CN105533502B

CN105533502B - Automatic device of preparing of sand worm futilely

Info

Publication number: CN105533502B
Application number: CN201610075724.1A
Authority: CN
Inventors: 姚金
Original assignee: Wuzhou University
Current assignee: Wuzhou University
Priority date: 2016-02-03
Filing date: 2016-02-03
Publication date: 2023-04-25
Anticipated expiration: 2036-02-03
Also published as: CN105533502A

Abstract

The invention discloses an automatic dried sandworm preparing device, which comprises a frame, wherein a discharging mechanism is arranged at the upper part of the frame, a cutting mechanism is arranged on the side surface of a discharging hole at the bottom of the discharging mechanism, a first conveying mechanism for conveying materials at the discharging hole at the bottom of the discharging mechanism to the cutting mechanism is arranged on the frame, a second conveying mechanism is arranged below the cutting mechanism, the second conveying mechanism sequentially passes through a cleaning mechanism and a pre-drying mechanism, a drying and delivering mechanism is arranged below the conveying end of the second conveying mechanism, and a driving mechanism for providing power for the discharging mechanism, the first conveying mechanism, the cutting mechanism and the second conveying mechanism is also arranged on the frame. The living sand worm is put into the automatic sand worm dry preparation device, can be automatically processed and manufactured into the sand worm dry, and has the characteristics of simple operation and high production efficiency.

Description

Automatic device of preparing of sand worm futilely

Technical Field

The invention relates to a device for preparing dried seafood, in particular to an automatic device for preparing dried sandworms.

Background

At present, the preparation of the dried sandworms adopts a manual mode. Normally, a worker holds the sandworm in a water basin by using the left hand, inserts the bamboo sticks from one end of the sandworm by using the right hand, turns over the bellyband of the sandworm, and washes and dries the sandworm. The manual operation method has low efficiency, time and labor waste, mental and irregular quality and low yield. The method is a main factor for restricting industrialization and large-scale production in the industry of drying sand worms, and is one of the main reasons for the constant high price and the short supply of sand worms in the market. Therefore, how to invent a machine for automatically preparing dried sandworms, which can automatically complete a series of process steps of sorting, turning, rolling, cleaning, drying and the like of the sandworms, so that the industrialization and the scale of the industry of preparing dried sandworms are realized, and the problem to be solved in order to meet the market needs is urgent.

Disclosure of Invention

The invention aims to provide an automatic preparation device for dried sandworms, which is characterized in that living sandworms are put into the device, and the device can be automatically processed and manufactured into dried sandworms, and has the characteristics of simple operation and high production efficiency.

The technical scheme adopted by the invention is as follows:

the utility model provides an automatic device of preparing of dried sand worm, includes the frame, wherein frame upper portion be equipped with discharge mechanism the bottom discharge gate side of discharge mechanism be equipped with cutting mechanism the frame on be equipped with the first transport mechanism that carries discharge mechanism bottom discharge gate material to cutting mechanism the below of cutting mechanism be equipped with second transport mechanism, second transport mechanism pass through wiper mechanism and predrying mechanism in proper order the conveying end below of second transport mechanism be equipped with stoving delivery mechanism the frame on still be provided with the actuating mechanism that provides power for discharge mechanism, first transport mechanism, cutting mechanism and second transport mechanism.

Preferably, the discharging mechanism comprises a hopper and a vibrating screen structure arranged in the hopper, the vibrating screen structure comprises an upper screen, a lower screen, a transmission mechanism and a shaking shaft, wherein the upper screen and the lower screen are in mutual balance, the driving mechanism is in power connection with the shaking shaft through the transmission mechanism, synchronous wheels are respectively arranged at two ends of the shaking shaft, guide rods extending out of the hopper are respectively arranged on the upper screen and the lower screen, the outer side of each guide rod is in eccentric connection with one of the synchronous wheels of the shaking shaft through a connecting rod, and two ends of each connecting rod are respectively hinged with the guide rods or the synchronous wheels;

four corners of each screen are provided with directional sleeves, the directional sleeves are connected with the hopper through hanging rods, and buffer springs are further arranged at the joints of the directional sleeves and the hanging rods.

Preferably, the screen is provided with meshes for enabling sand worms to pass through.

Preferably, a plurality of rows of partition boards are arranged on the outer surface of the first conveying mechanism in parallel along the extending direction of the first conveying mechanism, and the distance between two adjacent rows of partition boards is larger than the width of the sandworm body.

Preferably, the cutting mechanism comprises a sharp edge wheel and a concave groove wheel, the sharp edge wheel and the concave groove wheel are horizontally and oppositely arranged, a convex annular sharp edge is arranged on the sharp edge wheel, annular grooves which are in one-to-one correspondence with the sharp edges are arranged on the concave groove wheel, and the sharp edge wheel and the concave groove wheel are in power connection with the driving mechanism;

the rolling machine further comprises a pair of rolling rollers, wherein the rolling rollers are positioned under the sharp edge wheel and the concave wheel and rotate relatively, and the rolling rollers are in power connection with the driving mechanism.

Preferably, the lower parts of the sharp blade wheel and the concave wheel are also provided with a primary washing spray head for cleaning sand worms, and the primary washing spray head is connected with a water source.

Preferably, the second conveying mechanism is provided with an upper layer of conveying belt and a lower layer of conveying belt which move in the same direction, and the conveying belt is a steel wire conveying belt.

Preferably, the cleaning mechanism is a cleaning nozzle arranged below the conveyor belt.

Preferably, the pre-drying mechanism comprises a pre-drying box body and first heating pipes arranged in the pre-drying box body, wherein the first heating pipes are distributed above and below the conveyor belt.

Preferably, the drying and delivering mechanism comprises a drying box body and a drying controller, wherein a delivering opening and a delivering opening are formed in the drying box body, a second heating pipe and a humidity detector are arranged in the drying box body, a delivering door and a rotary driving device for opening the delivering door are arranged on the delivering opening, a pushing mechanism for pushing out the dried sand insects is arranged on the side, opposite to the delivering door, of the drying box body, and the pushing mechanism comprises a pushing plate arranged in the drying box body and a pushing plate driving mechanism for enabling the pushing plate to move towards the delivering door; the signal output end of the humidity detector is connected with the signal input end of the drying controller, and the signal output end of the drying controller is simultaneously connected with the signal input end of the rotary driving device and the signal input end of the pushing mechanism.

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

the invention discloses an automatic sand worm dry preparing device, which comprises a frame, wherein a discharging mechanism is arranged at the upper part of the frame, a cutting mechanism is arranged on the side surface of a discharging hole at the bottom of the discharging mechanism, a first conveying mechanism for conveying materials at the discharging hole at the bottom of the discharging mechanism to the cutting mechanism is arranged on the frame, a second conveying mechanism is arranged below the cutting mechanism, the second conveying mechanism sequentially passes through a cleaning mechanism and a pre-drying mechanism, a drying and delivering mechanism is arranged below the conveying end of the second conveying mechanism, and a driving mechanism for providing power for the discharging mechanism, the first conveying mechanism, the cutting mechanism and the second conveying mechanism is also arranged on the frame. When the sand worm dry brake preparation device is used, sand worm living bodies are put into the discharging mechanism, after being screened and sequenced by the discharging mechanism, the sand worm living bodies are separated and orderly dropped into the first conveying mechanism, the first conveying mechanism conveys the sand worm living bodies into the cutting mechanism to be cut, washed and flattened, the second conveying mechanism conveys the sand worm living bodies to the drying and delivering mechanism, the flattened sand worm can be washed again and pre-dried in the conveying process of the second conveying mechanism, and the sand worm is delivered after being dried to full dryness after entering the drying and delivering mechanism, so that the whole sand worm dry automatic preparation process is completed.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a top view of the present invention;

FIG. 3 is a schematic view of the hopper mechanism of the present invention;

FIG. 4 is a schematic view of the cutting mechanism of the present invention;

fig. 5 is a schematic diagram of control signals of the drying and discharging mechanism of the present invention.

Detailed Description

The technical scheme of the present invention will be described in further detail below with reference to the specific embodiments, but the present invention is not limited thereto.

Referring to fig. 1 to 4, the automatic dried sandworm preparing device of the invention comprises a frame 1, wherein a discharging mechanism 2 is arranged at the upper part of the frame 1, a cutting mechanism 3 is arranged on the side surface of a discharging hole at the bottom of the discharging mechanism 2, a first conveying mechanism 4 for conveying materials at the discharging hole at the bottom of the discharging mechanism 2 to the cutting mechanism 3 is arranged on the frame 1, a second conveying mechanism 5 is arranged below the cutting mechanism 3, the second conveying mechanism 5 sequentially passes through a cleaning mechanism 6 and a pre-drying mechanism 7, a drying and discharging mechanism 8 is arranged below the conveying end of the second conveying mechanism 5, and a driving mechanism 9 for providing power for the discharging mechanism 2, the first conveying mechanism 4, the cutting mechanism 3 and the second conveying mechanism 5 is also arranged on the frame 1. When the automatic sand worm dry preparation device is used, sand worm living bodies are put into the discharging mechanism 2, the sand worm living bodies are separated and orderly fall into the first conveying mechanism 4 after being screened and sequenced by the discharging mechanism 2, the sand worm living bodies are conveyed into the cutting mechanism 3 by the first conveying mechanism 4 to be cut, washed and flattened, then conveyed into the drying and delivering mechanism 8 by the second conveying mechanism 5, the flattened sand worm can be washed again and pre-dried in the conveying process of the second conveying mechanism 5, and the sand worm is delivered out after entering the drying and delivering mechanism 8 and is dried completely, at the moment, the automatic sand worm dry preparation process is completed.

The discharging mechanism 2 comprises a hopper 21 and a vibrating screen structure arranged in the hopper 21, the vibrating screen structure comprises an upper screen 22, a lower screen 22, a transmission mechanism 23 and a shaking shaft 24 which are balanced mutually, the driving mechanism 9 is in power connection with the shaking shaft 24 through the transmission mechanism 23, synchronous wheels 25 are respectively arranged at two ends of the shaking shaft 24, guide rods 26 extending out of the hopper 21 are respectively arranged on the upper screen 22 and the lower screen 22, the outer side of each guide rod 26 is eccentrically connected with one of the shaking shafts 24 through a connecting rod 27, and two ends of each connecting rod 27 are respectively hinged with the guide rods 26 or the synchronous wheels 25. The screen 22 is provided with a mesh 221 for sand worms to pass through. In the preparation process, after the living sand worms are put into the hopper 21, the living sand worms are vibrated up and down by the upper and lower screens 22, so that the living sand worms fall from the mesh openings 4 of the upper screen 22 to the lower screen 2, fall from the mesh openings 221 of the lower screen 2 to the first conveying mechanism 4, and are separated one by one after being combed by the upper and lower screens 2, so that each sand worm can be cut off respectively.

The four corners of each screen 22 are provided with an orientation sleeve 28, the orientation sleeves 28 are connected with the hopper 21 through a suspension rod 29, and buffer springs are further arranged at the connection parts of the orientation sleeves 28 and the suspension rod 29. The boom 29 secures the screen 22 in the hopper 21, and the directional sleeve 28 defines the up and down movement of the screen 22, and the buffer spring is capable of buffering the tension of the drive mechanism 9 on the screen 22. The driving mechanism 9 drives the shaking shaft 24 to rotate through the transmission mechanism 23, so that the synchronous wheels 25 on the two ends of the shaking shaft 24 are driven to rotate, the synchronous wheels 25 pull the guide rods 26 through the connecting rods 27 to enable the upper screen cloth and the lower screen cloth 22 to move, and the directional sleeves 28 on the screen cloth 22 limit the screen cloth 22 to only move up and down, so that up and down vibration of the upper screen cloth and the lower screen cloth 22 is realized.

A plurality of rows of partition boards 41 are arranged on the outer surface of the first conveying mechanism 4 in parallel along the extending direction of the first conveying mechanism 4, the distance between two adjacent rows of partition boards 41 is larger than the width of the sand worm body, and the partition boards 41 can separate the sand worms in each row and prevent the sand worms from climbing away everywhere, so that the cutting mechanism 3 cannot accurately cut the sand worms.

The cutting mechanism 3 comprises a sharp blade wheel 31 and a groove wheel 32, the sharp blade wheel 31 and the groove wheel 32 are arranged horizontally and oppositely, a convex annular sharp blade 33 is arranged on the sharp blade wheel 31, annular grooves 34 which are in one-to-one correspondence with the sharp blade 33 are arranged on the groove wheel 32, and the sharp blade wheel 31 and the groove wheel 32 are in power connection with the driving mechanism 9. In the preparation process, the living bodies of the sand worms are well arranged and conveyed into the grooves 34 of the grooved wheels 32, so that the driving mechanism 9 is beneficial to driving the sharp edge wheel 31 and the grooved wheels 32 to rotate relatively, the sharp edge 33 of the sharp edge wheel 31 rolls through the grooves 34 of the grooved wheels 32, the living bodies of the sand worms are accurately cut by the sharp edge 33, the traditional manual operation is replaced, and the production efficiency is improved.

The novel grinding machine further comprises a pair of grinding rollers 35, the grinding rollers 35 are located right below the sharp edge wheel 31 and the concave wheel 32 and rotate relatively, and the grinding rollers 35 are in power connection with the driving mechanism 9. The roller 35 flattens the cut sand worms, thereby making the produced sand worm dry more in line with the market acceptance of flat shape.

The lower parts of the knife edge wheel 31 and the groove wheel 32 are also provided with a primary washing nozzle 36 for cleaning sand worms, the primary washing nozzle 36 is connected with a water source, and the primary washing nozzle 36 is utilized to wash the viscera of the cut sand worms and then flatten the viscera.

The second conveying mechanism 5 is provided with an upper layer of conveying belt 51 and a lower layer of conveying belt 51 which move in the same direction, and the conveying belt 51 is a steel wire conveying belt 51. The cleaning mechanism 6 is a cleaning nozzle arranged below the conveyor belt 51. During the preparation process, the flattened sand worms are conveyed by the conveyor belt 51, and further flushing is performed by the cleaning and spraying during the conveying process, so that the sand and viscera remained in the sand worms are flushed again.

The pre-drying mechanism 7 comprises a pre-drying box 71 and first heating pipes 72 arranged in the pre-drying box 71, wherein the first heating pipes 72 are distributed above and below the conveyor belt 51. The washed sand worms enter the pre-drying box 71, and the first heating pipe 72 in the pre-drying box 71 performs primary drying treatment on the sand worms.

Referring to fig. 5, the drying and delivering mechanism 8 includes a drying box 81 and a drying controller 82, the drying box 81 is provided with a delivering port 83 and a delivering port 84, the drying box 81 is internally provided with a second heating pipe 85 and a humidity detector 86, the delivering port 84 is provided with a delivering door 87 and a rotary driving device 88 for opening the delivering door 87, the side of the drying box 81 opposite to the delivering door 87 is provided with a pushing mechanism 89 for pushing out the dried sand insects, and the pushing mechanism 89 includes a pushing plate 891 arranged in the drying box 81 and a pushing plate driving mechanism 892 for moving the pushing plate 891 to the delivering door 87; the signal output end of the humidity detector 86 is connected with the signal input end of the drying controller 82, and the signal output end of the drying controller 82 is simultaneously connected with the signal input end of the rotation driving device 88 and the signal input end of the pushing mechanism 89. The sand worm after preliminary drying treatment enters the drying box 81 from the delivery door 87, the second heating pipe 85 carries out further drying treatment on the sand worm, at this time, the humidity detector 86 detects the humidity in the drying box 81 in real time and sends signal data to the drying controller 82, the drying controller 82 compares the received real-time humidity information with the set humidity range, when the drying controller 82 finds that the received humidity information reaches the required range value, a signal is sent to the rotary driving device 88 to control the delivery door 87 to be opened, and then the signal is sent to the pushing mechanism 89 to control the push plate driving mechanism 892 to push out the push plate 891, so that the dried sand worm in the drying box 81 is pushed out of the box.

Casters are arranged on four feet at the bottom of the frame 1, so that the sand worm dry brake preparation device is convenient to move.

The foregoing description of the preferred embodiments of the invention is intended to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

Claims

1. The utility model provides an automatic device of preparing of dried sand worm, includes frame (1), its characterized in that frame (1) upper portion be equipped with discharge mechanism (2) the bottom discharge gate side of discharge mechanism (2) be equipped with cutting mechanism (3) frame (1) on be equipped with first conveying mechanism (4) that carry discharge mechanism (2) bottom discharge gate material to cutting mechanism (3) below be equipped with second conveying mechanism (5), second conveying mechanism (5) pass through wiper mechanism (6) and predrying mechanism (7) in proper order second conveying mechanism (5)'s conveying end below be equipped with stoving delivery mechanism (8) frame (1) on still be provided with driving mechanism (9) that provide power for discharge mechanism (2), first conveying mechanism (4), cutting mechanism (3) and second conveying mechanism (5).

The discharging mechanism (2) comprises a hopper (21) and a vibrating screen structure arranged in the hopper (21), the vibrating screen structure comprises an upper screen (22), a lower screen (23) and a shaking shaft (24), wherein the upper screen and the lower screen are mutually balanced, the driving mechanism (9) is in power connection with the shaking shaft (24) through the driving mechanism (23), synchronous wheels (25) are respectively arranged at two ends of the shaking shaft (24), guide rods (26) extending out of the hopper (21) are respectively arranged on the upper screen (22) and the lower screen, the outer side of each guide rod (26) is eccentrically connected with one of the shaking shafts (24) through a connecting rod (27), and two ends of each connecting rod (27) are respectively hinged with the guide rods (26) or the synchronous wheels (25);

four corners of each screen (22) are provided with an orientation sleeve (28), the orientation sleeves (28) are connected with the hopper (21) through a hanging rod (29), and buffer springs are arranged at the joints of the orientation sleeves (28) and the hanging rod (29);

the cutting mechanism (3) comprises a sharp edge wheel (31) and a concave groove wheel (32), the sharp edge wheel (31) and the concave groove wheel (32) are horizontally and oppositely arranged, a convex annular sharp edge (33) is arranged on the sharp edge wheel (31), annular grooves (34) which are in one-to-one correspondence with the sharp edges (33) are arranged on the concave groove wheel (32), and the sharp edge wheel (31) and the concave groove wheel (32) are in power connection with the driving mechanism (9);

the novel grinding machine also comprises a pair of grinding rollers (35), wherein the grinding rollers (35) are positioned under the sharp edge wheel (31) and the concave wheel (32) and rotate relatively, and the grinding rollers (35) are in power connection with the driving mechanism (9).

2. An automatic device for preparing dried sandworms according to claim 1, characterized in that the screen (22) is provided with meshes (221) for letting the sandworms pass through.

3. The automatic preparation device for the dried sandworms according to claim 1, characterized in that a plurality of rows of partition boards (41) are arranged on the outer surface of the first conveying mechanism (4) in parallel along the extending direction of the first conveying mechanism (4), and the distance between two adjacent rows of partition boards (41) is larger than the width of the bodies of the sandworms.

4. The automatic sand worm dry preparing device according to claim 1, wherein a primary washing nozzle (36) for cleaning sand worms is further arranged at the lower parts of the sharp blade wheel (31) and the concave wheel (32), and the primary washing nozzle (36) is connected with a water source.

5. The automatic preparation device of dried sandworm according to claim 1, wherein the second conveying mechanism (5) is provided with an upper layer and a lower layer of conveying belts (51) moving in the same direction, and the conveying belts (51) are steel wire conveying belts (51).

6. An automatic sand worm stem making device according to claim 5, characterized in that the cleaning mechanism (6) is a cleaning nozzle arranged below the conveyor belt (51).

7. An automatic sand worm stem preparing device according to claim 1, characterized in that the pre-drying mechanism (7) comprises a pre-drying box body (71) and first heating pipes (72) arranged in the pre-drying box body (71), wherein the first heating pipes (72) are distributed above and below the conveyor belt (51).

8. The automatic sand worm dry preparing device according to claim 1, wherein the drying and delivering mechanism (8) comprises a drying box body (81) and a drying controller (82), a delivering opening (83) and a delivering opening (84) are formed in the drying box body (81), a second heating pipe (85) and a humidity detector (86) are arranged in the drying box body (81), a delivering door (87) and a rotary driving device (88) for opening the delivering door (87) are arranged on the delivering opening (84), a pushing mechanism (89) for pushing out sand worm dry is arranged on the side, opposite to the delivering door (87), of the drying box body (81), and the pushing mechanism (89) comprises a push plate (891) arranged in the drying box body (81) and a push plate driving mechanism (892) for enabling the push plate (891) to move towards the delivering door (87); the signal output end of the humidity detector (86) is connected with the signal input end of the drying controller (82), and the signal output end of the drying controller (82) is simultaneously connected with the signal input end of the rotary driving device (88) and the signal input end of the pushing mechanism (89).