KR20150119747A

KR20150119747A - Eco-friendly gathering salt apparatus for saltern

Info

Publication number: KR20150119747A
Application number: KR1020140045558A
Authority: KR
Inventors: 정종덕; 김성운
Original assignee: 정종덕; 김성운
Priority date: 2014-04-16
Filing date: 2014-04-16
Publication date: 2015-10-26

Abstract

The present invention relates to an eco-friendly apparatus for collecting salt for a salt pond with an improved structure, capable of: increasing collection efficiency on salt crystals in processes of collecting and loading salt; automatically maintaining a height gap between the lower side of a bucket and the bottom of the salt pond; preventing damage to the salt pond even under a poor surface condition by lightening the weight; and preventing salt in the salt pond from being contaminated. The eco-friendly apparatus for collecting salt for a salt pond in accordance with the present invention comprises: a frame having a battery storage compartment in which a battery is mounted; a plurality of drive-wheels provided in edge portions of the frame to be rotated; a main body provided to extend on an upper side of the frame, and in which a steering unit for a change of direction is arranged; a driving means driving the drive-wheels by receiving electric power from the battery so as to move the drive-wheels forward and backward; a bucket provided on a front side of the main body, and supported to be moved upward and downward and to be rotated; an elevating means having a first electric cylinder driven by receiving electric power from the battery, and moving the bucket upward and downward; and a rotation means having a second electric cylinder driven by receiving electric power from the battery, and rotating the bucket.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an environment-

The present invention relates to an eco-friendly flame-proofing apparatus for salt use, and more particularly, to an apparatus and a method for operating a bucket by using an electric cylinder, thereby reducing the weight and improving the bucket structure to improve the collection efficiency of salt crystals, And in the case of a conventional hydraulic cylinder, the structure is improved so as to prevent oil from being contaminated with salt.

Generally, solar salt is produced in such a way that the seawater trapped in the sea before the tide when the tide is tide is evaporated by the sunlight and the salinity of the sea is determined.

Conventional salt tanks consist of reservoirs, evaporation tiles, and deciduous tiles. In addition, salt exits, roads, etc. are installed, and these facilities are disconnected from the outer tanks by the seawall for prevention of seawater intrusion. The reservoir mentioned above is a place where seawater is trapped and the evaporator is a place where water is evaporated by sunlight and wind. Crystallization is a place where the saturation function concentrated in the evaporation paper is thinned and concentrated, the salt is crystallized and precipitated, Is located on the downstream side.

The salt deposited from the above-mentioned deciduous ground is stored in a salt reservoir and is discharged in a state of lacking water. However, the distance from the determined reservoir to the salt reservoir is very long.

As a result, the salt flour from the deciduous ground is carried to the salt storage tank, which is loaded on a salvage truck which is moved along the rails attached to the bank formed between the crystal papers.

On the other hand, the salt produced and dispersed in the salt floor of the above-mentioned determinant paper is scraped by the brush of the operator and collected to one side of the bank, and the collected salt is loaded on the salt transportation truck.

In this case, since the salt transport bogie is located on the bank of the salt tanks and the height thereof is high, it is very difficult to load the salt collected on the salt trench floor from the side of the bank into the salt bogie by spreading the salt by the operator. There is a fear that a safety accident of the operator may occur.

Conventional prior art relating to a torsion barge device taking this into consideration is disclosed in Korean Patent Laid-Open Publication No. 10-2014-0030924 entitled " Salt Salt Collecting Device "(published on Apr. 13, 2014) A driving unit connected to the driving unit and the driving unit, a steering unit connected to the main unit, a plate disposed at a front side of the main unit, and a lifting / lowering unit connected to the lifting plate.

Open No. 10-2014-0030924 discloses that an electric motor is used to move within a torsion spring and an upper and a lower distance from the ground surface can be adjusted through a lifting structure of a tumbler plate. It is disadvantageous in that it does not have a height adjustment function so as to be suitable for the road surface of the salt pavement floor as well as the disadvantage that the obstacle such as the stone on the road surface is not collided before moving to the floor, There is a disadvantage in that the work for loading on the transportation truck must be manually loaded by the operator or a separate loading device must be provided.

In addition, another prior art related to the conventional trough deposit device is disclosed in Korean Registered Utility Model No. 20-0443278 entitled " Salt collection and loading device "(registered on January 21, 2009) For collecting and collecting the salt collected on a salvage truck which is moved along a rail provided on a bank, comprising: a base; wheels for supporting the base and for rolling the salt floor; And a rail provided on the rail for collecting the salt scattered on the salt floor and supporting a wheel of a salt transport truck on a rail provided on the railroad car, Collecting means mounted on the bogie for pouring salt into a salvage truck, and a rechargeable battery charged with electric power, Receiving the electric power discharged from the supply is configured by a driving means for driving and controlling said stacking means and a collection portion balance wheel.

Registration Utility Model No. 0443278 utilizes a bucket conveyor to collect salt from the trough floor and to load the collected salt into the collecting means mounted on the trough to collect and load the salt on the trough floor However, since the conventional salt floor is composed of a long plate or tile and the height of the bucket conveyor can not be controlled from the bottom of the salt floor during the salt transfer, the collection efficiency of the salt crystals is lowered. There is a risk of damaging or damaging the salt floors.

In the case of a conventional mechanical sizing apparatus for operating a bucket using a conventional hydraulic cylinder, if the oil of the hydraulic cylinder flows out within the salt tank, the food salt may be contaminated and the problem of damaging the salt floor due to heavy weight have.

Korean Patent Laid-Open Publication No. 10-2014-0030924 entitled " Salt Salt Collecting Apparatus "(Published on Apr. 31, 2014) Korean Registered Utility Model No. 20-0443278 "Salt collection and loading device" (registered on January 21, 2009)

The object of the present invention is to provide a method and apparatus for automatically maintaining the height of a bottom surface of a bucket and a tumbling floor during a salt collecting and loading process of a tumbling floor, It is possible to prevent damage or deterioration of the salt floors even when the road surface is in a poor condition and to prevent the pollutants from contaminating the salt on the salt floors, and to provide an environmentally friendly salt water treatment apparatus with improved structure .

Another object of the present invention is to provide a salt-environment-friendly sandwich device having improved structure to improve the collection efficiency of salt crystals by improving the structure of the bucket.

According to an aspect of the present invention, there is provided a battery pack including a frame on which a battery is mounted, a plurality of driving wheels rotatably provided at a frame portion of the frame, A driving means for driving the driving wheels to drive the driving wheels in response to the power of the battery being applied; a bucket provided at the front of the main body and supported by the upper and lower elevating rails and rotatably; And a rotating means for rotating the bucket having a second electric cylinder which is operated when the power of the battery is applied, and rotating means for rotating the bucket .

And auxiliary wheels for rotatably disposed on both left and right sides of the bucket and for maintaining the height of the bottom surface of the bucket and the tumbling floor.

And a roller bearing rotatably disposed on the lower surface of the bucket for maintaining the height of the lower surface of the kit and the tumbling floor.

Wherein the angle adjusting means comprises a fixing bracket provided on a rear surface of the blade plate and having a fixing hole, a connection bracket provided on a side surface of the bucket, And a control pin which is coupled to one of the control holes of the control member and the fixing hole of the fixing bracket.

The bucket is further provided with a plurality of drain holes and a slanting plate made of a silicon material so as to be inclined downward from the front end of the bottom surface toward the bottom.

The lifting means includes a lower support which is rotatably connected to the main body and the bucket, and a lower support which is disposed between the frame and the lower support. When the power of the battery is applied, And a first electric cylinder for rotating the lower support to adjust the height of the bucket.

The rotating means includes an upper support member extending to the upper side of the lower support member, a connecting rod connecting the upper support member and the main body, and a second rod connecting the upper support member and the upper portion of the bucket. And a second electric cylinder for rotating the upper portion of the bucket in a stretching operation.

And a footrest that is foldably disposed at the rear of the main body.

The driving wheel is formed with a urethane coating layer on the outer circumferential surface thereof.

First, since the height and the angle of the bucket can be adjusted by using the electric cylinder, the weight of the bucket can be greatly reduced as compared with the conventional apparatus using the hydraulic cylinder, and the contaminants such as oil can be prevented from falling And a urethane coating layer is formed on the outer circumferential surface of the driving wheel and the auxiliary wheel to prevent pollution of the torsion, thereby providing environment-friendly advantages.

Second, the present invention has a beneficial effect of preventing damage or damage to the float floor by preventing the bottom surface of the bucket from colliding with the bucket by mounting the auxiliary wheel and the roller bearing in the bucket.

Third, the present invention has the advantage that the collecting efficiency of the salt crystals can be greatly improved by disposing a blade capable of adjusting the angle on both left and right sides of the bucket and arranging a swash plate at the bottom end.

Fourthly, since a plurality of drain holes are formed in the bucket, the present invention has an advantage that the salt crystals and seawater can be easily separated from each other.

1 is a perspective view showing an environmentally friendly chelating apparatus for salt according to the present invention.
Fig. 2 is a side view of Fig. 1; Fig.
3 is a bottom view of Fig.
4 is an enlarged view of the angle adjusting means of the present invention.
Fig. 5 is a view showing the state of use of the auxiliary wheels and roller bearings of the present invention. Fig.
6 is a use state of the bucket according to the present invention.

1 to 6, a battery 200 according to an embodiment of the present invention includes a frame 100 mounted in a battery compartment 250, A main body 300 having a plurality of driving wheels 150 provided on the frame 100 and a steering unit 310 provided on the frame 100 so as to switch directions and disposed on the frame 100; A driving means 500 for driving the driving wheel 150 to move forward and backward and a bucket 400 provided in front of the main body 300 and supported by the upper and lower elevating and lowering rotatably, A second electric cylinder 710 having a first electric cylinder 610 operated with power applied thereto and operated to receive power from the battery 200 and a lifting means 600 for lifting the bucket 400 up and down, And a rotating means 700 for rotating the bucket 400.

Referring to FIG. 1, the frame 100 is configured to have a substantially rectangular cross-sectional structure, and four driving wheels 150 are rotatably disposed at a rim portion.

Since the driving wheel 150 is in direct contact with the float G, it has a structure in which an urethane layer, which is an eco-friendly material, is coated on the outer circumferential surface to prevent contamination.

The main body 300 is formed so as to extend vertically upward from the frame 100 and is arranged on the rear side, and is provided with a steering unit 310 for switching the traveling direction of the frame 100 according to the operation of the driver.

3, the driving unit 500 includes a driving motor 510 that is driven by forward and reverse rotations by receiving power from the battery 200, A driving shaft 515 and a driven shaft 520 for transmitting the driving force to the wheel 150 and a power transmitting member 530 for transmitting the rotational driving force of the driving motor 510 to the driven shaft 520 through the driving shaft 515, .

The power transmitting member 530 may adopt a known belt or chain, but it is preferable to employ a belt in consideration of environmentally friendly elements.

Further, although the drive means 500 is not shown in the drawing, a known differential gear device can be adopted.

2, the lifting unit 600 includes a lower support 620 that connects the main body 300 and the bucket 400 and is rotatably connected to the main body 300, a frame 100, The lower support 620 is rotated with respect to the main body 300 during the extension and contraction operation of the first rod as the power of the battery 200 is applied to the bucket 400, 1 electric cylinder (610).

That is, when the battery 200 is powered on, the first transmission cylinder 610 extends and contracts the first rod connected to the lower support 620 and rotates the lower support 620 from the body 300 to rotate the lower support 620 The bucket 400 is lifted upward or lowered to the lower side of the trough floor G. As shown in Fig.

The rotating means 700 includes an upper support 720 extended to the upper side of the lower support and a link 730 connecting the upper support 720 to the main body 300. The upper support 720 and the bucket And a second electric cylinder 710 connected to an upper portion of the bucket 400 to rotate the upper portion of the bucket 400 when the battery 200 is powered.

The second electric cylinder 710 is operated to extend and retract the second rod connected to the upper portion of the bucket 400 when the power of the battery 200 is applied to rotate the upper portion of the bucket 400 to lift the front end portion of the bucket 400 Or downward.

The bucket 400 is composed of both side walls, a bottom surface and a rear wall, and a drainage hole 405 is formed in such a manner that the sea water is discharged and the salt crystals remain in the bucket 400.

The drainage hole 405 may be formed not only on the rear wall shown in the drawing but also on the bottom and both side walls.

The bucket 400 further includes a swash plate 402 coupled to the bottom of the bottom so as to be inclined downward toward the bottom G of the trough.

The swash plate 402 adopts a silicon material which is an environmentally friendly material having its own elastic force while preventing contamination during contact with the tumbling bottom G.

The bucket 400 may further include auxiliary wheels 410 that are rotatably disposed on both left and right sides of the bucket 400 and that maintain the height of the lower surface of the bucket 400 and the trough floor G, A roller bearing 420 may be provided on the lower surface of the bucket 400 so as to be rotatable and axially coupled via a support bracket 425 to maintain the height of the lower surface of the bucket 400 and the tumbling floor G. [

The auxiliary wheel 410 and the roller bearing 420 may be used in parallel in the present invention, or may be used individually.

Meanwhile, it is preferable that the auxiliary wheel 410 has the urethane coating layer 152 formed on the outer circumferential surface thereof, like the driving wheel 150.

The bucket 400 is disposed on both sides of the bucket 400 so as to be rotatably hinged to the bucket 400 to improve the collection efficiency of the salt crystals collected in the bucket 400 when the bucket 400 is moved forward And a wing plate (450).

4, the bucket 400 is further provided with angle adjusting means for adjusting the angle of the wing plate 450. The angle adjusting means is provided on the rear surface of the wing plate 450, A connecting bracket 920 provided on a side surface of the bucket 400 and a plurality of adjusting holes 932 connecting the fixing bracket 910 and the connecting bracket 920 are formed And an adjusting pin 940 which is pin-coupled to one of the adjusting holes 932 of the adjusting member 930 and the fixing hole 915 of the fixing bracket 910. [

The main body 300 further includes a foot plate 810 disposed rearwardly via a hinge 815 so that when the foot plate 810 is disposed in a horizontal state parallel to the salt floor G, In order to reduce the load transmitted to the float G, the driver may be rotated so as to be in close contact with the main body 300 without being carried.

The center of gravity of the main body 300 moves to the rear side so that the bucket 400 located in front of the main body 300 can be lifted.

When the driver operates the operation switch (not shown) provided on the steering unit 310, the power of the battery 200 is applied to the first and second electric cylinders, The lower support 620 is rotated from the main body 300 and the upper portion of the bucket 400 is rotated to adjust the position of the bucket 400 to be suitable for collecting the salt crystals .

The driving means 500 of the present invention drives the driving shaft 515 in response to the power source of the storage battery being supplied to the driving motor 510 in accordance with the ON operation of the operation switch and drives the power transmitting member 530 A drive force is transmitted to the driven shaft 520 through the drive wheels 150 to rotate the drive wheels 150 to advance the main body 300 and the bucket 400.

At this time, it is possible to improve the collecting efficiency of the salt crystals by adjusting the angle so that the tip end of the blade 450 when the bucket 400 is moved to the left and right sides of the bucket 400.

The angle adjusting means for adjusting the angle of the wing plate 450 includes an adjusting pin 940 pin-coupled to the fixing hole 915 of the fixing bracket 910 provided on the rear surface of the wing plate 450, The angle of the wing plate 450 relative to the connection bracket 920 can be adjusted by selectively coupling one of the adjustment holes 932.

5, the bucket 400 may be installed on the lower surface of the bucket 400, even if the bucket 400 moves due to the auxiliary wheels 410 or the roller bearings 420, (G) can be prevented from being hit, so that the damage or damage of the torsion floor (G) can be prevented.

The slope plate 402 of the bucket 400 is positioned close to the trough plate G so that the salt crystals of the trough plate G on the bucket 400 travel across the swash plate 402, So that it is guided into the inside.

At this time, the seawater introduced into the bucket 400, such as the salt crystals, is discharged to the outside of the bucket 400 through the drainage hole 405 and separated from the salt crystals in the bucket 400.

The driver then adjusts the height and angle of the bucket 400 using the elevating means 600 and the rotating means 700 described above in a state in which the bucket 400 is raised when the driver rides on the footing plate 810 , The salt crystals remaining in the bucket 400 can be easily loaded onto the salt transfer bogie (not shown).

Accordingly, since the height or the angle of the bucket 400 can be adjusted by using the electric cylinder, the weight of the bucket can be significantly reduced as compared with the apparatus using a conventional hydraulic cylinder. In addition, And the urethane coating layer 152 is formed on the outer circumferential surface of the driving wheel 150 and the auxiliary wheel 410 to prevent contamination of the front tires, thereby providing environment-friendly advantages.

The present invention can prevent the bottom surface of the bucket 400 from colliding with the bottom surface of the bucket 400 by mounting the auxiliary wheel 410 and the roller bearing 420 on the bucket 400, And it has a useful effect of preventing damage.

In addition, according to the present invention, it is possible to greatly improve the collection efficiency of the salt crystals by disposing the wing plates 450 capable of adjusting the angle on both the left and right sides of the bucket 400 and arranging the swash plate 402 at the bottom end .

In addition, since a plurality of drainage holes 405 are formed in the bucket 400, the present invention has an advantage that the salt crystals and seawater can be easily separated from each other.

100: frame 150: driving wheel
152: urethane coating layer 200: battery
250: Battery compartment 300: Body
310: Steering section 400: Bucket
402: swash plate 405: drain
410: Auxiliary wheel 420: Roller bearing
425: support bracket 450: wing plate
500: driving means 510: driving motor
515: drive shaft 520:
530: Power transmission member 600:
610: first electric cylinder 620: lower support
700: rotating means 710: second electric cylinder
720: upper support 730: connecting rod
810: Footstool 815: Hinge
900: Angle adjusting means 910: Fixing bracket
915: Fixing ball 920: Connection bracket
930: adjusting member 932: adjusting ball
940: Adjustment pin G:

Claims

A frame 100 on which the battery 200 is mounted,
A plurality of driving wheels 150 rotatably provided at a rim of the frame 100,
A main body 300 extending to the upper side of the frame 100 and having a steering unit 310 for switching directions,
A driving means 500 for driving the driving wheel 150 to forward and backward as the power of the battery 200 is applied,
A bucket 400 provided at the front of the main body 300 and supported so as to be vertically movable up and down and rotatable,
A lifting means 600 having a first electric cylinder 610 operated when the power of the battery 200 is applied and lifting the bucket 400 up and down,
And a rotating means (700) for rotating the bucket (400) with a second electric cylinder (710) operated when the power of the battery (200) is applied.

The method according to claim 1,
Further comprising auxiliary wheels (410) rotatably disposed on both left and right sides of the bucket (400) and for maintaining a height between the lower surface of the bucket (400) and the tumbling floor (G) Environmentally friendly compacting device.

The method according to claim 1,
Further comprising a roller bearing (420) rotatably disposed on a lower surface of the bucket (400) to maintain a height between the lower surface of the kit and the tumbling floor (G).

The method according to claim 1,
Wherein the bucket (400) further comprises a wing plate (450) disposed on both left and right sides.

The method of claim 4,
And an angle adjusting means for adjusting the angle of the vane plate 450,
The angle adjusting means includes a fixing bracket 910 provided on a rear surface of the blade plate 450 and having a fixing hole 915 formed therein,
A connection bracket 920 provided on a side surface of the bucket 400,
An adjusting member 930 connecting the fixing bracket 910 and the connection bracket 920 to form a plurality of adjusting holes 932,
And an adjustment pin (940) pin-coupled to one of the adjustment holes (932) of the adjustment member (930) and the fixing hole (915) of the fixing bracket (910).

The method according to claim 1,
Wherein the bucket (400) is formed with a plurality of drain holes (405).

The method according to claim 1,
Wherein the bucket (400) further comprises a warp plate (402) of silicon material coupled to the bottom of the bucket (400) so as to be inclined downward from the bottom of the bucket (400) toward the trough bottom (G) side.

The method according to claim 1,
The elevating means 600 includes a lower support 620 connecting the main body 300 and the bucket 400 and rotatably connected to the main body 300,
The lower support 620 is rotated with respect to the main body 300 during the expansion and contraction operation of the first rod when the power of the battery 200 is applied between the frame 100 and the lower support 620, And a first electric cylinder (610) for adjusting the height of the first electric cylinder (400).

The method of claim 8,
The rotating means 700 includes an upper support 720 extending to the upper side of the lower support,
A connecting rod 730 connecting the upper supporter 720 to the main body 300,
The second rod is extended and operated as the power of the battery 200 is applied to the upper support 720 and the upper portion of the bucket 400. The second load And a cylinder (710).

The method according to claim 1,
Further comprising a footrest (810) foldably disposed at the rear of the main body (300).

The method according to claim 1,
Wherein the driving wheel (150) is formed with a urethane coating layer (152) on an outer circumferential surface thereof.