SU763154A1 - Apparatus for pressing vegetable material - Google Patents

Description

The invention relates to devices for pressing plant material, namely, devices for pressing tobacco waste. A known device for pressing plant material containing two sealing rings vertically mounted on a frame, each of which has an eccentric disk, rollers placed under the rings and a mechanism for pressing the disks to the ring 1M consisting of two pairs of axles and two pairs of arms fixed on the frame U In the known device, the structure of the suspension assembly of levers on the frame, which do not have disks, does not allow the elimination of possible gaps into the contact points of the working parts (ring, roller) of the friction contour and the re-axial axes of the sealing rings, disks and rollers. These shortcomings lead to the slipping of the contacting surfaces of the elements of the friction contour, the observation of their surface and the wedging of the product in the sealing channels of the device,. to reduce the stability and reliability of its work. The aim of the invention is to improve the reliability of the device. The goal is achieved by the fact that two eccentric bushings are sequentially fixed on the axis x, while the levers are freely seated on one of the bushings of each axis, these bushings being rigidly connected to the axles and mounted rotatably in the holes of the arms, and the other bushings are placed in the holes of the frame with the possibility of rotation in them and relative to the axes on which they are fixed. FIG. 1 shows the cross section of the lever assembly on the frame in two positions of the lever; in fig. 2 - extreme upper position of the lever; in fig. 3 extreme lower position of the lever. On the frame 1 there are vertically mounted two sealing rings 2, each of which is fitted with an eccentric disk 3. Under the rings there are rollers — the drive 4 and the self-adjusting 5 and the mechanism of pressing the disks 3 against the rings 2, consisting of two pairs of axles 6 and installed on the last two pairs of levers 7 and eccentric ztulok. The levers 7 are connected to the axis by means of eccentric sleeves 8, on which they are freely fitted. The bushings 8 are rigidly connected to the axles with 6 pins 9 so that when the b axis is rotated, the outer cylindrical surface of the bush slides along the inner cylindrical surface of the support hole of the lever.

The eccentric sleeves 10 are mounted on the b-axis and inserted together with them into the support holes of the levers. Spreader ring 11 serves to fix the distance between the frame and the lever. Plate 12 connects the axles of the two suspension assemblies of the arms located on one side of the frame. The levers carry on themselves the axes of the sealing disks (two levers located symmetrically on both sides of the frame, carry the axis of one disk). Levers are interconnected

elastic element 13, N, Ng;

N3-contact forces, respectively, in pairs ring-ring., Ring-roller, roll and roll, and k ,.

The operation of the device is as follows.

When the axis 6 rotates, the eccentric bushing 8, rotating in the support hole of the lever 7, changes the position of the latter. A change in the position of the lever leads to a change in the position of the end of the axis of the sealing disk fixed in this lever. Those. when the eccentric bushing is rotated, the mutual position of the sealing ring 2 and the disc 3 is changed. After adjusting, the suspension unit is tightened with a nut 14 and fixed in the selected position (the fixing unit is not shown in Fig. 1).

FIG. 2 shows the outermost one. The upper position of the lever 7, FIG. 3 extreme lower position of the lever 7. Different positions of the lever are achieved by rotating the axis b with the eccentric sleeve 8.

Changing the relative position of the sealing bodies allows the direction of the total sealing force F to be controlled, the need for which is dictated by the following considerations.

The operability of the friction bout of a two-ring briquetting press largely depends on the magnitude of the force S (Fig. 1) of the B-ring, since the transfer of torque to the sealing ring 2 is carried out by the drive roller 4 due to the forces of friction. In order to prevent the ring-roller from slipping, the N2 value should be sufficiently large. However, an excessive increase in Nj can lead to a violation of the strength of the contacting surfaces, to their smthiyu. Thus, when compacting the product, the value of N must be within certain limits. The force N2 depends on the magnitude and direction of the total compaction force F (angle (Characterizes the F direction). When compacting a particular product (for example, tobacco waste), the F value changes within small limits. Therefore, to maintain Ng within the required limits, it is sufficient to change the F direction, t. e. angle about.

FIG. Figure 1 shows a diagram of the operation of the present invention when changing the direction of the total compaction force.

When simultaneously rotating the eccentric bushings 8 of two levers carrying one sealing disc 3, the center of this sheet changes its coordinates, for example, from a position, moves to a position (Fig. 1, the changed position of the lever and its support hole is shown by the dotted line). In this case, the angle оС, which characterizes the direction of the total compaction force F, is also changed. This will lead to an increase in the required contact force Ng (respectively, N will increase and N will decrease) and the friction circuit will be able to transfer the circumferential force sufficient for material compaction with a sealing ring. When there is danger of crushing the contact surfaces of the rings 2 and the rollers 4 and 5 (a), the position of the axes of the sealing discs is changed with the help of eccentric bushings in such a way that the angle o is reduced. This reduces Ng and the strength condition is fulfilled.

The operation of the friction contour of the device will be unstable if the contact in pairs ring-roller and ring-ring will be incomplete, i.e. the axes of the contacting elements will not be parallel. Since during compaction of the product, the axes of the rings and the discs inside them are parallel, by changing the position of the levers supporting the ends of the axle of the sealing disc using eccentric bushings, you can change the position of the axes of the discs and rings and achieve parallelism of the axes of the sealing rings 2 and rollers 4 (or five). In this case, the gap in the contact ring-roller (ring-ring) is eliminated.

To expand the range of change in the direction of the total compaction force and increase the accuracy of controlling the parallelism of the axes of rotation of the sealing rings 2, the drive 4 and the self-adjusting 5 rollers, the axis of the lever 7 (FIG. 1) is connected to the base 1 through the eccentric bushing 10 inserted into the base hole of the stand on the lever axis 6 and having the possibility of rotation relative to the cylindrical mating surfaces of the support opening of the frame and the axis b of the lever 7. In the selected position, the eccentric sleeve 10 is fixed. When the rotation of the sleeve 10 occurs. also a change in the position of the lever and, accordingly, the axis of the sealing disc, and this is achieved further

adjustment of the friction contour. In addition, with the help of the eccentric bushing 10, it is possible to compensate for the movement of the lever and the axis of the sealing disc in the horizontal plane, caused by the activation of the eccentric bushing 8 ..

Thus, the advantages of the invention are:

the possibility of changing the direction of the total compaction force, which makes it possible to fulfill the strength condition at the contacts of the friction circuit, the condition for transmitting the required circumferential force and leads to increased stability and reliability of the device;

the possibility of eliminating gaps in the contacts of the friction contour (to achieve parallelism of the axes of rotation of the contour elements), which allows avoiding the seeming of the contacting surfaces of the friction contour and increasing the coefficient of adhesion of the friction pairs of the contour.

These advantages are especially important in compaction of products of plant origin, for example, OTKORQP of tobacco production (pharmacy, medium vein of tobacco leaf, tobacco dust), since their properties are heterogeneous and strongly fluctuate, as well as when outputting the device to work.

which mode (adjustment, adjustment period).

Claims (1)

1. USSR author's certificate  614966, cl. B 30 B 11/20, 1977. 44 N | P