KR102459176B1 - The vibration separator of the oyster shell separating device - Google Patents

Abstract

The present invention relates to a vibratory separator for an oyster shell separation device. The vibratory separator for an oyster shell separation device, according to the present invention, comprises: a vibration device unit (10); a separation device unit (30); an oyster shell outlet (32); a rotating cylinder tube (41); and a shelled oyster input means (60). Accordingly, the present invention allows oyster kernels to easily escape through a gap.

Description

The vibration separator of the oyster shell separating device

The present invention relates to a vibrating separator for an oyster shell separating device, and more particularly, the oyster shells are separated from the inner surface of the oyster shells, but the oyster shells are slightly opened to vibrate and rotate the oysters containing the oyster shells inside the oyster shells. This is to ensure that the oyster kernels come out well from the oyster shells by putting them into the rotating cylindrical tube.

The vibration separator of the conventional oyster shell separation device is included in Patent Application No. 10-2021-154136 (the title of the invention: automatic oyster shell separation system) previously applied by the applicant of the present invention, and is shown in FIG. 1 .

The conventional invention (automatic oyster shell separation system) includes an oyster removal device. In the oyster removal device, when the oysters are put into the oyster removal device with the oysters in the oyster storage cage 110 with an open top, the hydraulic pressure The oyster shell is opened to 5~10mm by the oyster and the oyster shell is separated from the oyster shell by water pressure acting through the gap, but the gap is small and the oyster shell is inside the oyster shell (hereinafter referred to as the oyster in this state) is called "primary kangul").

In this way, the oyster shell is spread to 5-10 mm, and the oyster storage cage 110 containing the primary peeled oysters containing oyster kernels inside the oyster shell is installed on one side of the vibration separator 700 in the upper part of the inverter (800). When the rotating body 820 is put in, the open inlet of the oyster storage cage 110 is directed downward by the rotation of the rotating body 820 , and a large amount of oysters contained in the oyster storage cage 110 is vibrating the perforated plate of the separator 700 . (721) will fall upward.

The vibration separator 700 is installed on the lower side of the rotating body 820 as shown in FIG. 1 , and a spring 712 in the middle is installed in the lower portion of the vibration frame 710 that vibrates with the vibrator 711 installed in the vertical direction. A plurality of supporting legs 713 installed as , are installed, and a selection tray 720 to which water is supplied through a plurality of water supply units 725 is installed at an upper portion of the vibration frame 710 inclined at a predetermined angle.

At this time, on the inside of the sorting tray 720, a perforated plate 721 having a number of oyster oyster discharge holes 722 formed at a height raised by a predetermined height upward from the inclined floor is installed in an obliquely detachable manner, and the sorting tray ( The oyster shell outlet 723 is installed downwardly on the bottom of the lower side of the 720), and the oyster shell outlet 724 is installed on the lower side of the perforated plate 721 to extend outward.

If the perforated plate 721 is installed in an inclined and detachable manner, the oyster shells and oysters go down to the lower side, and when the size of the oysters is large by replacing the oyster shells and oysters with a different size, the oysters discharge hole ( A perforated plate 721 with a large inner diameter of 722 is installed, and when the size of oysters is small, a perforated plate 721 with a small inner diameter of the oyster oyster discharge hole 722 is replaced and installed to sort (separate) oysters of a uniform size. ) can be done.

In addition, a rotary blade 726 for flattening the pile of oysters mounted on the perforated plate 721 is rotatably installed on the upper portion of the sorting tray 720 by a motor.

As a result of manufacturing and using such a conventional vibration separator 700 by the present applicant, when the first pile of peeled oysters goes down on the inclined perforated plate 721, when the gap between the oyster shells faces horizontally, some oysters There was a regrettable problem in that the oyster kernels contained in the oyster shell could not effectively escape from the oyster shell.

In addition, the replacement operation of replacing the perforated plate 721 having a different size of the oyster kernel discharge hole 722 according to the size of the oyster has become a cumbersome problem.

Patent Application No. 10-2021-154136 (Name of the invention: Oyster shell automatic separation system)

The present invention is to solve the above problems, and the oyster kernels are separated from the oyster shells, and the primary peeled oysters in which the oyster shells are contained in the oyster shells are put into a rotating cylindrical tube with vibration and rotation, and the inside of the rotating cylindrical tube By installing several stirring plates on the side, as the gap in the primary shelled oyster continuously changes up, down, left and right, when the gap in the oyster shell faces downward, it is possible to make the oyster kernels come out well through the gap. make it a technical task.

The present invention for achieving the above object is a vibrating device unit installed on a lower frame to generate vibration, and installed on the upper side of the vibrating device unit and installed on the upper side of the vibrating device unit to vibrate and rotate through a slab input means of a rotating cylindrical tube of a separation device. a vibration separator including a separation device for separating oyster kernels from the oyster shells of the primary oysters input to the inside is configured; A pair of guide posts are vertically installed on both sides of the upper side of the base plate horizontally installed in the lower frame, and crankshafts rotating eccentrically by a motor by a motor are horizontally installed on the base plate between the guide posts on both sides of the vibrator unit. Elevating and hoisting platforms installed with crankshaft supports installed to rotate and support both ends of the crankshaft on the inner surface of the column are installed, and the vibration rods are installed upwardly on the upper parts of the both sides of the hoisting platform, but the upper ends of the vibration rods are The upper hinge bracket is hingedly installed on the bottom surface of the outer cover pipe included in the separation device and is installed in a hinged way, and the lower end of the vibrating rod is hingedly connected to the lower hinge bracket installed on the upper surface of the elevating platform. ; The separation device part is installed to be elastically supported by the support springs vertically installed on the lower frame in the lower part of the front and rear sides of the outer cover pipe in which the upper hinge brackets on the upper side of the vibration rod included in the vibration device unit are installed on both sides of the middle of the bottom surface. The front side of the cover tube is high and the rear side is inclined low, and the upper and lower rotation supports for supporting the rotation of the rotating cylindrical tube are respectively installed on the upper and lower sides of the front and rear inner sides of the outer cover tube; The rotating cylindrical tube is formed in the form of a cylindrical tube with an open front and rear, and a plurality of oyster shell discharge holes through which oyster kernels exit are formed through the entire surface of the cylindrical tube, and a sprocket gear is installed on the outer periphery of one side of the rotating cylindrical tube, At a predetermined position on the upper side of the outer cover tube, a chain wound around a sprocket gear to rotate the rotating cylindrical tube is installed to be rotated by an upper motor, and at the bottom of the outer cover tube below the rotating cylindrical tube, the oyster kernel exits through the hole. An oyster receiving plate on which oysters are supported is installed inclined to the rear side, and an oyster oyster outlet through which oysters are discharged to the outside is installed below the rear of this oyster receiving plate downward, An oyster shell outlet for discharging oyster shells descending on a rotating cylindrical tube is installed at the lower portion; The revolving cylindrical tube is installed in a fitting manner so that the outer tube slides on the outside of the inner tube, a plurality of oyster ball discharge holes are formed on the entire surface of these inner and outer tubes, and the front and rear upper and lower rotations on the front and rear outer periphery of the revolving cylindrical tube A protrusion is formed to be guided to the upper and lower guide rollers of the battery globe, and several stirring plates are installed at a predetermined angle on the inner surface of the rotating cylindrical tube, and are installed on the inner tube flange located on the front and rear outer sides of the inner and outer tube. The tightening bolt is fastened to the outer pipe flange through the formed several long holes; A water spray means for spraying water into the inside of the rotary cylindrical tube is installed in the inside of the rotary cylindrical tube, and the water spray means has a water supply pipe hanger installed downward on the front and rear upper sides of the outer cover tube, and the length inside the rotary cylindrical tube A water supply pipe is installed in the direction, but the front and rear of the water supply pipe are installed on the front and rear side water supply pipe hangers, and a plurality of spray nozzles for spraying water supplied through a hose are installed in the lower part of the water supply pipe. do.

delete

delete

delete

delete

The vibrating separator of the oyster shell separation device of the present invention as described above, puts the primary peeled oysters into a rotating cylindrical tube that performs vibration and rotation together, and installs several stirring plates on the inner surface of the rotating cylindrical tube. As the gap in the oyster continuously changes up, down, left and right, when the gap in the oyster shell faces downwards, it has the effect of allowing the oyster kernels to easily escape through the gap.

In addition, after installing the rotating cylindrical tube in a double structure in which the outer tube is inserted outside the inner tube, the inner and outer oyster oyster outlet holes formed through each of the inner and outer tubes are configured to match, but the overlapping width of the inner and outer oyster oyster outlet holes is adjusted. By making it adjustable, there is an effect of solving the problem of cumbersome replacement of the perforated plate in the prior art.

1 is a cross-sectional view showing the prior art.
Figure 2 is a front perspective view of the present invention.
3 is a rear perspective view of the present invention.
4 is a longitudinal cross-sectional view of the present invention.
5 is a side view of the present invention;
6 is a cross-sectional view taken along line AA of FIG.
7 is a perspective view showing a vibrator unit included in the present invention.
8 is a front view showing a vibrating device unit included in the present invention.
9 is an enlarged cross-sectional view of part "B" of FIG.

Hereinafter, the vibration separator of the oyster shell separation device according to the present invention will be described with reference to the accompanying drawings 2 to 9 .

The vibration separator 100 according to the present invention includes a vibration device unit 10 installed on the lower frame 1 to generate vibration, as shown in FIGS. 2 to 4 , and an upper side of the vibration device unit 10 . Separating device 30 for separating oyster kernels from the oyster shells of the primary peeled oysters installed inside the rotating cylindrical tube 41 of the separating device 30 through the peeled oyster input means 60 while rotating with vibration. is comprised of

As shown in FIGS. 2 and 7 and 8, the vibrating device unit 10 is provided with a pair of guide posts 12 on both upper sides of the base plate 11 horizontally installed on the lower frame 1, vertically installed, A crankshaft 14 rotating eccentrically by a motor 13 is horizontally installed on the base plate 11 between the guide posts 12 on both sides, and both sides of the crankshaft 14 on the inner side of the guide posts 12 on both sides. The elevating platform 16 provided with the crankshaft support 15 installed so that the end is rotationally supported is installed so as to be able to elevate.

And, the vibration rod 17 is installed upwardly on the upper part of the hoisting table 16 on both sides, and the upper end of the vibration rod 17 is hinged on the bottom surface of the outer cover tube 31 included in the separation device unit 30 . It is hingedly connected to the upper hinge bracket 18 installed as

As shown in FIGS. 2 to 6 , the separation device 30 includes the lower portions of the front and rear sides of the outer cover tube 31 in which the upper hinge brackets 18 of the upper ends of the vibration rods 17 are installed on both sides of the bottom surface as shown in FIGS. 2 to 6 . It is installed to be elastically supported by the support spring (2) vertically installed on the frame (1), the front side of the outer cover pipe (31) is high and the rear side is installed to be inclined low.

In addition, upper and lower rotation supports 34 and 38 for supporting the rotation of the rotary cylindrical tube 41 are installed on both upper and lower sides of the front and rear inner sides of the outer cover tube 31 , respectively.

At this time, in the upper rotary support 34 , the upper roller mounting base 35 is elastically installed by a spring 36 on the inner bottom surface of the outer cover tube 31 , and the lower part of the upper roller mounting base 35 is a rotating cylindrical tube. The upper guide roller 37 for guiding and supporting the upper part of the 41 is rotatably installed, and the lower rotation support 38 rotates on the lower roller mounting table 39 installed on both sides of the inner surface of the outer cover tube 31 . A lower guide roller 40 for guiding and supporting the lower portion of the cylindrical tube 41 is rotatably installed.

The rotating cylindrical tube 41 is formed in the form of a cylindrical tube with an open front and rear, and a plurality of oyster shell discharge holes 44 through which oyster kernels exit are formed through the entire surface of the cylindrical tube, and the rotating cylindrical tube 41 On the front and rear outer periphery of the projection, the protrusion 45 guided to the front and rear upper and lower rotation supports 34 and 38 is formed to protrude.

In addition, a sprocket gear 46 is installed on the outer periphery of one side of the rotary cylindrical tube 41, and is wound around the sprocket gear 46 at a predetermined position on the upper side of the outer cover tube 31 to rotate the rotary cylindrical tube 41. A chain (47) is installed to be rotated by an upper motor (48).

And, on the bottom of the outer cover tube 31 on the lower side of the rotating cylindrical tube 41, an oyster oyster receiving plate 54 on which oyster oysters exiting through the oyster oyster discharge hole 44 are supported is installed inclined to the rear side, An oyster oyster outlet 33 through which oyster oysters are discharged to the outside is installed at the rear lower side of the oyster oyster receiving plate 54 downward.

In addition, an oyster shell outlet 32 for discharging oyster shells descending on the rotary cylindrical tube 41 is installed in the form of a side gutter at the lower portion of the outer cover pipe 31 on the rear side of the rotary cylindrical tube 41, On the inner surface of the rotating cylindrical tube 41, several stirring plates 49 are provided at intervals at a predetermined angle.

The rotating cylindrical tube 41 is fitted to the outside of the inner tube 42 so that the outer tube 43 is slid, and a plurality of oyster shell discharge holes 44 are provided on the entire surface of the inner and outer tubes 42 and 43. , 44a) is formed, but the oyster oyster discharge holes 44 and 44a respectively formed in the inner and outer tubes 42 and 43 are installed to coincide with each other.

And, as shown in FIGS. 6 and 9, the inner and outer tube flanges 42a and 43a are installed to overlap the front and rear circumferences of the inner and outer tubes 42 and 43, and the inner tube flanges 42a located outside the front and rear have a number Four long holes 42b are formed, and the fastening bolts 42c are fastened to the outer pipe flange 43a through the long holes 42b, and the oyster kernel discharge holes 44 and 44a are respectively formed in the inner and outer tubes 42 and 43. ) is to be configured to be able to adjust the size of their oyster ball discharge holes (44, 44a) while overlapping.

The protrusion 45 and the sprocket gear 46 described above are installed to protrude outward from the outer tube 43 , and several stirring plates 49 are installed on the inner surface of the inner tube 42 at a predetermined angle.

In addition, water spraying means for spraying water into the inside of the rotating cylindrical tube 41 is installed inside the rotating cylindrical tube (41).

The water spray means has a water supply pipe hanger 50 downwardly installed on the front and rear upper sides of the outer cover pipe 31, and a water supply pipe 52 is installed on the inside of the rotating cylindrical pipe 41 in the longitudinal direction, but the water supply pipe 52 A plurality of spray nozzles 51 for spraying water supplied through a hose 53 are installed at the lower portion of the water supply pipe 52 in the front and rear sides of the water supply line hanger 50 .

And, the kangul input means 60 is installed in front of the lower frame 1 and the separation device 30 to put the primary kangul into the inside of the rotating cylindrical tube 41, and the hopper support 61 A hopper 62 with an open lower part is installed on the uppermost part of the hopper 62, and the input conveyor 63 for supplying the primary kangul input to the hopper 62 side to the inside of the rotating cylindrical tube 41 is installed in the lower part of the hopper 62. installed.

The operational relationship of the present invention configured as described above will be described with reference to FIGS. 2 to 9 as follows.

In explaining the operational relationship of the present invention, the primary kangul is an oyster removing device included in the automatic oyster shell separation system (Patent Application No. 10-2021-154136) previously applied by the applicant of the present invention as mentioned above. It refers to oysters in a state in which the oyster shell is opened by 5~10mm by water pressure and the oyster kernels are separated from the inner surface of the oyster shell, but the oyster kernels are contained in the oyster shell.

When such primary oysters are poured into the hopper 62 of the oyster inserting means 60 included in the present invention in a state of being placed in an oyster storage cage, as shown in FIGS. 2 to 6, the open lower part of the hopper 62 It is placed on the input conveyor 63 located at is put in

At this time, the rotating cylindrical tube 41 is rotated by the driving of the upper motor 48 installed on the upper side of the outer cover tube 31 of the separating device unit 30, and water is sprayed through the inside of the rotating cylindrical tube 41. Water is sprayed through the injection nozzle 51 of the means, and by the operation of the vibration device unit 10 installed on the lower side of the outer cover tube 31, including the outer cover tube 31 and the rotating cylindrical tube 41. The separation device 30 vibrates.

As above, the separation device 30 vibrates in the vertical direction, and as the rotating cylindrical tube 41 rotates, the first peeled oyster rotates, the gap of the oyster shell temporarily faces downward, and the spray nozzle 51 is removed. As the water is sprayed through the oyster shell, the oyster shell is spread by 5 to 10 mm, and the oyster shell is separated from the inner surface of the oyster shell and is inside the shell. .

First, the rotation of the rotary cylindrical tube 41 is the driving force of the upper motor 48 installed on the upper side of the outer cover tube 31 is the driving sprocket 48a and the rotary cylindrical tube 41 installed on the upper motor 48. The rotating cylindrical tube 41 is rotated by the chain 47 wound around the sprocket gear 46 installed on the outer periphery.

When the rotating cylindrical tube 41 rotates in this way, the upper and lower guide rollers 37 and 40 of the upper and lower rotation supports 34 and 38 support both upper and lower sides of the rotating cylindrical tube 41 to support the rotating cylindrical tube 41 ) rotates smoothly, and in the roller grooves of each of the upper and lower guide rollers 37 and 40 installed in the upper and lower rotation supports 34 and 38, the protrusion 45 protrudes from the outer periphery of the rotating cylindrical tube 41. Since is in the inserted state, the rotating cylindrical tube 41 is rotated in place without descending to the lower side despite the high front side and low rear side of the rotating cylindrical tube 41 is installed in an inclined state.

And, the separation device part 30 including the outer cover tube 31 and the rotating cylindrical tube 41 is in a state in which it is vibrated in the vertical direction by the vibration device unit 10, the upper rotating support 34 is As shown in FIG. 6 , the spring 36 responds elastically to the vertical vibration of the rotating cylindrical tube 41 vibrating by the vibrating device unit 10 because it is installed so as to be able to move up and down elastically by the spring 36 . While the rotating cylindrical tube 41 is to rotate smoothly inside the outer cover tube (31).

As the primary kangul is in the inside of the rotating cylindrical tube 41 that rotates in this way, the primary kangul is from the inner bottom of the rotating cylindrical tube 41 to the upper side in the direction in which the rotating cylindrical tube 41 rotates. It climbs on the inner wall surface of the revolving cylindrical tube 41, rises to a certain height, and repeats the operation of falling to the lower side by the weight of the primary kangul. In the process of falling down, there are times when the gap in the 1st Kangul faces downward.

In this state, as the rotating cylindrical tube 41 is vibrated by the vibrating device unit 10 in this state, when the gap between the primary shellfish faces downward, the oyster kernels inside the oyster shell through the gap go down. It comes out of the shell.

At this time, it is continuously sprayed from the spray nozzle 51 of the water supply pipe 52 installed through the inner upper space of the rotating cylindrical tube 41, and the water sprayed in this way is injected into the inside of the oyster shell through the gap in the primary shellfish. Since the oyster is in a state of going in and coming out, the oyster kernels inside the oyster shell go inside and are swept away by the water coming out, making it easier to get out of the oyster shell.

A number of stirring plates 49 installed with a partial spacing on the inner wall surface of the rotary cylindrical tube 41, the primary kangul, which climbed on the inner wall surface of the rotary cylindrical tube 41 due to the rotation of the rotary cylindrical tube 41 as above. ), it rises higher and then falls to the lower side, so the length of the fall of the primary kangul becomes longer. As the oysters are dispersed rather than gathered to one side, a space is secured for the oysters to escape, and the oysters come out more easily from the oyster shell.

In this way, the oyster kernels coming out of the oyster shell are a plurality of water sprayed through the spray nozzle 51 of the water supply pipe 52 formed on the inclined lower side of the rotary cylindrical tube 41 and the entire surface of the rotary cylindrical tube 41 . When it flows down to the oyster kernel discharge hole 44, the slippery oyster kernels are swept away by the flowing water and escape to the lower side of the oyster kernel discharge hole 44.

As described above, the oyster kernels that exit to the lower side of the oyster shell discharge hole 44 fall to the oyster shell plate 54 at the lower side, and the oyster shell plate 54 also vibrates together with the separator unit 30. And as the water sprayed through the spray nozzle 51 flows down, the slippery oyster grains slide down the inclined downwards of the oyster grain receiving plate 54, and at the rear lower side of the oyster grain receiving plate 54. It is discharged to the outside through the oyster kernel outlet 33 installed downward.

In this way, when the oyster oysters are discharged to the outside through the oyster oyster outlet 33, the empty oyster shells from which the oysters have escaped are installed to extend rearwardly in the outer cover tube 31 at the lower rear side of the rotary cylindrical tube 41, Since it vibrates by the vibrating device unit 10, it is discharged to the outside through the oyster shell outlet 32 inclined downward to the rear.

As shown in FIGS. 5 to 7 , in the operation of the vibrating device unit 10, the crankshaft 14 is eccentrically rotated by the driving of the motor 13, and both ends of the crankshaft 14 are equipped with a lifting platform 16 ) is installed to be rotatably supported by the crankshaft support 15 vertically installed in the center of the inner side, so that the elevating platform 16 is raised and lowered by the eccentric rotation of the crankshaft 14 .

At this time, both hoisting platforms 16 are installed so as to be guided by elevating and elevating on the guide posts 12 installed in the vertical direction, so that both elevating platforms 16 are guided up and down to each guide post 12 and ascending and descending. On the steel strip 16, the vibration rod 17 is installed in the vertical direction, but the upper end of the vibration rod 17 is installed on the lower surface of the outer cover tube 31 as in FIGS. 4 and 5. On the upper hinge bracket 18. It is installed in a hinge type, and the lower end of the vibrating rod 17 is hingedly installed in the lower hinge bracket 19 installed in the elevating platform 16. It will vibrate smoothly up and down.

At this time, the support spring 2 supported by the lower frame 1 is elastically installed at the front and rear lower sides of the outer cover tube 31 so that the separation device 30 including the rotating cylindrical tube 41 continues to vibrate up and down. it will be done

In addition, the rotary cylindrical tube 41 is fitted to the outside of the inner tube 42 so that the outer tube 43 is slid, and a plurality of mutually coincident entire surfaces of these inner and outer tubes 42 and 43 The oyster kernel discharge holes 44 and 44a are formed, and the inner and outer tube flanges 42a and 43a overlapping the front and rear circumferences of the inner and outer tubes 42 and 43 are rotated by a predetermined width by rotating the inner and outer tubes 42 and 43. The oyster oyster discharge holes 44 and 44a respectively formed in the inner and outer tubes 42 and 43 overlap and the size of the hole can be adjusted.

Therefore, after loosening the fastening bolts 42c fastened to the outer tube flange 43a through the long hole 42b of the inner tube flange 42a, the inner and outer tubes 42 and 43 are rotated by a predetermined angle to rotate Depending on the angle, the overlapping width of the oyster oyster discharge holes 44 and 44a, which coincide with each other, changes to be large or small, and the size of the oyster kernel discharge holes 44 and 44a can be adjusted, and after adjusting the angle, the tightening bolt 42c By tightening it, you complete the adjustment of the size of the hole through which the oyster kernels will exit.

1 : Lower frame 2 : Support spring 10 : Vibration device unit
11: base plate 12: guide column 13: motor
14: crankshaft 15: crankshaft support 16: elevating platform
17: vibration rod 18: upper hinge bracket 19: lower hinge bracket
30: separation device 31: outer cover tube 32: oyster shell outlet
33: oyster grain outlet 34: upper rotating support 35: upper roller installation stand
36: spring 37: upper guide roller 38: lower rotation support
39: lower roller mounting table 40: lower guide roller 41: rotating cylindrical tube
42: inner tube 43: outer tube 44: oyster kernel discharge hole
45: protrusion 46: sprocket gear 47: chain
48: upper motor 49: stirring plate 50: water supply pipe hanger
51: injection nozzle 52: water supply pipe 53: hose
54: oyster grain receiving plate 60: peeled oyster input means 61: hopper support
62: hopper 63: input conveyor

Claims (5)

In the oyster shells of the first oysters installed on the lower frame to generate vibration, and the oyster shells of the primary oysters installed on the upper side of the vibrating device unit and injected into the inside of the rotating cylindrical tube of the separation device through the oyster inserting means while rotating with vibration. A vibration separator including a separator for separating oyster kernels is configured;
A pair of guide posts are vertically installed on both sides of the upper side of the base plate horizontally installed in the lower frame, and crankshafts rotating eccentrically by a motor by a motor are horizontally installed on the base plate between the guide posts on both sides of the vibrator unit. Elevating and hoisting platforms installed with crankshaft supports installed to rotate and support both ends of the crankshaft on the inner surface of the column are installed, and the vibration rods are installed upwardly on the upper parts of the both sides of the hoisting platform, but the upper ends of the vibration rods are The upper hinge bracket is hingedly installed on the bottom surface of the outer cover pipe included in the separation device and is installed in a hinged way, and the lower end of the vibrating rod is hingedly connected to the lower hinge bracket installed on the upper surface of the elevating platform. ;
The separation device part is installed to be elastically supported by the support springs vertically installed on the lower frame in the lower part of the front and rear sides of the outer cover pipe in which the upper hinge brackets on the upper side of the vibration rod included in the vibration device unit are installed on both sides of the middle of the bottom surface. The front side of the cover tube is high and the rear side is inclined low, and the upper and lower rotation supports for supporting the rotation of the rotating cylindrical tube are respectively installed on the upper and lower sides of the front and rear inner sides of the outer cover tube;
The rotating cylindrical tube is formed in the form of a cylindrical tube with an open front and rear, and a plurality of oyster shell discharge holes through which oyster kernels exit are formed through the entire surface of the cylindrical tube, and a sprocket gear is installed on the outer periphery of one side of the rotating cylindrical tube, At a predetermined position on the upper side of the outer cover tube, a chain wound around the sprocket gear to rotate the rotating cylindrical tube is installed to be rotated by the upper motor,
At the bottom of the outer cover tube under the rotating cylindrical tube, an oyster oyster receiving plate on which oysters exiting through the oyster discharge hole are supported is installed to be inclined to the rear side. The egg outlet is installed downward, and the oyster shell outlet for discharging the oyster shells descending on the rotary cylindrical tube is installed in the lower part of the outer cover tube on the rear side of the rotary cylindrical tube;
The revolving cylindrical tube is installed in a fitting manner so that the outer tube slides on the outside of the inner tube, a plurality of oyster ball discharge holes are formed on the entire surface of these inner and outer tubes, and the front and rear upper and lower rotations on the front and rear outer periphery of the revolving cylindrical tube A protrusion is formed to be guided to the upper and lower guide rollers of the battery globe, and several stirring plates are installed at a predetermined angle on the inner surface of the rotating cylindrical tube, and are installed on the inner tube flange located on the front and rear outer sides of the inner and outer tube. The tightening bolt is fastened to the outer pipe flange through several long holes formed;
A water spray means for spraying water into the inside of the rotary cylindrical tube is installed in the inside of the rotary cylindrical tube, and the water spray means has a water supply pipe hanger installed downward on the front and rear upper sides of the outer cover tube, and the length inside the rotary cylindrical tube A water supply pipe is installed in the direction, but the front and rear of the water supply pipe are installed on the front and rear side water supply pipe hangers, and a plurality of spray nozzles for spraying water supplied through a hose are installed in the lower part of the water supply pipe. A vibrating separator of an oyster shell separator. delete delete According to claim 1, wherein the upper rotating support is an upper roller mounting base elastically installed by a spring on the inner bottom surface of the outer cover tube, the upper guide roller for guiding and supporting the upper part of the rotating cylindrical tube at the lower part of the upper roller mounting base is rotated Oyster shell separation, characterized in that it is freely installed, and the lower rotating support includes a configuration in which a lower guide roller for guiding and supporting the lower part of the rotating cylindrical tube is freely installed on the lower roller mounting tables installed on both sides of the inner surface of the outer cover tube. Vibration separator of the device. delete

Images