JP2004270160A - Suction vehicle - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a suction vehicle, preventing a suction hose from being bent in tilting a recovery hopper, discharging sediment from a high position to facilitate transferring to a dump truck, and reduced in size. <P>SOLUTION: A sediment recovery hopper 5 is disposed on a chassis 2 to tilt sideways. In the hopper 5, an inclined side 28 is an upward slope directing from the bottom toward the tilting direction, and the upper position of the inclined side 28 is supported on the upper end of a column 17 erected on the chassis 2 to rotate around the axis in the longitudinal direction of the vehicle. The terminal end of the suction hose 37 is held on the chassis 2 by a suction hose holding member 38, the inclined connecting end face 39a of the terminal end of the suction hose 37 and the inclined connecting end face 36a of a connecting part 36 of the hopper 5 are separated from each other when the hopper 5 tilts to the sediment discharge position, and they are automatically connected when the hopper is returned from the sediment discharge position to the sediment recovery position. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a suction vehicle that sucks earth and sand and the like by an air suction force.
[0002]
[Prior art]
Conventionally, when there is a buried object (a gas pipe, a water pipe, etc.) in the ground, the soil near the buried object is excavated, sucked up by air suction, collected in a collection hopper, and so as not to damage the buried object. 2. Description of the Related Art A suction vehicle for discharging collected earth and sand to a discharge place is known. Patent Literature 1 and Non-Patent Literature 2 disclose a technique in which soil is crushed with compressed air and the soil is collected in a collection hopper on a vehicle by a vacuum suction force. In particular, Patent Literature 1 discloses an apparatus in which the bottom plate of the collection hopper is opened and the collected soil is discharged to the lower side of the vehicle without tilting the collection hopper.
Patent Literature 2 discloses a so-called rear dump type in which a rear lid of a sediment collection container provided at a rear portion of a vehicle is opened rearward, and the collection container is inclined backward and discharged.
Non-Patent Document 1 discloses that a collection hopper on a vehicle is upwardly formed in a box shape with an opening, and is mounted on a chassis so as to be tiltable to the right of the vehicle. It is provided so as to open the opening by tilting in the opposite direction, and the end of a flexible suction duct that sucks the earth and sand is connected to the lid, and at the time of earth and sand discharge, the lid is tilted to raise the upper side of the hopper. A side dump type is disclosed in which the hopper is opened and the hopper is tilted to the side to discharge the collected earth and sand.
[0003]
[Patent Document 1]
Japanese Patent No. 2963263 [Patent Document 2]
Japanese Patent Application Laid-Open No. 2001-123521 [Non-Patent Document 1] Technical Information-ESE 26/7 (Technical data-ESE 26/7), [online], RSP Limited Company (RSP.GMBH), [February 28, 2003] Day search], the Internet, <URL: http: // www. rsp-germany. com / eng / techdataase26. htm>
[Non-Patent Document 2] Air shovel, [online], Kanematsu Engineering Co., Ltd., Sales Management Department, [Searched February 28, 2003], K & E NEWS NO. 30, "NEXT PAGE", Internet, <URL: http: // www. kanematsu-eng. jp / news30 / 30-2-3. htm>
[0004]
[Problems to be solved by the invention]
In Patent Literature 1, the bottom plate of the fixed recovery hopper provided on the chassis is opened to discharge to the lower part of the chassis. It is not possible to position the vessel of the vehicle (dump truck), which is inconvenient when the collected earth and sand is transferred to the dump truck. In the case of Patent Document 2 and Non-Patent Document 1, the collection hopper is tilted on the chassis, so that the transfer to the dump truck is easy. However, in the case of Patent Document 2, the collection hopper is tilted rearward when soil is discharged. Then, since the flexible tube for suction connected to the collection hopper is tilted while being bent, the flexible tube is bent every time the tilting is performed, and the flexible tube is easily damaged. In Non-Patent Document 1, the lid that closes the discharge port above the hopper is tilted greatly to the side while the flexible suction hose is connected to the lid, and the upper part of the hopper is opened to open the hopper sideways. Since the flexible suction hose is bent at the time of tilting, it is the same as in Patent Document 2. Further, since the lid on the upper side of the hopper is tilted to the side, the size of the apparatus becomes very large.
SUMMARY OF THE INVENTION It is an object of the present invention to provide a suction wheel in which a suction hose is not bent when a recovery hopper is tilted, and can be easily transferred to a dump truck or the like and can be reduced in size. It is another object of the present invention to provide the above-mentioned suction wheel that enables the discharge of earth and sand to a higher position.
[0005]
[Means for Solving the Problems]
In order to solve the above problem, in the present application, a suction blower is provided along with a tilting hopper on the chassis, and a suction hose is provided, and the end of a suction hose is connected to the soil hopper to collect the suction force of the suction blower. In a suction truck that sucks earth and sand by acting on the tip of a suction hose through the suction hose, a soil and sand collection hopper is provided so as to be tilted to the side of the chassis from a soil and sand collection position horizontally held on the chassis to collect the earth and sand, and the hopper upper surface. A discharge door for opening and closing the discharge port provided on the top of the hopper is provided on the upper surface of the hopper, and the earth and sand collection hopper is provided with a connection portion with the suction hose end, and a suction hose holding member is fixed to the chassis and suction is performed on the suction hose holding member. The end of the hose is held, and the end of the suction hose and the connection part are separated from each other when the sediment collection hopper is tilted from the sediment collection position for sediment discharge, Characterized in that sand collecting hopper is constructed so as to be connected to the return to the soil collection position.
[0006]
The earth and sand recovery hopper is a sloped side plate having an upward slope from the bottom toward the tilting direction, and is supported at an upper position of the sloped side plate so as to be able to tilt sideways around an axis in the vehicle front-rear direction. .
[0007]
In addition, a connection pipe is protruded rearward from the rear surface of the earth and sand collection hopper, and the end of the suction hose is positioned opposite to the rear of the connection pipe when the hopper is at the earth and sand collection position, and the connection end face of the connection pipe is connected to the connection pipe. The earth and sand collection hopper has a sediment recovery hopper with an inclined connection end surface that rises toward the rear with respect to the axis of the suction pipe, and a connection end surface at the end of the suction hose that is inclined in the same direction as the inclined connection end surface of the connection pipe. When returning to the position, the two inclined connection end faces are configured to be connected to each other.
[0008]
The earth and sand collection hopper has a filter chamber in front of the collection chamber and a filter at the top of the filter chamber, and the bottom of the filter chamber below the filter descends toward the collection chamber to form a sloped bottom plate. It is characterized by being open to the chamber.
[0009]
BEST MODE FOR CARRYING OUT THE INVENTION
An embodiment will be described with reference to FIGS. In FIG. 1, reference numeral 1 denotes a suction wheel, and a driver's seat 3 is provided at a front portion of a chassis 2 of the suction wheel 1. Further, on the chassis 2, a suction blower 4 and a sediment recovery hopper 5 are provided from the driver's seat 3 side. The impeller 6 of the suction blower 4 has a rotating shaft 7 connected to an output shaft of a traveling engine 8 of the vehicle provided below the driver's seat 3 via a power transmission mechanism 9 and is rotated at high speed. The suction blower 4 is detachably connected to the exhaust part 11 of the earth and sand collection hopper 5 via the suction duct 10. The connection end face of the suction opening 12 of the suction duct 10 is formed in a seat that is in close contact with the airtight member 13 provided at the opening end of the exhaust unit 11 when the earth and sand collection hopper 5 is at the earth and sand collection position A. When the earth and sand collection hopper 5 is tilted (dumped) as described above, the suction opening 12 of the suction duct 10 and the opening end 14 of the exhaust unit 11 are separated from each other. The suction blower 4 is connected to a blower air outlet (exhaust pipe) 16 for discharging circulating air through a silencer 15.
[0010]
The earth and sand collection hopper 5 is rotatably connected to a column 17 erected on the chassis 2 and a bracket 18. As shown in FIG. 1, the earth and sand collection hopper 5 is divided into a filter room 19 and a collection room 20 from the driver's seat 3 side, and the filter room 19 and the collection room 20 communicate with each other through an opening 21. The filter chamber 19 is provided with a filter 22 for filtering fine dust at an upper portion thereof, and the filter 22 can remove dust accumulated on the filter 22 by an appropriate dust removing device 23. The outline of the dust removing device 23 will be described. A vibration member (filter hitting plate) 26 provided on a motor shaft 25 of a motor 24 is rotated to vibrate the filter 22 to remove dust. The filter chamber 19 communicates with the exhaust unit 11 formed above the soil and sand collection hopper 5 above the filter 22. Further, in the filter chamber 19, a filter chamber bottom plate 27 below the filter 22 is formed as an inclined bottom plate having a downward slope toward the collection chamber 20.
[0011]
The side plate on one side of the collection chamber 20 is formed as an inclined side surface 28 having an upward slope from the bottom toward the tilting direction (FIG. 3), and a bracket 18 is provided at an upper position on the lower surface of the inclined side surface 28. The bracket 18 is rotatably connected to an upper end of a column 17 provided on the chassis 2 on the tilting side of the sediment collection hopper 5, and supports the sediment collection hopper 5 so as to be tiltable sideways around an axis in the vehicle longitudinal direction. are doing. By supporting the sediment collection hopper 5 rotatably at the upper end of the column 17, the tilting fulcrum C is set to a considerable amount above the chassis 2 (about the height of the roof of the driver's seat in the embodiment of the present invention), and the sediment discharge is performed. It can be done at a high position. The tip of a cylinder rod of a side dump cylinder 31 whose rear end is rotatably connected to the chassis 2 is rotatably connected to the lower surface of the inclined side surface 28. Due to the expansion and contraction of the side dump cylinder 31, the earth and sand collection hopper 5 is horizontally held on the chassis 2 to be in a soil collection position A where the earth and sand can be collected (the state shown in FIG. 3) and upward with respect to the chassis 2 shown in FIG. It is tilted to the side and is located at a sediment discharge position B where sediment can be discharged. A discharge port 32 for discharging the soil collected in the collection chamber 20 is formed above the collection chamber 20 on the tilting direction side, and a discharge door 33 for opening and closing the discharge port 32 is provided on the collection chamber upper plate 34. ing. The end of a cylinder rod of an opening / closing cylinder 35, which is rotatably provided at one end of the collection chamber upper plate 34, is rotatably connected to the discharge door 33 so that the opening / closing cylinder 35 opens and closes. Has become. Further, a connection portion 36 is provided in an upper portion of the collection chamber 20 on the side opposite to the tilt direction side (the right side in FIG. 3). The connection portion 36 is a connection pipe projecting rearward from the rear surface of the collection chamber 20, and is connected to and separated from the suction hose end 39. The end face of the connection pipe 36 is formed as an inclined connection end face 36 a that rises rearward with respect to the axis of the connection pipe 36.
[0012]
At the rear of the chassis 2, a suction hose holding member 38 is provided upright as shown in FIG. The suction hose holding member 38 holds an end pipe 39 which is a suction hose end. The suction hose 37 includes a flexible hose body 40, an end pipe 39 provided at an end of the hose body 40, and a suction nozzle 41 provided at a tip of the hose body 40. The end face of the end pipe 39 of the suction hose 37 is formed on an inclined connection end face 39a inclined in the same direction as the inclined connection end face 36a of the connection pipe 36, and an outer peripheral portion of the inclined connection end face 39a of the suction hose 37 has an airtight member. 42 are provided (FIG. 5). When the sediment collection hopper 5 is at the sediment collection position A, the end pipe 39 is opposed to the rear of the connection pipe 36, and the inclined connection end face 36 a of the connection pipe 36 and the airtight member 42 of the suction hose 37 are in close contact with each other and the connection pipe 36 is sucked. The hose 37 is connected. When the earth and sand collection hopper 5 is tilted to the earth and sand discharge position B, the contact between the two inclined connection end surfaces 36a and 39a is released, and the connection pipe 36 and the suction hose 37 are separated from each other. As shown in FIG. 1, a handle 43 is provided on the suction hose 41 side of the suction hose 37 so that an operator can operate the suction position of the suction nozzle 41. The suction nozzle 41 is provided with a function of excavating the roadbed R with an excavation claw attached to the tip of the suction nozzle 41 by mechanically vibrating or rotating the suction nozzle 41 mechanically by a vibrator 44. For example, see Japanese Patent No. 33331438. As disclosed, the soil may be excavated or crushed by moving up and down, or the soil may be cut by rotation as disclosed in Japanese Patent No. 2963263. Further, the suction nozzle 41 may simply suction the earth and sand.
[0013]
The chassis 2 is provided with a hose support device 45 for moving and supporting the suction hose 37. The hose support device 45 includes a vertical rotation shaft 46 and a hose lift arm 47 provided directly below the suction hose end 39. The rotation shaft 46 is rotatably suspended from the chassis 2, and one end of a hose lift arm 47 is provided above the rotation shaft 46. A hose support roller 48 is rotatably provided at the other end of the hose lift arm 47. The hose lift arm 47 includes a first arm 49 and a second arm 50. The second arm 50 is relatively movable in the longitudinal direction with respect to the first arm 49. The cylinder tube of the telescopic cylinder 51 is attached to the second arm 50, and the cylinder rod of the telescopic cylinder 51 is connected to the second arm 50, so that the hose lift arm 47 expands and contracts in the longitudinal direction as the telescopic cylinder 51 expands and contracts. It has become. A rear end of a swing cylinder 52 that swings up and down the hose lift arm 47 is swingably connected to a lower portion of the rotating shaft 46. The tip of the cylinder rod of the swing cylinder 52 is rotatably connected to the first arm 49.
[0014]
Reference numeral 53 denotes an outrigger arranged side by side in the longitudinal direction of the chassis 2 on the side of the chassis (in the tilting direction). The outrigger 53 is extended by a cylinder to fix the vehicle body to the ground, thereby mainly preventing the vehicle from tipping over when earth and sand is discharged. Reference numeral 54 denotes a hydraulic rock drill mounted on an empty space of the vehicle body.
[0015]
Next, the operation of the suction wheel 1 will be described. The suction vehicle 1 is positioned near the excavation position of the roadbed R, and the output of the traveling engine 8 is switched to be transmitted to the impeller 6 through the power transmission mechanism 9, and the suction blower 4 is operated to suction the soil into the soil collection hopper 5. Generate force. The suction hose 37 is moved to the excavation position by the hose support device 45, and the suction nozzle 41 contacts the roadbed R. The soil is excavated by the suction nozzle 41 while the soil is crushed by the vertical vibration of the suction nozzle 41 or the hydraulic rock drill by the operator. The sucked earth and sand is collected in the collection chamber 20, and the fine dust is separated from the suction airflow by the filter 22 by the filter action, falls on the filter chamber bottom plate 27, and is directed to the collection chamber 20 along the filter chamber bottom plate 27. Fall.
[0016]
When the inside of the soil collection hopper 5 is filled with the sucked earth and sand, it is loaded on the dump truck. When the vehicle is transferred to the dump truck, after the vehicle body is grounded and fixed by the outrigger 53, the earth and sand collection hopper 5 is tilted laterally by the side dump cylinder 31 from the earth and sand collection position A in FIG. 3 to the earth and sand discharge position B in FIG. . Since the tilted fulcrum C is provided a considerable amount above the chassis 2 as described above, the tilted earth and sand recovery hopper 5 is located above the vessel of the dump truck. Then, the discharge door 33 is opened by the opening / closing cylinder 35, and the earth and sand is directly reloaded from the discharge port 32 to the dump truck. When the sediment collection hopper 5 is tilted, the inclined connection end surface 36a of the connection part 36 of the sediment collection hopper 5 is connected to the inclined connection surface 39a at the hose end of the suction hose 37, and the airtight member 13 of the exhaust part 11 is connected to the suction duct 10 Are separated from the connection end faces of the suction openings 12. When the transfer of the earth and sand to the dump truck is completed, the earth and sand collection hopper 5 is tilted from the earth and sand discharge position B to the earth and sand collection position A, and the connection end face of the airtight material 13 of the exhaust part 11 and the suction opening 12 of the suction duct 10 is connected. Then, the inclined connection end surface 36a of the earth and sand collection hopper 5 and the inclined connection end surface 39a of the suction hose 37 are automatically air-tightly connected, and the suction excavation can be performed again.
[0017]
【The invention's effect】
As described above, in the present application, the suction hose is separated from the hopper side when the earth and sand collection hopper is tilted at the time of earth and sand discharge, so that the flexible suction hose does not bend by the hopper tilting operation, and damage can be reduced, In addition, if the hopper is placed in a horizontal state after the discharge, the end of the suction hose and the connection portion of the hopper are automatically connected, so that there is no need for a separate connection work by the operator. Further, since the discharge door is provided on the upper surface of the hopper, the apparatus can be made simpler and smaller than in the related art in which the entire upper surface of the hopper is opened and a lid is provided to cover the opening. In addition, since the tilting fulcrum is considerably higher than the chassis, it can be discharged to a high position. In addition, since the lower part of the filter is a bottom plate inclined toward the collection chamber, dust dropped from the filter is also collected in the collection chamber.
[Brief description of the drawings]
FIG. 1 is a longitudinal sectional view of a suction wheel according to the present invention.
FIG. 2 is a plan view of a suction wheel.
FIG. 3 is an explanatory view showing a soil collection position of a soil collection hopper.
FIG. 4 is an explanatory view showing a sediment discharge position of a sediment recovery hopper.
FIG. 5 is an explanatory diagram showing a connection between a terminal of a suction hose and a connection pipe.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Suction car 2 Chassis 4 Suction blower 5 Sediment collection hopper 19 Filter room 20 Collection room 21 Opening 22 Filter 27 Filter room bottom plate (inclined bottom plate)
28 inclined side plate 32 discharge port 33 discharge door 36 connection part (connection pipe)
37 Suction hose 38 Suction hose holding members 36a, 39a Inclined connection end surface A Sediment collection position

Claims (4)

The earth and sand collection hopper is provided on the chassis so as to be tilted, and a suction blower is provided.The end of the suction hose is connected to the earth and sand collection hopper, and the suction force of the suction blower is applied to the tip of the suction hose via the collection hopper. In a suction truck that sucks sediment, a sediment collection hopper is provided so as to be tilted to the side of the chassis from a sediment collection position where the sediment is horizontally held on the chassis and collects sediment, and a discharge opening / closing a discharge port provided on an upper surface of the hopper. A door is provided on the upper surface of the hopper, the earth and sand collection hopper is provided with a connection portion with a suction hose end, a suction hose holding member is fixed to the chassis, and the suction hose holding member holds the suction hose end, and a suction hose is provided. And the connection part are separated when the sediment collection hopper is tilted from the sediment collection position for discharging the sediment, and the sediment collection hopper is moved to the sediment collection position. Suction wheel, characterized by being configured so as to be connected to the that. The earth and sand recovery hopper is a sloped side plate having an upward slope from the bottom toward the tilting direction side, and is supported at an upper position of the sloped side plate so as to be able to tilt sideways around an axis in the vehicle longitudinal direction. Item 4. The suction vehicle according to Item 1. A connection pipe protrudes rearward from the rear surface of the earth and sand collection hopper, and the end of the suction hose is positioned opposite to the rear of the connection pipe when the hopper is in the earth and sand collection position, and the connection end face of the connection pipe is connected to the axis of the connection pipe. With the inclined connection end face rising upward toward the rear, and the connection end face at the end of the suction hose as an inclined connection end face inclined in the same direction as the inclined connection end face of the connection pipe, so that the sediment collection hopper is at the sediment collection position. 3. The suction wheel according to claim 2, wherein the two inclined connection end faces are connected when returning. The sediment collection hopper has a filter chamber at the front side of the collection chamber and a filter at the top of the filter chamber.The bottom of the filter chamber below the filter descends toward the collection chamber and becomes a sloped bottom plate. The suction wheel according to any one of claims 1 to 3, wherein the suction wheel is open.

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