SE425803B - Upwardly open container for the hot galvanization of objects - Google Patents

Abstract

The invention relates to an upwardly open container 1,13 for use in galvanizing operations. The shell 1 of the container is perforated to facilitate the passage of molten zinc. A central rod 6 is connected to the bottom 13 of the container 1,13, and a sliding body 5, which can move about the said rod 6, is movably mounted. This sliding body is connected to the shell 1 of the container 1,13 and also has a connection 12 to a lifting device. According to the invention, a locking device 9 is provided for fixing the rod 6 and the sliding body 5 when the bottom 13 and the shell 1 are in contact with each other. <IMAGE>

Description

8101170-2 The sliding body is suitably constituted by a sleeve which is closed at its upper end. At said end, a lifting loop is suitably arranged.

The circumferential wall is provided at its lower edge with a circumferential flange which is of such a nature that it covers the transition point between the circumferential wall and the bottom so that goods cannot leave the container when the circumferential wall and the bottom are in contact with each other.

Further features applicable to the present invention appear from the appended claims.

The present invention will be further described in connection with the accompanying drawing, in which Fig. 1 shows a container where the bottom and circumferential wall are in contact with each other and in which Fig. 2 shows a container in which the circumferential wall of the container and the bottom of the container are spaced apart. In the figures, 1 is a circumferential wall which is perforated with a number of holes.

The circuit wall is cylindrical, but it should be obvious that it can also form other cross-sections. from the upper edge of the circumferential wall 1 two legs 2 and S emanate, which are connected to each other by means of a yoke part 4. The cover part contains at its center a sleeve-like valley 5, which at its upper end is closed and provided with a sleeve loop 12. The sleeve-like part 5 is encountered a center tube 6 having a rectangular cross-section. The tube 6 is provided on its mantle surface with through holes 7. The tube 6 is also provided with a circumferential collar B to protect the opening of the sleeve-like part 5 from penetration of unwanted material. The cover part 4 contains a locking device 9 which can lock the sleeve-like part 5 at the tube 6. The locking takes place by means of an arm which acts on a transversely movable piston, which can be caused to penetrate into a hole in the centrifuge tube 6.

The circumferential wall is provided at the bottom at its lower free edge with a circumferential bead 10 for abutment against a cup-shaped bottom 13. The bottom 13 transitions at its circumferential edge to become tubular. The circumferential bead 10 and the bottom 13 are so shaped that on their abutment against each other passages occur. From the circumferential bead 10 emits a circumferential flange 11, which has an L-shaped cross-section. The function of the circumferential flange 11 is to prevent larger particles from being able to leave the container if they manage to pass between the circumferential bead and the bottom.

The bone drum tube 5 opens onto the back 13 of the bottom. There is thus free passage between the underside of the bottom and the interior of the tube 6.

A container according to Fig. 1 has its lower circumferential edge to the circumferential wall 1 abutting against the bottom 13. Furthermore, the container has its locking device in the reading position, which means that the bottom 13 and the circumferential wall 1 are immovable in relation to each other. In this position, the container can be filled with goods in the desired amount and then the container can be immersed in a medium which is allowed to affect goods present in the container.

The medium may consist of a zinc bath and the goods may consist of metal particles to be galvanized. The medium passes through the hole of the circumferential wall 1 to reach the goods existing in the container. In the case of, for example, immersion in a zinc bath, the surface of the zinc bath may be provided with undesired particles. These particles then pass through the tube 6 and out through the holes 7 into the container. From there, the particles rise to the surface of the bath above or in the container where the particles can be removed. After the desired media treatment of the goods, the container is lifted and subjected to rotational movement. This is to remove unbound medium or unused zinc. Upon rotation, the medium or zinc is removed through the cracks or passages formed between the bottom 13 and the circumferential bead 1D and also through the holes of the circumferential wall. Through the said gap or passage, of course, goods, if they consist of nails, can pass and leave the container. This is undesirable and in order to prevent goods leaving the container, the circumferential flange 11 has been provided which has a cross section in the form of an L. The circumferential flange covers the passage 8101170-2 between the circumferential bead 1D and the bottom 13 so that goods of small dimension cannot leave the container. Should goods be able to pass through the passage formed by the circumferential bead and the bottom 13, the circumferential flange 11 will make a barrier.

When centrifuged unused medium or zinc has been centrifuged away, the container is placed by means of a suitable lifting device on a flat floor surface. Thereafter, the locking device 9 is brought into unlocked condition. The Dm circuit wall can now be removed from the bottom 13 of the container by means of a lifting device which is connected to the lifting loop 12. During the lifting of the circumferential wall 1, the sleeve-like part 5 will slide along the hollow tube 6. Due to the bottom 13 having an internal arch surface, goods placed on the bottom will move outwards in relation to the pipe 5 and without a large drop height fall down on the floor surface on which the container is placed. Thus, a significantly less labor-intensive process has been achieved to empty a container. It is considerably easier to lift a perimeter wall than to turn a container filled with heavy goods upside down.

A container of the present kind is particularly suitable for use in galvanizing plants, but it should also be obvious that the container can be used for different kinds of goods which are to be subjected to a medium treatment. It should be normal for the medium to be liquid, but it should also be possible for the medium to consist of powdered material.

Claims (2)

1. 8101170-2 CLAIMS 1. Open top container for hot-dip galvanizing of goods comprising a bottom (13) with a curved surface and a casing wall (1) half-equipped for the flow of molten zinc, a rod (6) with an arbitrary cross-section starting centrally from the bottom (13). ) and preferably extending above the upper edge of the casing wall (1) and an axially displaceable sliding body (5) arranged on the outside of the rod (6) which is fixedly connected to the casing wall (1) and is provided with a lifting device, for example a lifting loop (12), characterized in that the sliding body (5) is equipped with a locking device (9) for locking the sliding body (5) on the rod (6) when the jacket wall (1) rests against the bottom (13). An open container at the top according to claim 1, characterized in that the sliding body (5) consists of a sleeve closed at its upper end, at which end the lifting loop (12) is arranged. An open container at the top according to claim 1, characterized in that the bottom (13) and the casing wall (1) are of such a nature that when the casing wall (1) and the bottom (13) are in contact with each other passages arise through which only liquid zinc has the possibility to pass between the bottom (13) and the jacket wall (1). An open container at the top according to claim 3, characterized in that the jacket wall (1) is provided at its lower edge with a circumferential flange (11) covering said passages and thus farhinaranua god to leave the container (1 and 13)