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Title:
A HAND-HELD DEVICE FOR APPLYING A FILM, FOR EXAMPLE, OF ADHESIVE, COVERING OR COLOURED MATERIAL FROM A BACKING TAPE ONTO A SUBSTRATE
Document Type and Number:
WIPO Patent Application WO/2003/004390
Kind Code:
A1
Abstract:
The invention relates to a hand-held device (1) for applying a film (F) from a backing tape (7) onto a substrate (8), said device having a housing (2) in which a supply of the backing tape (7) and a take-up device (12) for the backing tape (7) are arranged and an 10 application member (4) which projects from the housing (2) with an application gib (4a) and is pivotally connected to an application base (6) supported at the housing (2) about a swivelling axis (5c) extending transversely to the projecting application gib (4a), wherein the application member ( 4) has two lateral support legs (35) arranged at a distance (a) from the application edge (4b) and defining an abutment plane (E2) with 15 the application edge (4b) which abuts on the substrate (8) in the mode of operation of the hand-held device (1). In order to enhance the bearing characteristics of the application member, the joint (5) is provided in the projection onto the abutment plane (E2) between the support legs (35) and the application edge (4b).

Inventors:
SCHNEIDER ROLAND (DE)
HUTHMACHER WINFRIED (DE)
Application Number:
PCT/EP2002/006785
Publication Date:
January 16, 2003
Filing Date:
June 19, 2002
Export Citation:
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Assignee:
BIC DEUTSCHLAND GMBH & CO (DE)
BIC SOC (FR)
SCHNEIDER ROLAND (DE)
HUTHMACHER WINFRIED (DE)
International Classes:
B65H37/00; (IPC1-7): B65H37/00
Other References:
PATENT ABSTRACTS OF JAPAN vol. 1998, no. 12 31 October 1998 (1998-10-31)
PATENT ABSTRACTS OF JAPAN vol. 1998, no. 14 31 December 1998 (1998-12-31)
PATENT ABSTRACTS OF JAPAN vol. 2000, no. 05 14 September 2000 (2000-09-14)
Attorney, Agent or Firm:
Rupp, Christian (Postfach 33 06 09, München, DE)
Download PDF:
Claims:
Claims
1. A handheld device (1) for applying a film (F) of for example adhesive, covering or coloured material from a backing tape (7) onto a substrate (8), said device having a housing (2) in which a supply of the backing tape (7) and a takeup device (12) for the backing tape (7) are arranged and an application member (4) which projects from the housing (2) with an application gib (4a) and is pivotally connected to an application base (6) supported at the housing (2) about a swivelling axis (5c) extending transversely to the projecting application gib (4a), wherein the backing tape (7) extends through a housing aperture towards the application gib (4a), is wound around an application edge (4b) forming the free end of the application gib (4a) and extending in parallel to the swivelling axis (5c) and extends towards the takeup device (12), and wherein the application member (4) has two lateral support legs (35) arranged at a distance (a) from the application edge (4b) and defining an abutment plane (E2) with the application edge (4b) which abuts on the substrate (8) in the mode of operation of the handheld device (1), characterised in that the joint (5) is provided in the projection onto the abutment plane (E2) between the support legs (35) and the application edge (4b).
2. A handheld device as claimed in claim 1, characterised in that the joint (5) is at a distance (b) from the application edge (4b), which is approximately identical with or smaller than half the distance (a) of the support legs (35) from the applicationedge (4b), preferably approximately one third of the distance (a).
3. A handheld device (1) for applying a film (F) of for example adhesive, covering or coloured material from a backing tape (7) onto a substrate (8), said device having a housing (2) in which a supply of the backing tape (7) and a take up device (12) for the backing tape (7) are arranged and an application member (4) which projects from the housing (2) with an application gib (4a) and is pivotally connected to an application base (6) supported at the housing (2) about a swivelling axis (5c) extending transversely to the projecting application gib (4a), wherein the backing tape (7) extends through a housing aperture towards the application gib (4a), is wound around an application edge (4b) forming the free end of the application gib (4a) and extending in parallel to the swivelling axis (5c) and extends towards the takeup device (12), wherein the application member (4) has two lateral support legs (35) arranged at a distance (a) from the application edge (4b) and defining an abutment plane (E2) with the application edge (4b) which abuts on the substrate (8) in the mode of operation of the hand held device (1), and wherein the joint (5) is formed by a joint recess (Sa) and a joint axle (5b) mounted therein, which is associated with the one joint member by joint webs (21 ; 21a), or a handheld device (1) as claimed in claim 1 or 2, characterised in that the joint axle (5b) is designed to form an integral part with the joint webs (21; 21a) and the joint recess (Sa) is provided at the other joint member.
4. A handheld device as claimed in anyone of the preceding claims, characterised in that the application base (6) and the application gib (4a) are associated with each other by a locating device (9).
5. A handheld device (1) for applying a film (F) of for example adhesive, covering or coloured material from a backing tape (7) onto a substrate (8), said device having a housing (2) in which a supply of the backing tape (7) and a take up device (12) for the backing tape (7) are arranged and an application member (4) which projects from the housing (2) with an application gib (4a) and is pivotally connected to an application base (6) supported at the housing (2) about a swivelling axis (Sc) extending transversely to the projecting application gib (4a), wherein the backing tape (7) extends through a housing aperture towards the application gib (4a), is wound around an application edge (4b) forming the free end of the application gib (4a) and extending in parallel to the swivelling axis (Sc) and extends towards the takeup device (12), wherein the application member (4) has two lateral support legs (35) arranged at a distance (a) from the application edge (4b) and defining an abutment plane (E2) with the application edge (4b) which abuts on the substrate (8) in the mode of operation of the hand held device (1), wherein the joint (5) is formed by a joint recess (5a) and a joint axle (5b) positioned therein, which is associated with the one joint member by joint webs (21; 21a), and wherein the application base (6) and the application gib (4a) are associated with each other by a locating device (9), or a handheld device as claimed in anyone of the preceding claims, characterised in that the locating device (9) is provided between the joint webs (21; 21a).
6. A handheld device as claimed in anyone of the preceding claims 3 to 5, characterised in that the joint webs (21) are designed to form an integral part with the application base (6) and the joint recess (Sa) is formed at the application gib (4a) (Figs. 3 and 5) or the joint recess (Sa) is formed at the application base (6) and the joint webs (21a) are designed to form an integral part with the application gib (4a) (Fig. 7).
7. A handheld device as claimed in claim 6, characterised in that the joint recess (5a) is provided at the rear end of the application gib (5b) or at the front end of the application base (6).
8. A handheld device as claimed in anyone of the claims 4 to 7, characterised in that the locating device (9) comprises one or two locating arms (9a) facing each other, which check the joint axle (5b) or a joint bolt from behind.
9. A handheld device as claimed in anyone of the preceding claims, characterised in that the joint (5) comprises two preferably convex bearing surfaces (5e) in the form of a cylindrical segment which are provided on both sides of the application gib (4a) on its top and bearing surfaces (5f) in the form of a cylindrical segment contiguous therewith at the bottom of the application base (6).
10. A handheld device as claimed in anyone of the preceding claims, characterised in that stops (33a, 33b) bordering the swivel range of the application member (4) are provided at the application member (4) and at the application base (6).
Description:
A hand-held device for applying a film, for example, of adhesive, covering or coloured material from a backing tape onto a substrate The invention relates to a hand-held device according to the preamble of claim 1.

A hand-held device of this type is described in publication EP 0 507 818 B1. This previously known hand-held device comprises an application member projecting from the housing, said application member being pivotably connected to an application base at the housing of the hand-held device by a ball joint. The application member edge at its bottom side facing the substrate in the position of use two lateral support legs spaced apart from the application, which abut on the substrate like the application edge and thereby are supposed to define a certain position of the wedge-shaped application member with respect to the substrate during the mode of operation. The joint is at the rear end of the support legs. In order to ensure a stable position of the application member during the mode of operation, it is obviously necessary to use the hand-held device in a position in which the application member abuts on a stop of the application b of the base, as is illustrated in Figs. 1 and 3 of this printed publication. This makes it more difficult to handle the hand-held device.

It is an object of the invention to improve the bearing properties of the application member in a hand-held device as claimed in the preamble of claim 1. It is to be ensured that the application edge remains at the substrate during the mode of operation.

This object is solved by the features of claim 1. Advantageous further developments of the invention are described in the appertaining sub-claims.

In the hand-held device as claimed in claim 1, the joint is in the projection onto the plane of abutment between the support legs and the application edge. Thereby the application member is held on the substrate in a stable manner during operation. In the mode of operation the application edge is permanently pressed against the substrate due to a torque which is automatically in operation permanently due to a distance directed towards the application edge, which distance is the distance of the joint axle from the support legs.

Publication DE 196 05 811 Cl describes a hand-held device for transferring an adhesive film from a backing tape onto a substrate, in which the film can be applied continuously or intermittently, as is illustrated in Fig. 4 of said publication. In said hand-held device, the application member is constituted by an application shaft around which the backing tape is wound and which can be selectively blocked against rotation or released for rotation by means of a setting mechanism. In said hand-held device, the shaft is an additional component, which extends between lateral joint sides of an application base associated with the housing and is located at each end between fork-like side portions forming a locating means in an appertaining locating recess. This known embodiment is complex and affords high expenditure in manufacture and assembly. Moreover, stability is impaired by the fork-like division of the joint sides.

It is therefore a further object of the invention to design a hand-held device as claimed in the preamble of claim 3 so as to achieve a simple and stable construction.

This object is solved by the features of claim 3. Preferred further embodiments of the invention are described in the appertaining sub-claims.

In the hand-held device as claimed in claim 3, a rigid joint axle is provided which is formed at the joint sides and thus associated therewith and manufactured in one part.

Thereby, a simple and inexpensive embodiment is created, which results in substantial simplifications also in view of assembly and disassembly and furthermore results in a sturdy construction because the joint sides are stabilised by the joint axles integrally associated therewith. What is to be taken into consideration is that, during operation, substantial pressure is exerted on the application member and thus also on the appertaining joint, which the embodiment according to the invention can safely absorb also in case of a small construction.

The last-mentioned object is solved by the features of claim 5. Preferred further embodiments of the invention are described in the appertaining sub-claims.

In the hand-held device as claimed in claim 5 of the invention, the locating device is mounted between the joint sides. Thereby, the joint sides are free from locating, so that they can be designed in a more stable and simple fashion. The locating device can make favourable use of the space available between the joint sides, without impairing or increasing the construction, so that a small construction is achieved, too. Moreover, the configuration according to the invention is suitable also when it comes to simple assembly or disassembly or to the accessibility for assembly and disassembly.

The sub-claims contain the features which lead to large bearing surfaces of the joint and enable small surface pressing, improve the support of the application member relative to the base also in a lateral direction and result in more favourable shapes as far as spatial requirements are concerned.

A further advantage of the configuration according to the invention consists in that in the event of several application members of different shapes being associated with the hand-held device, said application members can selectively be mounted to the hand-held device easily and rapidly and the hand-held device thus can be adapted to different requirements as to application.

In the following, preferred configurations of several exemplary embodiments shall be explained in more detail with the aid of drawings.

Fig. 1 is a side view of a hand-held device according to the invention for transferring and/or applying a film of for example adhesive, covering or coloured material from a backing tape onto a substrate; Fig. 2 is an enlarged side view of a base and an application member mounted thereto; Fig. 3 is a perspective view of the base and the application member in positions separate from each other; Fig. 4 is a side view of the base and an application member mounted thereto in a modified configuration; Fig. 5 is a perspective view of the base and the application member according to Fig. 4 in positions separate from each other; Fig. 6 is a further modified side view of a base and an application member mounted thereto; Fig. 7 is a perspective view of the base and the application member according to Fig. 6.

The hand-held device 1 comprises a housing 2 of convenient size, which consists of two longitudinally or transversely divided housing parts 2a, 2b which can be mounted to each other in a detachable or non-detachable fashion. Fig. 1 shows the hand-held device 1 it its position of operation. The left-hand and lower end of the housing 2 or the hand-held device 1 in Fig. 1 is its working end 3 at which an application member 4

is provided, which projects from the circumference of the housing 2 with an application gib 4a. The application gib 4a extends in a wedge-shaped convergent fashion towards an application edge 4b which is at its free end and rounded, if necessary. The application member 4 is associated with an application base 6 by a joint 5 which will be described further below so as to be pivotable or tiltable to a limited extent, said application base 6 being mounted to the housing 2 in a detachable fashion in the exemplary embodiment.

The hand-held device 1 serves for transferring a film F of covering and/or coloured and/or adhesive material from a film-like backing tape 7 onto a substrate 8, for instance a sheet of paper. The backing tape 7 extends from a supply located in the cavity of the housing 2 towards the application member 4 in the area of at least one housing aperture 2c, is wound around its application edge 4b and is refed to the cavity of the housing 2 through the housing aperture 2c. The winding plane is referred to by E1. The backing tape section approaching the application gib 4a at the here lower longitudinal or approach side lla of the application member 4 is identified by 7a. The backing tape section being refed into the housing 2 at the upper longitudinal or return side lib of the application member 4 is identified by 7b. The winding plane E1 extends roughly in parallel and preferably mid-centrally to the broad sides 2d of the housing 2, which extend, for instance in parallel to each other, the peripheral surface of the narrow side of the housing 2 being identified by 2e. The returning backing tape portion 7b extends towards a take-up device 12 mounted in the cavity of the housing 2, wherein said take- up device 12 can be a take-up spool 13 which is rotatably mounted in the housing 2.

The supply 9, too, can be formed by a spool, namely a supply spool 14 which is rotatably mounted in the housing. In the exemplary embodiment, the supply 9 and the take-up device 12 are arranged behind one another, the take-up device 12 being disposed between the supply 9 and the working end 3 of the housing 2.

In the position of operation according to Fig. 1, the application member 4 abuts on the substrate 8 with its application edge 4b, wherein the central axis 4c of the application gib 4d encloses an acute angle Wl with the substrate 8 extending, for instance to be straight, said angle ranging, for example, between approximately 30° to 60°. By moving the hand-held device 1 in the application direction identified by 15, the backing tape section 7a is peeled off the supply 9 due to the friction at the substrate 8; in doing so, the film F remains on the substrate surface, and the backing tape section 7b is moved into the cavity of the housing 2, here to the take-up device 12. The backing tape section 7b is driven by the backing tape section 7a approaching the application member 4 or its tensile force. In the present exemplary embodiment, this is effected by providing a swivel drive connection 16 between the supply spool 14 and the take-up

spool 13, for instance in the form of overlapping rubbing surfaces 17a, 17b at the peripheral edges of the walls of the spool. The winding diameter of the spools 13,14 is dimensioned to be large enough for the take-up spool 13 to attempt to pull in the backing tape 7, also in the event of a full supply spool 14, at a speed which is higher than the speed at which the backing tape 7 is wound off the supply spool 14. By a slip friction clutch 18 integrated in the swivel drive connection 16, which here is formed by the rubbing surfaces 17a, 17b which are in frictional contact with one another, it is ensured that the take-up spool 13 pulls in the backing tape 7 always at a certain tensile stress, whereby the formation of loops in the backing tape 7 is avoided. The application movement 15 is directed to the end of the housing 2 opposite the working end 3.

The swivel axis 5a of the joint 5 extends in parallel to the application edge 4b.

Consequently, the application member 4 is pivotable to a limited extent in the joint 5 in the winding plane E.

The joint 5 between the application base 6 and the application member 4 is formed by at least one joint recess 5a at the one joint member and at least one joint axle 5b to be inserted therein transversely and mounted therein at the other joint member. In the exemplary embodiment, the recess 5a is formed at the back of the application gib 4a as a semicircular bearing groove extending transversely over its full length, into which the bearing axle 5b, which also extends transversely, is inserted from behind and is located by a locating device 9 so as to be preferably releasable. The joint axle 5b is formed integrally with the joint webs 21, which can extend forwards, for instance, from the front end of a supporting gib 22 of the application base 6 in its extension and can have a rectangular shape, the bearing axle 5b being preferably provided in the lower corner area of the joint webs 21. As a result of the integral configuration of the joint axle 5b with the joint webs 11 and the supporting gib 22 of the application base 6, this arrangement is stabilised. The supporting gib 22 has a preferably plane bottom side 23 and an upper side 24 which is also preferably plane, said bottom and upper sides limiting the wedge-like shape of the supporting gib 22 and thus limiting an acute angle W2, which is open to the back and can range e. g. between about 30° and 45°.

The locating device 9 is constituted by one or two locating arms 9a, 9b facing each other and being provided at the upper and/or lower border of the joint recess 5a, engaging behind the joint axle 5b and being resiliently bendable so that the joint recess 5a of the at least one locating arm 9a evades resiliently when the joint axle 5b is inserted and is spring-mounted behind the joint axle 5b, whereby said locating arm 9a is retained in the joint recess 5a in a form-fit fashion. In the exemplary embodiment, the at least one locating arm 9a extends backwards from the lower and/or upper border of

the joint recess 5a in a curved manner into a position engaging behind the joint axle 5b, preferably in a curved manner. Between the free end of the at least one locating arm 9a and the other border of the joint recess 5a or the end of the second opposite locating arm 9a, an insertion slot 15 for the joint axle 5b is present, in particular with rounded or inclined insertion surfaces 16 provided at the end (s) of the locating arm (s) 9a, said insertion surfaces 16 causing automatic removal of the locating arm (s) 9a from the spring-mounted position when the joint axle 5b is inserted. The free end (s) of the locating arm (s) 9a extend (s) into a space 17 available between the joint axle 5b and the front end of the supporting gib 22. The axial dimension of the locating arm (s) 9a is large enough for it/them to fit between the joint webs 21 with a certain freedom of play. As a result thereof, there are recesses 18 for the joint webs 21 on both sides of the at least one locating arm 9a.

There are two lateral guiding webs 29 extending backwards from the application gib 4a, which are dimensioned large enough to exceed the backing tape sections 7a, 7b downwards and upwards. The distance between the guiding webs 29 is adapted to the width of the backing tape 7 ensuring a certain freedom of play. The distance c also conforms to the width of the support gib 22. What is provided at the support gib 22 are lateral guiding webs 31, which exceed the support gib 22 preferably only upwards and which are accepted in recesses 32 at the inner sides of the guiding webs 29 ensuring freedom of play. Preferably, the step surfaces of the recesses 32 enclosing for instance an obtuse angle W3 form stops 33a, 33b for the guiding webs 31. In the present configuration, they enclose between their front side and the bottom side an angle W4, which is dimensioned to be smaller than the angle W3 by the swivel area of the application member 4. The recesses 32 and the guiding webs 31 can extend up to the swivel axis 5c.

The guiding webs 29 on the application member 4 preferably form support legs 35, which are provided in the rear and lower portions of the guiding webs 29, wherein the guiding webs 29 comprise a recess 36 at the bottom between the supports 35 and the application edge 4b. This is to ensure that the guiding webs 29 rest on the substrate 8 only in the area of the support legs 35 and that the effectiveness of the application edge 4b is not impaired. Due to the presence of the support legs 35, the angle Wl is always constant irrespective of the degree of inclination of the application base 6.

The abutment plane defined by the bottom sides of the application edge 4b and the support legs 35 is referred to by E2. With respect to said plane E2, the joint 5 and the swivel axis 5c are in a transverse plane E3, which extends at right angles to the plane E2 and is positioned between the application edge 4b and the support legs 35,

preferably in the forward half of the distance a between the application gib 4b and the support legs 35. The resulting effective distance of the joint 5 or the transverse plane E3 from the application edge 4b is identified by b. The application force effective at the application edge 4b is therefore more than half as high as the vertical pressure force which is transferred from the hand of the operator to the hand-held device 1 and to the substrate 8 during the mode of operation. In the projection to the abutment plane E3, the swivel axis 5c thus is within the area of the distance a, especially within the area of its front half.

The bottom sides of the support legs 35 are rounded, preferably in the longitudinal direction, whereby they can slide over small steps on the substrate surface without disturbance.

The guiding webs 31 exceed the upper side of the support gib 22 preferably by a measure large enough for the hand-held device 1 not being applicable or being applicable only with great difficulty in the event of a false position of operation distorted by 180°. Thereby it is prevented that the hand-held device 1 is used in a false position of operation, whereby the run of the backing tape 7 would be disturbed.

The exemplary embodiment according to Figs. 4 and 5, in which identical or similar parts are provided with the same reference characters, is based on the exemplary embodiment according to Figs. 2 and 3 and differs therefrom by the following features.

For one, the bearing surface of the joint 5 is enlarged and laterally prolonged to the outside by a semicircular bearing bead 5d, which extends at the upper side of the application member 4 transversely and coaxially with respect to the joint recess 5a, wherein the latter is provided in the bearing bead 5d, which is dimensioned to be longer than the joint recess 5b on both sides, so that at the outside of the ends of the joint recess 5b bearing surfaces 5e are present at the generated surface of the bearing bead 5d. The application base 6 abuts on the bearing surfaces 5e with semicircular concave bearing surfaces 5f, which are provided at the bottom of two lateral guiding webs 29, which, in this exemplary embodiment, are the only guiding webs provided laterally at the support gib 22 and can have a triangular shape.

Within the scope of the invention, the bearing surfaces 5e and 5f can be provided in addition or the joint 5 can be constituted only by the bearing surfaces 5e, 5f, the axle 5b being only a locating bolt of the locating device 9.

The support legs 35 are provided at support arms 4d extending backwards from the application gib 4a, wherein said support arms 4d can be stabilised by support arm webs 4e extending from the support arms 4d upwards in parallel to the swivel plane. The width of the support arms 4d can be equal in size to the width of the guiding webs 29.

In the exemplary embodiment, recesses 29a are provided inside the guiding webs 29 and thus between themselves and the support gib 22, into which recesses 29a the support arm webs 4e immerse with the allowance of little freedom of play. The support arms 4d end with the guiding webs 29 at the outside and therefore are positioned below the guiding webs 29.

As far as the design of the stops 33a, 33b limiting the swivel movement of the application member 4 is concerned, there are several possibilities in this exemplary embodiment. The stops 33a, 33b can be constituted, for instance by the bottom surfaces of the guiding webs 29 present at both sides of the joint 5 and enclosing an angle W5 of e. g. about 180° and the top surfaces of the support arms 4d and the application gib 4a, which enclose the angle W6, which is open at the top and which is larger than the angle W5 by the desired pivotal angular range for the application member 4. The stop 33b limiting the pitch movement to the back can be constituted, for instance also by the bordering surfaces on the upper side of the recesses 29a, against which the support arm webs 4c can hit.

As far as the locating device 9 is concerned, the exemplary embodiment according to Figs. 4 and 5 provides for one locating arm 9a only, which extends upwards, for example, from the rear end of the joint recess 5a. What can be provided at the application base 6 between the bearing axle 5b and the joint webs 21 is a recess 37 into which the front end of the joint recess 5a can immerse in the appertaining swivel position.

In addition, a transverse web 38 can be integrally formed in the transition area between the bearing bead 5d and the application gib 4a; said lateral web 38 can serve for stabilising the application gib 4a and immerse, if necessary, into a recess 39 present inside at the bottom side of the guiding webs 29. The stop 33a can alternatively also be provided between the aforementioned components, namely in the base portion of the recesses 37,39.

The exemplary embodiment according to Figs. 6 and 7, in which identical or similar parts are also provided with the same reference characters, largely conforms to the exemplary embodiment according to Fig. 2 and 3, in which the guiding webs 29 are formed at the application gib 4b. According to Figs. 6 and 7, the joint axle 5b is

formed at the inside of the guiding webs 29, wherein it can extend transversely over the full length or can be constituted by two lateral axle stubs directed towards each other.

The joint recess 5a is provided in the support gib 22 and runs downwards to end here at the lower longitudinal side of the support gib 22. Here, too, a locating device 9 with at least one locating arm 9a for securing the joint axle 5b in the bearing recess 5a is provided. Instead of a support gib 22 extending transversely over the full length, it is possible in this exemplary embodiment to provide as an alternative joint webs 21 in which two correspondingly shorter joint recesses 5a are provided. In this configuration, the guiding webs 29 constitute joint webs 21a, which are formed at the application member 4.

In the event of only one locating arm 9a being provided, it is possible in all the exemplary embodiments to provide at the opposite border of the joint recess 5a a small elevation 9c similar to a pressure or braking point, by which the seat of the joint axle 5b is stabilised.

The bottom longitudinal side or approach side lla of the application gib 4a encloses an acute angle with the abutment plane E2, which conforms to the angle Wl or is slightly smaller. If a wedge-shaped tip is provided at the front end of the application gib 4a, the wedge surface lie can lie in the abutment plane E2 and form a"broadened application edge"as shown in Fig. 4, or it can enclose an acute angle W7 with the abutment plane E2, which can be a free angle which can amount for instance to approximately 10° (Figs. 6 and 7).

The support gib 22 can be constituted by a front end portion of a base shaft 41 of for instance round cross-section, which is retained in the housing 2.

In all the exemplary embodiments, a lateral bearing projection 42 can be formed at the base shaft 41 to secure the base shaft 41 in the housing 2. The bearing projection 42 can be limited between boundary surfaces (not represented) extending transversely and/or longitudinally with respect to the central axis 41a of the base shaft 41 at the housing 2 in the longitudinal direction and/or in the peripheral direction of the base shaft 41, if necessary with a swivel play limiting a swivel movement in the peripheral direction of the base shaft 41. The boundary surfaces on the housing 2 can be formed by recesses which are integrally provided between formed housing walls and thus form sockets for the at least one bearing projection 42. In a housing 2 divided longitudinally, the formed housing walls are provided at the housing portion which face the bearing projection 42 or two bearing projections 42 placed axially one behind the other.

The central axis 22a of the support gib 22 can be arranged concentrically with respect to the base shaft 41, cf. Fig. 6, or it can enclose an obtuse angle W8 of for instance approximately 120° to 165°, in particular approximately 145'to 150', with the base shaft 41.

The application base 6 and the application member 4 as well as the housing parts 2a, 2b and also the spools 13,14 are preferably injection moulded parts, which have preferably been made of plastic material in accurate shape and at low cost.