KR200231124Y1 - Management vehicle for active carbon handling - Google Patents

Abstract

The present invention relates to a granular activated carbon collection vehicle, a collection tank 20 for storing the granular activated carbon (1) rotatably hinged to the vehicle body frame (10) of the vehicle, the body frame (10), hydraulic pressure A hydraulic cylinder 30 which expands and contracts by a pump 31 to lift or lower one side of the collection tank 20, an activated carbon suction pipe 40 for sucking granular activated carbon 1 together with water, and an activated carbon reservoir ( Granular activated carbon (1) is a high-pressure water by selectively detachable connection of the air pump (50) for suctioning the granular activated carbon (1) of the 2) into the collection tank (20), and the high-pressure water supply pipe (73) for supplying the high pressure water T-type venturi tube 70, granular activated carbon 1 to be discharged to the regeneration treatment tank 74, and activated carbon discharge pipe 80 to transfer to the regeneration treatment tank 74 with high pressure water, Power transmission for selectively transmitting the power transmitted to the reduction gear 92 to the air pump 50 and the hydraulic pump 31 Ring device 90, the switching control unit 91 for switching the power switching device 90, it is possible to minimize the breakage of the granular activated carbon during the replacement work, as well as to improve the efficiency of the work can be The cost is reduced.

Description

Management vehicle for active carbon handling}

The present invention relates to a special vehicle. Particularly, the granular activated carbon which collects and transports the granular activated carbon before drinking water purification and regeneration of the water purification facility to the regeneration facility, and loads the granular activated carbon after regeneration and refills it into the purification facility is collected. It relates to a processed vehicle.

Special vehicles are one of the automation devices that can easily perform a large amount of specific tasks that must be done by manpower, and its development is being accelerated for the purpose of reducing costs and time by replacing manpower for specific tasks.

On the other hand, granular activated carbon is used in water purification facilities to inhale foreign substances. It is made of anthracite and charcoal, etc., and its diameter is about 2-3mm, and its life is 3 years. Must be replaced.

In addition, when the granular activated carbon is less than the standard state, the suction power to suck up foreign matter becomes less useful, so that the granular activated carbon must pass along with water to minimize the friction when passing the granular activated carbon through the pipe.

In addition, in order to replace the granular activated carbon which has reached the end of its life, it needs to be transported from the water purification plant to the recycling treatment facility. Not only do not move to the inconvenience to be transported, there was a problem that the excessive cost of such transport work.

The present invention has been devised to solve the above problems, by using vacuum pressure to suck up granular activated carbon into a collection tank and store it, and pressurize the granular activated carbon in the collection tank with a high pressure water discharge device to a regeneration treatment tank. The purpose of the present invention is to provide a granular activated carbon collection vehicle that can easily suck, transport and discharge granular activated carbon by discharging.

The present invention for achieving the above object, the vehicle body frame, the collection tank hinged to the vehicle body frame rotatably to store the granular activated carbon, and stretchable operation by a hydraulic pump, one side of the collection tank Removably connects the hydraulic cylinder for lifting or lowering, the activated carbon suction pipe for suctioning granular activated carbon with water, the air pump for sucking the granular activated carbon of activated carbon storage tank into the collection tank, and the high pressure water supply pipe for supplying the high pressure water. T-type venturi pipe to allow granular activated carbon to be discharged to the regeneration treatment tank together with high pressure water, activated carbon discharge pipe to transfer granular activated carbon to the regeneration treatment tank together with high pressure water. Power conversion device for selectively transmitting to, the structure consisting of a switching control unit for switching the power switching device to be.

Therefore, the air pump is operated by using the engine power of the vehicle to collect granular activated carbon together with water and air in the activated carbon storage tank and collect it in the collection tank, and in the state where the collection tank is inclined with the hydraulic cylinder, the air in the collection tank is discharged. By pressurizing and supplying high pressure water, the granular activated carbon in the collection tank can be discharged to the regeneration treatment tank.

1 is a schematic side view showing a granular activated carbon collection vehicle according to the present invention,

2 is a block diagram showing a granular activated carbon collection vehicle according to the present invention,

3 is a schematic side view showing a state in which the granular activated carbon collection vehicle according to the present invention sucks the granular activated carbon before regeneration;

4 is a schematic side view showing a state in which the granular activated carbon collection vehicle according to the present invention discharges the granular activated carbon to the regeneration treatment tank before regeneration;

5 is a schematic side view showing a state in which the granular activated carbon collection vehicle according to the present invention loads the granular activated carbon after the regeneration into the collection tank.

Explanation of symbols on the main parts of the drawings

1: granular activated carbon 2: activated carbon storage

10: body frame 20: collection tank

21: activated carbon inlet 22: activated carbon outlet

23: air inlet 24: activated carbon inlet

25: inlet plug 26: drain valve

30: hydraulic cylinder 31: hydraulic pump

40: activated carbon suction pipe 41: suction pipe opening and closing valve

42: air injection pipe 43: injection air volume control valve

44: automatic air injection device 50: air pump

51: suction end 52: outlet end

53: air transfer pipe 54: centrifugal separator

55: drain valve 60: outlet opening and closing valve

70: T-shaped venturi tube 71: high pressure water inlet

72: outlet 73: high pressure water supply pipe

74: regeneration treatment tank 75: high pressure water injection pipe

80: activated carbon discharge pipe 90: power conversion device

91: switching control unit 92: longitudinal reduction gear

100: bubble generator 101: air opening and closing valve

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a schematic side view showing a granular activated carbon collection vehicle according to the present invention, Figure 2 is a block diagram showing a granular activated carbon collection vehicle according to the present invention, Figure 3 is a granular activated carbon collection vehicle according to the present invention regeneration It is a schematic side view which showed the state which inhales the previous granular activated carbon.

According to the present invention according to the drawings, the vehicle body frame 10 of the vehicle having a running capability, and rotatably hinged to the body frame 10, activated carbon inlet 24, activated carbon inlet 21 and activated carbon outlet A collection tank 20 for storing granular activated carbon 1 and an air inlet 23 and a telescopic operation by a hydraulic pump 31 to lift or lower one side of the collection tank 20. Hydraulic cylinder 30 and one end is connected to the activated carbon inlet 21 of the collection tank 20 and the other end is connected to the activated carbon storage (2) of the water purification plant is installed granular activated carbon (1) with water and air It is provided with an activated carbon suction pipe (40), a suction end 51 and an outlet end (52), and suctions the air in the collection tank (20) to the suction end (51) so that negative pressure is collected in the collection tank (20). Air pump 50 to form and suck the granular activated carbon (1) of the activated carbon storage (2) to the collection tank (20), the water A high pressure water inlet 71 and an outlet 72 connected to the outlet opening and closing valve 60 and the outlet opening and closing valve 60 for opening and closing the activated carbon discharge port 22 of the huge tank 20 and the high pressure water inlet T-type venturi tube (71) to selectively detachably connect the high-pressure water supply pipe (73) for supplying high-pressure water so that the granular activated carbon (1) can be discharged to the regeneration treatment tank (74) with high-pressure water ( 70), one end of which is connected to the outlet 72 of the T-shaped venturi tube 70 is in communication with the outlet opening and closing valve 60 and the high-pressure water supply pipe (73) and the other end is extended to the regeneration treatment tank (74) Activated carbon discharge pipe (80) for transferring the activated carbon (1) to the regeneration treatment tank (74) with high pressure water, installed between the transmission of the vehicle and the reduction gear 92, the power transmitted from the transmission to the reduction gear 92 A power switching device 90 for selectively transferring the air pump 50 and the hydraulic pump 31 to the power switching device 90. The switching control unit 91, one end of which is communicated to the inlet end 51 of the air pump 50 by the air opening and closing valve 101, the other end is installed in the collection tank 20, the air from the air pump 50 It is a structure having a bubble generating device 100 for moving and dispersing the granular activated carbon (1) deposited by generating a bubble in the collection tank (20) by receiving.

A feature of the present invention having the above structure is that the collection tank 20 is mounted on the vehicle body frame 10 of the vehicle, and the air pump 50 and the hydraulic cylinder 30 are provided to use the engine power of the vehicle. The air pump 50 is operated to suck the granular activated carbon 1 together with the water in the activated carbon storage unit 2, collect the collected activated carbon 1 in the collection tank 20, move the vehicle to the regeneration treatment facility, and then hydraulic cylinder 30. In the state in which the collection tank 20 is inclined, the air in the collection tank 20 is pressurized by the air pump 50 and the high pressure water is supplied to transfer the granular activated carbon 1 in the collection tank 20 to the regeneration treatment tank 74. It is to be poured out.

The collection tank 20 serves to collect and temporarily store the granular activated carbon 1, and is pivotally coupled to the vehicle body frame 10 of the vehicle so that the front portion can be lifted and tilted backwards. Activated carbon inlet 21, air outlet 23 and activated carbon inlet 24 are formed on the upper side wall.

The activated carbon suction port 21 is formed in the upper side wall of the collection tank 20 and is a passage through which granular activated carbon 1 is sucked before regeneration. The activated carbon suction pipe 40 communicates with the suction pipe opening and closing valve 41. do.

Here, the suction pipe opening / closing valve 41 closes the activated carbon suction pipe 40 after the granular activated carbon 1 before regeneration is sucked into the collection tank 20 so that the granular activated carbon 1 or water does not leak out during transportation or discharge. It is to avoid.

The activated carbon discharge port 22 is formed in the lower side wall of the collection tank 20 and serves to discharge the granular activated carbon 1 to the outside. When the collection tank 20 is inclined, the activated carbon discharged by the own weight (1) starts to be discharged, and the discharge opening / closing valve 60 is provided in this activated carbon discharge port 22 to control the entry and exit of the granular activated carbon 1.

The air inlet 23 is formed in the upper side wall of the collection tank 20 and is a passage through which air enters into the collection tank 20. An air transfer pipe 53 is installed and the suction end 51 of the air pump 50. ) To communicate with.

That is, depending on the operating direction of the air pump 50 may discharge the air in the collection tank 20 through the air transfer pipe 53, or may introduce external air into the collection tank 20.

The activated carbon inlet 24 is a passage through which the granular activated carbon 1 regenerated in the regeneration treatment facility is introduced into the collection tank 20. The activated carbon inlet stopper 25 is provided to open the inlet stopper 25. The granular activated carbon 1 can be loaded together with water.

The hydraulic cylinder 30 serves to lift the front of the collection tank 20 to tilt backwards, and is operated by the hydraulic pump 31.

The hydraulic pump 31 serves to push up one side of the collection tank 20 by applying hydraulic pressure to the hydraulic cylinder 30 to stretch or restore the hydraulic cylinder 30.

Here, the driving of the hydraulic pump 31 is to use the engine of the vehicle, the power transmitted from the transmission to the longitudinal reduction gear 92 is switched to the hydraulic pump 31 using the power switching device 90 is used. Done.

The activated carbon suction pipe 40 is connected to the activated carbon suction port 21 of the collection tank 20 and selectively communicates with the suction pipe opening / closing valve 41. The activated carbon storage pipe 2 sucks the granular activated carbon with water before regeneration. It is a conveying pipe.

The air pump 50 is provided with an inlet end 51 and an outlet end 52 to suck air into the inlet end 51 and also to export it to the outlet end 52. Outside air is sucked into the suction end 51.

Therefore, the suction end 51 of the air pump 50 communicates with the air inlet 23 of the collection tank 20 and the air transfer pipe 53 to suck the air in the collection tank 20, or conversely, Air is supplied into the collection tank 20.

That is, when the air in the collection tank 20 is sucked into the suction end 51 of the air pump 50, the pressure inside the collection tank 20 drops and the pressure difference between the water and the activated carbon storage 2 results. The granular activated carbon 1 moves into the collection tank 20, and supplies only air to the suction end 51 of the air pump 50 and simultaneously opens only the activated carbon outlet 22 of the collection tank 20. 20) When air is supplied into the air, an air pressure is applied to the water and the granular activated carbon (1) layer to discharge the water and the granular activated carbon (1) to the outside.

Here, the air transfer pipe 53 is provided with a centrifugal separator 54 with a built-in filter to prevent foreign substances from entering the air pump 50, in particular, centrifugal force by the suction force of the air pump 50. Water is accumulated in the lower portion of the food separator 54, and a drain valve 55 is provided on the lower side wall of the centrifugal separator 54 to discharge the accumulated water.

The outlet opening and closing valve 60 is installed in the activated carbon discharge port 22 of the collection tank 20 to open and close the outlet, and the activated carbon discharge pipe (80) for water and granular activated carbon (1) in the collection tank (20). It is only open when exporting to the outside.

The T-shaped venturi tube 70 is a T-shaped tube installed in the outlet opening and closing valve 60, the tip corresponding to the vertical stroke of the T-shape is installed in communication with the outlet opening and closing valve 60, and corresponds to a T-shaped horizontal stroke. The both ends of the activated carbon discharge pipe 80 is connected to one end thereof, the high-pressure water supply pipe 73 is selectively connected to the other end.

That is, the high pressure water supply pipe 73 is connected only when discharging water and granular activated carbon 1 from the collection tank 20 to supply high pressure water to the activated carbon discharge pipe 80, and the granular activated carbon 1 This high pressure water can be quickly discharged to the outside.

On the other hand, the high-pressure water supply pipe 73 and the activated carbon discharge pipe (80) connected to both ends of the T-shaped venturi tube 70 is a cross-section of each end connected to the T-shaped venturi tube 70 to the T-type venturi tube 70 Each of these is narrowed and combined in the form of a venturi tube. The negative pressure is generated on the outlet opening / closing valve 60 side of the collection tank 20 by using the pressure difference due to the difference in the cross-sectional area, and the granular activated carbon 1 is sucked in. Together with the activated carbon discharge pipe (80) to discharge, it is possible to slow down and accelerate the discharge rate, the granular activated carbon (1) can be discharged from the granular activated carbon (1) with a minimum of abrasion by friction at the bent portion Will be.

The activated carbon discharge pipe (80) is detachably connected to one end of the T-type venturi tube (70), and the other end is extended to the regeneration treatment tank (74) to discharge the granular activated carbon (1) with water. It is a passage that can be.

The power switching device 90 is a device that serves to convert the power of the engine transmitted to the longitudinal reduction gear 92 of the vehicle to the air pump 50 or the hydraulic pump 31 to be transmitted, the transmission and the longitudinal It is provided between the reduction gears 92, and is selectively driven by the switching control part 91 among the reduction gear 92, the air pump 50, and the hydraulic pump 31. As shown in FIG.

The switching control unit 91 is a control device that cuts off power to the reduction gear 92 and switches to selectively operate the air pump 50 or the hydraulic pump 31.

The bubble generator 100 serves to disperse the granular activated carbon 1 in the collection tank 20, one end of the air opening and closing valve 101 at the suction end 51 of the air pump 50. It is connected with, the other end is to be installed in the lower portion in the collection tank 20 to be able to generate bubbles in the collection tank 20.

That is, in the bubble generating apparatus 100 installed in the collection tank 20, a plurality of air holes are formed in the entire lower part of the collection tank 20 at predetermined intervals, thereby opening the air open / close valve 101 and air pump. When operating 50, air is introduced into the lower portion of the collection tank 20 from the suction end 51 of the air pump 50. Since the granular activated carbon 1 is deposited with water, the collection tank 20 Water is filled in the lower part of the bubble, and bubbles are generated. The bubble generated at this time is evenly dispersed in the lower part by pushing up and moving the granular activated carbon 1.

4 is a schematic side view showing a state in which the granular activated carbon collection vehicle according to the present invention sucks the granular activated carbon before regeneration.

Referring to the process of collecting the granular activated carbon 1 before the regeneration as shown in Figure 4 to the collection tank 20, in the state in which the collection tank 20 in a horizontal state, the activated carbon suction pipe 40 is activated carbon storage (2) is installed, the suction pipe opening and closing valve 41 and the air inlet (23) is opened, the operation control unit 91 is operated to operate the power switching device 90 by using the power of the engine air pump (50) If the internal pressure of the collection tank 20 is lowered, water and granular activated carbon 1 are sucked into the collection tank 20 through the activated carbon suction pipe 40 and deposited thereon while the internal pressure of the collection tank 20 drops.

In addition, when the granular activated carbon 1 is sucked, an air injection pipe 42 for injecting external air into the activated carbon suction pipe 40 at the tip of the activated carbon suction pipe 40 to improve the suction efficiency of the granular activated carbon 1. And an injection air amount control valve 43 for adjusting the amount of air injected into the air, and an automatic air injection device for communicating with the activated carbon suction pipe 40 on one side of the activated carbon suction pipe 40 to increase the suction lift. 44) is installed.

5 is a schematic side view showing a state in which the granular activated carbon collection vehicle according to the present invention discharges the granular activated carbon before regeneration to a regeneration treatment tank.

As illustrated in FIG. 5, the process of discharging the granular activated carbon 1 collected in the collection tank 20 before the regeneration is discharged to the regeneration treatment tank will be described. First, the switching control unit 91 is operated to operate the hydraulic pump 31. The hydraulic tank 30 is stretched and operated so that the collection tank 20 is inclined backward, and a regeneration treatment facility is provided at one end of the T-type vent pipe 70 installed at the outlet opening and closing valve 60 of the collection tank 20. In addition to connecting the high-pressure water supply pipe (73) provided separately, the other end of the T-shaped venturi pipe 70 is connected to the activated carbon discharge pipe (80) and installed in the regeneration treatment tank (74), and then the outlet opening and closing When the high pressure water is supplied to the high pressure water supply pipe 73 by opening the valve 60, the water and the granular activated carbon 1 in the collection tank 20 are discharged together with the high pressure water to the regeneration treatment tank 74.

And, in order to increase the discharge efficiency by operating the switch control unit 91 to operate the air pump 50 to introduce air into the collection tank 20 through the air transfer pipe 53 of the water and the granular activated carbon (1) When the upper surface is pressurized, the water and the granular activated carbon 1 in the collection tank 20 are discharged together with the high pressure water to the regeneration treatment tank 74.

On the other hand, by collecting the high-pressure water injection pipe (75) and the high-pressure water supply pipe (73) on the front, rear, left and right sides of the collection tank 20 to install the high-pressure water used for the discharge of the granular activated carbon (1) It is desirable to be able to spray at the top in (20).

That is, by spraying high-pressure water to properly adjust the amount of water in the collection tank 20 to improve the fluidity of the granular activated carbon (1) can be easily discharged out, from the front, rear, left and right of the collection tank 20 By spraying high pressure water to the wall of the collection tank 20, it is possible to wash the granular activated carbon 1 adsorbed to the collection tank 20 to cleanly discharge it.

6 is a schematic side view showing a state in which the granular activated carbon collection vehicle according to the present invention loads the granular activated carbon after the regeneration into the collection tank.

Referring to the process of loading the granular activated carbon 1 after regeneration into the collection tank 20 as shown in Figure 6, the collection tank 20 in the horizontal state in the upper side wall of the collection tank 20 The inlet stopper 25 of the formed activated carbon inlet 24 is opened, and the regenerated granular activated carbon 1 is loaded with water.

Here, the recycled granular activated carbon 1 is filled into the collection tank 20 together with the water at the time of loading, so that more water is discharged out by opening the drain valve 26 installed at the rear end of the collection tank 20. An activated carbon filtration network is installed at the front end of the drain valve 26 to prevent the granular activated carbon 1 from flowing out to discharge only excess water.

On the other hand, when the regenerated granular activated carbon (1) is loaded and transported to the activated carbon storage (2) of the purification facility and discharged again, the regenerated granular activated carbon (1) is discharged in the same manner as shown in FIG.

That is, the collection tank 20 is tilted, and the high pressure water is supplied and discharged while pressurizing the inside of the collection tank 20.

As described above, according to the granular activated carbon collection vehicle according to the present invention, the granular activated carbon before regeneration is quickly collected together with water and air by using the vehicle, and the collected granular activated carbon is discharged together with high pressure water to the regeneration facility. In addition, by loading the recycled granular activated carbon and discharging it together with the high-pressure water in the purification facility, the granular activated carbon can be replaced quickly and easily, minimizing the breakage of the granular activated carbon during the replacement work and improving the work efficiency. As a result, it is possible to reduce manpower and cost.

Claims (3)

A vehicle body frame 10 of the vehicle; A collection tank rotatably hinged to the body frame 10 and having an activated carbon inlet 24, an activated carbon inlet 21, an activated carbon outlet 22, and an air outlet 23 to store granular activated carbon 1. 20; A hydraulic cylinder 30 extending and contracting by a hydraulic pump 31 to lift or lower one side of the collection tank 20; One end is connected to the activated carbon inlet 21 of the collection tank 20, the other end is connected to the activated carbon storage (2) of the water purification facility activated carbon suction pipe 40 and suction the granular activated carbon (1) with water and ; It is provided with a suction end 51 and an outlet end 52, and by suctioning the air in the collection tank 20 to the suction end 51 to form a negative pressure inside the collection tank 20 to granulate the activated carbon storage 2 An air pump 50 for sucking the activated carbon 1 into the collection tank 20; An outlet opening / closing valve (60) for opening and closing the activated carbon outlet (22) of the collection tank (20); It is connected to the outlet opening and closing valve 60, and provided with a high pressure water inlet 71 and an outlet 72, the high pressure water inlet 71 to selectively remove the high pressure water supply pipe (73) for supplying high pressure water T-type venturi tube 70 so that the granular activated carbon (1) can be discharged to the regeneration treatment tank 74 together with high pressure water; One end is connected to the outlet 72 of the T-type venturi tube 70 to communicate with the outlet opening and closing valve 60 and the high-pressure water supply pipe 73, the other end is installed in the regeneration treatment tank 74, granular activated carbon Activated carbon discharge pipe (80) for transferring (1) to the regeneration treatment tank (74) with high pressure water; A power switching device (90) installed between the vehicle transmission and the reduction gear (92) to selectively transmit the power transmitted from the transmission to the reduction gear (92) to the air pump (50) and the hydraulic pump (31); And a conversion control unit (91) for switching the power conversion device (90). The method of claim 1, wherein the bubble generator 100 for agitating and flattening the granular activated carbon (1) deposited by generating air in the collection tank 20 by receiving air from the air pump 50 is further included. Granular activated carbon collection vehicle. The granular activated carbon (1) according to claim 1, wherein when the granular activated carbon (1) is sucked from the activated carbon reservoir (2), external air is injected into the activated carbon suction tube (40) to the tip of the activated carbon suction tube (40). An air injection pipe (42) for improving the suction efficiency of the granular activated carbon collection processing vehicle, characterized in that it is further provided with an automatic air injection device (44) for increasing the suction lift in the activated carbon suction pipe (40).