CZ287281B6 - Device for unloading material - Google Patents

Abstract

The invented device is formed by an upward open container (1) consisting of a rear face (4) a bottom (2) and two elongated side walls (3, 3'), converging to each other in the direction from the inner surface of the rear face (4), that is provided on its outer surface with quick-clamping means (7) for removable securing of the container (1) to a vehicle (22) lifting gear (21), whereby the container is provided on the side opposite to the rear face with a front face (5) and on its bottom (2) with driven rotary screw feeder (8) passing through a hole in the front face (5) and reaching in a compression device (11) that is arranged on outer surface of the front face. The compression device (11) comprises a cylindrical tube (12) and a narrowing conical termination (13) following up therewith that is provided with a discharge hole (14) for compressed unloaded material. The cylindrical tube (12) of the compression device (11) inside diameter is slightly greater than outside diameter of the rotary screw feeder (8), whereby a compression section (8'') of the rotary screw feeder reaching in the cylindrical tube (12) is whole or partially covered with elastic rubber material in order to seal thereof against the cylindrical tube (12) inner wall.

Description

Material unloading equipment

Technical field

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a device for unloading a material consisting of an upwardly open container comprising a rear face, a bottom and two longitudinal side walls, converging towards each other in the direction of the inner face of the rear face. detachable container attachment to the vehicle lifting device.

BACKGROUND OF THE INVENTION

Material unloaders of this type are used for metering concrete in various concrete works. Previously known devices were manufactured from individual plates, i.e. a planar, wedge-shaped bottom plate, a rear end plate that was perpendicular to the bottom plate, and two longitudinal side plates that were also perpendicular to the bottom plate . Due to the wedge shape of the bottom plate, the longitudinal side plates thus converge in the direction of the outlet opening at the front end of the housing. Due to the constriction, the casing has the character of an outlet tube from which concrete can be discharged through a hole of limited width.

Although these material unloading devices are relatively simple and inexpensive to manufacture, they have a number of drawbacks, particularly in the field of emptying them during operation.

The concrete is discharged by means of a vehicle lifting device such that the casing is set to a forward inclined position, in which the concrete, due to gravitational forces, slides on the bottom plate of the casing towards the discharge opening. From this hole the concrete falls in portions to the designated places. However, it is often necessary for the housing to be tilted several times to allow the concrete to move towards the drain. This type of concrete discharge is very sensitive to execution if the actual concreting is to be successful, since the vehicle operator must hold the box in a tilted position at a specific time and at the same time drive the vehicle so that the concrete spreads over the entire concreting surface. If the cabinet is tilted too much, more concrete is discharged in one place than required. Conversely, if the cabinet is low, too little concrete is released.

SUMMARY OF THE INVENTION

The above-mentioned drawbacks are eliminated by a material unloading device consisting of an upwardly open container consisting of a rear face, a bottom and two longitudinal side walls, converging towards each other in a direction away from the inner surface of the rear face provided with quick-release means on its outer surface. for detachably attaching a container to a vehicle lifting device according to the present invention, wherein the container is provided with a front face on the side opposite the rear face and a rotatable screw feeder at its bottom, passing through a front face opening extending into the compression device; arranged on the outer face of the front face and consisting of a cylindrical tube, and a conical end adjoining and tapering thereto, which is provided with an outlet opening for compressed inlaid material.

Further, the apparatus of the present invention provides that the cylindrical tube of the compression apparatus has an inner diameter slightly greater than the outer diameter of the rotary screw feeder, wherein the cylindrical tube extending into the compression portion of the rotary screw feeder is all or partly covered with flexible rubber material.

-1 CZ 287281 B6

In a preferred embodiment, the conical end is provided with a means for connecting the hose at the outlet opening, the bottom of the container having a cross-sectional shape with an internal concave surface, the longitudinal side walls diverging upwards from the bottom , to automatically move the unloaded material 5 down the container to the rotary screw feeder.

It is also essential for the device that the rear face is formed by a box body with two spaced apart front plates, at least a portion of the drive mechanism of the rotary screw feeder 10, which is formed by a hydraulic motor, is located in the space between the front plates. and a movement transmission element provided between the rotary screw feeder shaft and the output shaft of the hydraulic motor connectable to the fluid distribution system of the vehicle hydraulic system, the transmission element preferably moving the chain transmission.

Overview of the drawings

An example of a particular embodiment of a material unloading device according to the invention is shown in the accompanying drawings, in which Fig. 1 shows a perspective view of a device with partial cuts and Fig. 2 a side view of a device mounted on a work vehicle during concreting.

DETAILED DESCRIPTION OF THE INVENTION

The container 1 consists of two longitudinal side walls 3, 3 'which are connected to each other by the bottom 2. The container 1 also comprises a rear face 4 and a front face 5. The rear face 4 has the shape of a box comprising two separate plates 6 (FIG. 1, only one plate 6) is shown which forms a cavity between them. On the outside of the back plate 6 (which is not visible) there is a quick-release means 7 which allows the container 1 to be connected to the work vehicle 22. This clamping device 30 is of the conventional type and therefore will not be described in detail.

The front face 5 is formed by a single sheet of metal sheet. The bottom 2 is formed by a plate having a cross-section in the shape of an arc, wherein the two longitudinal side walls 3, 3 ', also made of metal sheet, extend from the bottom 2 outwards and upwards at a certain angle of inclination. As a result, the container 1 has a V-shaped cross-section.

It is further evident from FIG. 1 that the rear face 4 is wider at its upper edge than the upper part of the front face 5. Thus, the upper edges of the longitudinal side walls 3, 3 'converge towards the front face 5. In other words, the container 1 It has tapering edges in the direction of its front face 5. 40 In the bottom space 2 of the container 1 there is a rotary screw feeder 8, which in its usual form consists of a central shaft 9 and a helical blade 10 located on the shaft 9. the feeder 8 passes through its front end through an opening in the front face 5 and enters a compression device 11 which extends from the outside of the front face 5. The compression device 11 consists of a cylindrical tube 12 and a conical end 13 which tapers in the outward direction of the device. In practice, the tapered end 13 is formed from a tapered tapered piece of pipe, The tube is welded to the cylindrical tube 12. At its free end, the conical end 13 enters the outlet opening 14, which is provided with a means 15 to which the hose 16 is connected (see FIG. 2).

The screw feeder 8 is arranged along the entire length of the bottom 2 of the container 1 and further along at least a major part of the length of the cylindrical tube 12. In order for the screw feeder 8 to be mounted in the container 1 it is necessary in practice to consist of two parts to connect. One part is the feed part 8 'and the other part is the compression part 8'. The feeder part 8 ', located in the container 1, has a screw blade 10 made of sheet metal. Likewise, the screw blade 10 is compressed

The part 8 ”is made of metal sheet, but in this case the metal sheet, at least along the peripheral edge, is covered with a resilient material, for example a reinforced rubber, which forms the seal of the inner part of the cylindrical tube 12. 12 is made with an inner diameter slightly greater than the outer diameter of the screw blade 10. This ensures that a relatively weak rubber coating effectively seals the inside of the cylindrical tube 12.

By its rear end of the shaft 9, the concrete feeder is connected to a transmission element 17, which is a chain transmission, built into the cavity of the rear face 4, and connected to the shaft of the hydraulic motor 18 mounted on the front wall of the rear face plate 6 in the region outside the longitudinal side wall 3 of the container 1. The hydraulic motor 18 is connected via a hose (not shown) to a conventional hydraulic system of a working vehicle 22 and is driven by oil from its system.

Furthermore, it should be noted that at the bottom of the bottom 2 of the container 1 there is a support 19. If the container 1 is placed on a substrate, this support 19 provides the bottom 2 of the container 1 upwards towards the rear face 4. Between the upper edges A reinforcement 20 is provided to the longitudinal side walls 3, 3 'to ensure that the container 1 becomes sufficiently rigid even if its walls are relatively thin.

FIG. 2 shows how the container 1 is connected, by means of a quick-release device 7, to a lifting device 21, which is normally incorporated into the vehicle 22. By means of the vehicle 22 and its lift, the container 1 can be lifted, lowered and transported between concrete-covered places.

In practical use, the container 1 is filled with concrete from a concrete delivery vehicle. If the container 1 is transported to the actual concreting site by means of a working vehicle 22, the emptying (unloading) of the container is effected by turning the screw feeder 8.

In this case, the concrete at the bottom 2 of the container 1 is pushed through a cylindrical tube 12 and further through a tapered portion of the conical end 13 into the outlet opening 14. Due to the cross-sectional shape of the container 1 13, the concrete is compressed, thereby creating internal stresses within the concrete mass. This tension allows the concrete to pass through the hose 16 as shown in Fig. 2.

Depending on the length of the hose 16, the concrete may be guided to unloading points which are located at certain distances from both the container 1 and the vehicle 22. Thus, during emptying of the container 1, the operator need not tilt or otherwise move the container 1 or the vehicle 22 itself. .

Claims (7)

A material unloading device comprising an upwardly open container (1) consisting of a rear face (4), a bottom (2) and two longitudinal side walls (3, 3 ') converging towards each other in a direction away from the inner surface a rear face (4) provided with quick-release means (7) on its outer surface for detachably attaching the container (1) to the lifting device (21) of the vehicle (22), characterized in that the container (1) is provided on the side opposed to the rear face (4) by the front face (5) and at its bottom (2) by a rotatable rotary screw feeder (8) passing through an opening in the front face (5) and extending into a compression device (11) disposed on the outer face of the front face (5) and consisting of A cylindrical tube (12), and a conical end (13) adjoining and tapering thereto, which is provided with an outlet opening (14) for compressed inlaid material. Apparatus according to claim 1, characterized in that the cylindrical tube (12) of the compression device (11) has an inside diameter slightly greater than the outside diameter of the rotary screw feeder (8), wherein the compression part extending into the cylindrical tube (12). (8 ”) of the rotary screw feeder (8) is completely or partially covered with a resilient rubber material to ensure its sealing against the inner wall of the cylindrical tube (12). Device according to claim 1, characterized in that the conical end (13) is provided at the outlet opening (14) with means (15) for connecting the hose (16). Device according to claim 1, characterized in that the bottom (2) of the container (1) is in the cross-sectional shape of an arc with an internal concave surface, the longitudinal side walls (3, 3 ') facing upwards from the bottom (2). they diverg with respect to each other, to automatically move the unloaded material in the container (1) downwards to the rotary screw feeder (8). Device according to claim 1, characterized in that the rear face (4) is formed by a box body with two spaced apart front plates (6), wherein at least a part of the rotary drive mechanism is mounted in the space between the front plates (6). screw feeder (8). Apparatus according to claim 5, characterized in that the drive mechanism comprises a hydraulic motor (18) and a motion transmission element (17) provided between the shaft (9) of the rotary screw feeder (8) and the output shaft of the hydraulic motor (18). connectable to the fluid distribution system of the vehicle hydraulic system (22). Device according to claim 6, characterized in that the transmission element (17) moves the chain transmission.