NO155768B - PROCEDURE FOR THE MANUFACTURE OF MINERAL FIBERS BY Centrifugation. - Google Patents

Abstract

In mineral fiber production by centrifugation and gas drawing, a peripheral speed is used for the centrifuge that has a value above 50 m/sec. This makes it possible to obtain an improved fiber product.

Description

Hoisting device for a cannon, especially an automatic cannon, for feeding shots from the cannon's shot magazine to a shot guide which is arranged behind the barrel and serves to guide the shots as they are advanced to the chamber with an employee.

The invention concerns an elevator device for advancing shots from an automatic cannon's shot magazine to a shot guide

arranged for guiding the shots while these

with a charging piston is advanced to the chamber.

This elevator device is especially intended for a cannon where the shot magazine,

at the bottom of which the shots are to be fed out one at a time

and one to be carried on to the firing line,

has relatively high height because it has to

contain a quantity of shots that lie in

the magazine in several parallel vertical rows. So that such a magazine does not protrude

significantly above the rest of the canon

parts, it is desirable to be able to place it

shot ejection point at a considerable

lower level than the shot guide, so the magazine can be executed for a large number of shots

without its width becoming unacceptably large, and

without the total height of the cannon above the ground due to the height of the magazine

needs to be greater than what the race's placement conditions.

A difficulty with such an arrangement of the magazine in relation to the course and

to the firing line, which lies in its extension to the rear, is within the available space under the firing line to have space

to devices for transferring the shots ti'

the firing direction from the discharge point at

the bottom of the magazine, which in this device preferably consists of two parts placed on opposite sides of a shaft where

the shots are fed up to the shot guide.

The purpose of the invention is to overcome this difficulty and to provide a shot elevator for transferring shots from the discharge point of a shot magazine arranged in the manner indicated to a higher shot guide arranged in connection with and coaxial with the barrel of the cannon, by lifting them from the shot magazine to a carrier at the elevator singly discharged and forwarded by the elevator shots during a largely translational movement from the magazine discharge point to the shot guide, where the shot elevator does not in any direction require significantly more space than is necessary due to the shot dimensions and the lifting height conditional dimensions of a shaft for lifting the shots from the outlet of the magazine to the shot guide.

By appropriate design of the parts which, according to the invention, are part of the shot lift, it is also possible to achieve that the shots during lifting get a certain movement in their longitudinal direction, whereby the shot magazine and its discharge point can be arranged with any desired displacement in the direction of the barrel in relative to the place of the shot guidance where the shot is to be deposited after lifting with the elevator. This entails a special advantage, as it is desirable that the shot magazine and thus its discharge point for the shots to the shot elevator should be located in front of the shot guide within this.

A shot lift according to the invention, equipped with a support member for shots, is in this respect characterized by the fact that the support member is attached with a joint to the free end of one arm of a two-armed weight bar, supported on a bar which is fixed pivotably in a vertical plane at the joint on a base below the discharge point of the shot magazine, and that the two-armed weight rod's other arm at the end is connected to one end of another rod which is pivotable in the same vertical plane, and whose other end is connected to the base in distance from the joint of the first-mentioned rod on the base, and which is made with a distance between its joint points smaller than the distance between the joint points of the first-mentioned pivotable rod, and that one of the two rods is connected with a drive means to communicate the rods and thus also the two-armed growth made a swinging movement in the aforementioned vertical plane.

At the same time, the carrier for the shots is preferably provided with a control member, which during its movement between the discharge point for shots in the magazine and the shot guide informs it of a rotation in relation to the arm of the barbell determined by the direction of the shot axis at the discharge point and the direction of the shot axis conditioned by the direction of the shot guide in the shooting direction. Since the direction of the shot at the point of discharge from the magazine and in the shot guide is essentially unchanged, the carrier thus receives a largely translational movement during the transfer from the point of discharge of the magazine to the shot guide.

Although the aforementioned guide means in a certain geometric design of the pivotable rods and the weight bar can be made up of guide tracks in an elevator shaft and corresponding guides on the support means, it is for several reasons preferable that this guide means forms part of the shot lift as such, particularly in the case of such a dimensioning of the swiveling rods and the weight bar that a displacement of the shot in the longitudinal direction will occur at the same time as the lifting. For this purpose, the carrier can be connected by a further link to one end of a guide rail, the other end of which is connected by a link to one of the two rods which are linked to the substrate. By appropriately measuring the length of the arm of the barbell whose end the carrier is attached to, the length of the guide rail between its joints and the distance between the joints of the carrier, resp. on the rod articulated to the base, the carrier can easily be made to move from the discharge point of the magazine up to the shot guide in a largely translational movement or with a turn determined by the desired direction of the shot at the discharge point from the magazine and at the shot guide, at the same time as it moves up and down in a path that is conditioned by the geometry of the pivoting bars and the barbell and follows an arc in a direction obliquely backwards and upwards.

The invention will be described in more detail below with reference to the drawing. Fig. 1 schematically shows parts of an automatic cannon with a shot guide for introducing a shot into the cannon's chamber pocket, a shot magazine consisting of two parts that lie on either side of a longitudinal vertical plane through the barrel and the shot guide, and a shot elevator according to the invention placed in a shaft between the magazine parts. Fig. 2 shows the shot elevator in more detail in its upper position for placing a shot in the shot guide, which is not shown in this figure, and

fig. 3 shows the shot elevator in its lower position with the elevator's support member at the height of a discharge port for shots in the magazine, not shown.

Adjacent to the chamber and the rear part of the barrel 1 of a cannon, in the extension of the barrel and the chamber, there is a shot guide 2, through which shot is fed to it, is to be introduced into the chamber with an employee 3. On each side of in the space below the shot guide are two parts 4a and 4b of a shot magazine with discharge ports underneath, of which the port of one magazine part 4b is indicated by 5. The magazine parts contain devices for feeding shots 6 through the ports of a shot elevator 8, which is arranged on a substrate 7 in an elevator shaft between the magazine parts 4a and 4b, and has a support member 10, which, when the elevator is in its lower position, is ready to receive a shot that is fed out through the gate 5 in the wall of the elevator shaft 9. The shot elevator is with dashed lines 8 ' shown in its upper position, in which the carrier is brought up to the shot guide in position to deliver a shot.

The design of the shot lift can be seen in more detail from fig. 2 and 3. The support member 10 for shots is formed by a support rail 11, which at the ends is provided with stops 12 and 13, with which a shot 14 fed to the support member is held in position on the support member during the lifting of the shot through the shaft. The carrier is attached to one by a link 15. longest arm 16 of a two-armed barbell 16, 17, which with a link 18 is pivotably attached to one end 19 of a first bar 22 which is pivotably attached at its other end 20 to the substrate 7 by a link 21. The barbell's second, shortest arm 17 is attached by a joint 23 to one end 24 of another rod 25, which is attached at its other end 26 to the substrate 7 by a joint 27. The distance between the joints of the rods 22 and 25 and the length of the barbell's arm 17 as well as the distance between the joints 21 and 27 is chosen in relation to each other such that when the rods 25 and 22 are swung down towards the base 7, they lie close to each other at a negligible height above the base 7. The orientation of the joint points on the barbell 16, 17 is chosen so that the arm 16 which carries the carrier 10, in this position of the rods 25 and 22 lies close to the base 7, and largely parallel to the two rods 22 and 25. Fig. 3 shows the elevator in this lower position.

The parts of the lift consisting of the rod system are pivotable between the positions 8 and 8' in fig. 1, corresponding to figures 3 and 2 respectively, under the action of a drive device, in the shown embodiment consisting of a hydraulic motor 30 which has a working cylinder 31 and a piston with piston rod 32, and whose working cylinder at a link 33 is attached to the substrate 7, while the piston rod is attached to the rod 25 at a joint 34 at a distance from its joint 27 on the substrate. The downward and upward swing of the rod system is limited by the impact of a stop 28 on the rod 25 against the substrate 7.

In order for the shot support member 10, which is arranged with the link 15 on the outer end of the weight bar 16, to assume correct positions during the movement between the elevator's end positions and in these, it is provided with a guide member in the form of a guide rail 40, one end of which is connected to the carrier by a joint 41, whose axis of rotation lies at a distance from the joint 15 of the barbell's arm 16, and whose other end either as shown in the drawing by a joint 42 at a distance from the joint 18 is connected to the rod 22 which is connected to the barbell's middle link 18, or at a link at a distance from link 23 in a similar way is connected to the bar 25. The weight bar's arm 16 and the rail 40 thereby form a bar system, which for each position of the pivotable bars 22 and 25 connected to the arm 17 uniquely define - adjusts the position of the carrier 10.

The operation of the shot elevator according to the invention is, starting from its lower position (fig. 3) as follows: Through the discharge gate 5 of the elevator shaft, a shot is fed out to the carrier 10, which in this position lies at a level below the gate, and deposited on carry the body. The hydraulic motor is started and swings the arm 25 up so that it takes the weight rod 16, 17 with it, which is thereby swung about the pin 18, so that its arm 16 is swung out from the rod 22, which at the same time follows during swing. The joint 15 will thereby move upwards from the position in fig. 3 in an obliquely rearward-directed arc in the embodiment shown to the position in fig. 2, where the carrier 10 arrives with the shot to the shot guide. During this movement, the support member is held in the desired position by the rail 40 while the support member 10 rotates in relation to the arm 16 of the barbell when it swings out from the bar 22. This rotation essentially corresponds to the total angle change of the arm 16 of the barbell in relation to the substrate, but can deviate somewhat from it, so that the support member 10, as previously mentioned, if desired due to the orientation of the discharge port and the shot guide in relation to each other, by appropriate selection of the geometry of the bar system can have a certain rotation in relation to to the substrate.

Claims (3)

1. Elevator device for a cannon, in particular an automatic cannon, for feeding shots from the cannon's shot magazine to a shot guide which is arranged behind the barrel and serves to guide the shots during their advancement with an employee to the cannon's chamber, comprising a shot elevator equipped with a carrier for shots, characterized in that the carrier (10) is attached by a joint (15) to the free end of one arm (16) of a two-armed weight bar (16, 17) supported on a bar (22), which is pivotable in a vertical plane about a joint (21) attached to a base (7) below the discharge point (5) of the shot magazine, and that the two-armed weight bar's second arm (17) is connected at its end to one end (24) of another rod (25) which is pivotable in the same vertical plane and whose other end (26) is connected to the base (7) at a distance from the joint point (21) of the first-mentioned rod (22) on the base, and whose length between its joint points (23, 27) is smaller than the distance between the joint points (21, 18) of the first-mentioned pivoting rod (2 2), and that one of the two mentioned rods is connected to a drive member (30) to give the rods and thus also the two-armed barbell a swinging movement in the mentioned vertical plane. 2. Device as stated in claim 1, characterized in that the support member (10) is provided with a guide member (40, 42) for a swinging movement of the rods and thereby caused movement of the support member's attachment point (15) on the barbell arm ( 16) to give the support member (10) a rotation in relation to the barbell's arm. 3. Device as stated in claim 2, characterized in that the support member (10) at a link (41) located at a distance from the link (15) with which it is attached to one arm (16) of the two-armed barbell (16, 17 ) is associated with the one end of a guide rail (40), the other end of which is connected to one of the rods (22, 25) articulated to the substrate at a joint (42) at a distance from the joint (18, 23) with which one of the to the substrate (7 ) articulated rods (22, 25) are attached to the weight bar (16, 17).