NO137208B - PROCEDURE AND SULFUR-RESISTANT CATALYST FOR RESIDUAL SULFUR DISPOSAL OF RESIDUAL HYDROCARBON OILS - Google Patents

Description

Device for attaching welding substrates to conveyor belts in vacuum packaging machines.

The present invention relates to a

device for attaching the welding substrate to

conveyor belts in vacuum packaging machines.

Vacuum packing machines are used as known for evacuating and closing flats

bags of composite foils. These machines have an endless conveyor belt which

wears thick rubber or plastic coatings

the welding in and for closing the plane

bag. Corresponding to the machine's size and

the size of the vacuum chamber, to which

the conveyor belt feeds the bags that are to be

is closed, a certain number of welding pads are attached to the conveyor belt.

The substrate is so far everything according to that

material used for the substrate or for

the conveyor belt has been connected to the latter by gluing or vulcanization.

However, this method of attachment is not satisfactory. When the tape is passed around

breaking rolls, it will due to the considerable thickness of the conveyor belt creates tensile stresses in the welding substrate placed on it. The elastic material of the welding substrate will probably be able to at first

absorb these tensile stresses, but during operation the substrate's adhesion to the tape is reduced, especially at the ends of the welding substrate, and there is even a danger of

crack formations in the welding substrate, which

reduces the quality of its closure

flat bag.

When closing the bag during use

of heat and pressure, the welding substrate will be exposed to considerable stress and wear

pretty soon. The welding substrate must therefore be considered an easily wearable part, and there-

because it should be easily replaceable. They so far

However, the fastening methods used are completely at odds with this requirement.

It is the purpose of the invention to eliminate this disadvantage of attachment methods for welding substrates on conveyor belts in vacuum packaging machines, and the device according to the invention is characterized by several holders connected to the conveyor belt, which guide the welding substrate laterally, as well as fastening means for fixing a place on the welding substrate to a corresponding place on the conveyor belt. In contrast to the previously known fastening devices, the welding substrate is neither glued nor vulcanized on the conveyor belt, but is held movably on it. For replacement of the welding substrate, it is only necessary to loosen the said fastening means, after which the welding substrate can be easily removed from the holders. During the conveyor belt's operation, tensile stresses will not occur, as there is no longer a fixed connection between the welding substrate and the conveyor belt. However, the fastening device and the side control members (the holders) ensure that the welding substrate, after it has passed the breaking rollers and especially in front of the inlet to the vacuum chamber, again takes the correct position on the conveyor belt, which is necessary to carry out a correct welding for closing the the imposed bag.

As the otherwise usual tensile stresses at the breaking rollers are eliminated by the device according to the invention, it is possible to adapt the material and shape of the welding substrate exclusively according to the requirements for an exact packing resp. welding process, and it is thus no longer necessary to design the welding substrate, e.g. rather low in order to thereby keep the inevitable tensile stresses as small as possible.

According to a suitable embodiment of the device according to the invention, the holders are U-shaped, with the flanges forming the welding substrate's side guide. The middle pieces of the U-shaped holders are secured to the conveyor belt by means of a rivet connection or screw connection, but other connection methods are also conceivable. When using several rivets or screws for one of the holders, it is appropriate to place the rivets or screws on a line that forms 90° with the direction of transport. This avoids bending of the holder when passing over the breaking rollers. Furthermore, it is advantageous that at least one of the holder's flanges has a shoulder, nose e. 1. which extends forward over the surface of the welding substrate and prevents this from being lifted by the conveyor belt when it recedes.

In addition to lateral control of the welding substrate, said holders can also serve other purposes. First of all, it is possible to provide the holders with a guide rail for holding the bag to be evacuated and closed on the welding surface. Furthermore, the holder's one flange can be designed as a supply pipe, especially intended for supply of the nitrogenous substance that is to fill the bag.

Furthermore, the device according to the invention can be such that the welding substrate is attached to one of the holders by means of the fastening means, preferably the first or last holder in the conveying direction of the conveyor belt. The fastening device can consist of a pin, bolt etc. passing through the welding surface and guided in the holder's flanges. 1. The other end of the welding surface is connected to the conveyor belt by means of an elastic device, e.g. a rubber band that stretches the welding substrate along the conveyor belt, as the belt is attached to the welding substrate and uses one of the holders as a counter-hold.

If the welding substrates are very soft, it is appropriate to attach them to rubber bands.

The drawing shows some embodiments of the device according to the invention. Fig. 1 schematically shows a vacuum packaging machine. Fig. 2 shows, seen from the side and on a larger scale, a part of the conveyor belt with a welding base attached to it according to the invention. Fig. 3 shows the device in fig. 2 views from above. Fig. 4 shows in an enlarged view

scale a section through a holder with

welding base according to the line IV—IV in fig. 3.

Fig. 5 shows a section corresponding to that in fig. 4

through a holder of another embodiment, and fig. 6 shows a section through the device in fig. 5 following the line VI—VI in fig. 5.

Several welding pads are attached to the conveyor belt 1 in the vacuum packaging machine 2

3, which together with the conveyor belt 1 runs around in the direction of the arrow 4. The conveyor belt 1 is controlled by means of breaking rollers 5. The vacuum head of the vacuum machine 2 is denoted by 6.

The welding substrate 3 is attached to the conveyor belt 1 by means of holders 7, the number of which depends on the length of the welding substrate or the width of the vacuum chamber 6.

At the last holder 8 in the forward direction, the welding substrate 3 is attached to the conveyor belt 1 by means of a simple, twisted pin 9, which extends parallel to the conveyor belt and perpendicular to the forward direction. A modification of the pin is indicated by dotted lines in fig. 5 and 6, and consists here of a hairpin-shaped wire hoop 10 which grips the pipe 11, penetrates the welding substrate and out on the opposite side where its ends 12 are bent round.

13 denotes a rubber band which is connected at 14 to the welding substrate by means of a fastening device, such as a clamp, a pin e. resistance. The rubber band stretches the welding substrate along the conveyor belt and since there is such a large clearance between the flanges of the holders 7 and the welding substrate 3 that movement of the welding substrate in relation to the conveyor belt is permitted in the transport direction, the rubber band 13 will be able to stretch the welding substrate out after it has passed over a breaking roll 5, which is particularly important for welding. The welding substrate's front end 36 must be guided so far in front of the first holder 15 that it does not come free of this during the stretch over the breaking rollers 5.

From fig. 4 shows that the welding substrate 3 consists of an elastic, soft lower layer 16

and a stiffer and flatter upper layer 17. The bead

18 forms a good bearing surface for the plane

bag 19. The welding stamp 20 is indicated by dotted lines.

In the center piece 21 of the holder 7, a screw sleeve 22 is riveted, in which a screw 23 engages. The base plate 24 prevents the screw head from penetrating through the conveyor belt 1 and onto its underside.

Both holder's 7 flanges 25 and 26

guides the welding substrate laterally, and a projection 27 grips over the surface of the welding substrate.

After the modification in fig. 5 and 6, the middle piece of the U-shaped holder 21' is held

to the conveyor belt 1 by means of two connecting means, which consist of the screw 28

with a recessed head that engages in the sleeve 29 and by a sleeve 30 that is guided in the tube 11 and retained by a screw 31. The sleeve 30 together with the tube 11 forms a channel

for the nitrogen to be fed into the bag

and at the same time forms a side control for

the welding substrate 3, which in this case is not

has some bead 18.

The flange 33 carries a guide plate 34

with a slot 35, in which the flat bag can

is entered. A riveted or welded connection can be arranged between the flange 33 and the guide rail 34.

The device according to the invention can

can be modified in several ways. For example can

the fastening device 9 or 10 is placed on

the one in the forward direction of transport holds and

the rubber band 13 at the rear end of

the welding substrate. It is also possible to arrange a fastening device in the middle of

the welding surface and a corresponding device with two rubber bands at the ends.

With a sufficiently rigid welding substrate and

sufficiently large clearance between the welding substrate and the holder flanges, it is possible to

loop tension device (rubber band).

Claims (11)

1. Device for attaching welding substrates to conveyor belts in vacuum packaging machines, characterized by several holders (7) connected to the conveyor belt (1), which guide the welding substrate (3) laterally, as well as fastening means (9, 10) for fixing a place on the welding substrate to a corresponding place on the conveyor belt. 2. Device according to claim 1, characterized in that the holders (7) are U-shaped and guide the welding substrate (3) laterally by means of their flanges (25, 26). 3. Device according to claim 2, characterized in that the middle pieces (21, 21') of the U-shaped holders (7) by means of a rivet connection or a screw connection (28, 29) is held on the conveyor belt (1). 4. Device according to claim 3, characterized in that when several rivets or screws are used for one of the holders, the rivets or screws lie on a line forming 90° with the direction of transport. 5. Device according to one of the preceding claims, characterized in that at least one (26) of the holder's flanges (7) has a shoulder (27, 32), a nose e. 1., which serves to ensure that the welding substrate does not is lifted by the conveyor belt. 6. Device according to one of the preceding claims, characterized in that there is such a large clearance between the flanges of the holders (7) and the sides of the welding substrate that movement of the welding substrate in relation to the conveyor belt is permitted in the transport direction. 7. Device according to one of the preceding claims, characterized in that one of the holder's flanges (33) carries a guide rail (34) which holds the bag to be evacuated and closed on the welding surface. 8. Device according to one of the preceding claims, characterized in that one flange of the holder is designed as a supply pipe (11, 30), especially intended for introducing nitrogen into the bag. 9. Device according to one of the preceding claims, characterized in that the fastening means (9) for fixing the welding substrate is arranged on one of the holders (7), preferably the first or last holder in the transport direction. 10. Device according to claim 9, characterized in that the welding substrate is attached to the holder's flanges by a pin (9, 10), bolt e. 1., which runs parallel to the conveyor belt and perpendicular to the transport direction. 11. The device according to one of the preceding claims, characterized in that the other, non-fixed end (36) of the welding substrate is connected to the conveyor belt by means of an elastic device, e.g. a rubber band (13) which stretches the welding substrate along the conveyor belt.