DE3048885A1 - SPRING ARRANGEMENT AND METHOD FOR THE PRODUCTION THEREOF - Google Patents

Description

- 4 - IJL28P-2111 + GH

Spring assembly and method of making it

The invention relates to a spring arrangement with a substantially tubular housing and a spring arranged therein, in particular for a punch press, and a method for producing the spring arrangement.

Spring arrangements to apply a force to the stripper in punching presses or to exercise the hold-down device or to lift a workpiece from the lower punched part are in many different embodiments known. It is also known to have such spring arrangements with a preload between two displaceable relative to one another To arrange parts. In connection with other devices it is also known to use springs to protect against pollution and off To accommodate security reasons in a housing. Finally, it is also known to have such a spring arranged in a housing during to keep the housing under a pretension which is also retained by the completed spring assembly.

In punch presses it is also known to provide punch assemblies, on which a return spring acts, which can be adjusted to a predetermined preload with the help of an adjustable head part is. All of these known individual measures, when implemented, mean that the spring arrangements for the special application

application

130039/0997

- 5 - HL28P-2111 + GH

use case are afflicted with disadvantages and especially in the case of prestressed Springs lead to complicated arrangements if it is desirable in the interests of safety to use the spring in certain cases Use cases to encapsulate, for example, accidents to prevent the spring from breaking.

The invention is based on the object of an encapsulated spring arrangement to create in which the spring can be kept under tension and which is very economical to manufacture and adjust the preload, it is possible to set a certain clamping length with a maximum allowable stretch and one of the spring length ensure assigned pre-tensioning. When compressing the spring arrangement, care should be taken to ensure that that the encapsulation does not open and the interior of the housing remains closed as tightly as possible. When using this spring arrangement For punching presses, it should be possible to mount the spring arrangement directly on the stripper or hold-down device of the punching press, an alignment of the housing of the spring arrangement on the stripper or hold-down is ensured. Such a spring arrangement should be as simple as possible to manufacture.

This object is achieved according to the invention for the spring arrangement solved that the housing consists of two pot-shaped and telescopically into one another there is displaceable housing part halves, which interlock with their opening areas, and a helical compression spring enclose that the opening areas have deformed edge portions, which rest against one another and prevent opening of the housing, and that the helical spring in the housing is pretensioned stands and holds the deformed edge sections of the two housing halves in contact with one another.

With such a spring arrangement there is the possibility of the set the maximum desired spring length for a given preload, this preload also when the spring is stored

obtain

130039/0997

- 6 - HL28P-2111 + GH

preserved.

The two halves of the housing are closed in a preferred one Embodiment of the invention in such a way that the deformed Edge sections run frustoconically, see the Truncated cone-shaped edge section with the opening area inside lying housing part half expanded towards the opening area, whereas the frustoconical section of the outer housing part half narrows towards the opening area, and that the outer diameter of the housing part half lying on the inside in the overlapping area is essentially equal to the inner diameter of the outer half of the housing. Due to the frustoconical shaped edge sections A secure fastening of the two results at the opening areas of the two interlocking housing halves Housing part η to each other, the telescopically displaceable into each other Housing parts at each spring deflection due to the abutting surfaces of the housing parts during the telescopic displacement are largely sealed.

Due to the frustoconical enlargement of the inner edge section the inwardly reaching housing part half and the frustoconical constriction of the outer edge section of the externally overlapping Housing half, it is possible to close the housing with the help of a deformation die and at the same time the inserted Adjust the spring to a certain predetermined preload.

In a further embodiment of the invention it is provided that the deformed edge section of the interlocking housing part halves is flanged in a U-shape, the edge section being in the overlapping area inner housing part halves to the outside and the edge section of the housing part half lying outside in the overlap area is folded inward, and that the outer diameter of the beaded edge area of the inner in the overlap area

Housing Teilhii If te

1 30039/0997

- 7 - HL28P-2111 + GH

Housing half essentially the inner diameter of the outer Housing half and the inside diameter of the beaded edge area of the housing half lying on the outside in the overlap area is essentially equal to the outer diameter of the inner half of the housing, so that the end faces of the beaded Edge areas in the pressed apart state of the housing against each other issue.

For connecting the spring arrangement with the stripper or hold-down device of a stand press, a hole is provided in the bottom surface of the inner housing part *, to which a downwardly protruding Edge strip is formed. This edge strip engages in a corresponding recess on the face of the scraper, which has undercut side walls. With a corresponding dovetail-shaped widening of the edge strip, the The lower half of the housing is firmly connected to the stripper or hold-down device. This embodiment is particularly advantageous because the spring arrangement can be easily connected to the hold-down device or stripper by means of a non-compressible but resilient material base inserted into the central bore of the lower housing part and is deformed with the help of a ram in such a way that it expands the edge strip in a dovetail shape. As soon as the pressure stops, the disc of material returns to its original shape and can be removed.

The advantages and features of the invention also emerge from the following description of exemplary embodiments in conjunction with the claims and the drawing. It shows

Fig. 1 is a partial section through a punch press with a spring arrangement according to the invention,

2 shows a partial section through a spring arrangement according to the invention, which is used as a support lifter,

Fig. 3

13 0 0 39/0997

- 8 - HL28P-2111 + GII

3 shows a partial section through a molding device for production the inner housing pot,

4 shows a partial sectional view of the assembly device for the final shaping of the outer housing pot.

5 shows a representation corresponding to FIG. 4, which shows the formation of a frustoconical section during the assembly shows

6 shows a section through a further embodiment of the Spring arrangement according to the invention,

7 shows a partial section through a spring arrangement according to the invention, which is fixed to the stripper of the punch press connected is,

8 to 11 partial sections, from which various work steps emerge in order to connect the housing of the spring arrangement according to FIG. 7 with the wiper.

The spring arrangement according to the invention is shown in FIG The illustrated embodiment is used in conjunction with a punch 11. This punch includes a punch 12 with an enlarged head part 13 and a punching surface 14 at the lower end. The punch 11 extends through a stripper 13A, the is in turn arranged in a holder 14A of a punching press, for example in the punch turret bench of such a press. With help a return spring 15, the stripper 13A and the punch 11 is pressed upwards and held in the position shown. The spring arrangement 10 is used for resilient support of the punch 11 use and consists of a helical compression spring 18, which is accommodated in a housing 19. The housing consists in the upper half of an outer housing pot 20 and in the

u nder s

130039/0997

- 9 - HL28P-2111 + GK

lower half of an inner housing pot 21, the two housing parts each consisting of a cylindrical side wall 23 with a Floor area 24 are constructed. The bottom surface 24 has an opening through which the punch 12 extends. Inside the Housing half 20 rests on bottom surface 24 with a perforated disk, the central bore 25 of which forms the enlarged head part 13 of the punch records. With the aid of a ram 27 acting on the enlarged head part, the punch is actuated in order to punch out a workpiece 30, which rests on a punched lower part 31 inserted in a holder 132.

The housing halves 20 and 21 each have an opening area 32 or 33, the opening area 32 of the lower housing part half 20 protrudes through the opening area 33 of the upper housing part half into this. The cylindrical side wall is in the ÖH'nung area both the lower and the upper housing half are frustoconical deformed so that a frustoconical shape to the opening area 32 widening portion 35 of the lower half of the housing 21 protrudes into the upper housing half 20 and in this by a truncated cone in the direction of the opening area 33 narrowing section 40 is held.

The diameters of the two halves of the housing are selected in such a way that that the cylindrical sides walls in the opening area of the two halves rest against each other. This results in a structure in which the two housing halves can be telescoped into one another, around the helical compression spring located inside the housing 18 squeeze. Due to the spring tension, the two frustoconical sections of the housing part halves rest against one another and prevent the housing from opening under the pressure of the spring. This limits the opening stroke of the spring arrangement. At the same time, the result is that the helical compression spring is held in the interior of the housing under a predetermined bias can be.

130039/0997 ~

- 10 - HL28P-2111 + GH

In Fig. 2 is an application of the spring arrangement according to the invention shown in connection with a stripper plate 50, which in a recess of a punch lower part 51 of the punching edge 52 is displaceable away. For this purpose, a recess is provided in the lower punch part 51 in which the stripper plate 50 supporting spring assembly 10 is attached. Due to this arrangement, the stripper plate printed down when punching becomes 50 moved upwards again by the spring arrangement in order to strip the punched-out material part from the punched edge. With such a structure, it is desirable that the helical compression spring 18 has a certain preload so that the stripper plate 50 is maintained at a predetermined level. The spring arrangement 10 carries on the bottom surface of the upper half of the housing 20 a threaded washer 54, in which a countersunk screw 55 engages in order to clamp the stripper plate 50 against the upper half of the housing. The lower housing part half 21 is with the help of a bolt 60 screwed to the base plate of the lower punch part 51, this bolt screw being screwed to the bottom surface of the lower part of the punch adjacent perforated disk 61 engages. The stud screw 60 is accessible when the countersunk screw 55 is removed from the threaded washer 54 is unscrewed. When the housing is versehraubt with the associated parts with the aid of the stud screw 60 and the countersunk screw 55 is a substantially tight seal results at least for Liquids of a certain viscosity, namely the two frustoconical sections of the halves of the housing as a result the bias of the helical compression spring are in sealing contact with one another. Due to the frustoconical design of the two sections Relatively long sealing surfaces result in the opening area of the housing part halves.

Due to these sealing properties, it is possible to arrange the spring to be used to apply a lubricant inside it, so that, for example, in the embodiment according to Fig. 1, the punch 12 is permanently lubricated. One inside the case

appropriate

130039/0997

- 11 - HL28P-2111 + GH

Applied lubricant also serves to better absorb the heat generated by the work of the helical compression spring to be able to derive.

In Fig. 3, a deep-drawing tool is shown with which the housing halves can be produced. A deep-drawing die 70 is with its outer surface 71 on the configuration of the housing half and has a frusto-conical portion 72 like this one is provided for the housing half. This deep-drawing punch works together with a die 73, the inner surface of which has the outer configuration 74 corresponds to the housing part half, an extension 75 being provided in the region of the frustoconical section is.

After the housing halves have been produced, the spring arrangement 10 according to FIGS. 4 and 5 mounted. A deformation die 82 and a compression mold 80 are provided for this purpose. after the upper and lower perforated washer and the bolt 60 together with the spring are inserted into the two housing part halves the lower half of the housing is inserted into the deformation die 82 and the upper half of the housing is inserted with the aid of the compression mold 80 Moved telescopically over the lower half of the housing and pressed into the deformation die. The deformation die is like this configured that the opening region 33 of the upper housing half is frustoconical when pressed into the deformation die is narrowed and wraps around the frustoconical portion of the lower half of the housing. The to do this in the direction of the Arrow 90 applied to the mold 80 pressure must be so great that the bias of the spring is overcome. Depending on the size The force introduced when the upper half of the housing pot is pressed into the deformation die moves the frustoconical one Section in the longitudinal direction, so that a certain preload during assembly, corresponding to that in the direction of arrow 90 introduced force can be adjusted. The setting of the vor

tension

130039/0997

- 12 - HL28P-2111 + GH

Tensioning can take place in several lifting steps or with just a single lifting step with the appropriate introduction of force. The deformation of the opening area ensures that the housing of the spring arrangement is under the force of the pretension no longer opens. If the deformation of the upper housing part takes place in one deforming step, it is preferable that the minimum deformation pressure, which is necessary for the deformation of the housing wall, above the maximum preload by the associated Spring compression lies. This ensures that the housing cannot open by itself. In addition, can through a controlled displacement of the die 80 is ensured, that the spring arrangement has a certain dimension from bottom surface to bottom surface of the two housing halves according to the Assembly complies. The mold and the deformation die, as shown in FIGS. 4 and 5, allow the displacement of the two halves of the housing against each other in precisely controllable working steps, by a certain bias or a to adhere to certain length dimensions in the unloaded state. The halves of the housing can be inserted into one another as far as desired be moved so that the formation of the frustoconical Adjusts section on the upper housing part in the area that the desired bias of the helical compression spring or corresponds to the desired height of the spring arrangement.

In Fig. 6 a further embodiment of the invention is shown, in which a spring arrangement 95 consists of two housing halves 20a and 21a which mesh with one another with opening regions 96 and 97.

In this embodiment, the lower half of the housing 21a is in the Opening area 96 is provided with an edge 98 that is beaded outwards. The opening area 97 of the upper housing part half 20a is also provided with a beaded edge 99 which is folded inward so that each facing in the axial direction of the end faces two beaded edges 98 and 99 come to rest against each other and a

Open

130039/0997

- 13 - HLZ8P-2111 + GH

Prevent opening of the spring assembly. The beaded edges on the two opening areas 96 and 97 can be made using conventional technology are executed. The beaded edge on the upper half of the housing 20a is produced during the assembly of the spring arrangement, namely in essentially in the same way as when assembling a spring arrangement according to FIGS. 4 and 5, but with the deformation die must be provided with a corresponding device in order to be able to produce the inwardly folded beaded edge.

From the foregoing it can be seen that with the aid of the invention a spring arrangement can be created in which a helical compression spring is held in a housing with a certain preload, the two housing halves being telescopically slidable into one another and by deforming the edge ensure that a certain preload is maintained or that the working pressure is applied Areas of the spring arrangement have a certain distance from each other in the rest state. In Fig. 7 is another embodiment of the invention with the spring assembly 100 being adapted and connected to a particular punch press. The case 101 rests on the stripper or hold-down device 102 and is connected to it in a form-fitting manner. This sets the alignment of the spring housing is ensured with the wiper. The housing consists of an upper and lower housing half 105 or 106, which have a pot-shaped training. In the opening area of the both housings is a frustoconical section 107 and 108, respectively provided, along which the two housing parts engage in one another telescopically and are also telescopically displaceable. The bottom surfaces 109 and 110 of the two halves of the housing are provided with a central bore 114 and 118, respectively. Inside the case there is a helical compression spring 111 which is under tension. The lower end of the helical compression spring 111 lies on the lower bottom surface 110, while the upper end rests on a perforated disk 112, which by the spring against a Ring fitting 113 is pressed. This ring fitting fits into the center

drilling

130039/0997

- 14 - HL28P-2111 + GH

bore 114 in the bottom surface 109 of the upper half of the housing. The head part 115 of the punch 103 is located in the ring fitting 113 arranged. The punch 103 has a thread at the upper end, which part in a corresponding threaded hole 116 of the head 115 intervenes. This type of connection of the head part with the punch, it is possible to use this in the vertical direction of the head part to be adjusted. After the adjustment, the punch is firmly clamped to the head part with the aid of a locking device 117.

The punch 103 extends coaxially through the spring assembly 110 and runs through the central bore 118 in the bottom surface 110 into a corresponding guide 125 in the stripper or hold-down device 102. The central bore 118 in the bottom surface 110 of the lower half of the housing is flared with a dovetail shape Edge strip 119 provided with a corresponding undercut recess 120 in the upper end face 121 of the wiper and Downholder is connected. This undercut recess is created by the fact that a countersunk hole with a flat bottom surface 124 and sloping sides walls in the upper end face 123 is provided. A return spring 126 is provided between the wiper 102 and a holder and is attached to a flange 127 on the attacks the upper end of the scraper. The other side of the return spring rests on the surface of the holder for the wiper. The operation of the spring arrangement is the same as it was already has been described in connection with FIG.

In Figs. 8 to 11 it is shown in individual machining steps, like the lower half of the housing part of the spring arrangement with the wiper or hold-down is connected. According to FIG. 8, the lower housing half 106 is undercut in the empty state Recess 120 with the edge strip 119 inserted in the lower central bore 118. The edge strip 119 has an outer diameter which is slightly smaller than the smallest diameter of the conically widening side wall 123. This one first

13 0 0 3 9/0997 - ^

- 15 - IIL28P-2111 + GH

cylindrically extending edge strip 119 engages completely in the Recess 120 so that the lower bottom surface 110 on the upper end face 121 of the scraper, as can be seen from FIG. 9, rests.

To produce the dovetail-shaped widening, a Deformation disk 130 inserted into recess 120, which consists of an essentially non-compressible but flexible Material such as urethane is made and rests as a flat disc on the flat floor surface 124. This disc has an outside diameter which is only slightly smaller than the inner diameter of the undeformed edge strip 119. With the help of a ram 131, the deformation disk 130 is flattened, with the edge strip 119 outwardly due to the lateral flow presses and forms it on the inclined side wall 123. This process is shown in FIG. After the dovetail-shaped widening of the edge strip 119, the deformation pressure is removed, so that the elastically resiliently deformed disc back into its original shape and can be removed from the recess 120. Then the helical compression spring 111 inserted into the lower half of the housing 106 and the upper half of the housing 105 placed and mounted by deformation, as previously described.

130039/0997

Claims (7)

Claims 1.) Spring arrangement with an essentially tubular housing and a spring arranged therein, characterized in that that the housing (19; 101) consists of two pot-shaped and telescopically displaceable housing halves (20, 21; 105, 106), which with their opening areas (32, 33). interlock and enclose a helical compression spring (18; 111), that the opening areas (32, 33) have deformed edge sections (37, 41) which bear against one another and an opening of the housing prevent, and that the helical spring (18; 111) is under tension in the housing and the deformed edge portions of the two Holds housing halves in contact with one another. 2. Spring arrangement according to claim 1, characterized in that that the deformed edge sections are frustoconical in shape, with the frustoconical edge section of the housing part half (21) lying on the inside with the opening area (32) becomes the opening area expands, whereas the frustoconical section (40) 130039/0997 - 2 - HL28P-2111 + GH the outer half of the housing part towards the opening area (33) narrowed, and that the outer diameter of the inside of the overlap area lying housing part half (21) is essentially equal to the inner diameter of the outer housing part half (20). 3. Spring arrangement according to claim 1, characterized in that that the deformed edge section (96, 97) of the interlocking housing halves (20a ₁ 21a) is flanged in a U-shape, the edge section of the housing half lying on the inside in the overlapping area being folded outwards and the edge section of the housing half lying outside in the overlapping area being folded inwards. and that the outside diameter of the beaded edge area of the housing part half lying on the inside in the overlapping area is essentially the same as the inside diameter of the outside housing part half and the inside diameter of the flanged edge area of the housing part half lying outside in the overlapping area is essentially equal to the outer diameter of the inside housing part half, so that the end faces (98 , 99) of the beaded edge areas rest against one another when the housing is pressed apart. 4. Spring arrangement according to one of claims 1 to 3 for use in a punch press, characterized in that that the bottom surface (24) of one housing part half is firmly connected to the stripper or hold-down device (13A; f> 0) of the punching press 5. Spring arrangement according to claim 4, characterized in that g e k e η η draws, that in the upper face of the scraper or hold-down device (122) 130039/0997 - 3 - HL28P-2111 + GH a recess (120) with an undercut side wall (123) is available, and that one attached to the bottom surface (110) of the housing part half (106) Edge strip (119) is widened in a dovetail shape for connection to the scraper. 6. Spring arrangement according to one or more of claims 1 to 5, characterized in that that a punch (12; 103) running through the stripper or hold-down device runs through the spring arrangement and with a extended head part (13; 115) held firmly in the upper half of the housing part will. 7. A method for producing a spring arrangement according to one or more of claims Ibis6, characterized in that that two pot-shaped telescopic with their cylindrical side walls housing halves that can be shifted into one another are produced, that the opening area of the housing part half with the smaller The outer diameter is provided with a deformed edge section with a larger diameter, that the diameter of smaller housing part halves is inserted into a deformation die (82) and braced against this with the bottom surface will, that the helical compression spring in the smaller diameter housing part half inserted and the larger-diameter housing part half over the helical compression spring is placed and with its opening area over the opening area of the smaller-diameter housing part half is pushed, and that the diameter larger housing part half is pressed with a compression mold in the deformation die to the deformed edge portion on the diameter larger housing part half train and bring the helical compression spring to the desired bias. 130039/0997