GB2082966A

GB2082966A - An appliance for the repair of rubber or plastics conveyor belts and for making them endless

Info

Publication number: GB2082966A
Application number: GB8120241A
Authority: GB
Original assignee: Wagener Schwelm GmbH and Co
Current assignee: Wagener Schwelm GmbH and Co
Priority date: 1980-07-26
Filing date: 1981-07-01
Publication date: 1982-03-17
Also published as: CA1171257A; ES8205157A1; IL63334A; IL63334A0; BR8104789A; NL8103276A; PL129860B1; AU7244481A; RO84869B; IT1138854B; RO84869A; MX154889A; YU178881A; FR2487251B1; DK332381A; FI74656B; GB2082966B; GR74939B; ES504278A0; NO152623C

Abstract

An appliance for the repair of rubber or plastics conveyor belts 1, usually having reinforcement inserts 2, and for making them endless, comprises heatable press plates 3, 4, upper girders 5, lower girders 6 and hydraulic pressure-producing equipment 7. The girders 5, 6 are connected together in pairs by tensioning bolts 8 with mechanical tightening facilities 9 and undergo bending deformation under a specified pressure, with a defined deflection curve or bending line. The pressure- producing equipment 7 acts between one of the press plates 3 and the associated girders 5, and consists of hydraulic tubes which are of constant perimeter but the cross-section of which can be deformed and which are supported on one side by the girder 5, and on the other side on a U-profile pressure plate 12. The distance of the pressure plate 12 from the girder 5 is adjustable and is so adjusted that in the operating condition the tubes 7 possess an oval cross-section. The deflection of the girders can be compensated by a deflection curve compensator 11. The tubes 7 may be arranged either parallel to or transversely of the girders and may either be connected to a common source of pressure medium or be tightly sealed but contain an incompressible liquid. <IMAGE>

Description

SPECIFICATION An appliance for the repair of rubber or plastics conveyor belts and for making them endless This invention relates to an appliance for the repair of rubber or plastics conveyor belts (which usually have reinforcement inserts) and for making them endless, of the type having press plates that can be heated, upper and lower sets of girders, and hydraulic pressure-producing equipment, upper and lower girders being connected together in pairs by tension rods with mechanical tightening facilities so as to undergo bending deformation under a specified pressure with a defined deflection curve or bending line, and the pressure-producing equipment acting between one of the press plates and the adjacent girders.

The tension rods are normally threaded bolts that can be tightened by means of associated nuts. In addition in such presses the girders are as a rule flexibly constructed for reasons of weight, so that the whole system is of a flexible nature. Although the pressure-producing equipment acts between one of the press plates and the adjacent girders, both the upper and lower girders deform, this being according to a specified, essentially archshaped deflection curve or bending line.

In known appliances of this type the pressproducing equipment comprises a multiplicity of piston-and-cylinder units spaced along the length of the adjacent girders and inserted into these girders. Appropriate recesses or holes in the girders are necessary for this, whereby the girders are weakened, and consequently they must be correspondingly heavily and rigidly constructed, although on the other hand as already mentioned for reasons of ease in transport a particularly light and flexible construction is desired. Also the pressure is not developed uniformly and in a homogeneous manner, but rather at singular points corresponding to the individual positions of piston-and-cylinder units, even though efforts are made to reduce the surface pressures by means of pressure shoes. The piston-and-cylinder units themselves must be acted upon by pressures of several hundred bars.Although all of this has proved satisfactory it is expensive.

In other fields of engineering, namely for transporting and conducting hydraulic and pneumatic media under pressure, so-called hydraulic tubes are known which although they are compressible do not however alter their perimeters under such deformation. Hydraulic tubes of this kind are described as stableperimeter hydraulic tubes. They have hitherto not been applied in presses as active pressure producers with pressure-cushion functions or even as active pressure-transmitting units, because they cannot be inflated. Although it has already been proposed with basically similar appliances that a row of multiple piston-and-cylinder units should not be used, but instead inflatable pressure cushions should be used, this form of construction has not been successful in practice.Also, although pressure cushions can remain adequately pressure-tight when they are subjected to the necessary pressure and are sturdy and troubie-free they are not easy to manufacture.

It is the object of the invention to create an appliance of the type initially described, with hydraulic pressure-producing equipment in which a row of multiple piston-cylinder devices is no longer necessary and in which moreover the pressure is rendered uniform, yet being light and portable.

According to the present invention therefore, in an appliance of the type initially described, the pressure-producing equipment comprises hydraulic tubes which are of constant perimeter but the cross-section of which can be deformed and which are supported on one side by the adjacent girder while being accommodated on the other side in a pressure plate constructed with a U-profile and adjustable for spacing relative to the girder, and the spacing of the pressure plate from its girder being such that the hydraulic tubes possess an oval cross-section in the operating condition.

The invention originates from the recognition that the hydraulic tubes mentioned can replace the normal piston-cylinder devices in an appliance of this generic type, even though the hydraulic tubes are of stable perimeter and can only be deformed in a cross-sectional respect. This replacement is possible if it is ensured that in operating conditions under pressure the hydraulic tubes, having defined, essentially oval, crosssection, are supported with broad surfaces directly or indirectly against the pressure plate and against the girder. "Indirectly" means that supporting intermediate members can be provided, whether it be for heat insulation purposes or for other purposes. Also by the broad-surface support very uniform and homogeneous pressure distribution is obtained.

There are several possibilities for further development and design within the scope of the invention. One form of construction that has proved successful is characterized in that the oval operating condition possesses a cross-sectional area that amounts to between 25% and 75% of the undistorted circular cross-sectional area of the hydraulic tubes. Of course within the scope of the invention care must be taken that all the hydraulic tubes contribute similarly to pressure production.

For this purpose it is desirable that the design should be so arranged that under operating conditions all the hydraulic tubes are deformed to the same degree and in the same manner. If under operating conditions all the hydraulic tubes under the girders experience the same compression along the whole length of the girders, then uniform surface pressures are also obtained.

In order to ensure pressure distribution that is as even as possible a preferred form of construction of the invention to which particular importance is attached is characterized in that the hydraulic tubes are attached to the adjacent girder and/or to the associated pressure plate with interposition of a deflection curve compensator.

Within the scope of the invention "deflection curve compensator" refers to an intermediate member the thickness of which is so arranged that it compensates for the deflection that the girder undergoes under operating conditions. For this purpose a deflection curve compensator is in general flat on the one face and is bent on the other face in accordance with the sum of the deflection curves or bending lines of the girder under operating conditions. It can be produced as a continuous strip or plate or can be compounded from individual portions. A deflection curve compensator is always desirable when the hydraulic tubes are located parallel to the girders and below them, e.g., with two hydraulic tubes lying adjacent to one another per girder. However, a deflection curve compensator may be omitted.

This applies particularly if the hydraulic tubes are located transversely to the girders. In addition in an appliance according to the invention the hydraulic tubes are preferably hydraulically connected to one another.

There are several possible ways of producing the pressure in the pressure medium. The tightening facility may be additionally employed as pressure-producing equipment. Then no separate pressurising means for the pressure medium is required. Alternatively, a separate pump may be used for supplying the pressure medium. In a form of construction without a separate source of pressure medium the hydraulic tubes are tightly sealed and containing an incompressible liquid merely occupying part of their undeformed circular cross-section, and the tightening facility of the tension rods is adapted to be additionally the activation means of the pressure-producing equipment. In anotherform of construction the hydraulic tubes are hydraulically connected together and connected to a common source of pressure medium.

The pressure plate already mentioned can additionally be constructed as a thermal insulation device or be provided with such insulation if the temperature conditions determined by the heated press plates demand it. The pressure can be checked and measured without difficulty if at least one of the hydraulic tubes is equipped with a suitable indicating device, for example in the form of a pressure gauge. The pressure gauge may be attached by plug-in couplings and thereby is removable for transport purposes. In order to obtain a very uniform initiation and distribution of pressure the individual hydraulic tubes should lie tightly against one another in their deformed oval condition.

Two embodiment of the invention will now be described, by way of example only, with reference to the accompanying drawings, in which:~ Figure 1 is a plan view of an appliance according to the invention; Figure 2 is an enlarged section taken from the line A-A of Figure 1; Figure 3 is an elevation of the deflection curve compensator of Figure 2 as formed; Figure 4 is a section from the line B-B of Figure 2 on an even larger scale; Figure 5 corresponds to Figure 2 but shows a form of construction according to the invention without a separate source of pressure medium; Figure 6 is a section on the line C-C of Figure 5 on a considerably enlarged scale; and Figure 7 corresponds to Figure 6 but shows another operational condition.

The appliance shown in Figures 1 to 4 serves to repair rubber or plastics conveyor belts 1, with the usual reinforcement inserts 2, and to make them endless. In basic construction the components of the appliance are press plates 3, 4 that can be heated, a set of upper girders 5, a set of lower girders 6, and hydraulic pressure-producing equipment 7, connected to a source of pressure medium (not shown). Upper and lower girders 5, 6 < are connected together in pairs by tension rods 8 in the form of threaded bolts with mechanical tightening facilities 9 in the form of superimposed nuts. The girders 5, 6 undergo bending deformation under a specified pressure, with a defined deflection curve or bending line 10. The girders are arranged to be relatively pliable for reasons of weight.The pressure-producing equipment 7 acts between the upper press plate 3 and the upper girder 5, but with the interposition of a pressure plate 12. The deformation has been represented on an exaggerated scale in Figure 2.

Similarly the deflection curve compensator 1 1 represented in Figure 3 has been drawn with exaggeration of its upper arch-shaped contact surface.

The pressure-producing equipment possesses a number of hydraulic tubes 7 which are of constant perimeter but the cross-section of which can be deformed. These hydraulic tubes 7 are supported on one side by the adjacent girder 5 and on the other side by a pressure plate 12, the distance of which from the girder 5 is adjustable, its maximum distance A from the girder 5 with which it is associated being so limited that in the operating condition the hydraulic tubes 7 possess an oval cross-section. The hydraulic tubes 7 lie in the pressure plates which in profile are U-shaped on account of flanges 15. For setting the maximum spacing A, suitable spacing bolts 13, which are inserted into the girders 5, are attached to the pressure plates 12, the bolts 13 also being provided with compression springs 14, which serve the purpose of pressing the side flanges 15 against the under surfaces of the girders 5 so that the whole, particularly during transport and installation, is a closed unit. The design is so arranged that the hydraulic.tubes 7 in their undeformed condition possess a circular crosssection indicated by broken lines in Figure 4, the diameter D being greater than the abovementioned maximum spacing A. Finally the design is so arranged that in the operating condition under pressure the hydraulic tubes 7 are supported on wide surfaces against the pressure plates 12 and girders 5, with essentially oval cross-section. This support itself can take place either directly or indirectly.The hydraulic tubes 7 in their oval operating condition possess a crosssection that amounts to about 75% of the undistorted circular cross-section. For reasons already explained above a deflection curve compensator 11 is provided between the girders 5 and the hydraulic tubes 7. In Figures 2 and 4 hydraulic tubes 7 are shown running parallel to and below the girders 5, with two hydraulic tubes 7 provided for each girder. However, they could alternatively run transversely to the girders 5, as is indicated in Figure 1, and in doing so the hydraulic tubes 7 form bridges below adjacent girders 5. it is not necessary to provide special support for the hydraulic tubes 7 in the regions between the girders 5. Each pressure plate 12 is additionally constructed as a thermal insulation device or is provided with such insulation.A pressure gauge 16, which is connected to one of the hydraulic tubes 7 by a plug-in coupling or the like serves to monitor the pressure. Under working conditions the hydraulic tubes 7 moreover lie tightly alongside one another, as Figure 4 shows. The deflection curve compensator 11 compensates for the deflection, or more exactly the bending lines, of the upper girder 5 and the lower girder 6.

Nevertheless the deflection curve compensator 1 1 can for manufacturing reasons possess an under surface which is flat in the unloaded condition (Figure 3). It then deforms to more or less symmetrical cross-section under working conditions.

Figures 5 to 7 illustrate a form of construction of the invention which works without a separate source of pressure medium. The hydraulic tubes 7 are again supported by the girders 5, and by the associated pressure plate 12 with interposition of the deflection curve compensator 11 already mentioned. In the manner already explained this compensates for the deflection of girders 5, 6 in the operating condition. Figure 6 shows that the hydraulic tubes 7, which in this form of construction are tightly sealed, contain an incompressible liquid 17 that merely occupies about 75% of their undeformed circular tube cross-section, leaving spaces 18. The nuts 9 on the tension bolts 8 also serve to effect the pressurising of the pressure-producing equipment.

The interior spaces of the hydraulic tubes 7 may be in communicating connection with one another. As the hydraulic tubes 7 are tightly sealed they are provided with fittings 19 which effect this sealing. If the hydraulic tube 7 are in communicating connection with one another, the conduits for the communicating connection are located in these fittings. The pressure that is applied can be checked by measurement in simple manner as the tightening facilities 8, 9 already described are operated. For this purpose a pressure indicating equipment in the form of a pressure gauge 16 or the like is attached to at least one of the hydraulic tubes 7. This can advantageously take place by means of a plug-in coupling so that the pressure indicating equipment may be taken off during transport of the appliance as a whole from one place where it is used to another.The hydraulic tubes 7 are located parallel to and below girders 5, with two hydraulic tubes 7 per girder. However, in principle the hydraulic tubes 7 could alternatively be located transversely to the girders 5. 6. Figure 7 shows that in the deformed condition the hydraulic tubes 7 lie tightly alongside one another, whereby a very uniform distribution of pressure is achieved. The result that is ensured is that all cross-sections of the hydraulic tubes 7 under the associated girders 5, and that all the hydraulic tubes 7 in the operating condition experience the same deformation and thereby the same compression, so that in consequence a pressurecushion operates with a hydrostatic state of stress and equal pressure throughout, and ensures uniform and adequately homogeneous pressure distribution. Any air cushion present in the hydraulic tubes 7, which is at excess pressure or reduced pressure compared with the atmosphere, does not deleteriously affect the operation described.

The deflection curve compensator 11 can be omitted from the construction according to Figures 1 to 4 and also from that according to Figures 5 to 7.

Claims

1. An appliance for the repair of rubber or plastics conveyor belts and for making them endless, having press plates that can be heated, upper and lower sets of girders, and hydraulic pressure-producing equipment, upper and lower girders being connected together in pairs by tension rods with mechanical tightening facilities so as to undergo bending deformation under a specified pressure with a defined deflection curve or bending line, the pressure-producing equipment acting between one of the press plates and the adjacent girders, the pressure-producing equipment comprising hydraulic tubes which are of constant perimeter but the cross-section of which can be deformed and which are supported on one side by the adjacent girder while being accommodated on the other side in a pressure plate constructed with a U-profile and adjustable for spacing relatively to the girder, and the spacing of the pressure plate from its girder being such that the hydraulic tubes possess an oval crosssection in the operating condition.

2. An appliance according to Claim 1, wherein in the oval operating condition the hydraulic tubes possess a cross-sectional area that amounts to between 25% and 75% of the undistorted circular cross-sectional area.

3. An appliance according to either of Claims 1 or 2, wherein the hydraulic tubes are hydraulically connected to one another.

4. An appliance according to any one of Claims 1 to 3, wherein the hydraulic tubes are arranged transversely to the girders.

5. An appliance according to any one of Claims 1 to 3, wherein the hydraulic tubes are arranged parallel to the girders.

6. An appliance according to any one of Claims 1 to 5, wherein the pressure plate is additionally constructed as a thermal insulation device or is provided with such insulation.

7. An appliance according to any one of Claims 1 to 6, wherein at least one of the hydraulic tubes is provided with a pressure indicating device.

8. An appliance according to any one of Claims 1 to 7, wherniii in their deformed oval condition the hydraulic tubes lie tightly against one another.

9. An appliance according to any one of Claims 1 to 8, wherein the hydraulic tubes are supported by the girder and/or by the associated pressure plate through an interposed deflection curve compensator.

10. An appliance according to any one of Claims 1 to 9, wherein the hydraulic tubes are tightly sealed but contain an incompressible liquid merely occupying part of their undeformed circular hydraulic tube cross-section, and that the tightening facility of tension rods is adapted to be additionally the activation means of the pressureproducing equipment.

11. An appliance according to any one of Claims 1 to 9, wherein the hydraulic tubes are hydraulically connected together and are connected to a common source of pressure medium.

12. An appliance for the repair of rubber or plastics conveyor belts and for making them endless substantially as hereinbefore described with reference to Figures 1 to 4 of the accompanying drawings.

13. An appliance for the repair of rubber or plastics conveyor belts and for making them endless substantially as hereinbefore described with reference to Figures 5 to 7 of the accompanying drawings.