JPS59130393A - Frame structure for press type pressure grinding disc - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a frame structure for a pressure grinder of the press type, the frame structure comprising an airtight and pressure-tight grinding chamber and at least one press chamber for pulp wood. Bearing housing for grinding parts that rotate indoors and press
It includes a press device that limits the amount by one rule.

Such a frame structure is used in pressure grinding machines,
The ground wood is pressed into pulp wood by a press device that presses it against a grindstone that rotates once in a pressurized grinding chamber.
7).

From Finland P Patent No. 58,359, a pressure grinder is known, in which the grinding member, generally a ceramic grindstone, is mounted in a gas-tight, pressure-tight box-shaped frame.

This frame includes a press chamber for the /group wood surrounded by a grinding chamber, which press chamber has the same positive pressure as the grinding rod itself and at the same time has space for a pressing device. The grinding wheel is journal-bearing in a bearing arranged on the outside of the frame, and the bearing is attached to the frame at the middle part of the bottom plate.

The press device includes a shoe that moves linearly toward the grinding wheel and a moving actuator, usually a hydraulic cylinder mounted at the end of the frame.

There is also a known pressure grinding machine used in the laboratory, which has a cylindrical frame, the longitudinal axis of which is parallel to the rotation of the grinding wheel + line III, and this frame has a pressing device, a pressing chamber for wood, and a grinding wheel. Install the bearings.

In conventional pressure grinding machines, in addition to the uniform load generated by the stops generated in the grinding chamber, a tensile load resulting from pressing the grinding wheel against the grinding wheel is also applied to the frame, and the tensile load is applied to the frame wall. It is transmitted from the press device to the bearing of the grinding wheel via. Therefore, the structure of the frame becomes 1<<, and therefore the manufacturing cost increases. Designing and dimensioning the frame as a pressure vessel is difficult and requires a high safety margin. Furthermore, the box-shaped frames used for pressure grinding plates of production scale ↑ have a highly disadvantageous shape from a pressure 9 loading point of view. Tensile strains are carried by the side walls of the frame, and large openings in stiff walls must be avoided. This is the reason why the inlet opening for the pulpwood must be provided on the top side of the frame, which also increases the required structural height in the grinding shop.

The object of the invention is to provide a frame structure which avoids the above-mentioned disadvantages and which more deliberately absorbs the pressure loads 11 and tensile loads acting on the frame structure. This object is achieved by the frame structure according to the invention,
The structure consists of two separate parts: a pressure frame which consists of the grinding chamber and the press chamber and which substantially receives the pressure from the positive pressure occurring in the grinding chamber; and a pressure frame which carries the bearing housings of the press device and the grinding wheel. It is characterized by the presence of a power frame which is connected to each other (r') and which takes most of the tensile forces and circumferential forces generated during the grinding operation and when pressing the wood against the grinding wheel.

The present invention is further advantageous by forming the frame structure from two parts, one of which is sized and designed to withstand strain due to structural forces and the other frame to resist tensile forces. The gist is to obtain a frame structure that is effective as a whole.From this VC, this pressure frame takes charge of the internal pressure cart, and the power frame serves as a transmission member for the tensile load 1f between the press device and the grindstone bearing. 17.

The shape of the pressure frame is preferably cylindrical, so that the material strength can be kept to a minimum. It is preferable to plan the vertical axis of the pressure frame perpendicularly to the axis of rotation of the grinding wheel.This allows a box-shaped press chamber to be provided within 1 μm1 of the pressure frame for use with lumber, and at the same time this press chamber can be used for pressing It can be used as a guide for the shoe of the device.

The main force produced on the power frame is the tensile load M″it” generated from the pressing force of the press device, which allows the use of a system of tension beams as the power frame. A rigid fixed frame is attached to the tension beam for the press device together with the bearing of the grinding wheel. This tension beam also carries a pressure frame.

The pressure frame and the power frame are connected to each other by another rigid body, to which the bearing of the grinding wheel is fixed.

The installation of the tension beam acting as a power frame is preferably designed in such a way that the pulpwood inlet opening is placed horizontally on the side of the pressure frame, thus reducing the required height of the structure of the grinding plant. Reduce.

The present invention will be explained in detail below with reference to the accompanying drawings.

The pressure grinding machine shown in Figures 1 to 4 comprises a cylindrical, airtight and pressure-tight frame 1, at one end of which a grinding chamber 2 is formed. A grinding member 6 is mounted in the grinding chamber 2, the rotation axis 4 of which is arranged perpendicular to the longitudinal axis of the pressure frame and supported by an outer bearing 5. The pressure frame has a sealed passage 6 for the rotating shaft.

A box-shaped element 7 is mounted inside the pressure frame, which opens towards the grinding wheel. A press chamber 8 for the oval material is formed. This press chamber is limited in one direction by a shoe 9, which is connected to the piston 1 of the upper cylinder 10.
Attached to 1. For this shoe guidance, the box-shaped element is provided with an inner guide member 12. The element 7 is fixed by means of a support member 14 to the pressure frame and to the outer support member 15 .

The hydraulic cylinder has a sealed passage 1 formed in the pressure frame.
6 through 1 and fixed to the outer support member 17.

The frame structure further includes a power frame 18.

In this example, the power frame is located outside the pressure frame and is connected to both sides of the pressure frame.
, extending parallel to the longitudinal axis of the pressure frame, the bearing 5 of the grinding wheel, the support member 15 of the pressure frame and the support member 17 of the hydraulic cylinder are attached to the two beams 19.

The pressure frame supports an inlet pocket 20 for pulp material, which pocket is arranged above the press chamber and is closed off in a compressive manner. The bottom of the pressure frame has an outflow opening for discharging the ground pulp from an e-pulp sump (formed in the bottom of the pressure frame). This grinder further includes a motor (not shown) that rotates the grindstone.

The pressure frame 1 is designed with dimensions to withstand a constant positive pressure maintained within the grinding chamber. The power frame 18 is
Simultaneously with the circumferential force generated when the grinding wheel rotates against the grinding wheel, the turning material is pressed by the hydraulic cylinder 10 that comes into contact with the rotating grinding wheel that grinds the grinding wheel. sized and designed to withstand the tensile forces that sometimes occur. FIG. 4 shows the cart acting on the frame structure. The power frame is subjected almost exclusively to tension and circumferential forces and acts as a fixed transmission means of the tensile forces between the grinding wheel and the bearing of the press device, where the pressure frame is not subjected to the loads caused by these forces. (・Becomes a state.

The frame structure shown in FIG. 5 differs primarily from the embodiment described above in that the support member 15 supported on the power frame by the pressure frame 1 in FIG. 2 is replaced by a separate rigid body 25 surrounding the pressure frame. There are things that are happening. A bearing 5 for the &''LL grindstone rolling shaft is mounted on the opposite wall of the rigid body.

The main difference between the frame structure shown in FIG. 6 and the embodiment shown in FIG.
However, in this case it is dimensioned and designed as a power frame 1 placed inside the pressure frame 1 and attached to a rigid body 25 .

This pressure grinder can also be configured as a machine including two press devices and two press chambers, as shown in FIG.

In the frame structure shown in FIG. 7, which corresponds generally to that shown in FIG. be done.

Similar to the embodiment shown in FIG. 6, the frame structure shown in FIGS. 8 and 9 is based on the use of box-shaped elements 7 to form the power frame. The box-shaped support 7 arranged inside the pressure frame 1 is dimensioned and designed as a part of the power frame 48, which part is connected to the support member 1.
4 to the outer support member 15 of the pressure frame.

Support members 15 are arranged on both sides of the pressure frame and support beams 19
These beams support the bearings 5 of the grinding member.

The foregoing description and referenced drawings are for the purpose of illustrating the subject matter of the invention. Regarding its details, the frame structure according to the invention may carry out modifications of the ridges within the scope of the claims of the invention.

[Brief explanation of drawings]

1 is a partially cut-away side view of a pressure grinder equipped with a preferred embodiment of a frame structure according to the invention, and FIG. 2 is a horizontal cross-section of the grinder taken along line 1n-n in FIG. figure,
6 is a vertical sectional view of the grinding machine taken along the line Ill-Ill K in FIG. 1, FIG. 4 is a load diagram of the frame structure, and FIG. 5 is a frame structure according to the second embodiment. FIG. 6 is a perspective view of a pressure grinder equipped with a frame structure according to a third embodiment, and FIG. 7 is a perspective view of a pressure grinder equipped with a frame structure according to a fourth embodiment. A perspective view of the pressure grinder, FIGS. 8 and 9, shows a side view of another embodiment of the frame structure and the line IX'-I of FIG.
1 and 2, each showing a cross-sectional view taken along X'. Codes in the diagram: 1...pressure frame, 2...
... Grinding chamber, 3... Grinding member, 4...
Rotation axis, 5... Outer bearing, 6... Sealed passage, 7... Box-shaped element, 8... Press chamber, 9... Shoe, 10... Hydraulic cylinder, 11... Piston rod, 12...inner guide,
14... Support member, 15... Outer support member,
16... Sealed passage, 17... Outer support member,
18...Power frame, 19.19'...Beam,
20... Pocket, 25... Rigid support member, 28... Power frame, 60... Pocket, 38... Power frame.

Claims (1)

[Scope of Claims] 1) Frame structure for pressure grinding machine, comprising an airtight and pressure-resistant free cutting chamber (21 and 1. at least one press chamber (8) for lumber and a grinding chamber) ↑The frame structure consists of two separate constituent units, including a bearing housing (5) for the rotating grinding member (3) and a pressing device (9, 10, 11) limiting said pressing chamber to one side. The unit consists of the grinding chamber (2) and the press chamber (8), and includes a pressure frame (1) which bears most of the pressure received from the pressure generated in the grinding chamber, and bearings for the press equipment woth and the grindstone (3). A power frame (18,
28,38,48)-r5 A frame structure for a press-type pressure grinder, characterized in that it has: 2) The pressure frame (11) has a cylindrical shape 1 and the longitudinal axis of this cylinder is arranged perpendicular to the axis of the bearing no. 1 housing (5) of the grinding member (3) 3) An inner box-shaped element (7) is attached to the pressure frame (1), said element (7) opening towards the grinding chamber and into which the pressing device (9,1 [1, 11) forming a press chamber (8) extending therethrough, and characterized in that the pressure frame is provided with a support member C, by means of which the pressure frame is attached to the power frame (18, 48) A frame structure according to claim 2. 4) The power frame (18) supports the bearing housing (5) of the grinding member (31), the support member of the pressure frame (1), and a set of tension beams (1) supporting the support member surface of the press device 6I.
7. The frame structure according to claim 6, characterized in that the frame structure is made of cylindrical material. 5) a rigid support (25) in which the support member of the pressure frame (1) comprises the bearing housing (5) of the grinding member (3) and to which the power frame (18, 28, 38) is attached;
), characterized in that: 6) the box-shaped element (7) inside the pressure frame (1) constitutes a power frame Q (to); A frame structure according to claim 5. 7) The frame structure according to claim 5, characterized in that the power frame 0 mark consists of a set of tension beams connecting the rigid support 351 and the support member 0η of the press device 01.8 ) a power frame (48) consisting of a box-shaped element (7) inside the pressure frame (1) and a grinding member (3) and supporting the bearing housing (5) of the grinding member (3) and said element; Frame structure according to claim 3, characterized in that it consists of a set of tension beams (197). 9) The box-shaped element (7) is a supporting device (
15) A frame structure according to claim 8, characterized in that it is attached to a set of tension beams 0!1' by means of 15). 10) A patent claim characterized in that on the side of the pressure frame (1) there is a horizontal inlet pocket (30) that passes from the outside of the pressure frame into the press chamber (8) into which the lumber is injected. The frame structure according to any one of the ranges 6 to 9.