CN113303361A

CN113303361A - Novel device for promoting sand spitting of razor clams through high-flow-speed sloshing and working method of novel device

Info

Publication number: CN113303361A
Application number: CN202110773235.4A
Authority: CN
Inventors: 林巧珍; 郭平; 郭华; 兰德长
Original assignee: Ningde Baisheng Aquatic Products Co ltd
Current assignee: Ningde Baisheng Aquatic Products Co ltd
Priority date: 2021-07-08
Filing date: 2021-07-08
Publication date: 2021-08-27
Anticipated expiration: 2041-07-08
Also published as: CN113303361B

Abstract

The invention discloses a novel device for promoting sand spitting of razor clams by high-flow-velocity oscillation and a working method thereof, wherein the novel device comprises a water tank, an oscillation mechanism, a deflection mechanism and a transportation mechanism, wherein the oscillation mechanism, the deflection mechanism and the transportation mechanism are arranged in the water tank; when the shaking promotes the sand spitting of the razor clams, the shaking driving assembly drives the shaking frame to shake and move along the table surface of the deflection table, and the deflection driving assembly drives the deflection table to deflect downwards, so that the razor clams in the shaking frame are thrown into the transportation mechanism. The sand-spitting cleaning device is novel in structure and ingenious in design, due to the adoption of the structural design of combining the shaking mechanism and the deflection mechanism, sand spitting of the razor clams can be promoted, the razor clams after sand spitting can be simply cleaned, and the effect is remarkable.

Description

Novel device for promoting sand spitting of razor clams through high-flow-speed sloshing and working method of novel device

Technical Field

The invention relates to the technical field of aquatic product processing, in particular to a novel device for promoting sand spitting of razor clams by high-flow-speed sloshing and a working method thereof.

Background

The razor clam, named Sinonovacula constricta, is popular among consumers because of its delicious taste. However, before cooking as a food material, the inside of the food material needs to be cleaned. Consumers buy the razor clams from the market and remove the silt by themselves, which is very inconvenient. With the increase of consumption demand, the razor clams with silt removed are more favored by consumers. Therefore, a novel device for promoting the sand ejection of the razor clams by high-flow-speed sloshing and a working method thereof are provided.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides a novel device for promoting the sand spitting of razor clams by high-flow-speed sloshing and a working method thereof.

In order to achieve the purpose, the invention adopts the following technical scheme: a novel device for promoting sand spitting of razor clams by high-flow-velocity oscillation comprises a water tank, an oscillation mechanism, a deflection mechanism and a transportation mechanism, wherein the oscillation mechanism, the deflection mechanism and the transportation mechanism are arranged in the water tank; when the shaking promotes the sand spitting of the razor clams, the shaking driving component drives the shaking frame to shake and move along the table surface of the deflection table, and the deflection driving component drives the deflection table to deflect downwards, so that the razor clams in the shaking frame are thrown into the transportation mechanism.

The shaking driving assembly comprises a shaking driving motor, a driving crank and two driven cranks, wherein the driving crank and the two driven cranks are arranged at equal intervals around the circumference of the shaking frame, one end of the driving crank is fixedly connected with a motor shaft of the shaking driving motor, and the other end of the driving crank is hinged with the frame edge of the shaking frame; one end of the driven crank is movably and rotatably connected, and the other end of the driven crank is hinged with the frame edge of the shaking frame.

Further elaboration, the beat drive assembly is including beat driving motor, synchronous pivot and locate respectively the left side drive chain group, the right side drive chain group at synchronous pivot both ends, synchronous pivot with beat driving motor's output is connected, right side drive chain group is including right drive sprocket, right drive chain, right drive sprocket set firmly in synchronous pivot, right drive chain hangs and locates right drive sprocket, right drive chain's one end with the beat platform is connected, right drive chain's the other end hangs and is equipped with the counterweight.

Stated further, the structure of the left drive chain set is identical to the structure of the right drive chain set.

Further elaborating, the transport mechanism comprises a conveying belt, and a plurality of transverse baffle plates used for intercepting razor clams leaked from the deflection table are fixedly arranged at the conveying belt.

A working method of a novel device for promoting sand spitting of razor clams by high-flow-velocity sloshing is based on the novel device for promoting sand spitting of razor clams by high-flow-velocity sloshing, and comprises the following steps:

s1, pouring the razor clams into the shaking frame, and driving the shaking frame to shake and move along the table top of the deflection table by the shaking driving assembly;

s2, after the shaking is finished to promote the sand spitting of the razor clams, the deflection driving assembly drives the deflection table to deflect downwards, the lower part of the shaking frame is suspended, and the razor clams are guided into the transportation mechanism from the lower part of the shaking frame through the deflection table;

s3, the deflection driving assembly drives the deflection table to perform reciprocating deflection, and spray is lifted in the water tank so as to flush the razor clams at the conveying mechanism.

The invention has the beneficial effects that: the sand-spitting cleaning device is novel in structure and ingenious in design, due to the adoption of the structural design of combining the shaking mechanism and the deflection mechanism, sand spitting of the razor clams can be promoted, the razor clams after sand spitting can be simply cleaned, and the effect is remarkable.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural diagram of the present invention.

Fig. 3 is a partial structural schematic diagram of the present invention.

Fig. 4 is a partial structural schematic diagram of the present invention.

Reference numerals: 10. a water tank; 20. a sloshing mechanism; 21. a slosh drive assembly; 211. a sloshing driving motor; 212. a driving crank; 213. a driven crank; 22. a shaking frame; 30. a yaw mechanism; 31. a yaw drive assembly; 311. a yaw drive motor; 312. a synchronous rotating shaft; 313. a left drive chain set; 314. a right drive chain set; 3141. a right drive sprocket; 3142. a right drive chain; 3143. a counterweight; 32. a deflection table; 321. a fixed shaft; 40. a transport mechanism; 41. a conveyor belt; 42. a transverse baffle plate.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1 to 4, a novel device for promoting sand removal by high-flow-rate shaking of razor clams comprises a water tank 10, a shaking mechanism 20, a deflection mechanism 30 and a transportation mechanism 40, wherein the shaking mechanism 20, the deflection mechanism 30 and the transportation mechanism 40 are arranged in the water tank 10, as shown in fig. 2, the transportation mechanism 40 is obliquely arranged in the water tank 10, the shaking mechanism 20 and the deflection mechanism 30 are arranged at the initial end of the transportation mechanism 40, the shaking mechanism 20 comprises a shaking driving assembly 21 and a shaking frame 22 for driving the shaking of razor clams, and the deflection mechanism 30 comprises a deflection driving assembly 31 and a deflection table 32 arranged on the lower side of the shaking frame 22; as shown in fig. 1 and 3, when the sloshing-promoting razor clam spits, the swing table 32 is in a swing state, i.e., the table surface thereof is kept horizontal, and the sloshing driving assembly 21 drives the sloshing frame 22 to perform a shaking movement along the table surface of the swing table 32; after the razor clams finish spitting sand, the deflection driving assembly 31 drives the deflection table 32 to deflect downwards, so that the razor clams in the oscillation frame 22 are thrown into the transportation mechanism 40. As shown in fig. 3, the lower side of the swing table 32 is hinged to a fixed shaft 321, and the swing table 32 is swung around the fixed shaft 321.

Referring to fig. 1 and 4, the sloshing driving assembly 21 includes a sloshing driving motor 211, a driving crank 212, and two driven cranks 213, the driving crank 212 and the two driven cranks 213 are disposed at equal intervals around the circumference of the sloshing frame 22, one end of the driving crank 212 is fixedly connected to a motor shaft of the sloshing driving motor 211, and the other end of the driving crank 212 is hinged to the rim of the sloshing frame 22; one end of the driven crank 213 is movably and rotatably connected, and the other end of the driven crank 213 is hinged with the rim of the shaking frame 22. As shown in fig. 1, when the razor clam is shaken to promote the sand spitting, the shaking driving motor 211 drives the shaking frame 22 through the driving crank 212, and since the lengths of the other two driven cranks 213 are completely equal to the length of the driving crank 212, the shaking frame 22 performs a horizontal circular offset motion under the combined action of the driving crank 212 and the driven cranks 213, so as to drive the razor clam to shake, thereby promoting the razor clam to sand spit.

Referring to fig. 3 and fig. 4, the yaw driving assembly 31 includes a yaw driving motor 311, a synchronous rotating shaft 312, and a left transmission chain group 313 and a right transmission chain group 314 respectively disposed at two ends of the synchronous rotating shaft 312, the synchronous rotating shaft 312 is connected to an output end of the yaw driving motor 311, the right transmission chain group 314 includes a right transmission chain wheel 3141 and a right transmission chain 3142, the right transmission chain wheel 3141 is fixedly disposed on the synchronous rotating shaft 312, the right transmission chain 3142 is hung on the right transmission chain wheel 3141, one end of the right transmission chain 3142 is connected to the yaw table 32, and the other end of the right transmission chain 3142 is hung with a counterweight 3143. The structure of the left drive chain set 313 is identical to the right drive chain set 314. As shown in fig. 4, when the deflection driving assembly 31 drives the deflection table 32 to deflect, the deflection driving motor 311 drives the left transmission chain group 313 and the right transmission chain group 314 synchronously through the synchronous rotating shaft 312, as shown in fig. 4, the synchronous rotating shaft 312 drives the right transmission chain wheel 3141 of the right transmission chain group 314 to rotate, and the right transmission chain wheel 3141 pulls the deflection table 32 through the right transmission chain 3142, so that the deflection table 32 deflects around the fixed shaft 321.

Referring to fig. 2, the transportation mechanism 40 includes a transportation belt 41, and a plurality of transverse baffles 42 for intercepting the razor clams leaked from the swing table 32 are fixed on the transportation belt 41. As shown in FIG. 2, when the transportation means 40 transports the razor clams, the razor clams are caught at the corner between the transverse rail 42 and the transportation belt 41.

s1, pouring the razor clams into the shaking frame 22, and driving the shaking frame 22 to shake along the table top of the shaking table 32 by the shaking driving assembly 21; the specific shaking time can be 15-20 min; in addition, during the shaking, a cover is required to be covered above the shaking frame 22 in order to make the razor clams lack oxygen;

s2, after the shaking is finished to promote the sand spitting of the razor clams, the deflection driving assembly 31 drives the deflection table 32 to deflect downwards, the lower part of the shaking frame 22 is suspended, and the razor clams are guided into the transportation mechanism 40 from the lower part of the shaking frame 22 through the deflection table 32;

s3, the deflection driving component 31 drives the deflection table 32 to perform reciprocating deflection, the amplitude of the deflection is about 30 degrees, and the deflection table 32 lifts water flowers in the water tank 10 to wash razor clams at the transportation mechanism 40.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

The above description does not limit the technical scope of the present invention, and any modification, equivalent change and modification of the above embodiments according to the technical spirit of the present invention still fall within the technical scope of the present invention.

Claims

1. The utility model provides a novel device that high velocity of flow rocks and promotes husky spit of razor clam which characterized in that: the water tank type water-saving device comprises a water tank (10), and a shaking mechanism (20), a deflection mechanism (30) and a transportation mechanism (40) which are arranged in the water tank (10), wherein the shaking mechanism (20) comprises a shaking driving assembly (21) and a shaking frame (22) for driving the shaking of razor clams, and the deflection mechanism (30) comprises a deflection driving assembly (31) and a deflection table (32) arranged on the lower side of the shaking frame (22); when the shaking promotes the sand spitting of the razor clams, the shaking driving component (21) drives the shaking frame (22) to shake and move along the table surface of the deflection table (32), and the deflection driving component (31) drives the deflection table (32) to deflect downwards, so that the razor clams in the shaking frame (22) are thrown into the transportation mechanism (40).

2. The novel device for promoting the sand ejection of razor clams by high-flow-rate sloshing as claimed in claim 1, wherein: the shaking driving assembly (21) comprises a shaking driving motor (211), a driving crank (212) and two driven cranks (213), the driving crank (212) and the two driven cranks (213) are arranged at equal intervals around the circumference of the shaking frame (22), one end of the driving crank (212) is fixedly connected with a motor shaft of the shaking driving motor (211), and the other end of the driving crank (212) is hinged with the frame edge of the shaking frame (22); one end of the driven crank (213) is movably and rotatably connected, and the other end of the driven crank (213) is hinged with the frame edge of the shaking frame (22).

3. The novel device for promoting the sand ejection of razor clams by high-flow-rate sloshing as claimed in claim 1, wherein: the deflection driving component (31) comprises a deflection driving motor (311), a synchronous rotating shaft (312), a left transmission chain group (313) and a right transmission chain group (314) which are respectively arranged at two ends of the synchronous rotating shaft (312), the synchronous rotating shaft (312) is connected with an output end of the deflection driving motor (311), the right transmission chain group (314) comprises a right transmission chain wheel (3141) and a right transmission chain (3142), the right transmission chain wheel (3141) is fixedly arranged on the synchronous rotating shaft (312), the right transmission chain (3142) is hung on the right transmission chain wheel (3141), one end of the right transmission chain (3142) is connected with the deflection table (32), and a counterweight (3143) is hung at the other end of the right transmission chain (3142).

4. The novel device for promoting the sand ejection of razor clams by high-flow-rate sloshing as claimed in claim 3, wherein: the structure of the left transmission chain group (313) is identical to that of the right transmission chain group (314).

5. The novel device for promoting the sand ejection of razor clams by high-flow-rate sloshing as claimed in claim 1, wherein: the conveying mechanism (40) comprises a conveying belt (41), and a plurality of transverse baffle plates (42) used for intercepting the razor clams leaked from the deflection table (32) are fixedly arranged at the conveying belt (41).

6. A working method of a novel device for promoting sand spitting of razor clams through high-flow-speed sloshing is characterized in that: the novel device for promoting the sand ejection of razor clams with high flow rate sloshing as claimed in any one of claims 1 to 5, comprising the following steps:

s1, pouring the razor clams into the shaking frame (22), and driving the shaking frame (22) to shake and move along the table top of the deflection table (32) by the shaking driving assembly (21);

s2, after the shaking is finished to promote the sand spitting of the razor clams, the deflection driving assembly (31) drives the deflection table (32) to deflect downwards, the lower part of the shaking frame (22) is suspended, and the razor clams are guided into the transportation mechanism (40) from the lower part of the shaking frame (22) through the deflection table (32);

s3, the deflection driving component (31) drives the deflection table (32) to perform reciprocating deflection, and spray is lifted in the water tank (10) so as to flush razor clams at the transportation mechanism (40).