RU18976U1 - WORM PRESS FOR PROCESSING POLYMERIC MATERIALS - Google Patents

Abstract

A worm press for processing polymer materials, comprising a cylindrical body with a loading funnel and a heater, a rotating worm with feed, compression and extrusion zones and a sleeve with longitudinal grooves on the inner surface and a window located under the loading funnel, characterized in that the housing is made composite, and the sleeve is equipped with a shoulder and is installed in the supply zone so that the shoulder is located on the side of the compression zone.

Description

B 29 F3 / 04

WORM PRESS FOR PROCESSING POLYMERIC MATERIALS

The utility model relates to equipment for the processing of polymeric materials, namely to designs of screw presses that can be used in the chemical industry, in mechanical engineering, as well as in agriculture.

A search conducted by domestic and foreign sources of information showed that various designs of presses of a similar purpose are known in the art (a.c.NN 593377,1684074,138808).

As a rule, they all contain a housing with a loading funnel and a heater, a rotating worm and a sleeve with longitudinal grooves installed in the housing. Typically, the sleeve is inserted into the press body from the side of the drive of rotation of the worm. This requires additional structural elements for its sealing and fastening, which complicates the design of the press and reduces its reliability during operation. Press constructions are known in which the sleeve is inserted from the side opposite to the drive. But then it has a large length, which is equal to the entire length of the cylindrical body of the press, which complicates its manufacture and requires increasing drive power, which also reduces the reliability of the press.

Closest to the claimed is the design of a worm press for processing bulk polymer material according to.with. 797897, which contains a cylindrical body with a loading funnel and a heater, a rotating worm with feed, compression and extrusion zones and a sleeve with longitudinal grooves on the inner surface and a window, mounted under a loading funnel and equipped with a drive for its rotation, a speed control device and made with additional windows located around its circumference. Moreover, the device for controlling the speed of rotation of the sleeve is made in the form of a torque sensor of the sleeve and a regulator connected to the sensor and the drive of the sleeve.

The disadvantage of this design of the press is its lack of reliability due to the complexity of the design of both the press and the sleeve. Firstly, the sleeve has its own, additional drive, a speed control device, and is also equipped with additional windows. All these elements complicate the design of the sleeve, and therefore the press, which in turn leads to a decrease in its reliability. In addition, the sleeve is inserted into the loading zone on the drive side. Such assembly of the sleeve requires additional structural elements for its sealing, fastening (either by cutting or installing cuffs, etc.), which also leads to a complication of the press structure as a whole and, as consequence, reduces its reliability during operation.

The objective of the utility model is to develop the design of a worm press, which has high reliability during operation due to the simplification of its design.

The problem is solved by the proposed design of the worm press, which contains a cylindrical housing with a loading funnel and a heater, a rotating worm with feed, compression and extrusion zones and a sleeve with longitudinal grooves on the inner surface and a window located under the loading funnel installed in the housing. In this case, the housing is made integral, and

the sleeve is provided with a shoulder and is installed in the supply zone so that the shoulder is on the side of the compression zone.

The essence of the proposed design of the worm press is illustrated in the figure, which depicts figures 1 and 2,

Figure 1 shows a General view of the Assembly of the cylindrical body of a worm press with a worm; figure 2 - view (A) of the assembly. In the figure, the following notation:

1- cylindrical body of the press;

2- loading funnel;

3- heater;

4-worm;

5- power zone;

6- compression zone;

 - extrusion zone;

8- sleeve;

9- bushing window;

10- longitudinal grooves of the sleeve;

11- collar of the sleeve.

In the claimed utility model, the cylindrical housing is made integral. This allows you to install the sleeve not from the drive side, but from the side of the compression zone, which does not require additional structural elements for its sealing, fastening, and this simplifies the design of both the sleeve itself and the press as a whole. leads to an increase in its reliability during operation.

In addition, the composite press body allows, firstly, to assemble it in workshop conditions, without requiring special equipment for the manufacture of lengthy openings, which also simplifies the design of the press, and secondly, by setting the required length of the casing. only plastic, but also rubber, which makes this design

universal worm press.

In the claimed technical solution, the sleeve is provided with a shoulder for fixing it in the press body.

A comparison of the proposed design of the worm press with the prototype showed that although they have a number of identical units, in the claimed utility model the housing is made integral, and the sleeve is provided with a shoulder and is inserted from the opposite side with respect to the prototype, i.e. This technical solution meets the criterion of novelty.

The worm press operates as follows:

The polymer granules loaded through the funnel (2) enter the inner cavity of the cylindrical body (1), filling the longitudinal grooves of the sleeve (8) and the cavity between the turns of the worm (4). A rotating worm pushes the polymer granules that have not yet been melted in the direction of the compression zone (6), where they melt and enter the extrusion zone (7) as a molten mass, and then into nozzles, which are installed to obtain specific products.

The proposed design of the worm press will not cause difficulties in its implementation, because its components and components are manufactured by industry. The need for a simple, reliable design of the press is beyond doubt. Thus, the proposal has industrial applicability. Director 000 Region i V N.E. Dochilov

Claims (1)

A worm press for processing polymeric materials, comprising a cylindrical body with a loading funnel and a heater, a rotating worm with feeding, compression and extrusion zones and a sleeve with longitudinal grooves on the inner surface and a window located under the loading funnel installed in the housing, characterized in that the housing is made composite, and the sleeve is equipped with a shoulder and is installed in the power zone so that the shoulder is located on the side of the compression zone.