliding support plate 31 is arranged in a door shape, the sliding support plate 31 is connected with the two linear sliding rails 32 in a sliding manner, the front positioning block 33 is fixed on the sliding support plate 31, the front positioning cylinder 34 is arranged on the sliding support plate 31, the output end of the front positioning cylinder 34 is connected with the front positioning block 33, and a fish-shaped concave surface 331 is arranged on one surface of the front positioning block 33 facing the feeding component;

the rear positioning mechanism comprises a rear positioning fixing plate 41, a rear positioning cylinder 42 and a rear positioning block 43, the rear positioning fixing plate 41 is arranged on the rack 1 and is positioned above the space between the sliding support plate 31 and the front positioning block 33, the rear positioning cylinder 42 is fixed on the rear positioning fixing plate 41 and penetrates through the rear positioning fixing plate 41 to be connected with the rear positioning block 43, and an arc-shaped concave surface 431 is arranged on one surface of the rear positioning block 43 facing the front positioning block 33;

the puncture and brain suction mechanism comprises a servo electric cylinder 51, an electric cylinder sliding table 52, a puncture box body 53, a drilling sleeve 54, a brain suction pipe 55 and a stepping motor 56, wherein the servo electric cylinder 51 is fixed on the frame 1 through a puncture support, the servo electric cylinder 51 is obliquely arranged and faces the jig bottom plate 23, the electric cylinder sliding table 52 is slidably connected with the servo electric cylinder 51 and is connected with the output end of the servo electric cylinder 51, the puncture box body 53 is fixed on the electric cylinder sliding table 52, the puncture box body 53 is provided with a cover plate 531, the stepping motor 56 is fixed on the cover plate 531, the output end of the stepping motor 56 extends into the puncture box body 53, the output end of the stepping motor 56 is connected with a driving gear 57, one end of the drilling sleeve 54 is fixedly provided with a sleeve gear 58 and is positioned in the puncture box body 53, the driving gear 57 is meshed with the sleeve gear 58, the other end of the drilling sleeve 54 extends outwards and points to one end of the cavity formed when the front positioning block 33 and the rear positioning block 43 are combined, and the pipette 55 is arranged in the drilling sleeve 54 and can penetrate through the drilling sleeve 54 and the puncture box 53.

In the embodiment, the front positioning block 33 is combined with the rear positioning block 43, the cavity formed by the arc-shaped concave surface 431 and the fish-shaped concave surface 331 is fish-shaped, and the drilling sleeve 54 is arranged towards the position of the fish mouth.

Specifically, the working process of the implementation is as follows: when in use, the mouth of a fish is opened, then the fish is sequentially placed on the conveyor belt 21, the fish head and the puncture and brain sucking mechanism are positioned on the same side, then the two power rollers rotate to drive the conveyor belt 21 to rotate, the fish moves towards the direction of the feeding steel wire wheel 22 on the conveyor belt 21, under the conveying of the conveyor belt 21, the fish at the foremost end is conveyed to the jig bottom plate 23 and is positioned below the feeding steel wire wheel 22, then the feeding steel wire wheel 22 rotates to enable the fish to continuously move towards the direction of the front positioning mechanism, meanwhile, the front positioning cylinder 34 works to enable the front positioning block 33 to move to be attached to the jig bottom plate 23, the fish moves to the front positioning block 33 and passes over the rear positioning block 43 under the driving of the feeding steel wire wheel 22, then the rear positioning cylinder 42 works to drive the rear positioning block 43 to downwards stretch, because the front positioning block 33 is provided with a fish-shaped concave surface 331, and the rear positioning, therefore, the fish can be clamped between the front positioning block 33 and the rear positioning block 43 to complete the fixing work of the fish, then the servo electric cylinder 51 works to drive the electric cylinder sliding table 52 to extend out, the electric cylinder sliding table 52 drives the drilling sleeve 54 to extend out and extend into a fish mouth, then the stepping motor 56 works to drive the drilling sleeve 54 to rotate and puncture the drilling sleeve 54 into a brain cavity from the palate of the fish, then the suction pipe 55 extends into the brain cavity under the drive of an external mechanism and sucks the fish brain, after the sucking is finished, the suction pipe 55 is retracted under the drive of the external mechanism, meanwhile, the drilling sleeve 54 is retracted under the work of the servo electric cylinder 51, then the front positioning cylinder 34 and the rear positioning cylinder 42 respectively drive the front positioning block 33 and the rear positioning block 43 to retract to complete the work of extracting the fish brain, and simultaneously, the fish which has extracted the fish brain is collected away to perform the work of extracting the fish brain of the next fish.

The distance between the front positioning block 33 and the jig bottom plate 23 can be flexibly adjusted according to the size and the actual situation of the fish, so that the front positioning block 33 and the rear positioning block 43 can be conveniently combined.

The conveying belt 21 is adopted for feeding, the structure is simple, the efficiency is high, the feeding steel wire wheel 22 is adopted for feeding the front positioning block 33 and the rear positioning block 43, the feeding process is reliable, and the phenomenon of friction and slipping between the front positioning block and the rear positioning block is effectively avoided; the front positioning block 33 and the rear positioning block 43 are combined to form a clamp, so that the fish is fixed, then the fish can be directly punctured into a brain cavity from the inside of the fish mouth and the fish brain is extracted through the puncturing brain suction mechanism, and the bone connected from the lower jaw of the fish to the brain cavity is very thin and soft and far less hard and thick than the top of a brain shell, so the fish brain is punctured upwards from the mouth and is more easily taken out, and the appearance of the fish are not influenced; in this embodiment, the suction pipe 55 is arranged in the drilling sleeve 54, and after drilling, the fish does not need to be moved, so that the fish brain can be extracted, and the fish brain extracting device is simple in structure, high in efficiency and safe.

Based on the above embodiment, further, the feeding component further includes two side vertical plates 24, the two side vertical plates 24 are both fixed on the frame 1 and are respectively located at two sides of the conveyor belt 21, and two ends of the power roller respectively penetrate through the side vertical plates 24 and then are movably connected to the frame 1, specifically, when the conveyor belt 21 rotates, fish placed on the conveyor belt 21 is shaken in the transmission process, and the side vertical plates 24 are arranged, so that the fish is effectively prevented from falling out of the conveyor belt 21 due to the shaking in the transmission process, and the feeding component is simple in structure, safe and reliable.

Based on the above embodiment, further, the jig comprises a discharge chute 6, the discharge chute 6 is fixed at one end of the bottom surface of the jig bottom plate 23 close to the sliding support plate 31 and is obliquely arranged towards the lower side of the sliding support plate 31, specifically, after the fish is completely extracted with the fish brain, the front positioning block 33 and the rear positioning block 43 are respectively retracted under the driving of the front positioning cylinder 34 and the rear positioning cylinder 42, and the fish after the fish is completely extracted with the fish brain falls onto the discharge chute 6 and is transported out of the working area through the discharge chute 6.

Based on the above embodiment, further, the front positioning mechanism further includes two sliders 35, the two sliders 35 are respectively connected to the two linear sliding rails 32 in a sliding manner, two ends of the sliding support plate 31 are respectively fixedly connected to the sliders 35, specifically, when the front positioning cylinder 34 works, since the front positioning cylinder 34 is connected to the front positioning block 33, the front positioning block 33 moves, the front positioning block 33 is fixed to the sliding support plate 31, the sliding support plate 31 drives the sliders 35 to slide on the linear sliding rails 32, and the two sliders 35 are provided, so that the assembly is facilitated, and the structure is more flexible.

Based on the above embodiment, further, the rear positioning mechanism further includes two guide shafts 44 and a guide shaft fixing bottom plate 45, one end of the guide shaft 44 is fixedly connected to the guide shaft fixing bottom plate 45, the other end of the guide shaft 44 is movably connected to the rear positioning fixing plate 41 through a linear bearing, the guide shaft fixing bottom plate is fixed to the rear positioning block 43, the output end of the rear positioning cylinder 42 is connected to the guide shaft fixing bottom plate 45 through a connecting block, specifically, the rear positioning cylinder 42 operates to drive the guide shaft fixing bottom plate 45 to move, because the guide shaft 44 is movably connected to the rear positioning fixing bottom plate 41 through a linear bearing, when the guide shaft fixing bottom plate 45 moves, the two guide shafts 44 also move upward or downward along with the movement of the guide shaft fixing bottom plate 45, set up two guiding axle 44 for back locating piece 43 provides the direction, guarantees back locating piece 43 is vertical downstream, also avoids simultaneously back locating piece 43 takes place the skew in the process of exploring down, sets up the connecting block, and the structure of being convenient for is assembled conveniently, and the structure is nimble.

Based on the above embodiment, further, the middle of the feeding wire wheel 22 is arranged in a cylindrical manner, the two end portions of the feeding wire wheel 22 are arranged in a frustum manner, and the diameter of the bottom end of one end portion is larger than that of the other end portion, so that the feeding wire wheel is convenient to match with the shape of the fish, and the feeding wire wheel is beneficial to conveying the fish to the front positioning block 33.

The above description is only a preferred embodiment of the present invention, and all equivalent changes or modifications of the structure, characteristics and principles described in the present patent application are included in the protection scope of the present patent application.

Claims

1. The utility model provides an equipment of skew rolling formula is convenient for extract fish brain which characterized in that: the brain puncture and aspiration device comprises a rack (1), a feeding component, a front positioning mechanism, a rear positioning mechanism and a puncture brain puncture and aspiration mechanism, wherein the feeding component is arranged at one end of the rack (1), and the front positioning mechanism, the rear positioning mechanism and the puncture brain puncture and aspiration mechanism are all arranged at the other end of the rack (1);

the feeding component comprises a conveyor belt (21), two power rollers, a feeding steel wire wheel (22) and a jig bottom plate (23), two ends of the two power rollers are connected to the rack (1) in a shaft mode, the conveyor belt (21) is wound on the two power rollers and is connected end to end, the jig bottom plate (23) is arranged on the rack (1) and is attached to one end of the conveyor belt (21) in parallel, and the feeding steel wire wheel (22) is connected to the rack (1) in a shaft mode and is located above the jig bottom plate (23);

the front positioning mechanism comprises a sliding support plate (31), two linear sliding rails (32), a front positioning block (33) and a front positioning cylinder (34), the two linear sliding rails (32) are fixed on the rack (1) side by side in opposite directions, the sliding support plate (31) is in sliding connection with the two linear sliding rails (32), the front positioning block (33) is fixed on the sliding support plate (31), the front positioning cylinder (34) is arranged on the sliding support plate (31), the output end of the front positioning cylinder (34) is connected with the front positioning block (33), and a fish-shaped concave surface (331) is arranged on one surface, facing the feeding component, of the front positioning block (33);

the rear positioning mechanism comprises a rear positioning fixing plate (41), a rear positioning cylinder (42) and a rear positioning block (43), the rear positioning fixing plate (41) is arranged on the rack (1) and is positioned above a position between the sliding support plate (31) and the front positioning block (33), the rear positioning cylinder (42) is fixed on the rear positioning fixing plate (41) and penetrates through the rear positioning fixing plate (41) to be connected with the rear positioning block (43), and an arc-shaped concave surface (431) is arranged on one surface, facing the front positioning block (33), of the rear positioning block (43);

the puncture brain suction mechanism comprises a servo electric cylinder (51), an electric cylinder sliding table (52), a puncture box body (53), a drilling sleeve (54), a brain suction pipe (55) and a stepping motor (56), wherein the servo electric cylinder (51) is fixed on the rack (1) through a puncture support, the servo electric cylinder (51) is obliquely arranged and faces the jig bottom plate (23), the electric cylinder sliding table (52) is slidably connected with the servo electric cylinder (51) and is connected with the output end of the servo electric cylinder (51), the puncture box body (53) is fixed on the electric cylinder sliding table (52), the puncture box body (53) is provided with a cover plate (531), the stepping motor (56) is fixed on the cover plate (531) and the output end of the stepping motor (56) extends into the puncture box body (53), the output end of the stepping motor (56) is connected with a driving gear (57), a sleeve gear (58) is fixedly arranged at one end of the drilling sleeve (54) and is positioned in the puncture box body (53), the driving gear (57) is meshed with the sleeve gear (58), the other end of the drilling sleeve (54) extends outwards and points to one end of a cavity formed when the front positioning block (33) and the rear positioning block (43) are combined, and the pipette (55) is arranged in the drilling sleeve (54) and can penetrate through the drilling sleeve (54) and the puncture box body (53); the feeding component further comprises two side vertical plates (24), the two side vertical plates (24) are fixed on the rack (1) and are respectively positioned on two sides of the conveyor belt (21), and two ends of the power roller respectively penetrate through the side vertical plates (24) and then are movably connected to the rack (1); the jig base plate is characterized by further comprising a discharge chute (6), wherein the discharge chute (6) is fixed at one end, close to the sliding support plate (31), of the bottom surface of the jig base plate (23) and is obliquely arranged towards the lower part of the sliding support plate (31); the front positioning mechanism further comprises two sliding blocks (35), the two sliding blocks (35) are respectively in sliding connection with the two linear sliding rails (32), and two ends of the sliding support plate (31) are respectively fixedly connected with the sliding blocks (35).

2. The skew-rolling apparatus of claim 1, wherein: rear positioning mechanism still includes two guiding axle (44) and a guiding axle PMKD (45), the one end of guiding axle (44) with guiding axle PMKD (45) fixed connection, the other end of guiding axle (44) pass through linear bearing with rear positioning fixed plate (41) swing joint, guiding axle PMKD fixes on rear positioning piece (43), the output of rear positioning cylinder (42) through a connecting block with guiding axle PMKD (45) are connected.

3. The skew-rolling apparatus of claim 1, wherein: the middle part of the feeding steel wire wheel (22) is arranged in a cylindrical manner, two end parts of the feeding steel wire wheel (22) are arranged in a frustum manner, and the diameter of the bottom end of one end part is larger than that of the other end part.