KR101629652B1 - Separating and cleaning apparatus for sea squirt - Google Patents

Abstract

The present invention relates to an apparatus for separating and cleaning sea squirt. An apparatus for separating and cleaning sea squirt according to the present invention includes an injection unit (20), a separation unit (40), and a sorting unit (50) which are installed in order on a frame (10); and a separation bar (46) which is included in the separation unit (40), and rotated in a state that the separation bar (46) is installed on a rotary shaft (28) for rotating a transfer screw (30) included in the injection unit (20). The separation bar (46) enables the sea squirt to be individually separated while the sea squirt is being transferred in the separation unit (40). The separation unit (40) additionally includes a retaining member (48) which not only is rubbed against the surface of the sea squirt while dividing a flow cross-section into several areas, but also prevents the sea squirt from being rotated when force is applied to the sea squirt by the separation bar (46). Accordingly, an apparatus for separating and cleaning sea squirt according to the present invention is capable of providing the separated and cleaned sea squirt by more smoothly separating and cleaning the sea squirt attached to suspended lines.

Description

[0001] The present invention relates to a separating and cleaning apparatus for sea squirt,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an ashtray separating and cleaning apparatus, and more particularly, to an ashtray separating and cleaning apparatus for separating and cleaning an ashtray on an underfloor.

There are two ways of cultivating, depending on the living habits of the creature, the attachment style and the bottom style. Adhesion style includes algae culture to raise adherent shellfish and algae culture to bring up Kimi and sea stalk. Mussel, oysters, and ascens can be cultivated on the floor, but they are attached to the shell by utilizing the adhesiveness of the mussel, oysters, and ascension. Then, the shell is put back on a long string and put on a raft or a rich person. Such a line is called the lower end, and most of the attaching styles use this method.

As such, cultures adhered to the bottom of the water must be separated and removed one by one at the time of harvesting, which is a cumbersome and difficult task. And, in the case of mussels, oysters, and ascidia, when they are in seawater, they must be removed in the process of harvesting because many parasites grow on the surface.

There are some of the prior art references listed below for isolating cultures and removing and clearing parasites from aquatic plants. In particular, Korean Patent Registration No. 10-1545165 discloses a method of separating aquaculture product from water and cleaning it with water by transferring the products attached to the bottom product using a transfer screw.

However, there is a problem that only the parasitic organisms are removed by the friction between the cultivars, and there remains something that can not completely separate the cultured products from the bottom seed.

In the above-mentioned prior art documents, the worker is required to rotate the screening cans, resulting in a problem that working efficiency is low.

Korean Patent No. 10-1545165 Korean Patent No. 10-1474105 Korean Patent No. 10-1316337

It is an object of the present invention to solve the above-mentioned problems of the prior art, and it is an object of the present invention to allow parasitoids to be removed well while ensuring the separation of the ascens attached to the lower flask.

According to an aspect of the present invention for achieving the above object, the present invention provides a motorcycle comprising: a frame; an ashtrap installed on the frame and inserted through the inlet of the input housing into the lower flask; And a separating bar provided on the rotating shaft and separating and conveying the aspen while rotating, the separating barrel being provided inside the separating cylinder as a part separating the ascension passed by the feeding part by the conveying screw installed on the rotating shaft, A separating portion provided with a retaining member for separating a flow cross section through which the culture is conveyed between the separating bars at predetermined intervals; and a separating portion for separating the ash separated from the separating portion by the rotating shaft, A sorting unit having a plurality of separate sorting cylinders communicating with the inside and the outside, To the interior of the body of water jet comprises a spray nozzle to wash the debris of the squirt surface.

The legs of the frame are provided with elevating bars which are raised and lowered with respect to the legs to adjust the height.

The separation bars are installed at a plurality of locations on the outer surface of the rotary shaft at regular intervals.

The separation cylinder of the separation unit is provided with a door to allow access to the holding member of the inner space and the separation bar.

The holding member is branched and provided at a predetermined angle so that one end of the holding member is connected to each other at a position adjacent to the rotating shaft and the other end is fixed to the inner surface of the separating cylinder.

The retaining member is made of chain.

The following effects can be obtained in the ashtion separating and cleaning apparatus according to the present invention.

In the present invention, the separating member is rotated in the state where the culture is held to a certain extent by the holding member inside the separating unit, and is separated from the lower edge of the separating member. Therefore, the force exerted by the rotation of the separating member can be accurately given to the ashtray, so that the separation of the ashtrap attached to the undertreatment can be smoothly performed.

In the present invention, one rotation axis is rotated by the driving source to convey the ashtray and separate the object, and the rotation shaft is rotated to the sorting trough so that the ashtray and the foreign substances can be selected and cleaned. Accordingly, the number of personnel necessary for driving the apparatus is minimized, and the working efficiency as a whole can be increased.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective view showing a configuration of a preferred embodiment of an apparatus for separating and cleaning an ascan and an ascan according to the present invention in the direction of a charging unit. Fig.
Fig. 2 is a perspective view showing the configuration of the embodiment shown in Fig. 1 in the direction of the discriminating portion. Fig.
3 is a perspective view showing a configuration of a charging unit constituting an embodiment of the present invention.
4 is a plan view showing a partial configuration of an embodiment of the present invention.
FIG. 5 is a cross-sectional view of the separator taken along the line in the embodiment of the present invention. FIG.
6 is a perspective view showing an internal configuration of a charging unit in the embodiment of the present invention.
7 is a perspective view showing an internal structure of a separating portion in the embodiment of the present invention.

Hereinafter, some embodiments of the present invention will be described in detail with reference to exemplary drawings. It should be noted that, in adding reference numerals to the constituent elements of the drawings, the same constituent elements are denoted by the same reference numerals whenever possible, even if they are shown in different drawings. In the following description of the embodiments of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the understanding why the present invention is not intended to be interpreted.

In describing the components of the embodiment of the present invention, terms such as first, second, A, B, (a), and (b) may be used. These terms are intended to distinguish the constituent elements from other constituent elements, and the terms do not limit the nature, order or order of the constituent elements. When a component is described as being "connected", "coupled", or "connected" to another component, the component may be directly connected or connected to the other component, Quot; may be "connected," "coupled," or "connected. &Quot;

As shown in the figures, the frame 10 is comprised of a support 12 and legs 14. The frame 10 is a portion to which the components constituting the apparatus of the present invention are mounted. In the frame 10, the support base 12 is a part where the components are fixed, and the legs 14 allow the support base 12 to be positioned at a predetermined height on the ground. The legs 14 are provided with adjusting holes 16 in a row in the height direction. The legs 14 are each provided with a lifting bar 18 to adjust the height of the lifting bar 18 with respect to the legs 14. The adjusting bolt 17 penetrates through the adjusting hole of the elevating bar 16 and the elevating bar 18 of the leg 14 so as to be inserted into the elevating bar 18, So that the position of the lifting bar (18) is adjusted with respect to the lifting bar (14). In the lifting bar 18, the inlet housing 22, the separating cylinder 52, and the like to be described below are fixed and height-adjusted.

The structure of the frame 10 is not limited to that shown in the drawings of this embodiment, and for example, a separate plate may be provided on the support base 12.

There is a tray 19 extending from one end of the frame 10 and below the sorting portion 50 to be described below. The tray (19) is a part where foreign matter coming out of the sorting cylinder (52) of the sorting part (50) is seated.

At one end of the frame 10, there is a charging part 20. The charging unit 20 is formed with a housing 22 into which an outer tube is inserted. The charging housing 22 has a charging opening 24 to open in the direction opposite to gravity. And the lower flask attached with an ashtray is inserted into the inlet housing 22 through the inlet 24 to be transferred. In this embodiment, although the input housing 22 is substantially hexahedral in shape, its outer shape is not limited.

A drive source (26) is located near one side of the outer surface of the input housing (22). In this embodiment, the driving source 26 is a hydraulic motor. The driving source 26 is for rotating the rotary shaft 28. The driving force of the driving source 26 is transmitted to the rotary shaft 28 through the speed reducer 27.

The rotating shaft 28 penetrates through the input housing 22 and passes through the separating cylinder 42 to be described below and becomes the center of rotation of the separating cylinder 52 to rotate the separating cylinder 52.

A conveying screw 30 is installed in a portion of the rotating shaft 28 corresponding to the inside of the input housing 22. The configuration of the conveying screw 30 is well shown in FIG. The feed screw 30 has a spiral shape and is rotated by the rotation of the rotary shaft 28 to push and transport the product. In the present embodiment, the conveying screw 30 is connected to and fixed to the rotary shaft 28 by a plurality of connecting bars 32.

The feed screw (30) is located only inside the feed housing (22). The transfer screws 30 are all connected together. However, the conveying screws 30 may be separated into several pieces.

A separating part (40) is provided on the frame (10) in connection with the charging part (20). The separation unit 40 allows the aspen to be separated. In other words, it is to isolate the unity of several individuals. The separation cylinder (42) forms the outer surface of the separation part (40). The inside of the separating cylinder (42) is cylindrical. That is, the internal space 44 to be described below becomes a cylindrical space. A door (43) is provided on one side of the separating cylinder (42). The door 43 allows the operator to access the internal space 44 of the separating cylinder 42. The door 43 is opened to approach the inner space 44.

One end of the separating cylinder 42 is connected to the elevating bar 18 of the frame 10. The elevating bar 18 on the opposite side of the elevating bar 18 supporting the separating cylinder 42 supports the introducing housing 22.

A separation bar (46) is provided at a predetermined interval in a rotary shaft (28) passing through the inside of the separation cylinder (42). In this embodiment, as can be seen from Fig. 7, the separation bars 46 are provided in seven places. The separation bars 46 are installed at a predetermined angular interval of 2 to 4 in one place. The two separation bars 46 are provided upstream of the inside of the separation cylinder 42, and the separation bars 46 are provided at the first two positions at intervals of 180 degrees. At the remaining positions, separation bars 46 are arranged at intervals of 90 degrees. That is, four are arranged. The separating bar 46 applies force to the surface of the culture to separate the culture from the culture. At the free end of the separation bar (46), a distal end protrusion (47) protrudes in one direction. The distal end protrusion 47 protrudes in a direction in which the separation bar 46 rotates. This is for the purpose of allowing the ashtray to smoothly move toward the rotary shaft 28 along the separation bar 46 as the ashtray is hooked on the distal end projecting portion 47.

A retaining member (48) is disposed inside the separating cylinder (42). The holding member (48) divides the flow cross section of the inside of the separating cylinder (42) into several sections. In this embodiment, the retaining member 48 divides the flow cross section into three sections. The holding member 48 keeps the position of the umbrella so that the umbrella is not rotated arbitrarily when the separating bar 46 applies force to the surface of the umbrella, and rubs against the surface of the umbrella.

The holding member 48 uses a chain in this embodiment. The holding members 48 are connected to each other so that three branches are spaced apart from each other by 120 and the other ends of the branches are fixed to the inner surface of the separating cylinder 42. Such a retaining member 48 is located between the separation bars 46. Therefore, in this embodiment, there are six holding members 48 in total.

On the downstream side of the separating section (40), a sorting section (50) is provided. The outer casing of the sorting unit (50) is constituted by the sorting cylinder (52). The screening cylinder 52 has a cylindrical shape, and has a plurality of through holes formed through the inside and outside thereof. Through the holes, various foreign substances on the surface of the urchins are discharged to the outside.

The screening cylinder (52) is rotated by the rotation of the rotation shaft (28). To this end, an end ring 53 is provided at both ends of the sorting cylinder 52 and a supporting bar 54 extending from the rotating shaft 28 is connected to the end ring 53. Therefore, the end ring 53, that is, the entire selection cylinder 52 is rotated by the rotation of the rotation shaft 28. [

There is an injection nozzle (56) for spraying water into the inside of the selection cylinder (52). The injection nozzle 56 is installed at the tip of the pipe 58 and injects water toward the inside from the outlet of the separating cylinder 52. The piping 58 is installed in the frame 10, as best shown in Fig. The pipe 58 is provided with a plurality of valves 60, 60 'and 60' ', and at one side thereof, the pipe 58 is branched and the valve 60' 'is provided at the branched portion thereof. A separate hose may be connected to the pipe 58 provided with the valve 60 "so as to inject water into the inside of the input housing 22 or the like.

On the other hand, a blocking plate (not shown) is installed at the downstream end of the separating cylinder 42 so that some water can be filled in the separating cylinder 42. The blocking plate is formed into an approximately arcuate shape to block a lower portion of the flow cross-sectional area of the separating cylinder 42. In the figure, reference numeral 49 denotes a drive source operating unit for the operator to drive the drive source 26. In the drawing of the present embodiment, the structure of the drive source operating portion 49 is schematically shown.

Hereinafter, the use of the apparatus for cleaning and separating aspans according to the present invention having the above-described structure will be described in detail.

When the driving source 26 is driven, the rotation shaft 28 is rotated and the feeding screw 30, the separation bar 46 and the sorting cylinder 52 are rotated.

When the incandescent lamp is attached to the lower housing, the incandescent lamp attached to the lower lamp is transported by the transporting screw (30) when the lamp is inserted into the charging housing (22) through the charging opening (24).

When the lower stream attached with the ashtray is moved by the feed screw 20 in the feeder 20, water can be injected into the feeder 20 using a separate hose.

When the ascidian is fed to the separating cylinder 42 by the feed screw 20 through the feeding part 20, the separating bar 46 separates the food into individual pieces by the separating bar 46 The transfer is performed by the separation bar 46. The separation bar (46) is rotated by the rotation of the rotation shaft (28), and impacts the ashtrays, thereby separating the ashtrays from each other.

At this time, the retaining member 48 functions to allow the umbrella to receive a force without being rotated when a force is applied to the umbrella by the separation bar 46. For example, in a state in which a lump of scabs is placed on the holding members 48 adjacent to each other, the separating bar 46 between them is rotated to separate the individuals by applying force to the scabs. When a force is applied by the separation bar 46, the holding member 48 can be flowed to some extent, and thus a large impact on the cultured product can be prevented from being damaged.

The retaining member 48 rubs against the surface of the ash when the ash leaves pass through the separating cylinder 42. In this case, the parasitic organisms on the surface of the ascid can be separated. Of course, the separated ascidian rubs against each other, causing parasitic organisms to come off by friction.

Separated excreted asparagus from the separating cylinder 42 of the separating unit 40 is discharged along the inner surface of the separating cylinder 52 by the rotation of the separating cylinder 52. In this process, the parasitic organisms are discharged to the outside through the through holes formed in the separating cylinder 52, and are placed on the tray 19, and the culture products are discharged through the outlet of the separating cylinder 52.

In the process of discharging the culture products through the outlet of the sorting cylinder (52), water is sprayed through the spray nozzle (56) to wash the urchins. As a result, the foreign substances adhering to the surface of the urchins are removed and cleaned and discharged from the sorting unit 50 in a clean state.

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the scope of the present invention but to limit the scope of the technical idea of the present invention. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents thereof should be construed as falling within the scope of the present invention.

10: frame 12: support
14: leg 16: regulator
17: adjusting bolt 18: lifting bar
20: input section 22: input housing
24: input port 26:
28: rotary shaft 30: feed screw
32: connecting bar 40: separating part
42: separating cylinder 43: door
44: inner space 46: separation bar
47: tip end protrusion 48: retaining member
49: drive source operating part 49 ': hydraulic piping
50: selector 52:
53: end ring 54: support bar
56: injection nozzle 58: piping
60, 60 ', 60 ": valve

Claims (6)

Frame,
An input unit which is installed on the frame and is fed by a feed screw provided on a rotary shaft which is inserted into an underarm underneath through a feed port of the feed housing and rotated by a drive source,
And a separating bar provided on the rotating shaft and separating and conveying the ascension while rotating the separating cylinder, wherein the separating bar is provided with a flow cross section in which the bait is conveyed between the separating bars, A holding member for holding the holding member,
A sorting unit including a sorting cylinder which is rotated by the rotating shaft and has a plurality of through holes for sorting outclaws and foreign substances separated from the separating unit,
And a spray nozzle for spraying water into the inside of the selective tubular body to wash foreign matter on the surface of the ashtray.
[2] The apparatus according to claim 1, wherein the legs of the frame are provided with elevating bars elevating and lowering the legs relative to the legs.
[3] The apparatus according to claim 2, wherein the separating bar is installed at a plurality of positions on the outer surface of the rotating shaft at a predetermined interval.
[5] The apparatus according to claim 3, wherein the separating cylinder of the separating unit is provided with a door for accessing the holding member of the inner space and the separating bar.
5. The separator according to any one of claims 1 to 4, wherein the holding member is divided into a pair of beakers separated from each other by a predetermined angle so that one end of the holding member is connected to each other at a position adjacent to the rotation axis and the other end is fixed to the inner surface of the separating cylinder. And a cleaning device.
6. The apparatus of claim 5, wherein the retaining member is made of a chain.

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