KR101750817B1

KR101750817B1 - Tray for Squid Transfer

Info

Publication number: KR101750817B1
Application number: KR1020150098068A
Authority: KR
Inventors: 김흥대; 김정백
Original assignee: 김흥대; 김정백
Priority date: 2015-07-10
Filing date: 2015-07-10
Publication date: 2017-07-11
Also published as: KR20170006818A; WO2017010770A1

Abstract

The squid feed tray according to the present invention is characterized in that the squid conveyance tray 2 is provided with a squid conveyor 2 for feeding the leg 2c to the head so that the rear mantle 2a and the head 2b are supported flatly, A support plate 10 supporting the support plate 10 from below; And a pair of fixing pins 2b protruding upward from the base plate 10 at a position spaced from the tip of the base plate 10 by a predetermined distance and fixed with a narrow neck portion 2d between the outer cover 2a and the head 2b, (20); , Wherein the fixing pin (20) is inserted through the slot (12) formed in the receiving plate (10) and below the surface of the receiving plate (10) so as to be resiliently returned to the original position when the external force disappears A lowering device (40) for lowering the fixing pin; A fixing pin securing device (50) for widening the interval between the fixing pins (20) in the slot (12) formed in the support plate (10) so as to be resiliently returned to the original position when the external force disappears; The fixing pin 20 is rotated to the side where the upper inlet 21 of the fixing pin 20 is opened in the slot 12 formed in the receiving plate 10 so that the fixing pin 20 is elastically returned to its original position (60); .

Description

{Tray for Squid Transfer}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a squid feed tray for use in a squid feeder, and more particularly, to a squid feeder for a squid feeder, wherein the squid feed position is set at a position suitable for processing, The present invention relates to a squid transfer tray.

Squid is one of the widely consumed species of various cooking materials. It is supplied in live condition, frozen, refrigerated or dried, and processed and supplied according to the required use.

20, the squid 2 has an anatomically an outer membrane (also referred to as a "trunk" 2a), a head 2b, a leg 2c, a neck 2d (a narrow portion of the outer membrane and the head boundary) The tail 2g, the inner 2h, and the eye 2i, which are the ends of the mantle film 2a, the fins 2f (also called the ear), and the like.

Cuttlefish can be used for processing squirrels, cutting and spreading the head, separating the viscera from the mantle, removing the eyes, separating the mantle and the leg, separating the fins, And various processes for processing squid have been developed, and the process of squid processing generally starts from the process of covering the outer membrane of squid.

[0003] As a prior art related to a squid processing apparatus centering on a harvesting apparatus, there have been known a squid harvesting and embedding apparatus of Korean Patent No. 244684, a squid harvesting and leg cutting apparatus of Korean Patent No. 367171, a Korean Patent No. 10-1048722 There are many such as 'squid damper device'.

However, the conventional squid damper apparatuses have problems in that they do not completely cover the mantle from the entrance to the tail, or the damages of the internal organs are over due to the damage of the internal organs, And so on. Therefore, it is often the case that the squid harvest depends on the hands of the workers.

The present inventor proposed a squid damper device of Korean Patent No. 10-713581 (registered on Apr. 25, 2007) in order to solve the problems of conventional squid damper devices. And the squid is fed in a state that the guide bar of the cutting device is inserted into the entrance of the gathered outer cover membrane, whereby the outer membrane is folded from the leg side to the head side by the cutting knife.

The 'squid processing machine' of Korean Patent No. 10-1197291 (registered on October 29, 2012) is a device that can be said to be a modification of the 'squid damper device' of the above-mentioned Japanese Patent No. 10-713581, When the sensor senses the moment, the lifting frame descends by the cylinder and the piston rod, and is inserted into the entrance of the outer cover film where the clothes guide is gathered, so that the clothes cutter operates to cover the outer cover film.

However, in the apparatus of Korean Patent No. 10-1197291, since the lowering of the harvesting guide and the lapping cutter is performed in a rigid manner by the piston rod, there is a case in which the lining film can not be completely wrapped from the entrance to the tail, Is often damaged.

A tray for setting the position of a processed squid can be applied to the squid remover (processing device). As can be seen from the above-mentioned Japanese Patent No. 10-1048722 and Japanese Patent No. 10-1197291, The conventional tray is not suited for application to an apparatus that integrally executes other processing such as cutting and spreading of the harvest and hair, as well as squid clothes.

It is an object of the present invention to apply a squid processing apparatus which can integrally execute various processing including squid garbage to a single apparatus, and to process the position of a squid so that the processing operation applied to the squid can be executed smoothly and accurately So that the squid conveyance tray can be easily adjusted.

According to the present invention, a squid feed tray is provided.

A squid feed tray according to the present invention includes a support plate for supporting a squid downward to support a rear end of the squid, And a pair of fixing pins protruding from the base plate at a position spaced a predetermined distance from the tip of the base plate and extending upward from the base plate, and having a narrow neck portion between the top cover and the head being fitted and fixed; .

The squid transfer tray according to the present invention may include a fixation pin descent device that causes the fixation pin to be lowered below the surface of the foot plate through a slot formed in the foot plate so as to be resiliently returned to its original position when the external force disappears have.

Wherein the fixing pin lowering device comprises a pair of support rods formed so as to be vertically long in the vertical direction from the bottom surface of the support plate, a support block installed over the support rods so as to be movable up and down along the support rods, And a first operating portion receiving an external force for selectively moving the supporting block downward. Here, if an external force is applied to the first operating portion downward, The support block overcomes the elastic force of the first elastic body and moves downward along the support bar, so that the fixing pin descends below the surface of the receiving plate.

The squid transfer tray according to the present invention may include a fixed pinch sleeve for allowing a gap between the fixing pins to be widened in a slot formed in the receiving plate so that the squeegee transfer tray is elastically returned to its original position when an external force disappears.

Wherein the fixed pinion springs have a pair of support rods formed so as to lie up and down in a lengthwise direction from the bottom surface of the rack, a pair of pinions provided on the support block to rotate in engagement with each other, A pair of connecting rods connecting the corresponding rotary shaft and a lower portion of the fixing pin laterally, a second elastic body for pressing the rotary shaft to rotate the rotary shaft toward the narrowed interval of the fixing pin, And a second operating portion receiving an external force that causes the rotation shaft to rotate to a side where the pin is widened. Here, if an external force is applied to the second operating portion from the front end side to the rear end side of the receiving plate, And the rotation shaft and the pinion are rotated to widen the distance between the fixing pins.

The squid feed tray according to the present invention may have an inlet portion formed on the upper side of the fixing pin and tilting toward the tip end of the receiving plate and spaced apart from the upper end of the holding pin. When the external force is disappeared, And a fixing pin opening device for causing the fixing pin to be rotated toward the opening of the inlet portion.

The fixing pin opening device includes a bearing provided on a bottom side of the receiving plate for rotatably supporting the holding pin, a third elastic body for pressing the fixing pin to rotate toward the narrowing portion of the inlet pin, And a third acting portion receiving an external force to rotate the fixing pin toward the opening side of the fixing pin. Here, if an external force is applied to the third working portion from the tip end side to the rear end side of the receiving plate, The fixing pin rotates to open the inlet portion of the fixing pin.

The squid feeder tray according to the present invention may further include a seating recessed portion formed at the distal end of the receiving plate so as to be concave between the fixing pin and the lowered leg so that the legs are gathered at the center.

According to the squid feed tray of the present invention, the base plate supports the squid in a state in which the back cover and the head are flatly supported while the legs are conveyed to the front, The fixing pin fixes the neck of the squid and selectively sets the position of the squid so that the legs that are downwardly gathered at the center are set so that the squid is set to a posture suitable for the jerking, It is possible to smoothly and accurately carry out the arrest of the user.

According to the squid feed tray of the present invention, since the fixing pin can be lowered, the interval of the fixing pin can be determined, or the inlet portion of the fixing pin can be opened in accordance with the characteristics of processing applied to the squid, The tray of the present invention can be applied to a squid processing apparatus in which the processing is integrated into one unit. In the state where the squid is set in the tray of the present invention, not only the processing for squid reattachment but also other processing Can be executed collectively.

FIG. 1 and FIG. 2 are views showing a state in which the tray of the present invention is applied to an exemplary squid remover,
3 is a perspective view of an exemplary tray according to the present invention,
Figure 4 is a perspective view of an exemplary tray according to the present invention,
5 is an exploded perspective view of an exemplary tray according to the present invention,
6 is an operational perspective view of an exemplary stationary pin lowering device applied to a tray of the present invention.
7 is a side view of an exemplary stationary pin descent device applied to a tray of the present invention,
8 is an operational flowchart of an exemplary fixed pin descent device applied to a tray of the present invention,
Fig. 9 is an operational perspective view of an exemplary fixing pin deflection device applied to the tray of the present invention,
10 is a plan view of an exemplary fixed pin deflection device applied to a tray of the present invention,
FIG. 11 is a side view of an exemplary fixing pin advancing device applied to a tray of the present invention,
12 is an operational perspective view of an exemplary stationary pin opening device applied to a tray of the present invention,
13 is a plan view of an exemplary stationary pin opening device applied to a tray of the present invention,
Figure 14 is a side view of an exemplary stationary pin opening device applied to a tray of the present invention,
Figs. 15 to 17 are exemplary use state flowcharts of a pin finishing device applied to a tray of the present invention,
FIGS. 18 and 19 are partially enlarged perspective views of an exemplary squid remover to which the tray of the present invention is applied;
20 is a schematic view of a squid;

Hereinafter, a squid feed tray according to the present invention will be described in detail with reference to the accompanying drawings. The following embodiments are only illustrative of the tray according to the present invention, and do not limit the scope of the present invention.

The squid feed tray 1 according to the present invention can be used for a variety of processing such as processing for wrapping the outer cover 2a of the squid 2 and cutting and spreading the head 2b in one integrated device 1 and 2, the tray 1 of the present invention is a plate-like device that moves together with the squid while supporting the squid 2 from below. The tray 1 of the present invention is, for example, a chain conveyor 111, so that the position of the squid 2 is set to a proper posture to be processed.

The tray 1 according to the present invention basically includes a base plate 10 and a fixing pin 20 as shown in Fig. 3, and optionally includes a seat recess 30.

The foot plate 10 is a plate-shaped member which is fed together with the squid 2 in a state in which the squid 2 is moved downward (moved) to the head from the leg 2c. The squid 2 subjected to processing such as a garment is supported by the foot plate 10 and the head cover 2b on the rear side (rear side: right side in Fig. 3B) The leg 2c on the front side (left side in FIG. 3B) is raised on the base plate 10 so as to naturally fall down below the tip of the base plate 10. [

As can be seen in the above-mentioned Japanese Patent No. 10-1048722 and Japanese Patent No. 10-1197291, the conventional squid feed tray supports the entire squid or supports only the legs, 3, most of the leading legs 2c are not raised on the receiving plate 10 but are naturally lowered down by their own weight with respect to the squid 2 to be fed to the head of the legs 2c, A head 2b connected to the leg 2c and a part of the leg 2c connected to the head 2b and the mantle 2a connected to the head 2b are placed on the foot plate 10. [

The fixing pin 20 is a pair of pin-shaped members protruding upward from the support plate 10 at a position spaced from the tip of the support plate 10 by a predetermined distance. 2 and 3, the squid 2 is fixed on the support plate 10 by inserting a narrow neck portion 2d between the mantle 2a and the head 2b between the two fixing pins 20, The head 2b is put on the support plate 10 in front of the fixing pin 20 and the cover film 2a is fixed to the fixing pin 20 while the leg 2c is laid under the tip of the support plate 10, And is placed on the support plate 10 at the rear of the support plate 10.

The upper and lower portions of the fixing pin 20 can be formed simply as straight lines, but the inlet portion 21 can be formed on the upper side of the fixing pin 20. 3, the lower part is formed so as to extend in a substantially rectilinear room, and the upper part of the fixing pin 20 is formed so as to extend from the tip (forward) of the support plate 10 toward the upper part, The inlet portion 21 can be formed by being formed in a shape that gradually widens in a wide range while being inclined toward the inlet portion 21 '.

The formation of the wide opening 21 at the upper side of the fixing pin 20 facilitates the insertion of the neck 2d of the squid into the fixing pin 20, When the squid is delivered to the tray 1 of the present invention from the supply plate for feeding the squid 180 (see Fig. 2 and the like) which can be installed upstream, the neck portion 2d of the squid 2 can be more easily and accurately So that it will be described later.

2 and 3, the seat recessed portion 30 is a portion formed inwardly concave between the seat back 10 and the fixing pin 20, So that they are not disturbed to the left and right but gather at the center.

The squid feed tray 1 according to the present invention is used for feeding a squid to a processing position (for example, a position of a harvesting mechanism described later) in a squid processing apparatus such as the squid licking apparatus 100, for example. For example, as shown in FIGS. 1 and 2, the tray 1 of the present invention can be installed at a predetermined interval in an endless chain conveyor 111 applied to a conveying device 110, 111 rotate along the track, the trays 1 of the present invention circulate along the track along with the chain conveyor 111, and when the tray 1 of the present invention passes the processing position of the clothes or the like, So that the squid 2 mounted on the tray 1 is subjected to the process of fabricating it.

The tray 1 of the present invention may include a fastening table 11 for connecting the support plate 10 to the chain conveyor 111. For example, as shown in Figs. 3 and 4, a fastening table 11 is installed parallel to the lower surface of the bed plate 10 at regular intervals in front and rear, and both ends of each fastening table 11 are connected to a chain conveyor 111, the tray 1 of the present invention can be circulated along with the rotation of the chain conveyor 111 in a state where the tray 1 is fixed to the chain conveyor 111.

At this time, the fastening base 11 may be fixedly attached to the support plate 10, but as shown in FIG. 4, for example, by attaching the fastening base 11 to the support plate 10 using the hinge 11a , The tray 1 of the present invention can be moved in the chain conveyor 111 within a limited range.

The tray 1 of the present invention can be used in combination with the harvesting apparatus 100 to cut other kinds of squid such as a device for cutting and spreading the head 2b of the squid vertically (hereinafter referred to as a " The tray 1 of the present invention is suitable for application to a device for continuously executing the process of jusing and hair processing by integrally installing the processing device in one frame 101. The tray 1 of the present invention has a fixing pin 20 is useful in the process of squid reattachment but may be rather disadvantageous in some other processes such as machining of the hair. Therefore, in the process of disrupting the fixation pin 20, the fixation pin 20 is inserted into the support plate 10 As shown in Fig.

In such a background, the tray 1 according to the present invention is installed not to fixedly mount the fixing pin 20 on the receiving plate 10, but to be able to vary its vertical position or spacing, if necessary, The tray 1 according to the invention includes a fixed pin lowering device 40 and / or a fixed pin interleaving device 50. The tray 1 of the present invention exemplified in FIGS. 4 and 5 and the like includes a fixing pin descending device 40 and a fixing pin securing device 50 as well as a fixing pin releasing device 60 It is an installed example.

The fixing pin 20 is lowered below the surface of the receiving plate 10 through the slot 12 formed in the receiving plate 10 so that the fixing pin 20 is elastically returned to the original position when the external force disappears .

The fixing pin descending device 40 is not particularly limited as long as the fixing pin 20 can be lowered below the surface of the receiving plate 10 at a necessary point of time, The apparatus 40 includes the support bar 41, the support block 42, the first elastic member 43 and the first operation portion 44 so that when an external force is applied to the first operation portion 44 in the downward direction And the support block 42 is moved downward along the support bar 41 to overcome the elastic force of the first elastic body 43 so that the fixing pin 20 is lowered below the surface of the support plate 10 .

The support rods 41 are a pair of support columns which are firmly fixed in parallel to each other in the vertical direction from the bottom surface of the support plate 10. Since the illustrated embodiment is an apparatus in which the fixed pin descending device 40 and the fixed pin securing device 50 are combined with each other, the supporting stick 41 is installed at a position spaced rearward from the position of the fixed pin 20 by a certain distance However, when the fixing pin lifting device 40 is installed alone, it can be installed in the same line as the fixing pin 20, which is not rear.

The support block 42 is, for example, a rectangular parallelepiped block which is installed over the support rod 41 so as to be movable up and down along the support rod 41 and in which the lower portion of the fixture pin 20 is fixed. In the illustrated embodiment, the insertion holes 42a are formed at positions corresponding to the support rods 41 on both sides of the support block 42, the pipe-shaped spacers 41a are inserted into the support rods 41, The supporting block 42 can be moved up and down along the supporting rod 41 by inserting the supporting block 42 into the insertion hole 42a.

Since the lower portion of the fixing pin 20 is fixed to the supporting block 42, when the supporting block 42 moves up and down, the fixing pin 20 also moves up and down together. The fixing pin 20 is not directly fixed to the supporting block 42 but is inserted into the supporting block 42 via the connecting rod 55 and the rotary shaft 54 of the pin fixing device 50, As shown in FIG.

The first elastic body 43 is an elastic member that presses the support block 42 to move upward, and for example, a compression spring can be used. In the illustrated embodiment, the first elastic body 43 is inserted into the support rod 41 between the lower end of the support rod 41 and the support block 42, the fastener 41b is fastened to the lower end of the support rod 41, The first elastic body 43 is configured to press the support block 42 upward by the resilient force so that the elastic block 43 is not separated from the support rod 41. As a result, As long as an external force to the lower side is not applied so as to overcome the elastic force of the elastic member.

The first acting portion 44 is a member that receives an external force that selectively moves the support block 42 downward. In the illustrated embodiment, the first acting portion 44 is formed laterally protruding from both sides of the support block 42. When an external force is applied to the first acting portion 44 in the downward direction, The fixing pin 20 also moves downward while the support pin 42 is lowered by the length of the support block 42 protruding from the surface of the support plate 10, And disappears from the surface of the support plate 10.

The member for applying an external force to the first operating portion 44 in the downward direction is, for example, a descending stand 102 provided on the frame 101. In the embodiment shown in Fig. 8, after the tray 1 according to the present invention is conveyed upstream and downstream together with the chain conveyor 111, after the harvesting of the squid by the harvesting apparatus 100 is completed, The descender 102 fixed to the frame 101 at the corresponding position presses down the first operating portion 44 so that during the process of processing the head of the squid, 2d on both sides of the support plate 10 disappear under the surface of the support plate 10.

Shaped member having a high height of the inlet 102a and a low height of the descending portion 102b can be applied to the descender 102. The inlet 102a is located at the uppermost first operating portion 44, The descent stand 102 naturally enters above the first operating portion 44 and then descends downward at a lower height 102b as the tray 1 of the present invention is transported from the upstream to the downstream, The supporting block 42 is lowered and the fixing pin 20 is disappeared from the surface of the support plate 10. In this case,

The fixing pin 20 may be lowered by the action of the fixing pin lowering device 40 so that it can be caught by the head of the squid. Therefore, it is preferable that the fixing pin 20 is lowered while maintaining a wide gap therebetween.

The fix pin interpolating device 50 widens the interval between the fixing pins 20 in the slot 12 formed in the receiving plate 10 so that the external force is elastically returned to the original position when the external force disappears. The pin fixing device 50 is not particularly limited as long as it is a device capable of widening the interval between the fixing pins at a necessary point in time.

4, 5 and 9 to 11, the fixed pin advancing device 50 is integrally combined with the fixed pin descending device 40 and is installed together using a part of the components in common The same reference numerals are used for the same members in order to distinguish the two apparatuses from each other.

The illustrated fixed pin inheriting device 50 includes a supporting bar 51, a supporting block 52, a pinion 53, a rotating shaft 54, a connecting rod 55, a second elastic body 56 and a second operating portion 57 The rotary shaft 54 and the pinion 53 are rotated by overcoming the elastic force of the second elastic body 56. The elastic force of the second elastic body 56 is transmitted to the second operating portion 57 from the front end side to the rear end side of the support plate 10, And the spacing between the fixing pins 20 is widened.

The supporting bar 51 is a pair of supporting columns arranged vertically up and down from the bottom surface of the receiving plate 10 and the supporting block 52 is a block installed over the supporting bar 51.

The supporting rod 51 and the supporting block 52 of the fixing pin advancing device 50 are used in common with the supporting rod 41 and the supporting block 42 of the fixing pin lowering device 40. [

The supporting block 52 of the fixing pin advancing device 50 does not need to be vertically movable with respect to the supporting rod 51 but the supporting block 52 is supported by the supporting pin 52 Even if the support block 52 is provided so as to be movable up and down relative to the support rod 51, there is no effect on the operation of the support block 51. Therefore, the same support rods 41 and 51 Can be used in common.

The pinion 53 is a pair of gears mounted on the support block 51 so as to be rotated together with the pinion 53. When the two pinions 53 rotate, the rotation direction of the pinion 53 is opposite to that of the rotation of the pinion 53,

The rotary shaft 54 is installed on each pinion 53 and rotates integrally with the pinion 53. The pinion 53 is provided on the lower surface of the support block 52 and the rotation axis 54 is formed on the center of rotation of the pinion 53 and passes through the support block 52 to be supported by the support block 52, As shown in FIG.

The connecting rod 55 is a pair of rod members connecting the two rotation shafts 54 having different axes and the lower portions of the two fixing pins 20 laterally. Therefore, when the two pinions 53 rotate in opposite directions to rotate the two rotation shafts 54 in opposite directions, the two linking shafts 55 are shifted in a sectorial trajectory in opposite directions about the rotation shaft 54 Move.

The second elastic body 56 is an elastic member that presses the rotary shaft 54 so as to rotate toward the narrowing distance of the fixing pin 20. The second elastic body 56 may be used in common with the third elastic body 62 of the fixed pin releasing device 60 described later, for example, in the case of a specific example An exemplary mounting position and the like will be described later while explaining the fixed pin releasing device 60. [

The two fixing pins 20 are positioned at the narrowest distance in the case where an external force does not act in accordance with the action of the second elastic body 56 but the squid neck portion 2d inserted between the fixing pins 20, The distance between the fixing pins 20 is elastically widened.

The second operating portion 57 is a member that receives an external force that selectively rotates the rotary shaft 54 toward the widening of the fixing pin 20. In the illustrated embodiment, the second operating portion 57 is a bar-shaped member protruding laterally in a state where it is connected to the respective rotary shafts 54. The second operating portion 57 is a bar- The two rotating shafts 54 rotate in opposite directions to each other and the two connecting shafts 55 connected to the rotating shafts 54 move in the opposite direction to each other as a sector, 20 are spaced apart from each other. When the external force disappears, the fixing pin 20 returns to its original position in the narrowest state.

The member which exerts an external force on the second operating portion 57 is, for example, a shock absorber 103 fixed to the frame 101 at the corresponding position. That is, when the tray 1 according to the present invention is conveyed together with the chain conveyor 111 and the clothes are finished in the clothes-making apparatus 100 and arrives at the beginning of the hair-working apparatus (not shown), for example, The second operating portion 57 is moved in the direction of its travel along the descending stage 102 provided on the frame 101 substantially simultaneously with the downward pressing of the first operating portion 44, 103, and the distance between the two fixing pins 20, which have been elastically pressed against the neck portion of the squid, is widened. As a result, the fixing pin 20 ) Will not get caught in the head of the squid.

The pressing operation of the second operating portion 57 by the damping base 103 is performed only when the second operating portion 57 is in contact with the damping base 103 If it passes, it is dissolved.

The squid placed on the squid feed plate 180 of the automatic squid feeder may be fed to the tray 1 of the present invention when the automatic squid feeder (not shown) is applied to the tray 1 of the present invention, The squid can be transmitted more reliably by opening the inlet 21 of the fixing pin 20 at the moment of delivering the squid. For this purpose, the tray 1 of the present invention is fixed The pin releasing device 60 can be provided.

1 and 2, the squid feed plate 180 of the automatic squid feeder (not shown), which can be installed upstream of the snuffing mechanism 130 of the snatching device 100, is connected to a conveyor And the other end is a long plate-shaped member having a free end, and a plurality of feed plates 180 circulate along the conveyor and sequentially transmit the squid to the tray 1 of the present invention.

The feed plate 180 is formed with a concave portion 181 along the center thereof so that the squid can be placed without any left and right flows. A U-shaped cutout portion 182 is formed inwardly at the free end of the feed plate 180 Respectively. The squid is placed on the supply plate 180 with the head 2b and the leg 2c naturally stretched down by putting the mantle 2a in the recess 181 and the neck 2d on the cut- .

As shown in Figs. 15 to 17, the feed plate 180 having the squid set therein is mounted on the inclined tray of the present invention, which is lifted up from the lower side of the chain conveyor 111 in a state in which the free end is inclined at a high 1). Reference numeral 190 denotes a pressurizing band which presses the squid from top to bottom in association with the process of transmitting the squid.

When the squid is delivered from the supply plate 180 to the tray 1 of the present invention, the two fixing pins 20 are moved from the rear side of the neck portion 2d in a state where the head and the leg are downwardly, At this time, if the inlet 21 of the fixing pin 20 is opened more widely, the squid can be more reliably and easily transmitted. When the squid is delivered from the supply plate 180 to the receiving plate 20, The pin pin releasing device 60 is an apparatus that operates so that the pin 21 is further opened.

That is, in the slot 12 formed in the support plate 10, the fixing pin 20 is rotated (rotated) toward the opening of the inlet 21 so that the fixing pin 20 is elastically returned to its original position when the external force disappears . The stationary pin releasing device 60 is not particularly limited as long as it is an apparatus that can open the inlet 21 of the stationary pin at a necessary time.

In the illustrated embodiment, the stationary pin releasing device 60 is provided together with the stationary pin descending device 40 and the stationary pin securing device 50, Different reference numerals are used for the same members in order to distinguish the devices used there between.

The fixing pin releasing device 60 is configured to include the bearing 61, the third elastic body 62 and the third operating portion 63 as shown in Figs. 4, 5 and 12 to 14 When the external force is applied to the third working portion 63 from the tip end side to the rear end side of the support plate 10, the fixing pin 20 rotates to overcome the elastic force of the third elastic body 62, Is opened.

The bearing 61 is a bearing member provided at the bottom of the support plate 10 and rotatably supporting the fixing pin 20. [ In the illustrated embodiment, a ring-shaped bearing 61 is inserted around the lower portion of the fixing pin 20 protruding to the bottom surface of the receiving plate 10. [

It is preferable that the bearing 61 is firmly fixed to the bottom of the support plate 10 while the illustrated embodiment is such that the fix pin opening device 60 is fixed to the fixed pin descending device 40 and the fixed pin securing device 50 By fixing the bearing 61 to the connecting pin 55 of the pin fixing device 50 without directly fixing the bearing 61 to the bottom of the receiving plate 10, The bearing 61 is indirectly fixed to the support plate 10 by the structure of the support rod 51 of the apparatus 50, the support block 52, the pinion 53, the rotary shaft 54 and the connecting rod 55 .

The third elastic body 62 is an elastic member that presses the fixing pin 20 to rotate toward the narrowing portion of the inlet 21 of the fixing pin 20.

The third operating portion 63 is a member that receives an external force such that the fixing pin 20 is selectively rotated to the side where the fixing pin 20 is opened. In the illustrated embodiment, each of the fixing pins 20 is a bar-shaped member protruding to the left and right from the lower portion.

The illustrated embodiment is characterized in that a binding band 63a is formed on two third fixing portions 63 extending in the left and right directions and a third elastic body 62 (tension spring) is connected between the binding bars 63a, The fixing pins 20 connected to the third fixing portion 63 are elastically urged to rotate inward about the respective bearings 61 so that the elastic force is applied to the third fixing portion 63, The inlet 21 of the fixing pin 20 remains as narrow as possible in a state in which no external force is applied.

In the illustrated embodiment in which the fixed pin releasing device 60 and the fixed pin separating device 50 are organically coupled to use a part of the components in common, the third elastic body 62 is in common with the second elastic body 56 And one elastic body 56 and 62 provide an elastic force to both the narrowing of the fixing pin 20 and the narrowing of the inlet 21.

5 and 12 and the like, the third stopper 64 formed around the fixing pin 20 between the upper side of the bearing 61 and the receiving plate 10 is fixed to the fixing pin 20 by the third elastic body 62, Is prevented from being excessively rotated to prevent the inflow section (21) from being excessively narrowed.

The member for exerting the external force to rotate the fixing pin 20 toward the opening side of the fixing pin 20 is an opening stand 104 fixed to the frame 101 at the corresponding position as illustrated in Fig. The open pedestal 104 pushes the third acting portion 63 toward the rear end side of the receiving plate 10 at the moment when the squid of the feeding plate 180 is transmitted to the receiving plate 20, The inlet portion 21 of the fixing pin 20 becomes narrower due to the elastic force of the third elastic body 62 when the third working portion 63 passes through the opening portion 104. [

Hereinafter, with reference to Figs. 1, 2, 18, and 19, Korean Patent Application No. 00000000 filed by the present inventor as a squid processing apparatus to which the tray 1 of the present invention is applied (filing date: 31.) 'Squid Knockdown Device' is briefly explained.

As shown in the figure, the lice dispenser 100 to which the tray 1 of the present invention is applied is configured such that the mantle 2a of the squid 2, which feeds the leg 2c to the head, from the inlet 2e to the tail 2g (2h) without damaging the interior (2h).

The lumbar apparatus 100 may be integrally installed in the same frame 101 as other squid processing apparatuses such as a device for cutting and spreading the head vertically. However, the illustrated embodiment is an example in which only the lumbar apparatus 100 is installed Respectively.

1, 2, 18, and 19, the lumbar apparatus 100 includes a conveying device 110, a guide mechanism 120, a rabbet 130, and the like, As shown in Fig.

The feeding device 110 includes the tray 1 of the present invention, and feeds the squid to a leg at a desired speed. In the illustrated embodiment, the tray 1 of the present invention is installed at constant intervals on a chain conveyor 111 rotating continuously. When the chain conveyor 111 is rotated, the squid 100 set on the trays 1 of the present invention (Downstream side: left side in FIG. 2) after being consecutively entered from the upper stream (upstream side: right side in FIG. 2) to the upper side batting mechanism 130 of the alabaster apparatus 100 with the leg as a head.

The guide mechanism 120 is provided on the feeding path of the squid at the upstream position of the rabbet mechanism 130 and presses the mantle 2a of the squid 2 set on the tray 1 of the present invention, It is possible to reliably form the inlet 2e in the mantle film 2a above the head 2c so that the induction bar 131 of the luffing mechanism 130 fails to enter the inlet 2e of the mantle film 2a So that it can be inserted without.

As shown in Figs. 18 and 19, the guide mechanism 120 includes two guide plates 121 of an upper horizontal lowering plate whose interval gradually narrows from an upstream side (right side) to a downstream side (left side) A spring 122 for applying an elastic force to the narrowing gap between the guide plates 121 is mounted so that the gap between the guide plates 121 is elastically adjusted in accordance with the size of the incoming squid 2 Can be formed. The guide plate 121 can be installed on the frame 101 through the support base 123. The squid 2 passing between the upper and lower guide plates 121 is pressed and pressed by both sides of the mantle film 2a so that the inlet 2e is securely formed on the upper side of the mantle film 2a.

The luffing mechanism 130 is a mechanism for directly wrapping the outer membrane of the squid. As shown in the figure, the luffing mechanism 130 includes an induction bar 131 and a cutting knife 132.

The guide bar 131 is elongated in the feeding direction of the squid and is inserted into the inlet 2e of the envelope 2a before the cutting knife 132 is applied to the envelope 2a, And the cutting knife 132 is a knife member for directly cutting the envelope film, for example, a circular electric rotary knife.

18, a long insertion groove 131a into which the cutting knife 132 is inserted is formed along the longitudinal direction (the squid feed direction), and the cutting blade 132 is inserted into the guide slot 131, Is not inserted into the groove 131a and does not penetrate the insertion groove 131a and is not exposed downward of the guide bar 131. [

When the squid set on the tray 1 of the present invention approaches the luffing mechanism 130, first, the tip of the guide rod 131 is inserted into the inlet 2c, and when the squid is continuously conveyed downstream in this state, The cutter knife 132 cuts the upper side of the mantle film from the mouth to the tail as if cutting the cloth with the scissors while inserting the mantle between the induction bar 131 and the cutter knife 132, The knife 132 only cuts the mucous membrane inserted between the guide bush 131 and the inner membrane of the squid in the mucous membrane and the inner mucous membrane beneath the intestinal membrane is protected by the guide bar 31 and is not damaged.

The lapping mechanism 130 may include a mounting table 133. The mounting table 133 is provided with a driving motor 134 and the cutting knife 132 is rotated by a driving motor 134. [ The guide rod 131 may be installed on the mounting base 133 through a connecting rod 131b formed by bending the cutting knife 132 so as not to interfere with the cutting knife 132.

The lumbar device 130 of the dumbbell apparatus 100 is provided with an induction bar 131 and a cutting knife 132 at appropriate positions in accordance with the feeding position and the repositioning process of the squid so as to completely cover the outer lid from the mouth to the tail without damaging the interior. 17 and 18, the upper and lower movement supporting mechanism 140, the upper and lower displacement mechanism 150, the rotation supporting mechanism 160, And a perforation mechanism 170.

The upper and lower movement support mechanism 140 supports the upper and lower movement supporting mechanism 130 so as to be movable up and down so that when the upper and lower direction external force is applied to the upper and lower lapping mechanism 130, .

The vertical movement support mechanism 140 may include a seesaw rod 141, first battery cells 142 and 143, and a balance weight 144, for example.

The seesaw rod 141 is a rod-shaped member elongated in the feeding direction of the squid. The seesaw rod 141 is provided on one side and the counterweight 144 is provided on the other side.

The first battery cells 142 and 143 allow the seesaw rod 141 to operate as a seesaw by rotatably supporting the seesaw rod 141 at a substantially intermediate point thereof on the frame 101. [

The balance weight 144 is a weight for balancing the necessary weight with the luffing mechanism 130 provided at the opposite side of the seesaw rod 141 and needs to be balanced with respect to the vertical movement of the luffing mechanism 130 Can be installed.

The up-and-down displacement mechanism 150 is configured such that the up-and-down position of the guiding band 131 is at a low position (low position) until the entrance of the guiding band 131 into the inlet 2e of the mantle film 2a, (Upper position) of the upper half of the mantle film 2a and a lower position of the lower half of the mantle film 2a during the lower half of the mantle film 2a.

The upper and lower displacement mechanism 150 may include a displacement table 151 and a displacement pin 152. The displacement table 151 is installed in the up-and-down movement support mechanism 140 and transmits the external force to the up-and-down movement support mechanism 140 so that the upper body movement mechanism 130 is moved up and down. The displacement pin 152 displaces the vertical position of the upper lid mechanism 130 by applying an external force selectively to the displacement lid 151 depending on the feeding position of the squid 2. In the case of the embodiment illustrated in Fig. The displacement pin 152 is provided at approximately the middle of one side of the receiving plate 10 in the tray 1 of the present invention.

The rotation support mechanism 160 rotates the luffing mechanism 130, that is, the induction pedestal 131, at a predetermined angle such that the induction pedestal 131 is tilted between an inclined position having a high tip and a low position having a tip, It is a mechanism that supports the whole.

That is, the rotation support mechanism 160 is provided so as not to be fixedly installed on one side of the seesaw rod 141 but rotatably within a range of a predetermined angle (for example, about 30 degrees) When the mechanism 130 is rotated, the guide rod 131 orbitally moves about a central rotational axis of the cutting knife 132 within a predetermined angle, so that the guide rod is angled between the inclined position and the horizontal position.

The term "horizontal" means that the guiding band is not horizontal in the strict sense, but rather the height of the distal end is lower than the inclined position (waiting position) so that the leading end of the guiding band is directed toward the entrance of the squid, It is a position close to the horizontal, and includes the case where the tip is slightly lower or slightly higher than the horizontal.

The rotary support mechanism 160 of the illustrated embodiment includes the second battery cells 161 and 162 for rotatably mounting the mounting base 133 on one side of the seesaw rod 141, And a second stopper 163 for restricting rotation of the arm 133 to a predetermined angle.

The stigmatization device 170 is configured to angle the guide bush 131, which was in an inclined position immediately before the guide bar 131 is inserted into the mouth of the squid, into a horizontal position, 131) to the inclined position.

19, the stagger mechanism 170 includes a variable section 171, a first varying pin 172, a first varying rod 173, a second varying pin 174, 175).

The leg 171 is installed on the leg rest mechanism 130 and is integrally rotated with the leg rest mechanism 130. When the leg rest 171 is pushed to one side, the leg rest 131 is inclined from the inclined position to the horizontal position, And the guide bar (31) is turned from the horizontal position to the inclined position when the direction bar (171) is pushed to the other side.

The first shifting pin 172 is installed on the chain conveyor 111 or the tray 1 of the present invention.

The first beveled rod 173 is pivotally mounted on the frame 101 and is pivoted by the first beveled pin 72 before the guide rod 31 is inserted into the mouth 2e of the mantle film 2a. And pushes the variable section 71 to the one side.

The second shifting pin 174 is installed on the chain conveyor 111 or the tray 1 of the present invention.

The second beveled rod 175 is pivotally mounted on the frame 101 and pivoted by the second beveled pin 174 after the squat 2 is completely wrapped up to move the bevel 171 toward the other side It pushes.

According to the lyre apparatus 100 to which the tray 1 of the present invention is applied as described above, the squid conveyed by the squid feeder 110 and having an inlet formed in the envelope by the guide mechanism 120, 130 displace the upper and lower positions of the guide bands 131 by the action of the up-and-down movement support mechanism 140 and the up-and-down displacement mechanism 150 in the process of wrapping the outer shell of the squid from the entrance to the tail, The angle of the guide rod can be angled by the rotation support mechanism 160 and the staggered mechanism 170 as described above to surely and precisely and quickly rewind the inner membrane without damage to the interior and folding of the fins.

1: Tray 2 of the present invention: squid
2a: Mylar 2b: Head
2c: Leg 2d: neck
2e: entrance of mantle 2f: ear
2g: tail 2h: built-in
2i: eye 10: base plate
11: fastening base 12: slot
20: fixing pin 21: inlet
30: seat rest 40: locking pin descent device
41: support rod 42: support block
43: first elastic member 44: first operating portion
50: pin fixing device 51: support rod
52: support block 53: pinion
53: rotating shaft 55: connecting rod
55: rotating shaft 56: second elastic body
57: Second working portion 60: Fixing pin opening device
61: bearing 62: third elastic body
63: third working portion 64: third stopper
100: lapdog apparatus 101: frame
102: descent band 103:
104: Opening stand 110: Feeding device
111: chain conveyor 120: guide mechanism
121: guide plate 122: spring
123: Support 130: Alabaster
131: induction stand 131a: insertion groove
132: Cutting knife 133: Mounting base
140: Up and down movement support mechanism 141: Seesaw rod
142, 143: First Battery District 144: Balance
150: upper and lower displacement mechanism 151: displacement pin
152: displacement stand 160: rotation support mechanism
161, 162: second battery zone 163: second stopper
170: stitch mechanism 180: supply plate
181: lumbar part 182:
190: Pressurizing stand

Claims

The foot plate 2c supports the squid 2 for feeding the leg 2c to the top so as to support the rear mantle 2a and the head 2b in a flat state while the front leg 2c is downwardly. ); And a pair of protrusively formed upper side portions of the foot plate 10 at positions spaced from the front end of the foot plate 10 by a predetermined distance and in which a narrow neck portion 2d between the foot shell 2a and the head 2b is fitted and fixed A fixing pin (20); And a transfer tray for a squid processing apparatus,
Which causes the pin (20) to be lowered below the surface of the receiving plate (10) through the slot (12) formed in the receiving plate (10) so as to be resiliently returned to the original position when the external force disappears 40). &Lt; / RTI >

The method according to claim 1,
The fixed pin descent device (40)
A pair of support rods 41 extending vertically from the bottom surface of the support plate 10 so as to be vertically movable along the support rods 41; A first elastic body 43 that presses the support block 42 upward to move the support block 42 and a first operation portion 42 that selectively receives the external force that causes the support block 42 to move downward 44);
When the external force is applied downward to the first operating portion 44, the supporting block 42 moves downward along the supporting rod 41 while overcoming the elastic force of the first elastic body 43, (20) descends below the surface of the receiving plate (10).

The foot plate 2c supports the squid 2 for feeding the leg 2c to the top so as to support the rear mantle 2a and the head 2b in a flat state while the front leg 2c is downwardly. ); And a pair of protrusively formed upper side portions of the foot plate 10 at positions spaced from the front end of the foot plate 10 by a predetermined distance and in which a narrow neck portion 2d between the foot shell 2a and the head 2b is fitted and fixed And a fixing pin (20), wherein, in the feed tray for the squid processing apparatus,
And a fix pin pinching device (50) for widening the interval between the fixing pins (20) in the slot (12) formed in the receiving plate (10) so as to be elastically returned to the original position when the external force disappears Squid feed tray.

The method of claim 3,
The fixed pin correcting device (50)
A pair of supporting rods 51 formed to be vertically extended from the bottom surface of the bed plate 10 so as to be vertically arranged, a supporting block 52 installed over the supporting rods 51, a pair of supporting blocks 52 A pair of connecting shafts 55 connecting the corresponding lower ends of the rotating shafts 54 and the fixing pins 20 transversely to each other; a pinion 53, a pair of rotating shafts 54 rotating integrally with the respective pinions 53, A second elastic body 56 for pressing the rotary shaft 54 to rotate the fixing pin 20 in a direction in which the distance between the fixing pins 20 is reduced and the rotary shaft 54 to be selectively extended toward the fixing pin 20 And a second operating portion (57) receiving an external force for rotating the second operating portion (57);
When an external force is applied to the second operating portion 57 from the front end side to the rear end side of the receiving plate 10, the rotation shaft 54 and the pinion 53 rotate to overcome the elastic force of the second elastic body 56 , And the spacing of the fixing pins (20) is widened.

The foot plate 2c supports the squid 2 for feeding the leg 2c to the top so as to support the rear mantle 2a and the head 2b in a flat state while the front leg 2c is downwardly. ); And a pair of protrusively formed upper side portions of the foot plate 10 at positions spaced from the front end of the foot plate 10 by a predetermined distance and in which a narrow neck portion 2d between the foot shell 2a and the head 2b is fitted and fixed And a fixing pin (20), wherein, in the feed tray for the squid processing apparatus,
On the upper side of the fixing pin 20, there is formed an inflow portion 21 which is inclined toward the front end of the receiving plate 10 and spaced apart from the upper end of the receiving plate 10 as it goes upwards;
And the fixing pin 20 is rotated in the slot 12 formed in the receiving plate 10 so as to be elastically returned to the original position when the external force disappears 60). &Lt; / RTI >

6. The method of claim 5,
The fixed pin opening device (60)
A bearing 61 installed on the bottom of the support plate 10 for rotatably supporting the fixing pin 20 and a fixing pin 20 for fixing the fixing pin 20 to the narrowing portion of the inlet 21 of the fixing pin 20. [ And a third operating portion (63) receiving an external force such that the fixing pin (20) is rotated toward the opening of the fixing pin (20), wherein the third elastic portion (62)
When an external force is applied to the third working portion 63 from the tip end side to the rear end side of the receiving plate 10, the fixing pin 20 rotates to overcome the elastic force of the third elastic body 62, 20. The squid feed tray according to claim 1, wherein the inlet (21) of the squid feeder (20) is opened.

7. The method according to any one of claims 1 to 6,
A seating recess 30 formed at the front end of the receiving plate 10 so as to be concave between the holding pin 2 and the fixing pin 20 so that the lower leg 2c is centered; Further comprising a plurality of squid feed trays.