RU219412U1 - CONVEYOR TENSIONING MECHANISM - Google Patents

Abstract

The utility model relates to the field of agricultural engineering and can be used in the design of the feeder house of combine harvesters to ensure the tension of the conveyor when transporting the mowed mass from the adapter auger to the receiving chamber of the threshing device. The objective of the claimed utility model is to maintain a constant value of the tension of the conveyor in the inclined chamber with a movable frame when the conveyor is drawn out during operation. The technical result is achieved due to the fact that in the conveyor tension mechanism, which contains a mechanically connected take-up roller with levers and a movable frame, the connection of the take-up roller levers with the frame of the feeder house is made by means of a spring mechanism installed inside the beam of the movable frame, which, as the conveyor chains are stretched, pushes the take-up roller levers in the direction of increasing the distance to the conveyor drive shaft and, thereby, tensions the conveyor. The technical result consists in simplifying the design, as well as in ensuring the constancy of the tension of the conveyor chains in the design of the feeder house with a movable frame when the conveyor is drawn out during operation, which, in turn, reduces the complexity of the daily maintenance of the combine.

Description

The utility model relates to the field of agricultural engineering and can be used in the design of the feeder house of combine harvesters to ensure the tension of the conveyor when transporting the mowed mass from the adapter auger to the receiving chamber of the threshing device.

Known mechanism for tensioning the conveyor [Application for US Pat. US No. 20150366139 A1 dated 04/08/2015], consisting of a receiving roller of the feeder house, installed with the possibility of moving relative to the frame towards the upper shaft of the feeder house and away from it. The feeder house take-up roller is configured to be connected to a spring for pretensioning the feeder house conveyor with a force directed from the top shaft. This allows the movement of the feeder house take-up roller towards the top shaft to be limited to a predetermined target position provided by the spring force.

The disadvantage of the described technical solution is the need to manually adjust the tension of the conveyor when it is drawn out by compressing the spring to the desired length.

Closest to the claimed utility model is the conveyor tension mechanism [Application for US Pat. RU No. 2616515 C2 dated 04/04/2013], consisting of a take-up roller and a hydraulic cylinder that ensures the constancy of the conveyor tension without manual adjustment.

The disadvantage of this technical solution is the complexity of the design, due to the presence of hydraulics.

The objective of the claimed utility model is to maintain a constant value of the tension of the conveyor in the inclined chamber with a movable frame when the conveyor is drawn out during operation.

The technical result is achieved due to the fact that a spring mechanism is introduced into the tensioning mechanism of the conveyor, which contains a mechanically connected receiving roller with levers and a movable frame, while the connection of the receiving roller levers with the movable frame is made by means of a spring mechanism installed inside the beam of the movable frame, and the spring mechanism contains springs that abut against the ribs of the movable frame and are configured to exert pressure on the levers through the washer and nut in the direction of increasing the distance to the drive shaft .

Due to the presence of a spring mechanism, the design is simplified, and the constant tension of the conveyor chains in the design of the feeder house with a movable frame is ensured when the conveyor is drawn out during operation, which, in turn, reduces the complexity of the daily maintenance of the combine. The claimed utility model is illustrated by the figures:

fig. 1 - the design of the movable frame of the feeder house conveyor with the spring tension of the conveyor in isometric projection;

fig. 2 - the design of the movable frame of the conveyor in plan, left view.

The claimed utility model consists of the following structural elements (see Fig. 1, 2): 1 - take-up roller; 2 - lever; 3 - spring, 4 - movable frame; 5 - guides along which the chain conveyor moves; 6 - conveyor; 7 - supports; 8 - drive shaft; 9 - nut; 10 - washer; 11 - edge of the movable frame 4.

At the same time, the axis of rotation of the movable frame 4 passes through the supports 7, which is aligned with the axis of rotation of the drive shaft 8 of the conveyor connecting the receiving roller 1 to the frame 4; the receiving roller 1 supports the chain conveyor 6, and the spring 3 tightens the conveyor 6 by extending the receiving roller 1 by the levers 2.

The claimed utility model works as follows.

The mowed mass from the adapter auger enters the feeder chamber, where the chain conveyor 6 transfers it to the receiving chamber of the threshing device. During operation, the chain conveyor 6 is gradually extended (its tension is loosened). The springs 3 rest against the ribs 11 of the movable frame 4, exert pressure on the levers 2 through the washer 10 and the nut 9, and the levers 2 push the take-up roller 1 in the direction of increasing the distance to the drive shaft, thereby ensuring a constant tension of the conveyor.

The technical result consists in simplifying the design, as well as ensuring the constancy of the tension of the conveyor chains in the design of the feeder house with a movable frame when the conveyor is drawn out during operation, which, in turn, reduces the complexity of the daily maintenance of the harvester.

Literature

1. Pat. US No. 20150366139 A1 04/08/2015 Inv.: Martin Rittershofer, Philipp Veit (MKI A01F 12/46, A01D 41/12). - 102014211783.6 06/18/2014 (DE).

2. Pat. RU No. 2616515 C2 04.04.2013 Inv.: Norbert Stricker (IPC B65G 23/44, A01D 61/02). - 102012007637.1 04/18/2012 (DE).

Claims (1)

Conveyor tensioning mechanism containing mechanically connected take-up roller with levers and a movable frame, characterized in that a spring mechanism is introduced into it, while the connection of the take-up roller levers with the movable frame is made by means of a spring mechanism installed inside the beam of the movable frame, and the spring mechanism contains springs that abut against the ribs of the movable frame and are configured to exert pressure on the levers through the washer and nut in the direction of increasing the distance to the drive shaft.