JPH0589585U - Cleaning and suction vehicle - Google Patents

Abstract

(57) [Abstract] [Purpose] The present invention is a single vehicle, suction treatment of the sludge water in the sewer into the pressure tank, separate the sludge water into water and solid matter, and It is a cleaning and suction vehicle that can be used as cleaning water and can clean the inside of the pressure tank cleanly. [Structure] A pressure tank Tp, a fresh water tank Tw, a water pump P and a blower B are mounted on a vehicle body frame F, and sludge water is sucked into the pressure tank Tp to separate it into water and solid matter. It is used for cleaning, and the inside of the pressure tank Tp, the outside, and other devices can be cleaned with the fresh water in the fresh water tank Tw.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

 The present invention allows a single vehicle to suck external fluid such as sewer in a pressure tank or sludge water in a waste water tank to separate it into water and solid matter and use that water for washing water. Further, the present invention relates to a cleaning / suction vehicle which can be used for multiple purposes by easily cleaning the inside and outside of the tank with fresh water.

[0002]

[Prior Art]

 A sewer cleaning device is conventionally known in which sludge and other deposits accumulated in sewers are sucked into a tank together with water, and then the deposits and water are separated. 236830).

[0003]

[Problems to be solved by the device]

 By the way, in such a device, since sludge and other deposits are suctioned and stored in a closed tank, even if the tank is tilted and the deposits are discharged to the outside, they are discharged without leaving. However, it is difficult to maintain the internal capacity of the tank, and it is necessary to clean the inside of the tank regularly. Was.

However, this cleaning work is extremely troublesome, and it is not only difficult to secure human resources, but there is a problem that the work efficiency is poor and the cost is increased.

The present invention has been made in view of the above situation, in which an external fluid such as sludge water is sucked into a high-pressure tank and is separated into solid matter and water, and the water is used for It is an object of the present invention to provide a new cleaning / suction vehicle that can clean water and drain pipes efficiently and cleanly, and can clean the inner and outer surfaces of the tank with clean water.

[0006]

[Means for Solving the Problems]

 In order to achieve the above-mentioned object, a feature of the present invention is that a pressure tank, a fresh water tank, a blower, and a water pump installed on a vehicle body frame, and the inside of the pressure tank are divided into a first chamber and a second chamber. Alternatively, a partition wall rotatably provided in the pressure tank so as to connect the two chambers to each other, and a connection wall provided on the partition wall and allowing the transfer of water only from the second chamber to the first chamber. A pressure tank by connecting a passage, an air circuit that connects between the pressure tank and a blower to decompress or pressurize the second chamber, a second chamber of the pressure tank and a fresh water tank, and the water pump. And a water circuit capable of selectively sucking the stored water in the water tank and discharging it to the outside, an external cleaning circuit connected to the water circuit for discharging pressure cleaning water to the outside, and the water circuit Connected to the pressure In more Rukoto the tank cleaning circuit for ejecting pressure washing water in the click.

[0007]

【Example】

 An embodiment of the present invention will be described below with reference to the drawings.

FIG. 1 is a partially cutaway side view of a cleaning and suction vehicle according to the present invention, and FIG. 2 is a side view of a tank assembly of the vehicle in a dumped state.

The vehicle body frame F of the vehicle for cleaning and suctioning is composed of a main frame M and a sub-frame S on the main frame M. A tank frame Tf is mounted on the sub-frame S, and a rear end of the tank frame Tf has a hinge pin 1. Are connected to the subframe S by. A telescopic dump cylinder 2 is connected between the front end of the tank frame Tf and the subframe S, and the tank frame S can be tilted rearward around the hinge pin 1 by the extension operation of the cylinder 2. ..

A tank assembly T is integrally mounted on the tank frame Tf. The tank assembly T includes a hermetically sealed pressure tank Tp in the latter half of the tank assembly T and a hermetically sealed fresh water tank in the first half of the tank assembly T. It is composed of Tw and a closed separator chamber Cs formed between both tanks Tp and Tw.

A blower B is integrally mounted on a tank frame Tf on one side of the fresh water tank Tw, and a water pump P is also integrally mounted on a subframe S in front of the tank frame Tf. The blower B and the water pump P are both rotatably driven by a running engine of a cleaning and suction vehicle via a PTO (power take-out device).

The pressure tank Tp is formed in a tubular shape, and a discharge port 3 is opened on the rear surface thereof, and the discharge port 3 is opened and closed by a tailgate 5 pivotally supported on the upper portion thereof. A free end of an opening / closing cylinder 7 pivotally supported by the pressure tank Tp is connected to the tailgate 5, and the tailgate 5 can be opened / closed by expanding / contracting the cylinder 7. A large hose reel 10 is rotatably supported on the outer surface of the tailgate 5 via a stay 9, and a small hose reel 12 is rotatably supported below it via another stay 11. A washing nozzle 14 is attached to the free end of the hose 13 wound around the large hose reel 10, and a washing gun 16 is attached to the free end of the hose 15 wound around the small hose reel 12. ing.

The pressure tank Tp is partitioned by a partition wall 18 into a first chamber, that is, a separation chamber 19 and a second chamber, that is, a sludge chamber 20. The partition wall 18 is formed in a disk shape, and is supported by a support shaft 21 on both side walls of the pressure tank Tp so as to be openable and closable. In the pressure tank Tp, an opening / closing cylinder 23 rotatably supported by the pressure tank Tp is connected to the upper portion of the partition wall 18, and the contraction operation of the cylinder 23 causes the partition wall 18 to move as shown in FIG. As shown by the solid line, the inside of the high-pressure tank Tp is divided into a separation chamber 19 and a sludge chamber 20 in a gas- and fluid-tight manner, and when the opening / closing cylinder 23 is extended, the partition wall 18 is changed to a chain line in FIG. As shown, the separation chamber 19 and the sludge chamber 20 can be communicated with each other by turning down about 90 °. A packing 24 is attached to the outer periphery of the partition wall 18.

The separation wall 18 is provided with a communication passage 25 that communicates the separation chamber 19 and the sludge chamber 20, and a first filter 26 is attached to an end of the communication passage 25 on the sludge chamber 20 side. A check valve 27 is provided at the end of the separation chamber 19 side, and the check valve 27 allows the flow of fluid only from the sludge chamber 20 to the separation chamber 19.

A swivel cylinder 31 is rotatably supported on a rear upper wall of the pressure tank Tp, and a support boom 30 is supported on the swivel cylinder 31 so as to be elevated. A flexible suction pipe 32 is supported by the support boom 30, and a base end of the suction pipe 32 is hung from a lower portion of the swivel cylinder 31 and communicated with a suction port 33 opening in the sludge chamber 20. It An opening / closing valve 29 is provided at a communication portion between the suction pipe 32 and the suction port 33. The suction pipe 32 is extended from the support boom 30 to the outside, and its tip can be inserted into the sewer 34, as will be described later.

FIG. 3 shows an overall schematic view of the air circuit Ca and the water circuit Cw of the present invention.

Next, the air circuit Ca connected to the blower B and the tank assembly T will be described with reference to FIG.

The discharge pipe 35 connected to the discharge port of the blower B is switched and communicated with the separator chamber Cs or the atmosphere through the inlet / outlet port 37 ₁ or the atmosphere opening port 37 ₂ by the switching operation of the pressurization switching valve 37. The suction pipe 36 connected to the suction port of the blower B is also switched and communicated with the atmosphere or the separator chamber Cs via the pressurization switching valve 37.

The separator chamber Cs and the sludge chamber 20 are communicated with each other via a first air pipe 38, and a float valve 40 is provided at the opening end of the first air pipe 38 on the sludge chamber 20 side. Further, the separator chamber Cs is communicated with the separation chamber 19 and the atmosphere via a second air pipe 39, and a float valve 41 is provided at a communication portion of the second air pipe 39 with the separation chamber 19. Further, first and second air bleeding valves 42 and 43 are provided on the downstream side and above the communicating portion of the second air pipe 39 to the separation chamber 19, respectively. If both are opened, the separator chamber Cs is communicated with the atmosphere, and if only the second air bleed valve 43 is opened, the separator chamber Cs is communicated with the separation chamber 19.

Next, the water circuit Cw connected to the water pump P, the tank assembly T, and the hoses 13 and 15 will be described with reference to FIG.

A high-pressure water pipe 46 is connected to the discharge port of the water pump P, a four-way branch joint 47 is connected to the end of the water pump P, and an external cleaning circuit 17 is connected to one of the connection ports. A washing valve 44 is provided on the way, and the hose 13 is connected to the end of the washing valve 44 through a communication passage 13 ₁ provided in the large hose reel 10. The other two connection ports of the branch joint 47 are connected to another external cleaning circuit 48 and a tank cleaning circuit 49, the other external cleaning circuit 48 is connected to the hose 15, and the tank cleaning is performed. The end of the circuit 49 is connected to a jet nozzle 50 provided on the bottom wall of the front end of the separation chamber 19 of the pressure tank Tp. On-off valves 51 and 52 are connected to the other external cleaning circuit 48 and the tank cleaning circuit 49, respectively.

The water suction pipe 45 connected to the suction port of the water pump P is branched into first, second and third branch pipes 53, 54 and 55, and the first branch pipe 53 is a first opening / closing valve 57. The second branch pipe 54 is connected to the lower part of the separation chamber 19 via a second opening / closing valve 58, and the third branch pipe 55 further includes a third opening / closing valve 59 and a first recycling valve 60. It is communicated with the lower portion of the fresh water tank Tw via. In addition, a fourth branch pipe 56 is branched from the middle of the third opening / closing valve 59 and the first recycle valve 60 of the third branch pipe 55, and the second recycle valve 61 is provided in the middle of the branch pipe 56. It is installed. The open end of the fourth branch pipe 56 is opened in the separation chamber 19 and the second filter 62 is connected thereto.

First, second, third and fourth drain valves 64, 65, 66 and 67 are connected to the bottoms of the water pump P, the pressurization switching valve 37, the fresh water tank Tw and the separator chamber Cs, respectively. It

A suction valve 70 and a discharge valve 71 are provided at the upper and lower middle portions and the lower portion of the tailgate 5, and the suction valve 70 is used to suck a fluid other than sludge into the sludge chamber 20. The discharge valve is used to discharge the contained fluid in the pressure tank Tp.

Next, the operation of this embodiment will be described mainly with reference to FIGS.

In FIGS. 4 to 9, the open / close valve, the air bleeding valve, the cleaning valve, the recycle valve, the drain valve, etc., whose ports are white are in the open state, and the black ones are in the closed state. Also, in the water pipe, the slanting line to the left shows the flow of water, in the air pipe the slanting line to the right shows the air flow, and the part with spots on the left down shows the sludge water flow. ..

.. Sewer cleaning action (Fig. 4) This is an action of cleaning the sewer, drain pipe, etc. by high-pressure water from the water pump P. When the water pump P is driven, it will be described later in the separation chamber 19 of the pressure tank Tp. The stored water previously stored by the pressurized recycling action is filtered by the second filter 62 and then passes through the fourth and third branch pipes 56, 55 and the water suction pipe 45 as shown by an arrow a in FIG. It is sucked into the water pump P. By opening the cleaning valve 44, the high-pressure water from the water pump P is pressure-fed to the cleaning nozzle 14 through the high-pressure water pipe 46, the external cleaning circuit 17 and the hose 13 as shown by the arrow b. After pulling out the hose 13 from the large hose reel 10 and inserting the cleaning nozzle 14 into the sewer 34, when this is opened, high-pressure water is jetted from the sewer 34 to clean the sewer efficiently and cleanly. The cleaning nozzle 14 can be moved forward in the sewer 34 by the reaction force of the cleaning water sprayed behind the nozzle 14.

.. Suction action of sludge water in the pressure tank (FIG. 5) This is the action of sucking the sludge water stored in the sewer 34 into the sludge chamber 20, and the suction pipe 36 of the blower B is opened by the switching operation of the pressurization switching valve 37. If the blower B is driven after communicating with the separator chamber Cs through the inlet / outlet port 37 ₁ and communicating the discharge pipe 35 with the atmosphere through the atmosphere opening port 37 ₂ , the inside of the separator chamber Cs will be depressurized to a negative pressure. The pressure in the sludge chamber 20 of the pressure tank Tp is sucked into the separator chamber Cs via the first air pipe 38 and the float valve 40 as shown by an arrow c in FIG. 5, and the sludge chamber 20 is depressurized. To be done. If the open / close valve 29 is opened and the open end of the suction pipe 32 is inserted into the sludge water in the sewer 34, the sludge water is sucked and stored in the sludge chamber 20 as shown by the arrow d in FIG. be able to.

[0029] Pressurized recycling action (Fig. 6) This is the action of transferring moisture in the stored sludge water in the sludge chamber 20, that is, clean water, from the sludge chamber 20 to the separation chamber 19 under pressure and reusing the water for washing water or the like. Then, after closing the on-off valve 29, the suction pipe 36 of the blower B is opened to the atmosphere through the atmosphere opening port 37 ₂ by the switching operation of the pressurization switching valve 37, and the discharge pipe 35 thereof is connected to the inlet / outlet port 37. communicates with the separator chamber Cs via the _1, after further separation chamber 19 by opening valve of the first vent valve 42 is opened to the atmosphere through the second air pipe 39, by driving the blower B, from which Pressurized air is pressure-fed from the separator chamber Cs to the sludge chamber 20 through the first air pipe 38 and the float valve 40 as shown by the arrow e in FIG. 6, and the inside of the sludge chamber 20 is pressurized to a high pressure. As a result, the clean water in the sludge water is filtered by the first filter 26 to separate the sludge, as shown by the arrow f in FIG. 6, and then sent to the separation chamber 19 through the communication passage 25 and the check valve 27. At that time, the air in the separator chamber Cs is discharged to the atmosphere through the first air pipe 39 as shown by an arrow g in FIG. When the stored water in the separation chamber 19 reaches a predetermined level, that is, when it reaches the window provided above the pressure tank Tp, the pressurization of the sludge chamber 20 is stopped.

Then, the water stored in the separation chamber 19 is used as washing water by the above-mentioned action.

[0031] Pressurized discharge action (Fig. 7) The sludge that has been sucked and stored in the sludge chamber 20 and separated from the water can be dumped as shown in Fig. 2 where the tank assembly T can be dumped as described above. However, when the tank assembly T cannot be dumped, such as indoors, the sludge in the sludge chamber 20 is discharged by the following pressurizing action. When the first recycle valve 60 is opened, the second recycle valve 61 is closed, and the discharge valve 71 is opened from the state of FIG. 6, the sludge in the sludge chamber 20 is indicated by the arrow h in FIG. Can be discharged under pressure. In this case, the water pump P is not driven.

.. Cleaning action inside pressure tank (FIG. 8) This is the action of cleaning the pressure tank Tp with fresh water, and the partition wall 18 is rotated by about 90 ° from the closed position to the substantially horizontal open position by the extension operation of the opening / closing cylinder 23. Hold. If the water pump P is driven after the second recycle valve 61 is closed and the first recycle valve 60 and the third open / close valve 59 are opened, the fresh water stored in advance in the fresh water tank Tw is indicated by the arrow in FIG. As shown by i, it is sucked into the water pump P through the third branch pipe 55 and the water suction pipe 45, and the pressurized water from there is a high pressure water pipe 46, a branch joint 47, a tank cleaning circuit as shown by an arrow j in FIG. It is possible to wash the inside of the pressure tank Tp by being jetted from the jet nozzle 50 through the nozzle 49 into the pressure tank Tp.

.. Out-tank cleaning action (Fig. 9) This is the action of cleaning the outside of the tank, such as the outer surface of the tank assembly T and its surroundings, with fresh water in the fresh water tank Tw. When the valve 51 is switched to the open state, high-pressure water can be supplied from the high-pressure water pipe 46, the branch joint 47 and the other external cleaning circuit 48 to the cleaning gun 16 through the hose 15 as shown by the arrow k in FIG. It is possible to pull out the hose from the small hose reel 12 and wash the pressure tank Tp and the outer surfaces of other devices with pressure washing water.

In the above embodiments, the case where the sludge water in the sewer or the like is sucked into the pressure tank has been described, but it goes without saying that another external fluid may be sucked.

The pressure tank and the fresh water tank can be used in various other ways. For example, the partition wall may be opened and the first and second chambers of the pressure tank may both be sludge water storage tanks, or both the fresh water tank and the first chamber of the pressure tank may be fresh water tanks. Further, both the first and second chambers of the water tank and the pressure tank may be fresh water tanks.

[0036]

[Effect of the device]

 As described above, according to the present invention, the pressure tank, the fresh water tank, the blower and the water pump mounted on the vehicle body frame and the inside of the pressure tank are divided into the first chamber and the second chamber, or A partition wall rotatably provided in the pressure tank so as to connect the two chambers, and a communication passage provided in the partition wall and allowing the transfer of water only from the first chamber to the second chamber. , An air circuit that connects between the pressure tank and a blower to decompress or pressurize the first chamber, a second chamber of the pressure tank and a fresh water tank, and a water pump P to connect the pressure tank and A water circuit capable of selectively sucking the stored water in the water tank and discharging it to the outside, an external cleaning circuit connected to the water circuit for discharging pressure-washed purified water to the outside, and the water circuit Is connected to the pressure tank in the pressure wash water Since it is composed of an in-tank cleaning circuit for jetting, it separates the fluid such as sludge water sucked into the pressure tank into water and solid matter, and uses the separated water to clean the sewer and drain pipes. It is possible to wash it at a low cost, and the cost can be greatly reduced by reusing the separated water and omitting manpower. Furthermore, cleaning of the pressure tank, which used to rely on human labor, can be performed easily and easily with the clean water in the fresh water tank. Furthermore, the fresh water also makes the outer surface of the pressure tank and other equipment efficient. It can be washed cleanly.

[Brief description of drawings]

FIG. 1 is a partially cutaway side view of a cleaning and suction vehicle.

FIG. 2 is a side view of the tank assembly of the washing and absorbing vehicle when the tank assembly is dumped.

FIG. 3 is an air and water circuit diagram of a vehicle that also serves as a cleaning and absorbing vehicle.

[Fig. 4] Cleaning action diagram for sewers, drainage pipes, etc.

[Fig.5] Suction action diagram of sludge water

[Figure 6] Pressure recycling action diagram

[Figure 7] Pressurized discharge action diagram

[Figure 8] Pressure tank cleaning action diagram

[Figure 9] Pressure tank outside cleaning action diagram

[Explanation of symbols]

 17 External Cleaning Circuit 18 Partition Wall 19 First Room (Separation Room) 20 Second Room (Sludge Room) 25 Communication Path 48 External Cleaning Circuit 49 In-Tank Cleaning Circuit B Blower Cs Separator Room Ca Air Circuit Cw Water Circuit F Body Frame P Water pump Tp Pressure tank Tw Fresh water tank

Claims (1)

[Scope of utility model registration request] 1. A pressure tank (Tp), a fresh water tank (Tw), and a blower (B) mounted on a body frame (F).
The water pump (P) and the pressure tank (Tp) are partitioned into a first chamber (19) and a second chamber (20), or both chambers (19, 2).
0) to communicate with each other, a partition wall (18) rotatably provided in the pressure tank (Tp), and the partition wall (18), the second chamber (20) to the first chamber. An air circuit capable of decompressing or pressurizing the second chamber (20) by connecting between the pressure tank (Tp) and the blower (B) by connecting a communication passage (25) allowing only water transfer to (19). (Ca), the first chamber (19) of the pressure tank (Tp), the fresh water tank (Tw), and the water pump (P) are connected to store in the pressure tank (Tp) and the fresh water tank (Tw). Water circuit (Cw) that can selectively suck water and discharge it to the outside
An external cleaning circuit (17, 48) connected to the water circuit (Cw) for discharging pressure cleaning water to the outside, and the pressure tank (T) connected to the water circuit (Cw).
p) A cleaning and suction vehicle comprising: an in-tank cleaning circuit (49) for injecting pressure cleaning water into the inside of p).