DE957373C - Feeding device for garbage cans, especially on garbage trucks - Google Patents

Description

Pouring device for garbage cans, especially on garbage trucks add-on tin patent 953 9S3 The invention relates to a pouring device for Garbage cans, in particular on garbage trucks, in which a pressure medium such. B. compressed air, moving piston pivoted a swivel arm with the barrel, wherein according to the main patent the common self-supporting housing also a control and having switching element.

Up to now, a large one was required to switch the work processes Number of connecting and connecting lines. It is even possible that several switching devices were required be presented next to each other. Quite apart from the fact that such a construction is extremely difficult to carry out in the tight spaces, are the many connections also disadvantageous; they make the system more expensive and also need it a lot of material.

In addition, the well-known switching elements easily get stuck and are difficult to move.

According to the invention, these disadvantages are eliminated in that the the switching element used for pivoting is designed with only four connection points, in such a way that the supply and discharge of the pressure medium, the control of the piston and the switching on and off of the drain, z. B. Vent, over one in the switching element overlapping canal system brought about and the operations can be controlled sequentially and without loss.

In pursuit of the inventive concept, the switching element is in the cone a main channel and crosswise to it intersecting channel guides with cavities and leads to the stub shaft provided.

The connecting line advantageously leads from the stub shaft to the vent body on the stiffening pipe.

To move the switching element slightly even at different pressures According to the invention, the conical surfaces acted upon by the pressure medium become possible the switching element designed in such a way that these surfaces are the same or similar Have area.

Another advantage results from the fact that a lubricant against the inner bottom surface of the cone acts.

In the drawing, the invention is shown as an example.

Fig. I shows the switching element in connection with the working cylinder; Fig. 2 shows a section A-A through the cone; 3 shows a schematic side view of the switching element with the Druclsbeaufschlagung.

The switching element Ig is shown in Fig. I in plan view. It exists from the cone housing 1 and the actual cone 2, which is in this cone housing is rotatably mounted. In the housing are the connection openings 3, 4, 5 for Pressure medium supply line 24 and the connecting lines 26, 27 to the piston cylinder 20. This piston cylinder with its piston 21 and the piston rod 22 is only schematic shown. The cone has channels, which are due to their special location and design the connections required in each case for the successive work processes can be produced. The main channel 8 is provided in the cone with an extension 15 on one side of the cone. Run across it, intersecting the main canal the two connecting channels 9 and 10 in such a way that the channel mouths once open out in the cone shell and on the other hand unite in the cone neck I3 and from there lead out to the ventilation body 14. The openings opening into the cone shell are expanded by connecting spaces 6 and 7 in a corresponding manner.

In the switching element I8 air flows through the line 24 and connection opening 3 into the cone housing I and passes through the air duct 8 into the cone 2. In FIG the cone 2 is shown in the middle position, i. i.e., it stands so that the opening of the Channel 8 exactly in the middle between connections 4 and 5 to lines 26, 27 to the cylinder 20 is located. In this position the pressure medium inflow is over 24, 3 and 8 locked.

The connections 26, 27 to the piston cylinder 20, however, are with the two Connecting spaces 6 and 7 to the ventilation body 14 via the channels 9 and 10 tied together. The pressure spaces above and below the piston are therefore in this he Position balanced. If by turning the cone 2 of the air duct 8 with the Line 26 connected, so air flows through line 24, air duct S, 4 into the line 26 to the cylinder 20 and pushes the piston 2 r downwards. Simultaneously becomes the cylinder roughness below the piston 21 through the line 27.

Feed 5 in the cone housing 1 via the connecting space 6 through the Channel 10 and connected to the vent body 14 through the stub shaft 13. is the piston in the cylinder 20 has reached the bottom, the cone 2 is automatically or by Hand brought back to the middle position. The pressure medium relaxes here in the cylinder 20 above the piston 2I via the line 26, feed 4 in the Isegelgehäuse I in the connecting space 7 and through the channel to the stub shaft I3 also to the Ventilation body 14. Both cylinder chambers are above and below the piston now again under normal atmospheric pressure.

If the cone 2 is rotated to the other side, so that the air through 24 8. 5. 27 can flow into the cylinder 20, this moves the piston 21 to the top. At the same time, however, the air in the cylinder 20 is above the piston 21 through the line 26, connecting space 7, channel 9 and the stump I3 into Free led. When an emptied barrel is tilted back, the piston 2I becomes only moved about a quarter upwards, then the garbage can falls under its own weight back down to the starting position. The cone is after the first 1/4 Isolhenweg brought into the middle position by hand or automatically. Here she pushes herself Air in cylinder 20 via piston 21 through line 26, connection 4 into the Connection space 7 to connection channel 9 through connection channel 10, channel space 6, 5, through line 27 into cylinder 20 below piston 21. The air that as a result of the cleaning of the cylinder space under the piston 21 because of the piston neck 22 cannot flow off, gets into the open through the Wellellstulllpf I3. Should that Noise of the relaxed air flowing out through the stub shaft I3 is muffled this air must be via the ventilation body 14 on the stiffening tube II be guided.

In order to ensure the same ease of use for all pressures, i. Ii. Move To reach the cone, the cones acted upon by the pressure medium are surfaces II, 12 kept the same size. In the schematic representation of FIG. 3 (side view of the switching element) the cone 2 in the cone seat surface I is through up and down the areas Id and 17 completed. The stub shaft 13 of the cone 2 sits in one Covenant 23 and is included in it. A spring 25 presses the cone against the seat surface. A bore 19 is provided in the cone, which allows the pressure medium to act on the act on the upper and lower conical surface. Here is the diameter of the shaft stump so loading measure that the still free upper contact surface 12 of the cone in terms of area coincides with the floor area II.

For lubrication, the lubricating device is arranged in front of the surface 11, because in this way the cone in its cone housing I by the lubricant pressure raised and thereby an intensive lubrication is achieved. By varying the The counterpressure of the spring can also change the mobility of the cone.

Claims (5)

PATENT CLAIMS I. Discharge device for garbage cans, in particular to garbage trucks, in which one of a pressure medium, z. B. compressed air, actuated Piston pivoted a swivel arm with the barrel, according to patent 953 953, thereby characterized in that the control or switching element used for pivoting with only four connection points is formed, in such a way that the supply and Discharge of the pressure medium, the control of the piston and (liC switching on and off of the drain, e.g. B. Ventilation, via an overlapping channel system in the switching element (I8) (3 to Io) and the operations sequentially and without Loss can be controlled. 2. pouring device according to claim I, characterized in that that in the cone (2) of the switching element (I8) a main channel (8) and crosswise to it intersecting Channel guides (9, Io) are arranged, which are connected to the connecting spaces (6, 7) and are derived through the stub shaft (I3). 3. pouring device according to claim 1 and 2, characterized in that that from the stub shaft (I3) the connection line to the vent body (I4) leads to the stiffening tube (II). 4. pouring device according to claim 1 to 3, characterized in that that the conical surfaces (11, I2) acted upon by the pressure medium are the same or have a similar area. 5. pouring device according to any one of the preceding claims, characterized in that a lubricating device against the floor surface (11) of the cone (2) acts.