KR101755645B1 - Transfer equipment for sludge - Google Patents

Abstract

The present invention relates to a transfer device for transferring dewatered sludge discharged from a dewatering device to a drying device, and more particularly, to a hopper for receiving dewatered sludge discharged from the dewatering device; A vertical compression pipe for compressing and dewing the dewatered sludge introduced from the hopper; A feeding pipe for receiving the dehydrating sludge introduced from the vertical compression pipe and feeding the dehydrated sludge by the drying device; A pressurizing drum for compressing the dehydrated sludge introduced into the hopper into a vertical compression pipe and pushing the dehydrated sludge downward; Opening and closing means for discharging the dewatered sludge to the press-feeding pipe and preventing the dewatered sludge from being pushed into the vertical compression pipe; And a piston for pushing the dewatered sludge introduced into the inside of the pressure feeding tube by a drying device, the dewatered sludge supplied in the form of a cake having a predetermined size from the dewatering device is compressed without any empty space, A sludge feeder for feeding the sludge into the sludge tank;

Description

Transfer equipment for sludge < RTI ID = 0.0 >

The present invention relates to a press-feeding device for feeding a dewatered sludge discharged from a dewatering device to a drying device, and more particularly, to a dewatering device for compressing a dewatering sludge discharged in a cake- To a sludge feeding device.

Generally, sludge generated in a sewage treatment plant contains a large amount of water, and therefore, it is treated through dehydration and drying process.

At this time, the dewatering of the sludge is performed through various methods, but it is common that the sludge discharged after dewatering is discharged in the form of a cake (lump) of a certain size. For example, the sludge dewatering device has a dewatering basket of a predetermined size, so that the wet sludge is filled in the basket, and the moisture is separated by compressing the dewatered sludge, so that the separated sludge becomes a cake of a certain size.

In addition, the sludge drying apparatus spreads the dehydrated sludge over the conveyor while spreading the sludge over the conveyor, and drying the sludge through the inside of the drying chamber. At this time, the sludge dewatered on the conveyor is widely spread, Is used.

Therefore, when the dewatered sludge discharged from the dewatering apparatus is supplied to the drying apparatus, it is preferable that the dewatering sludge is fed under a constant pressure.

However, in the case of the conventional press-feeding device for conveying the dewatered sludge to the drying device, there is a problem that the feeding efficiency is low because the hopper for introducing the cake-shaped sludge and the pressure-feeding screw provided at the bottom of the hopper. That is, since the cake-shaped sludge is filled in the hopper, the gap is formed between the cake and the sludge pumped by the pressure-feeding screw. Therefore, in the process of discharging the sludge on the conveyor in the drying apparatus, the sludge breaks up to a certain extent, and in the section where the sludge is broken, the sludge is transferred on the conveyor in an empty state.

The present invention provides a device for feeding a dewatered sludge that smoothly transfers dewatered sludge supplied in a cake form of a predetermined size from a dewatering device to a drying device.

The present invention relates to a transfer device for transferring dewatered sludge discharged from a dewatering device to a drying device, the transfer device comprising: a hopper having a wide upper portion to receive dewatered sludge discharged from the dewatering device; A vertical compression pipe installed at a lower portion of the hopper and pushing the introduced dewatered sludge while compressing the dewatered sludge; A pressurization pipe installed at a lower portion of the vertical compression pipe for receiving the dehydrated sludge introduced from the vertical compression pipe and feeding the dehydrated sludge to the drying device; A pressurizing drum for pressing the dehydrated sludge introduced into the hopper from the hopper into the vertical compression pipe while pushing the dehydrated sludge downward while being compressed in the vertical compression pipe; Opening and closing means for discharging the dewatered sludge, which is installed under the vertical compression pipe and is compressed by the pressure drum, to the pressure conveying pipe and preventing the dewatering sludge from being pushed from the pressure conveying pipe into the vertical compression pipe; And a piston installed at one end of the feed pipe to push out the dewatered sludge introduced into the feed pipe through operation of the cylinder.

The pressing drum is formed in a triangular shape having a wide bottom and a narrow top.

The pressurizing drum includes a rake for scraping down or raising the dewatered sludge during the lifting and lowering operation.

And the elevating means for elevating and lowering the pressure drum are vertically provided respectively to the left and right sides of the press-feeding pipe from the hopper, the upper side is coupled to the left and right end portions of the pressure drum and the lower side is divided into front and rear portions, A formed lift rod; Two pairs of pinion gears, each of which corresponds to the front and rear gears of the left and right lifting and lowering rods, and which is coaxially connected to the front left and right and rear sides of the feeding tube; A pair of front and rear pairs of the front and rear pinions being provided between the front and rear pinion gears of either one of the left and right sides of the pair of front and rear pinion gears, Intermediate gear; And a motor connected to one of the front and rear of the intermediate gear to generate power.

Wherein the opening and closing means comprises an upper support frame in which a plurality of coupling openings are arranged so as to allow the dehydrating sludge to pass through when the pressure drum is lowered, A lower panel positioned at a lower portion of the upper support frame and having a plurality of outlets for allowing the dewatered sludge to escape corresponding to the engagement hole; And the lower end of the falling tubular member is positioned at a lower portion of the discharge port while the lower end of the falling tubular member is open and the lower end of the falling tubular member is lower than the diameter of the discharge port. When the dewatering sludge is discharged, the valve is closed to shut off the dewatering sludge which is pushed up through the outlet while the falling tube is opened when the piston of the pressure tube is moved forward.

According to the apparatus for feeding a dewatered sludge according to the present invention, the dewatered sludge supplied in the form of a cake having a predetermined size from the dewatering device is compressed without any gaps and smoothly transferred to the drying device, whereby the sludge is smoothly supplied to the drying device, The drying efficiency of the ink is further improved.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a front view showing a press-feeding device for a dewatered sludge to which the present invention is applied; FIG.
FIG. 2 is a side view showing a press-feeding device for a dewatered sludge to which the present invention is applied.
3 is a perspective view showing a press block of the present invention.
4 is an explanatory view of a main portion showing the elevating means of the present invention.
Fig. 5 is an exploded perspective view of the opening and closing means of the present invention. Fig.
6 is an explanatory view showing the operation of the present invention;

Preferred embodiments of the present invention will now be described in detail with reference to the accompanying drawings.

The apparatus for feeding a dewatered sludge of the present invention comprises a hopper 100 receiving dewatered sludge discharged from the dewatering apparatus as shown in Figs. 1 to 6; A vertical compression pipe (200) for pushing out the dewatered sludge introduced from the hopper while compressing the dewatered sludge; A feed pipe (300) for receiving the dehydrated sludge introduced from the vertical compression pipe and feeding it to the drying device; A pressurizing drum 400 that presses the dewatered sludge introduced into the hopper downward while compressing it in a vertical compression pipe; Opening and closing means (400) for discharging the dehydrated sludge to the pressure conveying pipe and preventing the dehydrating sludge from being pushed into the vertical compression pipe; And a piston 500 for pushing the dewatered sludge introduced into the press-feeding pipe by a drying device.

The hopper 100 has a wide upper portion to receive dehydrated sludge discharged from the dehydrating apparatus. Accordingly, when the pressure drum 400 is moved into the hopper 100, the dehydrated sludge is introduced into the vertical compression pipe 200 through the gap formed in the edge of the hopper as shown in FIG.

The vertical compression pipe 200 is installed at a lower portion of the hopper 100 to push the dewatered sludge while compressing it. The vertical compression pipe 200 is formed to have the same cross-sectional area as the lower end of the hopper 100. That is, when the pressure drum is lowered, the dehydrating sludge is substantially compressed in the vertical compression pipe 200.

The pressure feeding pipe 300 is installed at a lower portion of the vertical compression pipe 200 to receive the dehydrating sludge introduced from the vertical compression pipe and to send the dehydrated sludge to the drying device. It is preferable to form it into a cylindrical shape.

The pressurizing drum 400 pushes down the dewatered sludge introduced into the hopper while vertically compressing the dewatered sludge from the hopper into the vertical compression pipe and compressing it in the vertical compression pipe, The dewatering sludge inside the hopper is formed to flow smoothly into the vertical compression pipe.

As shown in FIG. 3, the pressing drum 400 is formed in a triangular shape having a wide bottom and a narrow top. That is, the lower flat surface is advantageous for the pressurization of the dewatered sludge, and the sharp edges at the upper part are advantageous for the rise.

The pressure drum 400 may include a rake 410 for scraping off or raising the dewatered sludge during the lifting operation, as shown in FIG. 3 as another embodiment. That is, a plurality of rakes 410 are formed at an upper portion of the pressure drum 400 at predetermined intervals, so that the dewatered sludge is scraped off during descent or descent, thereby breaking up the lump shape finely.

As shown in FIGS. 1, 2, and 4, elevating means for elevating and lowering the pressure drum 400 are vertically installed on the right and left sides of the pressurized pipe from the hopper, A lower portion of which is divided into a front and a rear, a lower portion of which is provided with a pair of gears 420a formed on the lower portion thereof, and four corresponding to front and rear gears of the left and right lifting and lowering rods, Two pairs of pinion gears 420 that are coaxially connected to each other on the rear side and left and right sides of the rear side, and a pair of front and rear pinion gears provided on either side of the left and right sides of the pair of right and left pinion gears, A pair of intermediate gears 420 connected to drive one of the front and rear pinion gears, and a pair of front and rear intermediate gears 420, And a motor 450 for generating a driving force. In this configuration, the pressure drum 400 is stably lifted and lowered without passing the shaft or the like into the vertical compression pipe or the pressure transmission pipe, and the power transmitted by using the single motor 450 is transmitted to the intermediate gear And the left and right lifting rods 420 are lifted and lowered by the same force by using the power transmitted to the pinion gears. Therefore, the right and left balance of the pressing drum 400 is balanced So that it can stably ascend and descend.

The opening / closing means 500 discharges the dewatered sludge compressed by the pressure drum to the press-feeding pipe while being installed at the lower part of the vertical compression pipe 200, and the dewatering sludge is pushed from the pressure- prevent. That is, when the pressure drum 400 is operated, the dewatering sludge is smoothly discharged from the vertical compression pipe 200 to the pressure transmission pipe 300. When the piston 600 is advanced into the pressure transmission pipe, Thereby preventing the dehydrated sludge from being pushed up by the vertical compression pipe 200.

As shown in FIG. 5, the opening / closing unit 500 includes an upper support frame 510 having a plurality of engagement holes 510a connected to the dehydrating sludge when the pressure drum is lowered, A lower panel 520 having a plurality of outlets 520a formed at a lower portion of the upper support frame to allow the dewatered sludge to escape corresponding to the engagement hole and an upper end thereof being fastened and fixed through the coupling hole, The lower end of the fallopian tube is positioned at the lower portion of the discharge port while the lower end of the fallopian tube 530a is opened. When the pressure drum is lowered and the drainage sludge is discharged from the vertical compression pipe, the fallopian tube is opened and the discharge port is opened When the piston moves forward to the inside of the pressure-feeding pipe, the dehydrating sludge which is pushed up through the discharge port while the fall- Is configured to include a valve end 530 which. That is, since the fall-off pipe 530a of the valve 530 smoothly closes or opens, the discharge port of the lower panel 520 is opened and closed.

The piston 600 is installed at one end of the feed pipe 300 and pushes the dehydrated sludge introduced into the feed pipe through the operation of the cylinder 610.

According to the construction of the present invention, when the dewatering sludge flows into the hopper 100 in a state where the first pushing block 400 rises and the piston 600 retracts, the dewatered sludge introduced into the hopper 100 is separated from the gap between the hopper and the pressure block The vertical compression pipe 200 is filled with the water. In this state, when the pressure block 400 descends, the dewatered sludge filled in the vertical compression tube is compressed, so that the dewatered sludge that is compressed flows into the pressure transmission pipe 300 through the opening / closing means 500. The press block fully descends and then rises again. Finally, the piston 600 advances to transfer the dewatered sludge filled in the pressure tube to the drying apparatus. According to the present invention, the dewatered sludge supplied in the form of a cake having a predetermined size from the dewatering device is compressed without any gaps and is smoothly transferred to the drying device through the operation, so that the sludge is smoothly supplied to the drying device, The efficiency is further improved.

100: Hopper
200: vertical compression tube
300:
400: pressure drum 410: rake
420: lifting rod 420a:
430: pinion gear 440: intermediate gear
450: motor
500: opening / closing means 510: support frame
510a: Coupling port 520: Lower panel
520a: Outlet 530: Valve
530a: Fallopian tube
600: Piston 610: Cylinder

Claims (5)

A transfer device for transferring dewatered sludge discharged from a dewatering device to a drying device,
A hopper having a wide upper portion to receive dehydrating sludge discharged from the dehydrating apparatus;
A vertical compression pipe installed at a lower portion of the hopper and pushing the introduced dewatered sludge while compressing the dewatered sludge;
A pressurization pipe installed at a lower portion of the vertical compression pipe for receiving the dehydrated sludge introduced from the vertical compression pipe and feeding the dehydrated sludge to the drying device;
A pressurizing drum for pressing the dehydrated sludge introduced into the hopper from the hopper into the vertical compression pipe while pushing the dehydrated sludge downward while being compressed in the vertical compression pipe;
Opening and closing means for discharging the dewatered sludge, which is installed under the vertical compression pipe and is compressed by the pressure drum, to the pressure conveying pipe and preventing the dewatering sludge from being pushed from the pressure conveying pipe into the vertical compression pipe; And
And a piston installed at one end of the feed pipe to push out the dehydrated sludge introduced into the feed pipe through the operation of the cylinder.
The pressurizing drum according to claim 1,
Wherein the bottom of the sludge tank is formed in a triangular shape having a wide bottom and a narrow top.
The pressurizing drum according to claim 1,
And a rake for scraping off or raising the dewatered sludge at the time of raising and lowering the dewatering sludge.
The apparatus according to claim 1, wherein the elevating means for elevating and lowering the pressure drum comprises:
A lifting rod provided vertically to the left and right sides of the feed pipe from the hopper, respectively, the upper side of which is coupled to the left and right ends of the pressure drum, and the lower side thereof is divided into front and rear parts,
Two pairs of pinion gears, each of which corresponds to the front and rear gears of the left and right lifting and lowering rods, and which is coaxially connected to the front left and right and rear sides of the feeding tube;
A pair of front and rear pairs of the front and rear pinions being provided between the front and rear pinion gears of either one of the left and right sides of the pair of front and rear pinion gears, Intermediate gear; And
And a motor connected to one of the front and rear sides of the intermediate gear to generate power.
[2] The apparatus according to claim 1,
An upper support frame in which a plurality of coupling holes connected to each other through the dewatering sludge while allowing the dehydrating sludge to pass therethrough is arranged when the pressure drum is lowered;
A lower panel positioned at a lower portion of the upper support frame and having a plurality of outlets for allowing the dewatered sludge to escape corresponding to the engagement hole; And
The lower end of the falling tubular member is positioned at a lower portion of the discharge port while the lower end of the falling tubular member is opened and the lower end of the falling tubular member is lowered from the vertical compression pipe, And a valve for closing the drain hole when the sludge is discharged and closing the drain hole when the piston of the pressure-feeding pipe is advanced, and blocking the dewatered sludge that is pushed up through the discharge hole when the drain hole is opened. The device for feeding the dehydrated sludge.

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