JPS63223239A - Apparatus for discharging accumulated substance in sewage - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

[Detailed Description of the Invention] [Industrial Field of Application] This invention provides a method for transporting and depositing tt in the sewage system.
This relates to a device that sucks and discharges deposits such as garbage and sludge.

[Prior art]

Conventionally, as a discharge device for sediment in the sewer, the Japanese Patent Application Laid-open No. 55
- As announced in Publication No. 159056, pulleys are installed at the joints between adjacent manholes and sewers, and the vehicle is equipped with nine turntables, a forward winding drum, a backward winding drum, and a rope guide boot. A boom equipped with an IJ is installed, and a retracting rope connected to the rear of the packet is wound around one pulley, and then passed through the other pulley and rope guide pulley to the retracting drum. attaching the forwarding rope connected to the front part of the packet to the forwarding winding drum via the other pulley and the rope guide pulley, and causing the forwarding winding drum to move the packet forward via the front rope; The sediment in the sewer is scooped into the packet, and then the packet is hoisted from inside the manhole to the ground via the front rope by the forward winding drum. After nine minutes, the packet is turned over and the sediment inside the packet is placed on the bed of a truck. There is known a device for discharging a container, which is constructed so that the packet is introduced into the sewer, and then lowered into the sewer from a man hole by a winding drum for retreat, and then the packet is moved to the rear in the sewer.

[Problem that the invention seeks to solve]

However, in the case of the conventional sewage forward sediment discharge device, the level of the packets from the bottom of the sewer becomes higher when the packets are closer to the pulley, so a relatively large amount is deposited at the bottom of the sewer at a position near the pulley. The deposits remain, and the packet must be bent and moved vertically and horizontally through the pulley, making it difficult to bend and move the packet smoothly.Furthermore, in order to move the packet forward with a large force, When the tension of the rope is increased,
As the packets lift up significantly from the bottom of the sewer, a considerable amount of sediment is left in the sewer.
There is a problem in that the sediment in the sewer cannot be forcefully scooped into the packet by moving the filter packet forward forcefully close to the bottom of the sewer.

[Purpose and structure of the invention]

The object of the present invention is to provide a suction and discharge device for sewage advancing sediment that can advantageously solve the above-mentioned problems. Front tension fixing devices 2 that extend and contract in the left and right directions are attached to both left and right sides of the front running frame 1 that supports the suction side portion of A tension fixing device 4 is attached, and the front running frame 1 and the rear running frame 6 are connected via a grouping hydraulic cylinder 5 extending in the front-rear direction. Located in the ejector.

〔Example〕

Next, the present invention will be explained in detail using illustrated examples.

Figures 1 to 5 show a first embodiment of the present invention, in which a sewer main body 6 made of concrete IJ-shaped with an upwardly opening groove is removably fitted into the upper part of the sewer main body 6. A front running frame 1 and a rear running frame 5, each equipped with running wheels 9t, are placed at the bottom of a sewer 8 consisting of a large number of concrete lids 7, and the rear running frame 5VC1 extends in the left-right direction. At the same time, a cylinder 11 having an air inlet/outlet 10 in the center is fixed, and hollow cylinders 12 whose outer ends are closed are slidably fitted on both the left and right sides of the cylinder 11. The body 12 is connected via a shortening spring 15 made of a helical spring, and is further connected to a rubber platen 14 fixed to the outside of the outer end of the hollow cylindrical body 12 and a side plate of the front traveling frame 1. The ends of a bellows tube 15 made of BIM that covers the exposed part of the cylinder 12 and the end of the cylinder 11 are fixed, and a hollow cylinder 12 with a pressure plate 14 slidably fitted into the cylinder 11 and a shortening spring are provided. 15 constitutes a rear tension fixing device 4 that expands and contracts in the left-right direction.

The cylinders 16 of the front tension fixing device 2 having the same structure as the rear tension fixing device 4 are also fixed to the front running frame 1, and the cylinders 16 are fixed to the left and right sides of the front running frame 1 and the left and right sides of the rear running frame 5. The cylinder 1 is connected to the cylinder 1 through a moving hydraulic cylinder 5 extending in the front-rear direction.
A bracket 18 supporting a vertical shaft 17 is fixed to the front part of the middle part of 6, a swing support member 19 is rotatably fitted to the vertical shaft 17, and a horizontal arm 20 of the swing support member 19 and a bracket 21 fixed to the front traveling frame 1 are connected via a turning hydraulic cylinder 22.

A rear end portion of a support arm 24 is pivotally attached to a lower portion of a vertical member 25 in the swing support member 19 via a horizontal axis, and an upper portion of the vertical member 23 and a front end portion of the support arm 24 are connected to a hydraulic cylinder 25 for vertical movement. An annular support fitting 26 is fixed to the lower front end of the support arm 24, and a large block suction prevention grid 27 is fixed to the front part of the annular support fitting 26. The extending suction hose 28 is supported by the lower parts of the front running frame 1 and the rear running frame 6, and the front end of the suction hose 28 is connected to the annular support fitting 26, and the annular support fitting 26 supports the front end of the suction hose 28. The support fitting 26 is connected to the swing support member 19 and the support arm 24 by the swing hydraulic cylinder 22.
and the hydraulic cylinder 25 for vertical movement, and is moved in the vertical direction via the support arm 24 by the hydraulic cylinder 25 for vertical movement.

A television camera 29 with an illumination device for photographing the deposit suction section is attached to the vertically moving fluid pressure cylinder 25,
A suction unit 52 having a vacuum pump is placed and fixed on the body 51 of a truck 50 on the ground, and consists of a tank body 55 whose rear end is open and a lid 5 that is opened and closed by an opening and closing fluid pressure cylinder 54. The vacuum suction tank 56 is
The tank body 6 is disposed at the rear upper part of the vehicle body 51.
The lower rear end of the tank 5 is pivotally connected to the vehicle body 51 by a transverse shaft roller 7, and the vehicle body 31 and the tank body 55 are connected via a fluid pressure cylinder 58 for rotating the tank.

The suction port of the vacuum pump is connected to the upper part of the tank body 55 through a suction hose 59f, and the rear end of the suction hose 28 is connected to the upper part of the tank body 55. The vacuum suction tank 36 is connected to the suction unit 52, and the suction hose 28 is connected to the vacuum suction tank 56Vc, and the suction and discharge device is connected to is configured.

When the sewage forward sediment discharge device of the first embodiment is used to discharge the sediment 42 in the sewer 8, the vacuum pump is operated to apply a vacuum suction force to the suction hose 28,
The rear tension fixing devices 4 attached to both left and right sides of the rear running frame 5 are extended and brought into pressure contact with both side walls of the sewer 8, and the front tension fixing devices 4 attached to both left and right sides of the front running frame 1 are extended. The fixing device 2 is shortened to move away from both side walls of the sewer 8, and in the next state, the front traveling frame 1 is moved forward by the extension operation of the moving fluid pressure cylinder 5, and the front part is tensioned and fixed on both the left and right sides. The device 2 is extended and brought into pressure contact with both side walls of the sewer 8, and the left and right rear tension fixing devices 4f are shortened and separated from the both side walls of the sewer 8, and in the next state, the moving hydraulic cylinder 5 is shortened. By repeating the operation of moving the rear traveling frame 3 forward, the front traveling frame 1 supporting the suction side portion of the sewage whitening deposit suction and discharge device is moved forward intermittently. Furthermore, the turning fluid pressure cylinder 22
The annular support fitting 26 supporting the front end of the suction hose 28 is rotated by ! The annular support fitting 26 is moved in the vertical direction by the vertically moving hydraulic cylinder 25 as required.

In this way, the deposits 42 in the sewer 8 are suctioned by the suction hose 28 and transported into the vacuum suction tank 56. When discharging the deposit carried into the vacuum suction tank 56, the operation of the vacuum pump is stopped, and then the fluid pressure cylinder 58 for rotating the tank is extended to tilt the vacuum suction tank 56, and the vacuum suction tank 56 is opened and closed. The hydraulic cylinder 54 is extended to open the lid '55.

If the end of the sewer branch pipe 45 protrudes from the inner surface of the side wall of the sewer 8, adjust the stroke of the moving fluid pressure cylinder 50 to avoid the branch pipe 45 from protruding from the front end at a sheltered position. The tension fixing device 2 and the rear tension fixing device 4 are brought into pressure contact with the side wall of the sewer 8.

FIG. 6 shows the proportionality of this invention applied to a sewerage sediment discharge device having a circular cross section, in which the outer surface of the Zam platen 14 is a cylindrical surface, and the running wheels 9 are inclined. However, the other configurations are the same as in the first embodiment.

7 to 9 show a cylinder 11 according to a second embodiment of the present invention, with rubber airbags 44 connected to both ends thereof to constitute a rear tension fixing device 4, and an air inlet/outlet 't'.
Rubber airbags 45 are connected to both ends of the N cylinder 16 to constitute the front tension fixing device 2, but the other configurations are the same as in the first embodiment.

When carrying out this invention, a pneumatic cylinder, for example, is used as each of the fluid pressure cylinders. Furthermore, the suction side portion of the suction and discharge device supported by the front traveling frame 1 may have any structure other than that shown in the drawings.

If necessary, the rear tension fixing device 4'f is attached to both sides of the water pipe 46, and the front tension fixing device 4'f is extended to press against both sides of the sewer 8. The tension fixing device 2t is shortened and moved away from both side walls of the sewer 8, and in the next state, the front traveling frame 1 is moved forward by the extension operation of the moving fluid pressure cylinder 5, and the front part tensioning on both the left and right sides is performed. The fixing device 2 is extended and brought into pressure contact with both side walls of the sewer 8, and the rear tension fixing devices on both the left and right sides are shortened by 4 ft to separate from the both side walls of the sewer 8, and in the next state, the moving fluid pressure cylinder 5 is shortened. By repeatedly performing the operation of moving the rear traveling frame 5 forward, the front traveling frame 1, which supports the suction side portion of the sewage advancing sediment suction and discharge device, can be moved to the sewer by simple means. It can be powerfully moved forward along the bottom IC in 8, and the moving fluid pressure cylinder 5
By changing the expansion/contraction stroke of the sewer 8, the pressing position of the front tension fixing device 2 and the rear tension fixing device 4 against both side walls of the sewer 8 can be adjusted in the longitudinal direction of the sewer 8, so that the side wall surface of the sewer 8 can be adjusted. Even if the end of the sewer branch pipe slightly protrudes from the front tension fixing device 2,
Effects such as the ability of the front traveling frame 1, which is fully equipped, and the rear traveling frame 3, which is equipped with the rear tension fixing device 4, can freely move forward through the branch pipe protrusion are obtained. It will be done.

[Brief explanation of drawings]

1 to 5 show a first embodiment of the present invention, in which the rear tension fixing device is tension-fixed to both side walls of the sewer, and the front tension fixing device is fixed to the sewer.
Fig. 2 is a plan view showing the next state when the front tension fixing device is tension-fixed to both side walls of the sewer, and the rear tension fixing device is separated from both side walls of the sewer. FIG. 5 is a partial vertical side view of the sewerage sediment discharge device, FIG. 4 is a vertical front view thereof, and FIG. 5 is a side view of the suction unit mounted on a truck, vacuum suction tank, etc. It is. FIG. 6 is a longitudinal sectional front view showing an example in which the present invention is implemented in a sediment discharge device for a sewer with a circular cross section. 7 to 9 show a sewerage sediment discharge device according to a second embodiment of the present invention, in which FIG. 7 is a plan view, FIG. 8 is a partially longitudinal side view, and FIG. is a longitudinal front view. In the figure, 1 is a front running frame, 2 is a front tension fixing device, 5 is a rear running frame, 4 is a rear tension fixing device,
5 is a moving fluid pressure cylinder, 8 is a sewer, 9 is a traveling wheel, 10 is an air inlet/outlet, 11 is a cylinder, 12 is a hollow cylinder, 15 is a shortening spring, 14 is a rubber back seat, 16 is a cylinder, 17 is a vertical axis, 19 is a rotation support member, 22 is a hydraulic cylinder for rotation, 24 is a support arm, 25 is a hydraulic cylinder for vertical movement, 26 is an annular support fitting, 27 is a grating for preventing large lump suction, and 28 is a suction Hose, 29 is TV camera, 5
0 is a truck, 52 is a suction unit, 54 is a fluid pressure cylinder for opening and closing, 55 is a lid, 56 is a vacuum suction tank, 58 is a fluid pressure cylinder for rotating the tank, 40 is a monitor television,
42 is a deposit.

Claims (1)

[Claims] Front tension fixing devices 2, which extend and contract in the left-right direction, are attached to both left and right sides of a front running frame 1 that supports the suction side portion of the sewerage sediment suction and discharge device. , a rear tension fixing device 4 that expands and contracts in the left-right direction is attached, and the front traveling frame 1 and the rear traveling frame 3 are connected to a moving hydraulic cylinder 5 that extends in the front-rear direction.
An in-sewer sediment discharge device characterized by being connected via a sewage system.