KR200254457Y1 - Dehydration apparatus using centrifugal force - Google Patents

Abstract

The present invention relates to a dehydration apparatus using a centrifugal force, the base 10 supported by the legs 11 from the bottom surface; On the base, a drum-shaped drain hole 21 for discharging the water to be dehydrated and installed in communication with the inner side, and a water drain hole 22a for guiding the dewatered water through the circumference are installed in the inner diameter. And a base plate 22 having a coupling hole 22b for supporting the bearing housing H at the center thereof, and a support protrusion 23 supporting the bottom surface of the disc plate 22 by being circumferentially formed in the inner diameter thereof. A lower body 20 provided with; The lower body 20 is connected to the upper surface and is provided with a space 31 for discharging the dehydrated pulverized product between the outer diameter and the inner diameter, the outer periphery is connected to the space 31 to the pulverized product to the outside An upper body 30 having an outlet 32 for discharging; A dehydration tube 40 installed together with a bearing housing H rotatably provided in the lower body 20 and connected to a driving motor M1 provided at a lower side of the base 10; A cover 50 coupled to the upper body 30 and having a through hole 51 at the center thereof and having a soundproof jaw 52 of a predetermined height integrally formed at a bottom thereof; The hopper 60 which is formed integrally with the pulverized material conveying passage part 61 inserted into the through hole 51 of the cover 50 and fixedly installed, and receives crushed or washed pulverized material from the top. Wow; Bar is installed in the hopper 60, characterized in that consisting of a conveying member for transferring the crushed product to the dehydration barrel 40, the dehydration device is a crushing to dehydrate or deoil in the dehydration container to rotate using centrifugal force By continuously supplying water to allow dehydration, the dehydrated pulverized product is discharged naturally according to the supplied amount of pulverized dehydrated, so that unmanned management in the recycling process line of oil container, which is a waste, is possible. By improving the dehydration process there is an effect that can proceed quickly after the process.

Description

Dehydration apparatus using centrifugal force

The present invention relates to a dehydration apparatus using centrifugal force, and more specifically, to deoil oil from a pulverized product by crushing wastes of various packaging containers (lubricating oil, additive oil, cooking oil, detergent, etc.) or washing through an oil splitting process. It is to facilitate the dehydration process of the remaining water in accordance with the continuous supply of pulverized material discharged after the operation is completed.

In general, the treatment of plastic or metal packaging containers containing various lubricants, additives, cooking oils, detergents, and the like to reduce environmental pollution and to recycle resources.

The recycling of oil container waste as described above is being recycled to the material of products suitable for the purpose through the sequence of crushing process, oil separation process, washing process, etc., and trends are being made to obtain effective benefits in terms of resource saving. to be.

The conventional oil container waste is pulverized after the process of washing the inside of the container so that it can be recycled after the separate collection, but can be produced as a recycled product, such a washing process has a disadvantage that a large number of people must be administered.

As an example to solve the above problem, the treatment process firstly crushes the oil container, and then separates the oil from the crushed product by about 90% by using a solvent for decomposing or separating the oil from the pulverized product. Recycling material can be obtained through the washing process of the line.

However, in order to shorten the time of the drying process after the final washing of the pulverized product as described above, it is possible to remove the water by a dehydration process of removing residual water from the pulverized product.

The dehydration process is a repetitive process of setting a dehydration time in proportion to the amount of pulverized powder supplied to the dehydration apparatus, and if dehydration is performed within the set time, taking out the dehydrated pulverized substance from the dehydrating apparatus and supplying the next pulverized substance to dehydration. The mill could be dehydrated.

In the dehydration of the pulverized material as described above, there is an inconvenience of providing a considerable labor force to the worker with regard to taking out and put the pulverized product into the dehydration device, takes a lot of time, as well as the dehydration device is stopped, operating There was an uneconomical problem of increasing power consumption.

In addition, the dehydration device as described above had a problem that the operator must always set the time in the dehydration device, supply the dehydrated pulverized matter, and withdraw it every day.

In other words, it is pointed out that the dehydration device in the system process line for reducing the recycled material is significantly lower in workability until the dry process, which is the last process, in that it takes a lot of time as well as the number of workers.

The present invention has been made in order to solve the conventional problems, the oil is degreased from the crushed crushed by recycling, or after the washing operation is completed through the oil splitting process of the remaining water according to the continuous supply of the pulverized discharged The purpose is to improve the dehydration process and workability of unmanned management in the process line by performing the dehydration process smoothly.

According to the present invention for achieving the above object, the base is supported by the leg installed from the bottom surface; The base is formed in a drum shape with a drain hole for discharging the water to be dehydrated by being installed in communication with the inner side of the drum, and a water drainage hole installed in the inner diameter and passing through the dewatered water in a circumferential shape. A lower body provided with a disc formed with a coupling hole for supporting the housing, and a support protrusion circumferentially attached to an inner diameter to support the bottom of the disc; An upper body connected to the upper surface of the lower body and provided with a space for discharging the dehydrated pulverized product between the outer diameter and the inner diameter, the outer main body having an outlet connected to the space to discharge the pulverized product to the outside; A dehydration passage installed together with a bearing housing rotatably provided in the lower body and connected to a driving motor provided at a lower side of the base; A cover coupled to the upper body, the cover having a through hole at the center thereof and having a soundproof jaw of a predetermined height integrally formed at a bottom thereof; A hopper which is formed integrally with the pulverized material conveying passage part inserted into and fixed to the through hole of the cover, and receives crushed or washed pulverized material from the top; It is provided in the hopper is provided with a dewatering device using a centrifugal force consisting of a conveying member for conveying the pulverized product to the dehydration container.

1 is a longitudinal sectional view showing a dehydration device of the present invention,

2 is an exploded perspective view of the main portion of the dewatering portion of the dewatering device according to the present invention,

Figure 3 is a longitudinal cross-sectional view showing the operation of the main part according to the present invention.

◎ Explanation of symbols for main part of drawing

10: base 20: lower body

21: drain 30: upper body

31: space 32: outlet

40: dehydration container 41: inclined surface

50: cover 60: hopper

61: transfer passage portion 71: transfer screw

72: guide M1, M2: drive motor

Hereinafter, with reference to the accompanying Figures 1 to 3 will be described in detail with respect to the present invention.

Attached Figure 1 is a longitudinal cross-sectional view showing a dehydration device of the present invention, Figure 2 is a partial separation perspective view of the dewatering portion of the dewatering device according to the present invention, Figure 3 is a working progress of the main part according to the present invention It is an enlarged view shown.

The dewatering device of the present invention is installed so that the drain port 21 for discharging the water dehydrated from the inside in a drum shape on the base 10 supported by the legs 11 from the bottom surface is connected to the inside, In the inner diameter, a water draining hole 22a for passing water to be dehydrated is formed circumferentially, and a disk 22 having a coupling hole 22b for supporting the bearing housing H is formed in the center. In addition, the inner diameter is provided with a lower main body 20 is formed with a support protrusion 23 for supporting the bottom surface of the disc 22 circumferentially.

The upper body 30 is installed on the upper side of the lower body 20 in communication with the inner side is provided in the outer body 30 is provided with an outlet 32 for discharging the dehydrated crushed product, where the upper body 30 is the inner diameter and the outer A space 31 for discharging the pulverized product is formed between the diameters, and the space 31 is connected to the discharge port 32 side to communicate with each other.

In addition, the lower main body 20 is provided with a dehydration container 40 for dehydrating water remaining in the crushed product is supplied with a crushed product, the dehydration container 40 is a drive motor (M1) provided on the lower side ) Is connected to the shaft, and is coupled to the bearing housing (H) is installed in the coupling hole (22b) of the disc 22 in the inner side.

The dehydration container 40 has an inclined surface 41 in which its lower part becomes narrower with respect to the diameter of the upper part, and a plurality of drain holes 42 are drilled in the inclined surface 41, and the lower part is connected to the driving motor M side. The central axis 43 to be formed is integrally formed.

In addition, a conical protrusion 44 is formed at the center of the inner bottom surface of the dewatering tube 40 to guide the pulverized product supplied from the transfer passage part 61 to the inclined surface 41.

On the other hand, the upper side of the upper body 30 has a through hole 51 in the center and the cover 50, which is formed integrally with the soundproof jaw 52 of a predetermined height on the bottom, is detachably installed.

A hopper 60 is installed in the through hole 51 of the cover, and the hopper 60 has a pulverized material conveying passage 61 integrally formed so that the pulverized material that is crushed or washed from the top can be supplied. do.

In addition, the hopper 60 is provided with a conveying member for conveying the pulverized product to the dehydration container (40). Here, the conveying member is rotatably connected from the driving motor M2 fixedly installed on the upper portion of the hopper 60 and the rotation shaft of the driving motor M2, and the pulverized material is transferred from the hopper 60 to the conveying passage part 61. A guide that is attached to the transfer screw 71 to be transferred and the transfer screw 71 located inside the hopper 60 in the lateral direction to guide the pulverized product supplied to the hopper 60 toward the transfer screw 71 side. It consists of a piece 72.

In the drawings, reference numeral 80 denotes a transfer device.

Using the dehydration device of the present invention as described above, the operation and effects of deoiling and dehydration in the state of crushing or washing the waste oil container are as follows.

First, another drive is provided in the lower portion of the drive motor (M2) and the base 10 provided on the upper side of the hopper 60 according to the power supply of the deoiling and dehydrating device to rotate the dehydration container 40 When the operating state of the motor M1 is made, the pulverized material is supplied to the upper side of the hopper 60 by a separate supply line.

In the supply of the pulverized product, the deoiling and dehydrating apparatus of the present invention are respectively installed so that the deoiled oil can be supplied with a pulverized product that has been shredded into a predetermined size for the oil container to be treated as waste, or the pulverizing After the oil separation process, which is a pretreatment process from water, the water is separated into crushed products to be dehydrated in the state of washing and supplied to the deoiling and dehydrating device.

Hereinafter, the deoiling and dehydration of the pulverized product will be described only in the dehydration process because the separation process is the same.

When the pulverized material is fed into the hopper 60 provided on the upper side of the apparatus as described above, the feed is rotated in accordance with the rotation of the transfer member installed inside the hopper 60, that is, the driving motor M2. Simultaneously with the rotation of the screw 71, the guide piece 72 provided on the rotating shaft of the conveying screw 71 guides the pulverized product introduced into the hopper 60 while rotating at the same time to the conveying screw 71 side.

The pulverized product guided to the conveying screw 71 by the guide piece 72 is conveyed to the lower side of the conveying passage part 61 along the conveying screw 71, and the pulverized substance conveyed from the lower end of the conveying passage part is driven. It flows into the dehydration container 40 which rotates according to the drive of the motor M1.

The crushed product flowing into the dehydration container 40 is inclined from the outlet side of the conveying passage part 61 to the conical protrusion 44 formed in the central bottom of the pulverized product while being naturally a side surface of the dehydrating container 40. Guided to (41) it is possible to dehydrate the water through the drain hole 42 formed in the inclined surface 41 of the dehydration container (40).

On the other hand, the rotation ratio of the transfer screw 71 is interlocked with the rotation of the dehydration tank 40 to have a 20: 1 or 30: 1 rotation (rpm) depending on the mass of the pulverized product.

Rotation of the dehydrator 40 is soon coupled to the hole 22b of the disc 22 in the lower body 20 in accordance with the rotation of the drive motor (M) having a direct connection with the central axis 43 formed integrally on the lower side With the help of the bearing housing (H) installed in the) will be able to take a smooth rotational drive.

In the driving of the dewatering device as described above, the soundproofing jaw 52 provided in the cover 50 on the upper side of the upper body 30 plays a role of reducing the noise caused by the rotational drive of the dehydrating container operated inside. .

The rotation rate is set to the low-speed rotation of the transfer screw 71 for supplying the crushed product to the dehydration tank with respect to the dehydration tank 40 to rotate at high speed to the pulverized product supplied to the dehydration tank 40 by the transfer screw 71 Entering the dehydration container can be carried out an efficient deoiling and dehydration process of the pulverized state of the deoiling or dehydration process.

That is, in the dehydration container 40, as shown in FIG. 4 to which the pulverized product continuously supplied from the conveying screw 71 of the said conveying path part 61 side is attached, the wall surface from the bottom surface of the dehydrating container 40 is attached. Along the upper side, and the already dehydrated pulverized product is pushed out of the dehydrating container 40 by the continuous supply of the pulverized product from the dehydrating container so that the pulverized product is covered with the upper part of the upper body 30. Beyond the inner diameter of the upper body 30 for the bottom surface of the fall into the space 31 formed between the outer diameter.

The pulverized material collected into the space 31 is discharged to the outside through the discharge port 32 installed in communication with the left circumference of the upper body 30 to collect only the pulverized material that has undergone the dehydration process.

At the same time, the dehydration that escapes as if it is scattered from the drain hole 42 of the dehydration container 40 is water of the disc 22 supported by the bottom surface by the support protrusion 23 integrally provided in the inner diameter of the lower body 20. Passed downward through the drain hole (22a), the water is drained to the outside through the drain port 21 is installed in communication with the inner in the lower body 20 can be stored in a separate water purification tank.

Therefore, the dewatering device according to the present invention is capable of continuously supplying the pulverized product to the hopper 60, and at the same time, the pulverized product from the bottom surface side to the top of the pulverized product from the hopper 60 in the dehydration container. It is automatically pushed out according to the amount supplied is able to collect the separate dehydrated pulverized separately through the outlet 32 in the upper body (30).

The collection of the pulverized product, as shown in Figure 1, it is possible to transfer the dehydrated pulverized by the transfer device 80 to the next process.

With respect to the dehydration apparatus of the present invention which can continuously discharge the pulverized product in addition to the dehydration process, the dehydration process is usually performed once, and then the pulverized product is taken out of the dehydration container, and the new pulverized product is accommodated in the dehydration container, and the power is again applied. Compared with the conventional dehydration apparatus for operating the dehydration apparatus, the dehydration apparatus of the present invention can be made quickly after the dry process because the continuous dehydration and discharge are performed as the pulverized material is supplied.

As described above, the dehydration apparatus of the present invention is continuously supplied to the dewatering or rotating oil to the dehydration container to be rotated by using a centrifugal force so that dehydration is made, the dehydrated pulverized product to the dehydrated By discharging naturally according to the amount supplied, unmanned management is possible in the recycling process line of the oil container, which is a waste, there is an effect that can improve the dehydration process to proceed quickly after the process.

Claims (4)

A base 10 supported by the legs 11 from the bottom surface; A drain hole 21 for discharging water to be dehydrated by being installed on the base in communication with the inner side in a drum shape; A disk 22 having a guide hole in the inner diameter and having a water drain hole 22a for passing water dehydrated in a circumferential shape, and a coupling hole 22b for supporting a bearing housing H at the center thereof; A lower body 20 attached to the inner diameter circumferentially and provided with a support protrusion 23 supporting the bottom of the disc 22; The lower body 20 is connected to the upper surface and is provided with a space 31 for discharging the dehydrated pulverized product between the outer diameter and the inner diameter, the outer periphery is connected to the space 31 to the pulverized product to the outside An upper body 30 having an outlet 32 for discharging; A dehydration tube 40 installed together with a bearing housing H rotatably provided in the lower body 20 and connected to a driving motor M1 provided at a lower side of the base 10; A cover 50 coupled to the upper body 30 and having a through hole 51 at the center thereof and having a soundproof jaw 52 of a predetermined height integrally formed at a bottom thereof; The hopper 60 which is formed integrally with the pulverized material conveying passage 61 inserted into the through hole 51 of the cover 50 and fixedly installed to receive the crushed or washed pulverized product from the top. Wow; Deoiling and dehydration apparatus using a centrifugal force is installed in the hopper 60, characterized in that consisting of a conveying member for conveying the crushed product to the dehydration container (40). The dewatering container 40 has an inclined surface 41 in which the lower portion thereof becomes narrower with respect to a diameter of an upper portion thereof, and a plurality of drain holes 42 are drilled in the inclined surface 41, and the driving motor (below). De-oiling and dehydration apparatus using a centrifugal force characterized in that the central axis 43 for connecting to the M1) side is provided. According to claim 1 or 2, wherein the center of the inner bottom surface of the dehydration tube 40 of the conical shape for guiding the pulverized product supplied from the transfer passage portion 61 to the inclined surface 41 of the dehydration tube 40 Deoiling and dehydration apparatus using a centrifugal force characterized in that the protrusion 44 is formed. According to claim 1, The conveying member is connected to the drive motor (M2) is fixedly installed on the upper portion of the hopper 60, the rotary shaft of the drive motor (M2) is pulverized in the transfer passage portion 61 from the hopper (60) Guide pieces 72 are installed in the transverse direction with respect to the transfer screw 71 for transferring water and the transfer screw 71 located inside the hopper 60 to guide the crushed material supplied to the hopper toward the transfer screw side 72 Deoiling and dehydration apparatus using centrifugal force, characterized in that consisting of.