CN220916419U - Novel scallop air washer - Google Patents

Abstract

The utility model provides a novel scallop air washer which comprises a conveying machine tool, wherein a scallop overturning mechanism is arranged in the middle of the conveying machine tool, and high-pressure air nozzles are arranged above the conveying machine tool on the front side and the rear side of the scallop overturning mechanism. The utility model adopts a cleaning mode of flushing the scallop surface by high-pressure air to replace the traditional water washing cleaning mode, can greatly save water resources and workshop space occupied by related water storage equipment, further reduce corrosion conditions of subsequent processing equipment, prolong the service life of the subsequent processing equipment and reduce processing cost. The damage to scallop shells is reduced after mechanical cleaning equipment is replaced, and the loss of the scallop is reduced. In addition, in order to ensure the air washing effect, a scallop overturning mechanism is arranged in the middle of the conveying machine tool, so that the scallop can be overturned after the front surface is cleaned to clean the back surface of the scallop, and the air washing machine is simple in structure, easy to operate and good in cleaning effect.

Description

Novel scallop air washer

Technical Field

The utility model relates to the technical field of scallop cleaning, in particular to a novel scallop air cleaner.

Background

In the pipelining processing operation of scallops, the surfaces of the caught scallops need to be cleaned so as to ensure that the quality of products is not reduced due to sediment pollution in the subsequent processing process. The current cleaning mode is mainly water washing, and the cleaning efficiency is improved through stirring equipment or a rolling brush. However, the water washing method consumes a large amount of water resources, the mechanical cleaning equipment damages scallop shells, and the water carried by the washed scallop can corrode equipment in the subsequent process, so that the loss of the scallop is increased, and the processing cost of the equipment and raw materials is increased.

Disclosure of utility model

The application aims to provide a novel scallop air washer, which aims to solve the problems in the prior art.

The embodiment of the application provides a novel scallop air washer, which comprises a conveying machine tool, wherein a scallop overturning mechanism is arranged in the middle of the conveying machine tool, and high-pressure air nozzles are arranged above the conveying machine tools on the front side and the rear side of the scallop overturning mechanism;

The conveying machine tool comprises two split bed bodies, wherein the two split bed bodies are positioned at the front side and the rear side of the scallop overturning mechanism; the scallop overturning mechanism comprises a transverse shaft, wherein the transverse shaft is transversely arranged between two split bed bodies, a rotary blade is fixedly connected to the transverse shaft, the rotary blade is installed on the transverse shaft in a cross shape by taking the transverse shaft as a center axis, an included angle between two adjacent rotary blades forms a scallop accommodating space, and the rotary shaft drives the rotary blade to rotate each time so that the scallop accommodating space rotates by 90 degrees to overturn the scallop; the width and length of each rotating blade are smaller than those of the scallop used.

Further, an external track frame is arranged on the conveying machine tool, the external track frame comprises two side frames which are distributed left and right, and the side frames are relatively fixed with the conveying machine tool; a plurality of baffle plates are arranged in the two frames in the same conveying direction, and a single scallop channel is formed between the frame and the baffle plates and between two adjacent baffle plates; a gap is reserved between the partition plate and the surface of the conveying machine tool; the plurality of clapboards are fixedly connected with the two frames through transverse plates.

Further, the cross plate is fixed above the partition plate.

Further, a group of rotating blades is arranged on the transverse shaft corresponding to each single scallop channel.

Further, the two ends of the transverse shaft are respectively provided with an end plate, the end plates are fixedly connected to the two split bed bodies, the transverse shaft is rotationally connected with the end plates, and any one end part of the transverse shaft is in transmission connection with a motor.

Further, the high-pressure air nozzles are arranged on the driving machine tool through the support, the high-pressure air nozzles are distributed corresponding to the single scallop channels, each single scallop channel corresponds to one or more rows of high-pressure air nozzles, and each row at least comprises three high-pressure air nozzles.

The beneficial effects of the utility model are as follows: the utility model adopts a cleaning mode of flushing the scallop surface by high-pressure air to replace the traditional water washing cleaning mode, can greatly save water resources and workshop space occupied by related water storage equipment, further reduce corrosion conditions of subsequent processing equipment, prolong the service life of the subsequent processing equipment and reduce processing cost. The damage to scallop shells is reduced after mechanical cleaning equipment is replaced, and the loss of the scallop is reduced. In addition, in order to ensure the air washing effect, a scallop overturning mechanism is arranged in the middle of the conveying machine tool, so that the scallop can be overturned after the front surface is cleaned to clean the back surface of the scallop, and the air washing machine is simple in structure, easy to operate and good in cleaning effect.

Drawings

Fig. 1 is a schematic side sectional structure of the present utility model.

Fig. 2 is a schematic top view of an external track frame.

In the figure:

1. Conveying a machine tool; 2. a high pressure gas nozzle; 3. a split bed body; 4. a horizontal axis; 5. rotating the blades; 6. a scallop accommodating space; 7. a frame; 8. a partition plate; 9. a single scallop channel; 10. a cross plate; 11. an end plate; 12. a motor; 13. and (3) a bracket.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The novel scallop air washer shown in fig. 1 and 2 comprises a conveying machine tool 1, wherein a scallop turnover mechanism is arranged in the middle of the conveying machine tool 1, and high-pressure air nozzles 2 are arranged above the conveying machine tools 1 on the front side and the rear side of the scallop turnover mechanism. Because the high-pressure air nozzle 2 can only clean the upward surface of the scallop, a scallop overturning mechanism is arranged in the middle of the conveying machine tool 1 and used for overturning the scallop so as to ensure that the upper surface and the lower surface of the scallop can be cleaned.

Specifically, as shown in fig. 1, the conveying machine tool 1 comprises two split-bed bodies 3, wherein the two split-bed bodies 3 are positioned at the front side and the rear side of the scallop overturning mechanism; the scallop overturning mechanism comprises a transverse shaft 4, wherein the transverse shaft 4 is transversely arranged between two split bed bodies 3, a rotary blade 5 is fixedly connected to the transverse shaft 4, the rotary blade 5 is installed on the transverse shaft 4 in a cross shape by taking the transverse shaft 4 as a center axis, an included angle between two adjacent rotary blades 5 forms a scallop accommodating space 6, and each rotation of a rotating shaft drives the rotary blade 5 to rotate so that the scallop accommodating space 6 rotates by 90 degrees to overturn the scallop; the width and length of each rotating blade 5 are smaller than those of the scallop, so that the scallop can be transferred from the front side sub-bed body 3 to the scallop accommodating space 6 through transfer, and the scallop can be transferred continuously after turning over by contacting the rear side sub-bed body 3.

In order to increase the transportation capacity and the air washing efficiency of the conveying machine tool 1, an external track frame is mounted on the conveying machine tool 1, and as shown in fig. 2, the external track frame comprises two side frames 7 distributed left and right, and the side frames 7 are relatively fixed with the conveying machine tool 1. A plurality of baffle plates 8 are arranged in the two frames 7 in the same conveying direction, and gaps are reserved between the baffle plates 8 and the surface of the conveying machine tool 1, so that the baffle plates 8 do not obstruct the running of a conveying belt on the conveying machine tool 1. A single scallop channel 9 is formed between the frame 7 and the partition plates 8 and between two adjacent partition plates 8, and the width of each single scallop channel 9 enables scallops to pass through in a single row. Whereby the surface of the conveyor 1 can be divided into a plurality of single scallop channels 9 to increase the number of single shipments.

The plurality of partition boards 8 are fixedly connected with the two frames 7 through the transverse boards 10, and the transverse boards 10 are used for connecting the plurality of partition boards 8 with the two frames 7 so as to enable the partition boards 8 and the two frames 7 to be mutually fixed into a whole. The preferred cross plate 10 is fixed above the partition plate 8, and the height of the cross plate 10 is higher than that of the scallop, so that the cross plate 10 can be prevented from obstructing the transmission of the scallop.

A group of rotating blades 5 are arranged on the transverse shaft 4 corresponding to each single scallop channel 9, and the scallops in the single scallop channels 9 are turned over correspondingly.

End plates 11 are respectively arranged at two ends of the transverse shaft 4, the end plates 11 are fixedly connected to the two split-bed bodies 3, the transverse shaft 4 is rotationally connected with the end plates 11, and the transverse shaft 4 is fixed with the conveying machine tool 1 through the end plates 11. Any one end part of the transverse shaft 4 is in transmission connection with a motor 12, the transverse shaft 4 is driven to rotate by the motor 12, and a speed reducer, a PLC (programmable logic controller) and the like are arranged between the motor 12 and the transverse shaft 4.

The high-pressure air nozzles 2 are arranged on the driving machine tool through the bracket 13, the high-pressure air nozzles 2 are distributed corresponding to the single scallop channels 9, and high-pressure air flushing is carried out on the scallops in the single scallop channels 9. Each single scallop channel 9 corresponds to one or more rows of high pressure air nozzles 2, each row including at least three high pressure air nozzles 2.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (6)

1. The novel scallop air washer is characterized by comprising a conveying machine tool, wherein a scallop overturning mechanism is arranged in the middle of the conveying machine tool, and high-pressure air nozzles are arranged above the conveying machine tools on the front side and the rear side of the scallop overturning mechanism;

The conveying machine tool comprises two split bed bodies, wherein the two split bed bodies are positioned at the front side and the rear side of the scallop overturning mechanism; the scallop overturning mechanism comprises a transverse shaft, wherein the transverse shaft is transversely arranged between two split bed bodies, a rotary blade is fixedly connected to the transverse shaft, the rotary blade is installed on the transverse shaft in a cross shape by taking the transverse shaft as a center axis, an included angle between two adjacent rotary blades forms a scallop accommodating space, and the rotary shaft drives the rotary blade to rotate each time so that the scallop accommodating space rotates by 90 degrees to overturn the scallop; the width and length of each rotating blade are smaller than those of the scallop used.

2. The novel scallop air cleaner of claim 1, wherein the conveying machine tool is provided with an external track frame, the external track frame comprises two side frames distributed left and right, and the side frames are relatively fixed with the conveying machine tool; a plurality of baffle plates are arranged in the two frames in the same conveying direction, and a single scallop channel is formed between the frame and the baffle plates and between two adjacent baffle plates; a gap is reserved between the partition plate and the surface of the conveying machine tool; the plurality of clapboards are fixedly connected with the two frames through transverse plates.

3. The novel scallop air washer of claim 2 wherein the cross plate is secured above the baffle plate.

4. The novel scallop air washer of claim 2 wherein a set of rotating blades is provided on the transverse shaft for each single scallop channel.

5. The novel scallop air-washing machine according to claim 1, wherein the two ends of the transverse shaft are respectively provided with an end plate, the end plates are fixedly connected to the two split beds, the transverse shaft is rotationally connected with the end plates, and any one end part of the transverse shaft is in transmission connection with a motor.

6. A novel scallop air washer according to claim 2 wherein the high pressure air nozzles are mounted on the drive machine by brackets, the high pressure air nozzles being distributed in correspondence with individual scallop channels, each individual scallop channel being in correspondence with one or more rows of high pressure air nozzles, each row comprising at least three high pressure air nozzles.