SE0900298A1 - Device for feeding cellulose material by forming a pressure-tight material plug - Google Patents

Description

10 15 20 25 30 35 40 In a preferred embodiment, the throttling means comprises an inner and an outer annular shape means with a plurality of openings, the outer annular member being rotatable displaceable for regulating the size of the total openings for the interior and outer annular members. This embodiment shows a simple way to control the size of the openings through which the matter plug is discharged and thereby easily control the back pressure for the formation of the matter plug, both in the construction phase and at the continuous formation of material plugs. Smaller total openings give one greater back pressure that builds up the matter plug and increases its density. Conversely, larger total openings a smaller back pressure and a less tight material plug.

It is important to find a balance between ease of discharge and tightness so as not to pressurized steam leaks out while stopping is not risked due to too tight material plug. In this way, the difficult-to-adjust parallel displaceable tube in it is avoided known technology according to SE5l49óO, which is difficult to shift in parallel without risk that it pulls obliquely and pinches. It also requires many actuating rods such as at the same time must be operated.

Preferably, the inner annular member is attached to the housing and the outer annular member the means is rotatably displaceable to adjust the size of the openings in throttling body. The number of openings in the inner and outer annular members is preferably equal in number.

To ensure high quality in the function, a selected one is preferably maintained displacement position between the inner and outer annular members until the next offset position selected.

A conceivable sweet to achieve an adjustable rotational displacement of the outer ring to a selected displacement position, a gear section can be arranged, for example at it outer annular member, which gear section cooperates with a rotatable gear. This gear is preferably mounted in the housing, for example with a shaft which shoots out of the housing for easy maneuvering of the gear which in turn interacts with the gear section, this together with the outer annular member rotated. It is also conceivable to use a worm gear so that the gear shaft for example, extends in a direction radially out from the outer annular member.

Preferably, the shaft of the screw is mounted in a bearing housing located outside the housing, which is arranged at the discharge end of the screw.

Detailed Description of Preferred Embodiments of the Invention The invention will be described in more detail below in connection with an on the drawings show exemplary embodiments.

Figure 1 shows a side view partly in section of a feeding device made according to the invention. 10 15 20 25 30 35 40 Figures 2a, b show an outer and an inner annular member in cross section in a completely open position and a partially strangled lie.

Figure 3 shows an adjustment mechanism for the outer annular member.

The device comprises a spout 10 which is connected to the outlet via a flange 12 and is pressure-tight seeds a steam separator, for example of the type shown in Swedish patent 9101342-5, so that the material as a pulp is fed to the nozzle 10 after the steam formed at the grinding has been separated in the vapor separator to be led to different uses under pressure in the process. To prevent the steam pressure from dropping or disappearing, the mass must follow the vapor separation is discharged pressure-tight. For this, the mass falls into one under the socket 10 existing, sealed housing 14 in which a transport screw 16 with threads 18 is mounted mounted on a shaft 20.

The shaft 20 has a conically increasing diameter towards the discharge end of the screw 16, i.e. in the discharge direction of the material transported by the screw 16 for control the material towards the inner periphery of the house. At the discharge end, the shaft 20 is connected to one peripheral portion, for example a rotor 22, which may have a conically increasing diameter in said discharge direction. Around this rotor 22 there is one arranged in the housing 14 throttling means 32 with at least one radially arranged opening 28. On the rotor 22 there is at least one rotor blade 24 arranged to tear and assist in discharging the material radially through the openings 28.

The choke member 32 includes an inner annular member 50 secured to the housing 14 including a a number of openings 28 'and an outer annular member 52 comprising a number of openings 28 ". The inner openings 28 'and the outer openings 28" form together radial openings 28. Preferably, the number of inner openings 28 'corresponds to the number of outer ones openings 28 ". in a preferred embodiment of the annular members 50 and 52 the inner openings 28 'formed with substantially radial walls while they the outer openings 28 "have at least one sloping wall so that the opening area of the opening 28 "increases radially outwards in the annular member 52. The outer ring 52 can be turned from a fully open hatch, see figure 2a, clockwise to a partially throttled one, see figure 2b, or completely closed onion. The portion of the outer ring 52 which then partially closes the opening 28 acts as a fragile edge, and the skewed wall improves the discharge from the partially closed opening 28.

The outer annular member 52 is rotatably displaceable about the inner annular member the member 50. In the openings 28 a controllable back pressure against this sweetly arises the discharge of the material which causes a material plug 40 to be formed before the rotor 22, which material plug 40 abuts the interior of the housing 14 against the space 34 located outside the rotor 22.

On the outside of the rotor 22 seen in the discharge direction are fixed wings 24 which are arranged to disassemble the annular material plug formed at the end of the screw, into a plug formation zone, and feed the material further out through the radial openings 28 so that the material falls to the bottom of the chamber 34. This bottom is open down and provided with a socket 36 intended to be connected to some means for further transport of 10 15 20 25 the material. At a distance from and opposite the discharge gap 28, the space 34 is limited of a sealing wall 38 sealingly surrounding an extension 44 of the shaft 20 which shaft extension 44 is mounted in the bearing housing 42 and is arranged to be connected to one drive motor (not shown) for screw 16.

The device described works in the following way: The one from the meadow separator (ei shown) to the inlet 12 coming mass falls into and is fed by the screw 16 against the house's 14 outlets, ie. eat left in Figure 1 and come off the conically increasing axis 20 to be forced out towards the inner periphery of the housing 14 so that a pulp plug 40 is formed before the mass limited by the rotor 22 arranged on the shaft 20 in cooperation with the throttling member 32. To control the discharge of the pulp | ugg 40 and thereby maintain the pressure-tight function of the pug 40 is controlled by the size of the discharge openings 28 according to the invention by means of any type of gear. Preferably an gear section 46 at the outer annular member 52 which cooperates with one gear 48, which may be mounted on a shaft 54 extending through the housing 14 for easy operation and adjustment of the displacement position of the exterior annular member 52. Of course, a worm gear can also be used about the gears axis is desired in a different direction. The mass then falls into the lower part of the house 34 and discharged through the outlet 36 for further treatment.

As can be seen from the embodiment shown, the shaft 20 of the screw 16 is with one shaft extension 44 mounted in a bearing housing 42 on the side of the housing 14 of the screw 16 there atmospheric pressure rains. In this way, no pressure-tight stuffing boxes are required in the warehouse, which simplifies and reduces the maintenance and operation of the device. By screwing 16 bearing 42 is closest to the end of the screw 16 where the pulp plug 40 is formed instability of the screw 16 is largely prevented so that better precision is obtained when setting the size of the discharge opening.

Claims (1)

10 15 20 25 30 35 PATENT REQUIREMENTS. Feeders for cellulosic material comprising a screw which feeds the material against an abutment to form a pressure-tight material plug, the screw comprising a peripheral portion with a throttling member arranged around said portion in the housing of the device, characterized in that the throttling member forms a plurality of radial openings through which the material leaves the screw. during the formation of a pressure-tight material plug. . Feeding device according to claim 1 or 2, in which the throttling means comprises an inner and an outer annular member with a plurality of openings, the outer annular member being rotatably displaceable to control the size of the total openings of the inner and outer annular members. . Feeding device according to claim 2, in which the inner annular member is fixedly fixed in the housing. . Feeding device according to claim 2 or 3, in which the number of openings in the inner and the outer annular members is equal in number. . Feeding device according to claim 2, 3 or 4, in which a selected displacement position between the inner and outer annular members is maintained until the next displacement position is selected. . Feeding device according to any one of the preceding claims 2-5, in which the displacement of the outer annular member takes place by setting a gear sector in cooperation with a gear wheel. . Feeding device according to one of the preceding claims, in which the shaft of the screw is mounted in a bearing housing located outside the housing, which is arranged at the discharge end of the screw. (Fig. 1)