RU2150539C1 - Hydraulic plate box for papermaking machine - Google Patents

Abstract

FIELD: pulp-and-paper industry. SUBSTANCE: hydraulic plate box has body manufactured so as to change curvature radius of box generatrix, and hydraulic sectional plates disposed under net. One of sectional parts of hydraulic plate has electromagnet core. Net is formed from thread comprising magnetically conductive filament. Hydraulic plates are arranged in rotating shafts on telescopic shock-absorbing poles. Hydraulic plates are held in continuous contact with net. Such construction of box allows paper web forming process to be controlled without necessity for stopping papermaking machine. EFFECT: increased efficiency and simplified construction. 2 cl, 2 dwg

Description

 The invention relates to the construction of a paper machine and may find application in the pulp and paper industry.

 A well-known box of hydroplanes, including the hull and hydroplanes (V. A. Chichaev and others. Equipment for pulp and paper production. T. 2. Paper machines. M: Forest industry. 1981, p. 90).

 This design, which has hydroplanks installed in a certain way in the housing, allows it to be used only on flat areas of the wet part of the paper machine, it does not allow you to adjust the dehydration process when changing parameters, which reduces the quality of the paper web forming. Due to the constancy of the direction of the gradients of the filtration heads on a flat mesh in one direction, the formed sheet has a variable structure in thickness. On the side adjacent to the grid, an elementary thin layer of fibers is deposited in the initial period, containing less fines, which falls into the mesh cells and goes into the hole rather than in the layers formed above it. The resulting sheet has versatility, manifested in the finished product in the form of a number of specific properties: coagulability, dustiness, uneven absorption and printing properties from different sides of the sheet. In order to combat this main drawback, designs with a curved molding zone were created.

 The closest in technical essence and the achieved result is a box of hydroplanes of the Bel-Bay II paper machine containing a body and hydroplanes located under the grid (A. Smolin, G. Axelrod. Paper and cardboard forming technology. - M .: Timber industry, 1984. - p. 78, Fig. 35).

 The well-known Bel-Bay II design with a constant radius of curvature of the grid adjacent to the hydroplane box does not allow smoothly regulating the dehydration process, which reduces the range of technological capabilities of the machine in terms of forming speed and quality of the resulting paper web, as well as the range of products. To produce products of a different type, the fractional composition of the fiber and the composition of the mass, it is necessary to stop the machine and reconfigure it, which leads to large unproductive downtime, loss of productivity when reaching the optimal speed during acceleration due to a large number of rejects.

 The purpose of the invention is improving the quality of the molded web and expanding the technological capabilities of the paper machine.

 This goal is achieved by the fact that in the proposed design of the box of hydroplanes, the housing is made with the possibility of changing the radius of curvature of the forming surface, the hydroplanks of the box are made integral, while one of the components of the hydroplank contains the core of the electromagnet, and the mesh used in its weaving has a thread of magnetically conductive material. In addition, the hydroplanes are mounted in rotary axles on telescopic suspension struts.

 The specified set of features allows you to give the object new properties and get a new technical result.

 The manufacture of a box of hydraulic plates with a variable curvature of the forming surface of the body allows you to adjust the molding process without stopping the paper machine, making its design technologically advanced, and the dewatering process is finely adjustable and without unproductive downtime. The implementation of the hydroplanes of the box of the components containing the cores of the electromagnets allows the grid, which in its weaving is a thread of magnetically conductive material, to ensure the operability of the structure. The installation of hydroplanes in the rotary axes on the suspension struts allows them to constantly contact the grid, accurately tracking the curvature of the flat wet part when changing the geometry of the box surface.

The invention is illustrated in the drawing, where
in FIG. 1 - section of a box of hydroplanes;
in FIG. 2 is a cross-sectional view of a hydroplane device.

 The box of hydroplanes of a paper machine includes a housing 1 and hydroplanks 2 located under the net 3. The hydroplanks 2 of the box are made integral (Fig. 1). One of the components contains the core 4 of the electromagnet 5, and the used mesh 3 has in its weaving a thread of magnetically conductive material, such as steel (Fig. 2). Hydroplanes 2 are mounted in rotary axles 6 on telescopic suspension struts 7.

 Box hydroplank paper machine operates as follows.

 The grid 3 of the paper machine transports the mass, which is dehydrated under the influence of the filtration head and the vacuum that occurs on the hydroplanes 2. As a result of this process, the concentration of the mass increases, its visco-thixotropic properties change, and a paper sheet is formed. When changing the parameters of the technological regime (composition of the mass, concentration and molding speed), it becomes necessary to control the molding process, which is carried out without stopping the machine by changing the geometry of the dehydration zone using vertical movements of hydroplanes 2, made integral and mounted in rotary axles 6 on telescopic suspension struts 7, which change the height of the hydroplane 2 and the angles of their location. In this case, the grid 3, which has in its interlacing threads from a magnetically conductive material, interacts with the components of the hydroplanes 2 containing the cores 4 of the electromagnets 5, and fits snugly against the hydroplanes 2 along the generatrix of the housing 1.

 Reconfiguring the main forming unit without stopping can significantly reduce unproductive downtime and losses and expand the technological capabilities of the paper machine.

 With unavoidable fluctuations in the operation of the paper machine of the initial concentration of the transported mass, associated with the stability of the inlet and dehydration and changes in the composition of the mass, the geometry of the forming surface of the housing 1 and the curvature of the mesh 3 are changed. The proposed design of the box of hydroplanes provides stability of the process of forming a paper sheet and fine control of the process.

Claims (2)

 1. The box of the hydroplanes of a paper machine containing a housing and hydroplanes located under the grid, characterized in that the housing is made with the possibility of changing the radius of curvature of the forming surface, the hydroplanks of the box are made integral, while one of the components contains the core of the electromagnet, and the grid used has its weaving of a thread of a magnetic material.  2. The hydroplate box of a paper machine according to claim 1, characterized in that the hydroplate is mounted in rotary axes on telescopic suspension struts.

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