JPH0616138U - Tank vehicle - Google Patents

Abstract

(57) [Summary] [Object] The present invention provides a tank vehicle in which a pressure tank for aspirating and storing sludge and a water tank for storing cleaning water, etc. are mounted on a vehicle body frame to improve the loading efficiency of both tanks. The height of the pipes should be increased and the exposed parts of the pipes should be reduced to prevent the release of dust and other pollutants into the atmosphere. [Configuration] Pressure tank Tp and water tank T on the body frame
w and the blower B is provided in the water tank Tw, and the intake / exhaust valve device V is provided in the air chamber 37 above the blower B.
The blower B and the pressure tank are connected to the intake / exhaust valve device V and the air chamber 3
7 through the pressure tank T driven by the blower B.
The air in p is separated from the dust in the air chamber 37 and then sucked and released into the atmosphere.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

 The present invention relates to a tank vehicle having a pressure tank and a water tank, capable of collecting and treating contaminated fluid such as sludge in the pressure tank and supplying the water in the water tank to washing water. It is a thing.

[0002]

[Prior art]

 Conventionally, a negative pressure is generated in the closed tank to suck and collect sludge in the sewer into the tank, and the inside of the tank is kept at high pressure to forcibly suck the water sucked together with the sludge from the tank. A device for recovering sludge and the like, which is designed to be pumped and refluxed to the inside, is known (see Japanese Patent Laid-Open No. 63-293244).

[0003]

[Problems to be solved by the device]

 However, in the above-mentioned conventional device, the vacuum pump for depressurizing or pressurizing the inside of the tank and the four-way valve interposed in the intake / exhaust pipe connecting the tank and the vacuum pump are both provided separately from the tank. When installing this device on a vehicle, they occupy the effective space on the vehicle body, not only reducing the tank capacity, but also increasing the total length of the piping of the tank, the vacuum pump, and the intake / exhaust pipe connecting the four-way valve. In addition, there is a problem that its handling is troublesome.In addition, the vacuum pump sucks the contaminated air in the tank directly through the four-way valve and discharges the contaminated air in the tank to the atmosphere. There is another issue that causes breakdowns and air pollution.

The present invention has been made in view of the above, and an object of the present invention is to provide a novel tank vehicle that solves all the problems described above.

[0005]

[Means for Solving the Problems]

 In order to achieve the above object, the features of the present invention include a pressure tank and a water tank mounted on a vehicle body frame, and a blower that communicates with the pressure tank and that can decompress or pressurize the inside of the pressure tank. A water tank communicating with the pressure tank and the water tank for sucking the stored water in the tank, wherein the blower is provided in the water tank and the water tank is provided in the water tank. An intake / exhaust valve device is provided in the upper air chamber to selectively connect the suction pipe and the discharge pipe of the blower to the pressure tank and the outside air so that either one of the suction pipe and the discharge pipe and the suction / exhaust pipe are connected to each other. That is, the air chamber is interposed between the valve device and the valve device.

[0006]

【Example】

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

FIG. 1 is a fragmentary side view of a tank vehicle of the present invention, and FIG. 2 is a side view of the tank assembly of the vehicle in a dumped state.

A body frame F of a tank vehicle 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 is fixed by a hinge pin 1. It is connected to the subframe S.

A telescopic dump cylinder 2 is connected between the front end portion of the tank frame Tf and the subframe S, and the extension operation of the cylinder 2 causes the tank frame Tf to tilt rearward around the hinge pin 1. You can do it.

A tank assembly T is integrally mounted on the tank frame Tf. The tank assembly T includes a sealed large-capacity pressure tank Tp in the latter half portion and a small capacity tank in the front half portion. The closed fresh water tank Tw and the closed separator chamber Cs formed between the two tanks Tp and Tw.

A liquid-sealed blower B is provided in the lower portion of the fresh water tank Tw, and a water pump P is 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 tank vehicle via P TO (power take-out device).

The closed pressure tank Tp is formed in a cylindrical shape, and a discharge port 3 is opened in 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 6 on 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. Has been.

The inside of the pressure tank Tp is partitioned by a partition wall 18 into a separation chamber 19 and a sludge chamber 20. The partition wall 18 is formed in a spherical surface convex toward the separation chamber 19 side, is rotatably supported on both side walls of the pressure tank Tp by a support shaft 21, and a packing 24 is attached to the outer periphery thereof. The separation chamber 19 and the sludge chamber 20 are fluid-tightly partitioned.

In the pressure tank Tp, an opening / closing cylinder 23 pivotally supported by the pressure tank Tp is connected to an upper portion of the partition wall 18, and the contraction operation of the cylinder 23 causes the partition wall 18 to move. 1 stands up as shown by the solid line in FIG. 1 to partition the inside of the pressure tank Tp into the separation chamber 19 and the sludge chamber 20 in a fluid-tight manner, and according to the extension operation of the opening / closing cylinder 23, the partition wall 18 is As shown by the chain line, the separation chamber 19 and the sludge chamber 20 can be communicated with each other by laying down about 90 °.

A communication passage 25 that connects the separation chamber 19 and the sludge chamber 20 is provided in the separation wall 18 so as to penetrate the separation wall 18. At the open end of the communication passage 25 on the sludge chamber 20 side, a primary filtration device 26 that can primarily filter water in the sludge water stored in the sludge chamber 20 is provided. The primary filtering device 26 is composed of a mesh-shaped filter element, and is composed of a relatively coarse mesh for primarily filtering the sludge water in the sludge chamber 20.

As shown in FIG. 1, a half portion of the communication passage 25 on the side of the separation chamber 19 is bent upward, and an opening end thereof is a check valve that allows a fluid flow only from the sludge chamber 20 to the separation chamber 19. 27 is attached. As will be described later, when the sludge chamber 20 is pressurized and the separation chamber 19 is communicated with the atmosphere, the water in the stored sludge water in the sludge chamber 20 is primarily filtered by the primary filtration device 26, and then the communication passage 25 and It can be transferred to the separation chamber 19 through the check valve 27.

In FIG. 1, a secondary filtration device 28 is provided in the separation chamber 19. This secondary filtration device 28 is also composed of a mesh-shaped filter element and is connected to the suction circuit 45 (FIG. 3) of the water pump P, so that the stored water in the separation chamber 19 is secondary as described in detail later. It is formed into a relatively dense mesh for effective filtration.

In FIG. 1, a revolving cylinder 31 is rotatably supported on a rear upper wall of the pressure tank Tp, and a supporting boom 30 is supported on the revolving cylinder 31 so as to be elevated. A flexible suction pipe 32 is supported by the support boom 30, and the base end of the suction pipe 32 is hung below the swivel cylinder 31 and communicates with a suction port 33 that opens into the sludge chamber 20. . An opening / closing valve 29 is provided in a communication portion between the suction pipe 32 and the suction port 33 and extends outward from the support boom 30 so that a tip portion thereof can be inserted into the sewer 34 as described later. Has become.

FIG. 3 shows an overall schematic diagram of the air circuit Ca and the water circuit Cw.

The air circuit Ca connects the blower B and the pressure tank Tp via an intake / exhaust valve device V to be described later in order to decompress or pressurize the pressure tank Tp. 4 is a schematic perspective view of the blower B, the intake / exhaust valve device V and their piping systems when the pressure tank Tp is depressurized, FIG. 5 is a cross-sectional view taken along line 5-5 of FIG. 4, and FIG. When the pressure tank Tp is pressurized, a schematic perspective view of the blower B, the intake / exhaust valve device V, and their piping systems is shown in FIG. 7. FIG. 7 is a transverse sectional view taken along line 7-7 of FIG. The structures of the blower B and the intake / exhaust valve device V will be described in detail with reference to FIGS. 4 to 7. In the lower part of the fresh water tank Tw, the liquid ring blower B is immersed in fresh water. And an air chamber 37 is defined in the upper part thereof, and the intake / exhaust valve device V supported by the upper wall of the fresh water tank Tw is provided in the air chamber 37.

A pair of suction ports 35s and a discharge port 36d are opened in the blower B, and a suction pipe 35 connected to the pair of suction ports 35s extends upward and is directly opened in the air chamber 37. The discharge pipe 36 connected to the pair of discharge ports 36d is connected to the intake / exhaust valve device V. The intake / exhaust valve device V includes a valve box 81 and a valve body 82. The valve box 81 is supported on the upper wall of the fresh water tank Tw, and is vertically divided into four parts as shown in FIGS. The fourth fluid passages p ₁ , p ₂ , p ₃ , p ₄ are arranged in parallel, and the upper surfaces of these passages p ₁ , p ₂ , p ₃ , p ₄ are open to the outside. A lower portion of the first fluid passage p ₁ is communicated with an upper portion of the separator chamber Cs via an air passage 83, and a lower portion of the second fluid passage p ₂ is directly opened to the air chamber 37. p ₃ is communicated with the pair of discharge pipes 36 of the blower B 1, and the lower portion of the fourth fluid passage p ₄ is opened to the atmosphere through another air passage 84 and silencer 85.

A cap-shaped valve element 82 is capped on the upper surface of the valve box 81, and is rotatably supported by a valve shaft 87 that is erected at the center of the valve box 81. The inside of the valve body 82 is partitioned into a first valve chamber 89 and a second valve chamber 90 by a radial partition plate 88. . An operating arm 91 is fixed to the upper end of the valve body 82, and the tip of the operating cylinder 91 is connected to the tip of an air cylinder 93 which is pivotally supported 92 at an appropriate position on the upper wall of the fresh water tank Tw. Due to the movement, the valve body 82 is reciprocally rotated about 90 degrees around the valve shaft 87 and is switched. When the valve body 82 is in the pressure reducing position as shown in FIGS.₁, P₂And the third and fourth fluid passages p₃, P _Four When the valve body 82 is controlled to rotate by about 90 ° and is switched to the pressurizing position as shown in FIGS. Fluid passage p₁, P₃And the second and fourth fluid passages p₂, P_FourCan be in communication with each other.

As shown in FIG. 3, the separator chamber Cs and the sludge chamber 20 are communicated with each other via a first air pipe 38, and the opening end of the first air pipe 38 on the separator chamber Cs side is the separator chamber. A float valve 40 is provided at the bottom of Cs, and at the opening end of 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 bleed valves 42 and 43 are provided on the upstream side and the downstream side of the communication portion of the second air pipe 39 to the separation chamber 19, respectively. , 43 are connected to the atmosphere, the separator chamber Cs is connected to the separation chamber 19 by opening only the second air bleeding valve 43.

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 discharge circuit 46 is connected to the discharge port of the water pump P, a four-way branch joint 47 is connected to the end thereof, and an external cleaning circuit 17 is connected to one of the connection ports. A washing valve 44 is interposed in the middle thereof, 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 the ejection 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 circuit 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 connected to the first opening / closing valve 5 7, the second branch pipe 54 communicates with the lower part of the separation chamber 19 via the second opening / closing valve 58, and the third branch pipe 55 further connects the third opening / closing valve 59 and the first recycle valve 60. Through the bottom of the fresh water tank Tw. Further, in the third branch pipe 55, a fourth branch pipe 56 is branched from the middle of the third opening / closing valve 59 and the first recycle valve 60, and the second recycle valve 61 is interposed in the middle of the branch pipe 56. It is equipped. The opening end of the fourth branch pipe 56 is opened in the separation chamber 19 and the secondary filtration device 28 is connected thereto.

Drain valves 64, 66 and 67 are connected to the bottoms of the water pump P, the fresh water tank Tw and the separator chamber Cs, respectively.

A suction valve 70 and a discharge valve 71 are provided at the upper and lower intermediate 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. 8 to 13, the opening / closing valve, the air bleeding valve, the cleaning valve, the recycle valve, the drain valve, etc., whose ports are white indicate the open state, and the black ones indicate the closed state. In the water pipe, the slanting line to the left shows the flow of water, the slanting line to the right in the air pipe shows the flow of air, and the part with spots on the slanting line to the left shows the sludge water flow.

.. Suction of sludge water in the pressure tank (FIG. 8) This is an action of holding the pressure tank Tp at a negative pressure and sucking the sludge stored in the sewer 34 into the sludge chamber 20 together with the waste water. As shown in FIGS. 4 and 5, the first and second fluid passages p ₁ and p ₂ and the third and fourth fluid passages p ₃ and p ₄ are brought into communication with each other by switching to the decompression position. As a result, the suction pipe 35 of the blower B communicates with the separator chamber Cs through the air chamber 37, the suction / exhaust valve device V and the air passage 83, and the discharge pipe 36 has the suction pipe 35 of the suction / exhaust valve device V, another air passage 84 and the silencer 85. Communicates with the atmosphere via. As a result, the inside of the separator chamber Cs is depressurized to a negative pressure, and the air in the sludge chamber 20 of the pressure tank Tp passes through the first air pipe 38 and the float valve 40 to the inside of the separator chamber Cs as shown by an arrow c in FIG. And the inside of the sludge chamber 20 is depressurized. If the opening / closing 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. In this case, since the check valve 27 is closed by the negative pressure in the sludge chamber 20, the sludge water does not flow into the separation chamber 19.

By the way, in the air suction action in the pressure tank Tp, the air in the pressure tank Tp is guided to the lower portion inside the separator chamber Cs through the first air pipe 38 to temporarily remove contaminants such as dust. To be done. The air in the separator chamber Cs is guided to the intake / exhaust valve device V in the air chamber 37 through the air passage 83. The air that has entered the valve V enters the air chamber 37 above the fresh water tank Tw from the first passage p ₁ through the second passage p ₂ as described above, where dust and other contaminants in the air are present. Are secondarily removed and fall on the water surface in the tank Tw. The air in the air chamber 37 passes through the suction pipe 35 and is sucked into the blower B. In this case, since the blower B is a liquid ring type, its operation can be performed without any trouble. The pressurized air from the blower B is discharged from the discharge pipe 36 to the atmosphere through the third passage p ₃ and the fourth passage p ₄ of the intake / exhaust valve device V, and further through the other air passage 84 and the silencer 85.

As described above, the air sucked from the pressure tank Tp can remove clean air from the atmosphere because contaminants such as dust mixed therein are removed.

.. Pressurized recycling action (Fig. 9) This is to pressurize the inside of the pressure tank Tp to primarily filter the sewage contained in the sludge stored in the sludge chamber 20 and pressurize the sewage from the sludge chamber 20 to the separation chamber 19 for transfer. After the water is filtered again to purify it, it is reused as washing water, etc., and after closing the on-off valve 29, the intake / exhaust valve device V is switched to the pressurizing position as shown in FIGS. By controlling the valve body 82 to rotate about 90 °, the first passage p₁And the third passage p₃And the second passage p ₂ And the fourth passage p_FourTo the atmosphere via the intake / exhaust valve device V and the air passage 83, and the intake pipe 35 to the atmosphere via the intake / exhaust valve V device, another air passage 84 and the silencer 85. After communicating with each other and further opening the first air bleed valve 42 to open the separation chamber 19 to the atmosphere through the second air pipe 39, if the blower B is driven, the pressurized air from there will be an arrow in FIG. As shown in e, the separator chamber Cs is pressure-fed to the sludge chamber 20 through the first air pipe 38 and the float valve 40, and the inside of the sludge chamber 20 is pressurized to a high pressure. As a result, the sewage in the sludge is primarily filtered through the primary filtration device 28 and separated from the sludge, as shown by the arrow f in FIG. 9, and then pumped to the separation chamber 19 through the communication passage 25 and the check valve 27. Be touched. At that time, the air in the separator chamber Cs is discharged to the atmosphere through the second 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, the window provided above the pressure tank Tp, the pressurization of the sludge chamber 20 is stopped.

.. Pressurized discharge action (Fig. 10) The sludge that has been sucked and stored in the sludge chamber 20 and has its water separated 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 shown in FIG. 9, 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 the pressure tank (Fig. 11) This is the action of cleaning the pressure tank Tp with fresh water, and the partition wall 18 is rotated approximately 90 ° from the closed position by the extension operation of the opening / closing cylinder 23 (Fig. 1) to be substantially horizontal. Keep it in the open position. When the water pump P is driven after closing the second recycle valve 61 and opening the first recycle valve 60 and the third opening / closing valve 59, the fresh water stored in advance in the fresh water tank Tw is shown in FIG. As shown by i, it is sucked into the water pump P through the third branch pipe 55 and the suction circuit 45, and the pressurized water from there is a discharge circuit 46, a branch joint 47, and a tank cleaning 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 into the pressure tank Tp through the circuit 49.

.. Outside tank cleaning action (Fig. 12) 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 open, high-pressure water can be supplied to the cleaning gun 16 from the discharge circuit 46, the branch joint 47 and the other external cleaning circuit 48 through the hose 15 as shown by the arrow k. 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.

[0038] Sewer cleaning action (Fig. 13) This is the action of cleaning the sewer with high-pressure water from the water pump P, and the water after primary filtration has already been stored in the separation chamber 19 by the above-mentioned pressure recycling action. . According to the driving of the water pump P, the stored water after the primary filtration is secondarily filtered and purified by the secondary filtration device 28, and then the fourth and third branching is performed as shown by an arrow a in FIG. It is sucked into the water pump P from the pipes 56, 55 through the suction circuit 45. 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 discharge circuit 46, the external cleaning circuit 17 and the hose 13, as shown by the arrow b in FIG. 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, and the sewer 34 is cleanly and efficiently cleaned. At the time, the cleaning nozzle 14 can be advanced in the sewer 34 by the reaction force of the cleaning water sprayed behind the cleaning nozzle 14.

Although one embodiment of the present invention has been described above, the present invention is not limited to this embodiment, and various embodiments can be made within the scope of the present invention. For example, in addition to the sludge water, other contaminated fluid may be sucked and collected.

[0040]

[Effect of device]

 As described above, according to the present invention, a pressure tank and a water tank mounted on a vehicle body frame, a blower that communicates with the pressure tank and can decompress or pressurize the inside of the pressure tank, and the pressure tank. And a water pump communicating with the water tank and capable of sucking the stored water in the tank, in a tank vehicle, the blower is arranged in the water tank, and the air above the water tank is provided. The chamber is provided with an intake / exhaust valve device for selectively switching and communicating the suction pipe and the discharge pipe of the blower with the pressure tank and the outside air, and one of the suction pipe and the discharge pipe and the intake / exhaust valve device are provided. Since the air chamber is interposed between the blower and the intake / exhaust valve device, the loading efficiency of the pressure tank and the water tank on the vehicle body frame is improved without reducing the effective volume of the vehicle body frame. In addition, the structure of the air piping between the blower and the intake / exhaust valve device can be simplified, the exposed portion of the air piping can be reduced, and dust and other contaminants mixed in the intake air can be reduced. It can be removed in the water tank, and the release of polluted air to the atmosphere is prevented, which does not damage the surrounding environment.

[Brief description of drawings]

1 is a partially cutaway side view of the tank vehicle of the present invention.

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

FIG. 3 is an overall schematic diagram of an air circuit and a water circuit.

FIG. 4 is a schematic perspective view of a blower, an intake / exhaust valve device, and their piping systems when the pressure tank is depressurized.

5 is a cross-sectional view taken along line 5-5 of FIG.

FIG. 6 is a schematic perspective view of a blower, an intake / exhaust valve device, and their piping system when the pressure tank is pressurized.

7 is a cross-sectional view taken along line 7-7 of FIG.

[Figure 8] Suction action diagram of sludge water

[Figure 9] Pressure recycling action diagram

FIG. 10 Pressurized discharge action diagram

FIG. 11: Action diagram of cleaning inside pressure tank

FIG. 12: Action diagram for cleaning outside pressure tank

FIG. 13: Sewer cleaning action diagram

[Explanation of symbols]

 35 ... Suction pipe 36 ... Discharge pipe 37 ... Air chamber B ... Blower Cs ... Separator chamber F ... Body frame Tp ... Pressure tank Tw ... Water tank ( Fresh water tank) V ... Intake and exhaust valve device

Claims (1)

[Scope of utility model registration request] 1. A pressure tank (Tp) and a water tank (Tw) mounted on a vehicle body frame (F) communicate with the pressure tank (Tp), and the inside of the pressure tank (Tp) is depressurized or heated. It comprises a blower (B) which can be pressurized and a water pump (P) which communicates with the pressure tank (Tp) and the water tank (Tw) and can suck the stored water in these tanks (Tp, Tw). In a tank vehicle, the blower (B) is arranged in the water tank (Tw), and a suction pipe (35) for the blower (B) is provided in an air chamber (37) in an upper part of the water tank (Tw). An intake / exhaust valve device (V) is provided for selectively communicating the discharge pipe (36) with the pressure tank (Tp) and the outside air, and one of the suction pipe (35) and the discharge pipe (36) is provided. Between the intake and exhaust valve device (V) and the air chamber (37 ) Is a tank vehicle characterized by being interposed.