DE4138619A1 - Soil etc. exhauster with loose material accumulator - which has connecting branch for soil suction tube, coupling branch for suction line, and jib holder - Google Patents

Abstract

The exhauster has a loose material accumulator with an outlet aperture in the bottom. The accumulator (6) has connecting branch (10), for a soil suction tube (9), and one (11) for a suction house (11). There is a holder (13) for the jib arm (3) of a construction vehicle (2) and a swivellable discharge flap (14). Pref. the accumulator is formed as a cyclon separator. USE/ADVANTAGE - For excavations protecting unmapped underground service lines, with simple and easy operation.

Description

The invention relates to a device with a bulk material collection container with drain opening on the bottom for sow of pourable goods, especially soil.

The pro is often the case with earthworks in inhabited areas blem that the location of pipes and Ka is not known with sufficient accuracy. A The use of excavators is extraordinary in such cases risky, so that in many cases the excavation is done manually to be led. Removing the soil from the construction pit is awkward and time-consuming in such cases.

The object of the invention is to provide a device create, by means of which manual excavation from construction pits is simplified and facilitated.

According to the invention, the object is achieved by Characteristic features of claim 1. Advantageous designs of the invention are set out in the dependent An sayings described.

According to the invention it is possible to collect the bulk goods container near the excavation site for soil lead so that only short suction paths are required. Here through it is possible to convey the suction material vertically and then over a short downward gradient boom into the Bulk bulk container to bring. Deposits of suction This avoids well on the tube or tube plate.

Exemplary embodiments of an invention are shown in the drawings device according to the invention shown below are explained. It shows

FIG. 1a, respectively, a device in a schematic side view and 1b in a direction indicated situation of use,

FIGS. 2a and 2b embodiments of the apparatus of FIG.

1a and 1b in an enlarged side view,

FIGS. 3a and 3b, the devices according to Fig. 2a and 2b in plan view, in partial section,

Fig. 4 shows the bottom section of the bulk material collection container in a schematic side view in section.

The device 1 shown in Fig. 1 has a bulk gutsammelbehälter 6 which is fixed to the arm 3 of a construction vehicle 2. This can e.g. B. be an excavator or similar device. For this purpose, a holding device is net angeord at the upper end portion of the bulk material collecting container 6 , which consists of holding struts 29 brought together at a distance from the bulk material collecting container 6 . In this area, a holder 13 is formed, by means of which the bulk material container 6 can be connected to the one cantilever strut 31 of the cantilever arm 3 . The holder 13 is preferably formed as a cardan joint. The holder 13 expediently has a hydraulic actuating device which can be connected by means of a hydraulic control line 28 to a hydraulic unit 33 of the construction vehicle 2 . The hydraulic actuating device can be designed as a rotary servo device. The cantilever arm 3 of the construction vehicle 2 consists, in a known manner, of two cantilever struts 31 , 32 which are connected to one another by means of a joint 30 . The other end section of the boom strut 32 is pivotally mounted on the construction vehicle 2 by means of a joint 34 . A suction blower 12 arranged on the construction vehicle 2 is connected to the device 1 by means of a suction line 11 in order to extract soil from the construction pit 4 by means of the device 1 , the construction vehicle 2 being located on a terrain level 5 .

On the cover side, the bulk material collecting container 6 of the device 1 has an intake pipe 10 , to which the suction line 11 can be connected by means of a coupling (not shown). In the side wall 20 of the bulk material collecting container 6 , a further connecting piece 8 is formed, which leads into the bulk material collecting container 6 . The opening section of the connecting piece 8 can be closed by means of a flap 53 . The connecting piece 8 is connected to a boom pipe 15 of a bulk material suction pipe 9 . The boom tube 15 is directed upwards to the horizontal, so that pourable goods which are deposited in the boom tube 15 can easily be conveyed into the bulk material collecting container 6 by the suction force of the sucked-in air due to the gradient. A holder 21 is provided on the side wall 20 to hold the boom tube 15 ( FIG. 2a).

In a further embodiment of the device 1 , the end section 42 of the boom tube 15 is rotatably guided through the side wall 20 of the bulk material collecting container 6 in such a way that the boom tube 15 can be pivoted vertically. For this purpose, the end section 42 of the extension tube 15 is mounted in a gas-tight bearing 43 in the side wall 20 . The boom tube 15 is connected to a hydraulic cylinder 44 arranged on the side wall 20 of the bulk material collecting container 6 ( FIG. 2b).

For separating pourable soil sucked in with the suction air in the bulk material collecting container 6 , this can be configured either as a cyclone or else a baffle plate is arranged at the container-inside outlet of the connecting piece 8 . However, it is also possible to introduce the connection piece 8 of the boom tube 15 tangentially into the bulk material collecting container 6 and to arrange a spirally downward guide plate 36 on the container inner wall 35 ( FIG. 3b). This can, for. B. extend over the full circumference of 360 ⁰ and is used to guide the sucked bulk in the bulk container 6th The suction air is sucked abge by a verbun with the intake manifold 10 immersion tube 51 from the bulk material container 6 . In the dip tube 51 , slots 54 are formed on which tangential baffles 52 can be seen easily.

The free end portion 16 of the boom tube 15 can be formed as an arc piece 17 . Either a suction pipe 19 or a hose is fastened to this vertically by means of a coupling 18 . The use of a hose 19 increases the flexibility when vacuuming soil in the construction pit 4 .

It is advantageous to design the elbow piece 17 as a hose piece with a predetermined radius, which is connected to the extension tube 15 by means of a coupling 18 . It is also possible, however, to train the suction pipe 19 from a piece of hose, the upper end portion of which is formed to the curved piece 17 with a given radius. The lower end portion 37 of the suction tube 19 or the hose is bent opposite to the curved piece 17 , so that the suction opening 39 of the suction tip 38 is arranged at an oblique angle to the horizontal. This makes the handling of the suction pipe 19 in the construction pit 4 easier.

The free end section of the suction pipe 19 or of the corresponding hose is located in the construction pit 4 in the area where the soil has been manually cleared. But it is also possible to provide at least one air lance 40 on the suction pipe 19 , which is guided to the suction opening 39 of the sow tip 38 of the suction pipe 19 . By means of this at least one air lance 40 , the soil to be extracted can be loosened in the excavation pit 4 . In addition, there is also the possibility of providing a pressure water line 41 on the suction pipe 19 , which is also guided up to the suction opening 39 of the suction tip 38 of the suction pipe 19 ( FIGS. 2a and 2b). The introduction of pressurized water via the Druckwas serleitung 41 is advantageous if the soil to be extracted from the construction pit 4 has a loamy consistency. With means of the air lance 40 or the pressurized water line 41 , the operator of the device 1 in the excavation pit 4 can reduce the earth as much as needed without any manual work so that it can be suctioned off. In order to prevent malfunctions due to suction of large lumps of earth to which the suction opening 39 of the suction tip 38 could block the suction opening 39 , it is expedient to see an actuator for a quick shutdown of the device 1 on the suction pipe 19 .

On the side wall 20 of the bulk material collecting container 6 , a holding arm 23 is furthermore pivotably mounted by means of a hydraulic actuator 22 . The hydraulic actuator 22 is connected to the hydraulic unit 33 and can be operated by the operator of the excavator 2 . A plate 25 , which forms the emptying flap 14 , is formed at right angles on the free end section 24 of the holding arm 23 . When pivoting from the holding arm 23 , as shown by dashed lines in Fig. 2a, the plate 25 releases the emptying opening 7 of the bulk material container 6 , so that the soil in this can fall out of the bulk material container 6 . When the support arm 23 is attached to the side wall 20 , the plate 25 forms the container bottom 26 and thus closes the bulk material container 6 . To seal the plate 25 on the bulk collection vessel 6 of the bulk material collecting container 6 a circumferential seal 50 may be cut at Öffnungsab 49 are arranged, to which the plate 25 at the end of the bulk material Ver header 6 to be brought into abutment (FIG. 4).

It is also possible to pivotally mount the plate 25 on one side of the bulk material collecting container 6 in a bearing 46 and to provide on the plate 25 a cantilevered arm 23 over the bearing 46 . On this arm 23 the piston rod can be connected to a hydraulic cylinder 47 48, wherein the hydraulic cylinder 47 constitutes the hydraulic actuator 22nd

Claims (19)

1. A device with a bulk material collecting container with bottom-side discharge opening for sucking pourable material, in particular ground, characterized because by in that at the bulk storage tank (6) to a connecting piece (8) Schüttgutsaugrohr (9), a connection piece (10) for a suction line ( 11 ), a holder ( 13 ) for a cantilever arm ( 3 ) of a construction vehicle ( 2 ) and a pivotable emptying flap ( 14 ) is formed. 2. Device according to claim 1, characterized in that the bulk material container ( 6 ) is designed as a cyclone. 3. Apparatus according to claim 1, characterized in that an impact separator is arranged on the inside of the container end portion of the bulk collecting container ( 6 ) inserted connecting piece ( 8 ). 4. The device according to claim 1, characterized in that a spirally downwardly guided baffle ( 36 ) is arranged on the inside of the container end portion of the in the bulk material collection container ( 6 ) inserted connecting piece ( 8 ) on the inside wall of the container ( 35 ). 5. The device according to claim 1, characterized in that the bulk material suction pipe ( 9 ) consists of a to the connecting piece ( 8 ) having a slope boom pipe ( 15 ) with the free end portion ( 16 ) formed bend piece ( 17 ) on which by means of a coupling ( 18 ) a vertically downward directed suction pipe ( 19 ) or a hose is attached. 6. The device according to claim 5, characterized in that the elbow ( 17 ) is designed as a piece of hose with a predetermined radius, which is connected by means of a coupling ( 18 ) to the boom tube ( 15 ). 7. Apparatus according to claim 5 and 6, characterized in that the suction pipe ( 19 ) consists of a piece of tubing be, the upper end portion is formed as a curved piece ( 17 ) with a predetermined radius. 8. The device according to claim 5 to 7, characterized in that the lower end portion ( 37 ) of the suction tube ( 19 ) opposite to the curved piece ( 17 ) is bent. 9. The device according to claim 5 to 8, characterized in that on the suction pipe ( 19 ) at least one air lance ( 40 ) is arranged and up to the suction opening ( 39 ) of the suction tip ( 38 ) of the suction tube ( 19 ) is guided. 10. The device according to claim 5 to 9, characterized in that a pressure water line ( 41 ) is arranged on the suction pipe ( 19 ) and up to the suction opening ( 39 ) of the suction tip ( 38 ) of the suction pipe ( 19 ) is guided. 11. The device according to claim 1 and 5, characterized in that on the side wall ( 20 ) of the bulk material container ( 6 ) a holder ( 21 ) for the boom tube ( 15 ) is formed. 12. The apparatus of claim 1 and 5, characterized in that the end portion ( 42 ) of the boom tube ( 15 ) is rotatably guided through the side wall ( 20 ) of the bulk material collecting container ( 6 ) that the boom tube ( 15 ) is vertically pivotable . 13. The apparatus according to claim 12, characterized in that the end portion ( 42 ) of the boom tube ( 15 ) is mounted in a gas-tight bearing ( 43 ) in the side wall ( 20 ) and that the boom tube ( 15 ) with one on the side wall ( 20th ) the bulk material container ( 6 ) arranged Hy draulic cylinder ( 44 ) is connected. 14. The apparatus according to claim 1, characterized in that on the side wall ( 20 ) of the bulk material container ( 6 ) by means of a hydraulic actuator ( 22 ) pivotable holding arm ( 23 ) is mounted, at the end portion ( 24 ) as an emptying flap ( 14 ) a plate ( 25 ) forming the container bottom ( 26 ) is arranged. 15. The apparatus according to claim 14, characterized in that the plate ( 25 ) on one side on the bulk material container ( 6 ) in a bearing ( 46 ) is pivotally mounted and has a projecting over the bearing ( 46 ) holding arm ( 23 ) with a than Hydraulic cylinder ( 47 ) trained hydraulic actuator ( 22 ) is connected. 16. The apparatus according to claim 1, characterized in that the holder ( 13 ) has a hydraulically actuated Stellein direction. 17. The apparatus according to claim 16, characterized in that the holder ( 13 ) is designed as a universal joint. 18. The apparatus according to claim 16, characterized in that the hydraulically actuated control device as a rotary servo device is trained. 19. The apparatus according to claim 14, characterized in that the plate ( 25 ) on a at the opening portion ( 49 ) of the bulk material container ( 6 ) arranged circumferential seal ( 50 ) can be brought into contact.