EP4379176A2 - Hinge bracket - Google Patents

Abstract

The subject matter of the present invention relates to a hinge pocket (1) for receiving a hinge part, in particular a plastic hinge pocket for receiving hinge projections on the frame and/or casing side, with a hinge receiving area (10) for receiving the hinge projections and a fastening area (20) for fastening the hinge pocket to a structure, wherein the fastening area (20) has a central part (30) and two wing parts (40) adjacent thereto, wherein the central part (30) has at least one through-opening (50) for fastening the hinge pocket (1) to the structure by means of fastening means extending through the through-opening (50). The subject matter further relates to a drilling template, a set and a method for producing a hinge pocket (1).

Description

The invention relates to a hinge pocket for receiving a hinge part, in particular a plastic hinge pocket for receiving hinge projections on the frame and/or casing side, according to the preamble of claim 1.

The invention also relates to a drilling template for a hinge pocket, in particular for guiding a drill for drilling a mounting hole for a hinge pocket according to claim 10.

The invention further relates to a set comprising a band bag and a drilling template according to claim 14.

Last but not least, the invention relates to a method for producing a hinge pocket for receiving a hinge part, in particular a plastic hinge pocket for receiving frame- and/or casing-side hinge projections according to the preamble of claim 15.

Various band pockets are known from the state of the art.

From the DE 7903745 U1 a hinge pocket referred to as a screw-on pocket for attaching a drill-in tenon hinge is known, with a plate-shaped web having openings for the passage of screws, insertion guides for the tenons formed on the web and having a circular cross-section, and a clamping plate arranged approximately parallel to the web and penetrated by a clamping screw, wherein the clamping screw engages in a nut supported on the web and its head is supported on the clamping plate, wherein the screw-on pocket, with the exception of the clamping screw and nut, consists of a single extruded profile part, wherein the insertion guides enclose an angle of at least 300 degrees in cross-section over the entire length of the profile part and merge directly into the web and clamping plate, and the clamping plate has screw holes opposite the openings.

From the DE 202 04 010 U1 A hinge pocket referred to as a plastic screw-on pocket for receiving a frame-side hinge part of a door hinge is known, wherein a dowel is provided by means of which the plastic screw-on pocket can be doweled in the masonry.

From the EN 10 2010 060 764 B3 A hinge pocket referred to as a screw-on pocket for receiving hinge pins of a door hinge is known. The screw-on pocket comprises a base body made of sheet metal, which has guides for the hinge pins, and further comprises a clamping arrangement for fixing the hinge pins in the guides. Eye-shaped openings of the clamping arrangement are formed by formed sections of the base body, into each of which a hinge pin can be inserted, wherein a feed means acting directly on the formed sections is provided in order to fix the hinge pins in the eye-shaped openings.

From the EN 10 2012 100 310 B3 A hinge pocket, referred to as a screw-on pocket for receiving hinge pins of a door hinge, is known with a base body made of sheet metal, the base body having guides for the hinge pins, and with a clamping arrangement for fixing the hinge pins in the guides. Eye-shaped openings of the clamping arrangement are formed by formed sections of the base body, into each of which a hinge pin can be inserted, wherein a feed means acting directly on the formed sections is provided in order to fix the hinge pins in the eye-shaped openings.

From the EP 1 134 342 A2 A hinge pocket is known as a hinge holder for doors and door frames or similar devices, with a pocket that can be installed in the door or door frame with a support tube into which a hinge element can be inserted. The pocket is designed as a one-piece sheet metal part in which the support tubes are formed with a connecting web and two fastening tabs. A clamping screw that presses against the support tubes is screwed into a threaded attachment of the web. The support tubes are extended beyond the hinge-side outer edge of the web so that when installed they protrude into guide holes in the door frame without any play.

From the EN 10 2018 122 142.8 A1 a hinge pocket for receiving a hinge part is known, in particular a plastic hinge pocket for receiving hinge projections on the frame and/or casing side, comprising a base plate with two edge regions and a central part, wherein the respective hinge receptacle for the corresponding hinge projection and a clamping receptacle for receiving a clamping device that cooperates with the hinge receptacle for clamping the respective received hinge projection are provided in the central part, wherein the central part is raised relative to the edge regions, so that the edge regions are arranged offset at least on one side relative to the equally oriented side of the central part.

It is an object of the present invention to create an improved band pocket, an improved drilling template, a set with a band pocket and drilling template and a method for producing the band pocket, which on the one hand ensures improved holding of a band and in particular attachment to a structure such as masonry is more stable and on the other hand ensures improved guidance for the creation of drill holes, even in the case of drill holes that are not vertical or horizontal. In particular, it is an object of the present invention to design a band pocket including drilling template in such a way that improved holding of a band can be achieved.

These and other objects are achieved by a band pocket according to claim 1, a drilling template according to claim 10, a set according to claim 14 and a method for producing a band holder according to claim 15.

Advantageous developments of the invention are specified in the dependent claims or are specified below in connection with the description of the figures.

The invention includes the technical teaching that in a hinge pocket for receiving a hinge part, in particular a plastic hinge pocket for receiving hinge projections on the frame and/or casing side, with a hinge receiving area for receiving the hinge projections and a fastening area for fastening the hinge pocket to a structure, wherein the fastening area has a central part and two wing parts adjacent to it, it is provided that the central part has at least one through-opening for fastening the hinge pocket to the structure by means of fastening means protruding through the through-opening. The hinge pocket has two wing parts. The wing parts have through-openings with which the hinge pocket can be fastened to a structure via corresponding connecting means. The structure is, for example, a brickwork, a frame and the like. Preferably, each wing part has at least one through-opening, preferably two through-openings. The through-openings preferably have a circular cylindrical shape. This circular cylindrical shape is particularly advantageous for a screw connection.

In order to achieve an improved fastening, a further through-opening is formed in the middle part. The through-opening is also designed for a screw connection. For this purpose, the through-opening has a circular-cylindrical through-section. Other cross-sectional shapes of the cylinder forming the through-section are conceivable. The preferably circular-cylindrical through-section is preferably in a longitudinal direction, i.e. in a direction in which the band projections protrude into the band receiving area. arranged off-center in the middle part. In particular, the preferably circular-cylindrical through section is arranged closer in the middle part to the inlet openings of the band receiving area than to the end of the band pocket opposite the inlet openings of the band receiving area. The longitudinally off-center arrangement in the middle part enables an improved screw connection to a structure to be implemented. In a direction transverse to the longitudinal direction, in particular perpendicular to the longitudinal direction, thus in a transverse direction, the through section and/or the through opening is preferably arranged centrally in the middle part. In other embodiments, an off-center arrangement can also be implemented. A central arrangement in the transverse direction is preferred. The band pocket can be connected to the structure via connecting means. For this purpose, mounting holes are to be provided in the structure. The mounting holes can preferably be implemented using a drilling template. In particular, the mounting hole in the structure provided for the through opening in the middle part can preferably be implemented using a drilling template, since this is designed to run at an angle.

In a further embodiment, it is provided that the middle part has a recessed section and the through opening is formed in the recessed section. In one embodiment, the middle part has a recessed section that is surrounded by a kind of edge. The edge is formed laterally, i.e. in the transverse direction, by the band receptacles that extend longitudinally over the band pocket. The band receptacles are approximately hollow-cylindrical, with a receiving opening that is approximately circular in cross-section. The casing that surrounds the receiving openings forms the lateral edge around the middle part, more precisely the recessed section of the middle part. The recessed section thus forms a recessed middle part. At the end, i.e. in the longitudinal direction away from the front entry opening of the receiving openings, the edge is formed by an edge that is raised relative to the recessed middle part and extends transversely between the casings of the receiving openings. On the edge opposite the end edge in the longitudinal direction, an edge that delimits the middle part is also formed. This is formed by an area for clamping. The through opening with the preferably circular cylindrical through section is arranged in the area thus outlined. By arranging it in the middle part, the material thickness through which the through section passes is less than, for example, on the wing part or on one of the edges.

In addition, one embodiment provides that the through-opening and/or the through-section is arranged closer to the adjacent band receiving area than to the end of the fastening area opposite the band receiving area. In the longitudinal direction, the through-opening and/or the preferably circular-cylindrical, Through section further away from the end edge than from the edge opposite the end edge, the front edge. This enables improved fastening to be achieved. The through opening and/or the through section is arranged as close as possible to the edge opposite the end edge, the front edge. Preferably, the entire through opening and/or the through section is arranged longitudinally in the front half of the recessed middle part. More preferably, the through opening and/or the through section borders directly on the front edge, or at least at a distance in the longitudinal direction close to it. The distance to the front edge is preferably less than 50%, more preferably less than 40%, even more preferably less than 30%, and most preferably less than 25% of the distance to the end edge in the longitudinal direction. In one embodiment, the through opening protrudes at least partially into the front edge.

In one embodiment of the present invention, it is provided that the through-opening is designed in a stepped manner with at least one step located between an inlet opening and an outlet opening of the through-opening. The band pocket is preferably designed as an injection-molded part. In an advantageous embodiment, the through-opening is designed in two stages. In other embodiments, the through-opening can also be designed in several stages. A two-stage design is preferred. In one embodiment, the two stages lie in one plane. The through-opening has an upper part, adjacent to the top of the middle part, which has the edge, and a lower part, adjacent to the bottom of the middle part, which is opposite the top. The upper part is designed to be offset from the lower part, at least in the longitudinal direction. In one embodiment, the upper part can be offset from the lower part in the longitudinal direction and in the transverse direction. The upper part of the through-opening is preferably arranged to be offset from the lower part of the through-opening in the longitudinal direction. The offset of the upper part and the lower part of the through-opening is dimensioned such that the parts adjacent to one another have an overlapping and a non-overlapping area in the axial direction of the through-opening. The overlapping area is the through-opening section. The non-overlapping area forms a step in each case and thus forms a blind hole-like opening area. In the longitudinal direction, the opening areas and the through-opening section are directly adjacent to one another, so that no demarcation is formed in the transition area between the through-opening section and the respective opening area - with the exception of the step. The gradation can be formed at a different level in the depth direction, i.e. in the direction in which the material thickness of the middle part is dimensioned. In one embodiment, the gradation takes place approximately in the middle, so that the upper part and the lower part of the through-opening form the middle part. or penetrate the material thickness of the middle part to the same extent in the depth direction. In other embodiments, different ratios of the penetration of the upper part by the middle part to the penetration of the lower part by the middle part can be provided, for example in a ratio of 1.1: 0.9 - 1.33:0.67 - 1.5:0.5 - 1.75:0.25 or in any other ratio. Here, the ratio can be set as desired according to the injection molding conditions. A central gradation is preferred.

One embodiment also provides that the through-opening is designed as an elongated hole in the area of the inlet opening and the step and/or in the area of the outlet opening and the step. In order to form the step, at least the upper part, preferably both the upper part and the lower part of the through-opening is designed as an elongated hole. The elongated holes can be designed differently, for example in deviation of the axes from one another, length, width and/or depth. It is preferred that the elongated holes are designed the same. The elongated holes lie with their central axis preferably on the longitudinal axis of the band pocket. The extension of the elongated holes in the longitudinal direction is preferably the same. The extension transversely, more precisely perpendicular to the longitudinal direction, thus in the transverse direction, is the same. The center of the elongated holes is arranged offset in the longitudinal direction. The elongated holes therefore do not overlap over their entire through-section, but only with an overlap area, which then forms the through-section. The offset is designed such that the lower part is arranged closer to the front edge than the upper part, viewed in the longitudinal direction starting from the end edge. The lower part can even protrude into the front edge in order to move the through section as far as possible to the front edge. The upper part borders on the front edge at most in the longitudinal direction. The upper part is preferably at a distance from the front edge in the longitudinal direction. The elongated holes are arranged such that the through section is arranged as close to the front edge as possible in the longitudinal direction. The through section borders on the front edge at most. The through section is preferably at a distance from the front edge in the longitudinal direction. The distance of the through section to the front edge is preferably in the range of 0.1 mm to 20 mm, more preferably from 0.15 mm to 15 mm and most preferably from 0.2 mm to 10 mm. Other distances are possible depending on the dimensions of the belt pocket.

In addition, one embodiment provides that the step in the direction from the inlet opening or the top of the middle part in the direction of the step is designed differently than the step in the direction from the outlet opening in the direction of the step. In a preferred embodiment, the upper part of the through-opening is arranged in the longitudinal direction closer to the end edge than the lower part of the through-opening. Looking from the top towards the bottom, a step can be seen. The visible step is arranged closer to the end edge than to the front edge. This arrangement allows a screw to be inserted at an angle into the through hole. When the screw is tightened, it then straightens up so that it penetrates the through section axially. This design makes screwing in easier. The screw is then screwed further into the respective mounting hole in the structure, if necessary using additional connecting means such as dowels or the like provided in the mounting hole.

A further embodiment provides that the through-opening with the step is formed by two elongated holes introduced from different sides offset from one another, whereby the elongated holes form an overlapping passage section to form the through-opening, enabling the passage. This overlapping area forms the passage section. This is preferably designed as a circular cylinder. Depending on the offset of the elongated holes from one another, other shapes can also be formed for the passage section.

Furthermore, in an advantageous embodiment of the invention, the elongated hole forming the inlet opening is further away from the front area (inlet opening) of the tape receiving area in a receiving direction than the elongated hole forming the outlet opening. The upper part of the through opening is arranged in the longitudinal direction closer to the end edge than the lower part of the through opening. The through section is preferably aligned perpendicular to the top and/or bottom of the middle part.

Last but not least, an embodiment of the present invention provides that the two elongated holes are not offset from one another in a direction perpendicular to the receiving direction. The elongated holes are thus arranged with their longitudinal axis in the longitudinal direction in axial extension. Preferably, both elongated holes are located with their longitudinal axis in the middle of the middle part, i.e. they do not deviate from the middle in the transverse direction.

The elongated holes are arranged in such a way that an unstepped passage section is created over the entire material thickness of the middle part. Stepped openings are formed to the side of the passage section, which form a type of blind hole, thus forming an opening with a bottom, viewed in a top view or bottom view. The unstepped passage section is preferably designed as a circular cylinder. The circular cylinder has a circular cross-section in a top view, i.e. axially to the circular cylinder axis. The stepped openings are each formed in a longitudinal direction of the elongated hole with a step of approximately the same width and thus form mirror-symmetrical openings. In one embodiment, the band pocket has a screw which projects through the through-section. In other embodiments, other connecting means are provided. In one embodiment, the through-opening has a bevel on the top and/or bottom. In further embodiments, the top and/or bottom has a recess around the through-opening. This recess can be suitable for a screw head, a washer or the like, for example.

The invention further includes the technical teaching that a drilling template for a hinge pocket, in particular for guiding a drill for drilling a mounting hole for a hinge pocket, is provided, which comprises: a base body designed as an angle, with an inner side and an outer side, wherein a positioning section protruding from the outer side is formed on the outer side in order to position the drilling template for drilling, and wherein a protruding guide section is formed on the inner side in order to guide the drill, wherein the positioning section is designed in the shape of a pin and protrudes from the outer side at a first angle and wherein the guide section protrudes tubularly from the inner side at a second angle and a through opening which penetrates the base body, wherein the first angle and the second angle are aligned at an angle to one another. The drilling template is designed for the hinge pocket described here for receiving a hinge part, in particular a plastic hinge pocket for receiving hinge projections on the frame and/or casing side, with a hinge receiving area for receiving the hinge projections and a fastening area for fastening the hinge pocket to a structure, wherein the fastening area has a central part and two wing parts adjacent to it, it is provided that the central part has at least one through-opening for fastening the hinge pocket to the structure by means of fastening means protruding through the through-opening. The hinge pocket has two wing parts. The wing parts have through-openings with which the hinge pocket can be fastened to a structure using corresponding connecting means. Screws are guided through the through-openings into the mounting holes in the structure. The structure is, for example, a brickwork, a frame and the like. Preferably, each wing part has at least one through-opening, preferably two through-openings. The through-openings preferably have a circular cylindrical shape. This circular cylindrical shape is particularly advantageous for a screw connection.

In one embodiment, it is provided that the base body designed as an angle has a first leg section and a second leg section, wherein the two leg sections are aligned at right angles to each other in order to form a contact surface.

The drilling template has a base body. The base body is designed as an angle. A first leg section and a second leg section are provided to form the angle. The leg sections are connected to one another so that they form an angle. In one embodiment, the leg sections are connected to one another in such a way that the angle can be changed. For this purpose, the leg sections are pivotably connected to one another. In a preferred embodiment, the base body is designed as a single piece, in particular as an injection-molded part, preferably as a plastic injection-molded part. The leg sections are fixed to one another, in particular integrated or in one piece. The leg sections are preferably designed at right angles to one another. The base body and thus the leg sections have an inner side and an outer side. The outer side is preferably designed to rest on an object. The object is provided for fastening the strap pocket. A section of the outer side of the first leg section and a section of the second leg section are preferably designed to rest on an object, more precisely on an angled section of the object. The angled section of the object corresponds to the angled section of the drilling template. A positioning section is provided for further positioning of the drilling template. This protrudes from the outside of a leg section. The positioning section is intended for insertion into a recess in the object to which the strap pocket is to be attached. The contour of the recess and the contour of the positioning section are preferably complementary, so that the positioning section can be accommodated in the recess. The positioning section is preferably designed like a pin. The pin has a substantially cylindrical or conical basic shape. Recesses, moldings or other processing can be carried out on the basic shape. The positioning section preferably protrudes from the outside at a first angle, the first angle preferably being a right angle. The positioning section can be arranged on the base body in a movable and/or adjustable manner. The positioning section is preferably integrated and/or formed in one piece with the base body. A guide section is also attached to the base body for making the hole. The guide section is tubular and protrudes from the inside at a second angle from the base body. In one embodiment, the guide section is adjustable at least in terms of the angle. Preferably, the guide section is integrated and/or formed as one piece with the base body. The guide section has a through-opening through which a drill can be guided. The through-opening penetrates the base body so that the drill can be inserted into the through-opening on the inside and the hole can be made on the outside by the drill. The first angle and the second angle or the second angle and the inside and/or the outside are at an angle to each other. This means that the through-opening is neither parallel nor perpendicular to the inside, the outside and/or the positioning section, more precisely its axis(es).

In a further embodiment, it is provided that the leg section from which the positioning section protrudes is larger than the other leg section. In particular, the leg section is longer than the other leg section, the length being measured from the connecting region of the leg sections to the most remote or furthest away end of the respective leg section from the connecting region. In the connecting region, the two leg sections have approximately the same width, so that no projection is created on the two leg sections in the connecting region. Preferably, the two leg sections are of the same thickness in the connecting region. The leg sections can vary in their longitudinal direction in terms of thickness and width. One leg section has a larger surface area, a larger volume and/or a higher weight than the other leg section. The leg sections can have further protruding projections and/or shapes. Preferably, the leg sections have no further projections and/or shapes. Preferably, the guide section is dimensioned such that it is longer than the smaller leg section and thus protrudes beyond it in its longitudinal direction.

It is preferably provided that the first angle is designed as a right angle. The pin thus protrudes at a right angle from the outside of the larger leg section. The extent into which the positioning section protrudes is dimensioned such that a secure hold in a hole or other corresponding receptacle is ensured. To simplify positioning, the positioning section has a circular cross-section or generally a cross-section suitable for rotation in the recess. This makes it easy to position the drilling template.

In one embodiment, it is again provided that the second angle is formed at an angle to the first angle, in particular in a range of 10 to 80°. The angle is preferably formed in a range of 15° to 75°, even more preferably from 20° to 70° and most preferably from 25° to 65°. In one embodiment, the angle is approximately around 60° plus or minus 10°. The drilling template is particularly intended for making oblique holes. The angle of the guide section is formed to the hole required for the belt pocket.

It is also provided that a stiffening section protrudes from the outside of the guide section and/or the inside of the base body. The stiffening section is designed in a web-like manner. It preferably extends along the outside of the guide section to its ends and along the inside to the end of the larger leg section. The stiffening section reduces its width so that an approximately triangular stiffening section is realized in a side view.

Preferably, the stiffening section extends in a tapered manner over a length of the larger leg section.

One embodiment also provides that the larger leg section is tapered. The larger leg section tapers in particular in its width, thus transversely to the extension from the connection area to the furthest end of the connection area. In a plan view, this results in a trapezoidal leg section.

Another embodiment provides that the through-opening opens into both leg sections. The guide section is arranged in such a way that the through-opening runs in the direction of the connection area and penetrates both a part of the larger leg section and a part of the smaller leg section. A hole can thus be made from the connection area into the object.

Last but not least, one embodiment provides that the positioning section is bevelled on one side with a bevel. For better positioning, the positioning section has a bevel extending from the front side facing away from the outside towards the outside. The bevelled surface points away from the smaller leg section. The bevel preferably extends from the front side towards the outside. The angle of the bevel can be chosen arbitrarily. The bevel is preferably formed at an angle of greater than 60°.

The invention further includes the technical teaching that a set is provided that includes a hinge pocket described here and a drilling template described here. The drilling template is provided in order to correctly mount the hinge pocket. With this, the mounting holes for the hinge pocket can be correctly drilled repeatedly. As an arrangement in a set, it is ensured that the hinge pocket can be correctly mounted. In addition to the hinge pocket or several hinge pockets and one or more drilling templates, other components can be included in the set. For example, the set can include further connecting means such as screws, tools such as drills and/or other means useful for assembly. The set can also include parts of the structure that, for example, in conjunction with masonry, can be used to Fastening of the hinge pocket, for example reinforcements to support the masonry, etc.

The invention also includes the technical teaching that in a method for producing a hinge pocket for receiving a hinge part, in particular a plastic hinge pocket for receiving hinge projections on the frame and/or casing side, in particular a hinge pocket described here, it is provided that the hinge pocket is designed as an injection-molded part, wherein a through-opening in a recessed middle part of a fastening area is formed by two elongated holes offset from one another in a receiving direction from different sides, thereby forming an overlapping through-section to form a through-opening having at least one step. The production is carried out without a slider. In order to arrange the through-opening and/or the through-section in the middle part as close as possible to the front edge, the stepped arrangement with two elongated holes is advantageous. Instead of a circular cylindrical through-opening, two elongated holes offset from one another at least in the longitudinal direction are provided. The offset allows a screw to be inserted obliquely into the through-opening and then protrudes vertically through the through-opening when tightened. In a further embodiment, the hinge pocket has a hinge part. The band pocket is attached to a structure. This is preferably done using a suitable connection. The band pocket has corresponding through holes for the connection. The structure has corresponding drill holes or mounting holes. The mounting holes are made in the structure using a drilling template described here. A suitable connection can be made using a suitable connection, for example using screws that penetrate through the through holes into the mounting holes.

The invention also includes the technical teaching that when using a drilling template for mounting a hinge pocket, in particular for creating a hole for fastening the hinge pocket, the drilling hole for mounting the hinge pocket is set using the drilling template. The drilling hole for mounting, i.e. the mounting hole, is created in the masonry. The hinge pocket requires at least one oblique hole for fastening it. The drilling template, or more precisely its guide section, is designed accordingly. The guide section enables oblique drilling, so that the hinge pocket can be fastened to an object at least via this oblique hole, in particular to the masonry or to the structure in general.

All embodiments and/or features of the embodiments as listed above can be realized in a single and/or common embodiment or in different embodiments.

The embodiment is particularly intended for a strap pocket with a fastening hole. For clarification, the strap pocket is described in more detail below.

In order to achieve improved fastening, the band pocket has a further through-opening in the middle part. The through-opening is also designed for a screw connection, in particular for a screw device with a structure. For this purpose, the through-opening has a circular-cylindrical through-section. Other cross-sectional shapes of the cylinder forming the through-section are conceivable. The preferably circular-cylindrical through-section is preferably arranged eccentrically in the middle part in a longitudinal direction, i.e. in a direction in which the band projections protrude into the band receiving area. In particular, the preferably circular-cylindrical through-section is arranged closer in the middle part to the inlet openings of the band receiving area than to the end of the band pocket opposite the inlet openings of the band receiving area. The eccentric arrangement in the middle part in the longitudinal direction enables an improved screw connection to a structure to be achieved. In a direction transverse to the longitudinal direction, in particular perpendicular to the longitudinal direction, thus in a transverse direction, the through-section and/or the through-opening is preferably arranged centrally in the middle part. In other embodiments, an off-center arrangement can also be realized. A central arrangement in the transverse direction is preferred. The middle part has a recessed section and the through opening is formed in the recessed section. In one embodiment, the middle part has a recessed section that is surrounded by a kind of edge. The edge is formed laterally, i.e. in the transverse direction, by the band receptacles that extend longitudinally over the band pocket. The band receptacles are approximately hollow-cylindrical, with a receiving opening that is approximately circular in cross-section. The casing that surrounds the receiving openings forms the lateral edge around the middle part, more precisely the recessed section of the middle part. The recessed section thus forms a recessed middle part. At the end, i.e. in the longitudinal direction away from the front entry opening of the receiving openings, the edge is formed by an edge that is raised relative to the recessed middle part and extends transversely between the casings of the receiving openings. An edge that delimits the middle part is also formed on the edge opposite the end edge in the longitudinal direction. This is formed by an area for a clamp. In the area thus outlined, the Through opening with the preferably circular cylindrical through section. By arranging it in the middle part, the material thickness through which the through section penetrates is smaller than, for example, on the wing part or on one of the edges. The through opening and/or the through section is arranged closer to the adjacent band receiving area than to the end of the fastening area opposite the band receiving area. In the longitudinal direction, the through opening and/or the preferably circular cylindrical through section is further away from the end edge than from the edge opposite the end edge, the front edge. This makes it possible to achieve improved fastening. The through opening and/or the through section is arranged as close as possible to the edge opposite the end edge, the front edge. Preferably, the entire through opening and/or the through section is arranged in the longitudinal direction in the front half of the recessed middle part. More preferably, the through opening and/or the through section is directly adjacent to the front edge, or at least at a distance in the longitudinal direction. The distance to the front edge is preferably less than 50%, more preferably less than 40%, even more preferably less than 30% and most preferably less than 25% of the distance to the end edge in the longitudinal direction. In one embodiment, the through-opening protrudes at least partially into the front edge. The through-opening is designed in a stepped manner with at least one step lying between an inlet opening and an outlet opening of the through-opening. The band pocket is preferably designed as an injection-molded part. In an advantageous embodiment, the through-opening is designed in two stages. In other embodiments, the through-opening can also be designed in several stages. A two-stage design is preferred. In one embodiment, the two stages lie in one plane. Here, the through-opening has an upper part, adjacent to the top of the middle part having the edge, and a lower part, adjacent to the bottom of the middle part opposite the top. The upper part is designed offset from the lower part, at least in the longitudinal direction. In one embodiment, the upper part can be designed offset from the lower part in the longitudinal direction and in the transverse direction. Preferably, the upper part of the through-opening is arranged offset in the longitudinal direction from the lower part of the through-opening. The offset of the upper part and the lower part of the through-opening is dimensioned such that the adjoining parts in the axial direction of the through-opening have an overlapping and a non-overlapping area. The overlapping area is the through-opening section. The non-overlapping area forms a step in each case and thus forms a blind hole-like opening area. In the longitudinal direction, the opening areas and the through-opening section are directly adjacent to one another, so that in the transition area of the through-opening section and the respective opening area-- with Exception of the step - no demarcation is formed. The gradation can be formed at a different level in the depth direction, i.e. in the direction in which the material thickness of the middle part is measured. In one embodiment, the gradation takes place approximately in the middle, so that the upper part and the lower part of the through-opening penetrate the middle part or the material thickness of the middle part to the same extent in the depth direction. In other embodiments, different ratios of the penetration of the upper part by the middle part to the penetration of the lower part by the middle part can be provided, for example in a ratio of 1.1: 0.9 - 1.33:0.67 - 1.5:0.5 - 1.75:0.25 or in any other ratio. Here, the ratio can be set as desired according to the injection molding conditions. A central gradation is preferred. The through-opening is formed as an elongated hole in the area of the inlet opening and the step and/or in the area of the outlet opening and the step. In order to form the step, at least the upper part, preferably both the upper part and the lower part of the through-opening is designed as an elongated hole. The elongated holes can be designed differently, for example in deviation of the axes from one another, length, width and/or depth. It is preferred that the elongated holes are designed the same. The elongated holes preferably lie with their central axis on the longitudinal axis of the belt pocket. The extension of the elongated holes in the longitudinal direction is preferably the same. The extension transversely, more precisely perpendicular to the longitudinal direction, thus in the transverse direction, is the same. The center of the elongated holes is arranged offset in the longitudinal direction. The elongated holes therefore do not overlap over their entire through-section, but only with an overlap area, which then forms the through-section. The offset is designed in such a way that the lower part is arranged closer to the front edge than the upper part, viewed in the longitudinal direction starting from the end edge. The lower part can even protrude into the front edge in order to move the through-section as far as possible to the front edge. The upper part borders on the front edge as far as possible in the longitudinal direction. The upper part is preferably at a distance from the front edge in the longitudinal direction. The elongated holes are arranged in such a way that the through-passage section is arranged as close as possible to the front edge in the longitudinal direction. The through-passage section is at most adjacent to the front edge. The through-passage section is preferably at a distance from the front edge in the longitudinal direction. The distance of the through-passage section to the front edge is preferably in the range from 0.1 mm to 20 mm, more preferably from 0.15 mm to 15 mm and most preferably from 0.2 mm to 10 mm. Other distances are possible depending on the dimensions of the belt pocket. In addition, the step in the direction of the inlet opening or the top of the middle part in the direction of the step is designed differently from the step in the direction of the outlet opening in the direction of the step. In a preferred embodiment, the upper part of the through-passage opening is arranged closer to the end edge in the longitudinal direction than the lower part of the through-opening. When looking from the top towards the bottom, a step can be seen. The visible step is arranged closer to the end edge than to the front edge. This arrangement allows a screw to be inserted into the through-opening at an angle. When the screw is tightened, it then straightens up so that it penetrates the through-section axially. This design makes screwing in easier. Furthermore, the through-opening with the step is formed by two elongated holes offset from one another from different sides, whereby the elongated holes form an overlapping through-section to form the through-opening that allows passage. This overlapping area forms the through-section. This is preferably designed as a circular cylinder. Depending on the offset of the elongated holes to one another, other shapes can also be formed for the through-section. In addition, it is provided that the elongated hole forming the inlet opening is further away from the front area (inlet opening) of the tape receiving area in a receiving direction than the elongated hole forming the outlet opening. The upper part of the through-opening is arranged in the longitudinal direction closer to the end edge than the lower part of the through-opening. The through-opening section is preferably aligned perpendicular to the top and/or the bottom of the middle part. Last but not least, it is provided that the two elongated holes are not offset from one another in a direction perpendicular to the receiving direction. The elongated holes are thus arranged with their longitudinal axis in the longitudinal direction in axial extension. Preferably, both elongated holes are located with their longitudinal axis in the middle of the middle part, i.e. do not deviate from the middle in the transverse direction. The elongated holes are arranged in such a way that an unstepped through-opening is created over the entire material thickness of the middle part. Stepped openings are formed to the side of the through-opening section, which form a type of blind hole, thus forming an opening with a bottom, viewed in a top view or bottom view. The unstepped through-opening is preferably designed as a circular cylinder. The circular cylinder has a circular cross-section in a top view, i.e. axially to the circular cylinder axis. The stepped openings are each formed in a longitudinal direction of the elongated hole with a step of approximately the same width and thus form mirror-symmetrical openings. In one embodiment, the hinge pocket has a screw which protrudes through the through section. In other embodiments, other connecting means are provided. In one embodiment, the through opening has a bevel on the top and/or bottom. In further embodiments, the top and/or bottom has a recess around the through opening. This recess can be suitable for a screw head, a washer or the like, for example. In a method for producing a hinge pocket for receiving a hinge part, in particular a plastic hinge pocket for receiving hinge projections on the frame and/or casing side, in particular a band pocket described here, it is provided that the band pocket is designed as an injection-molded part, wherein a through-opening in a recessed middle part of a fastening area is formed by two elongated holes offset from one another in a receiving direction from different sides, thereby forming an overlapping through-section to form a through-opening with at least one step. The production is carried out without a slider. In order to arrange the through-opening and/or the through-section in the middle part as close as possible to the front edge, the stepped arrangement with two elongated holes is advantageous. Instead of a circular cylindrical through-opening, two elongated holes offset from one another at least in the longitudinal direction are provided. The offset allows a screw to be inserted obliquely into the through-opening and then protrudes vertically through the through-opening when tightened. In a further embodiment, the band pocket has a band part. The band pocket is designed as an injection-molded part. The band pocket is designed to receive a band part. For this purpose, the band pocket has a band receiving area. The band receiving area is designed to receive band projections of the band part. The hinge pocket also has a fastening area. The fastening area is designed to fasten the hinge pocket to a structure such as a wall, masonry or the like. In addition, the fastening area has a central part and two wing parts adjacent to it. The central part has at least one through-opening. The through-opening is designed to fasten the hinge pocket to the structure. Fastening is carried out by means of fastening means that protrude through the through-opening. The central part has a recessed section. The recessed section is surrounded by an edge, opposite which the section is recessed. The edge is formed laterally, i.e. in the transverse direction, by the hinge receptacles that extend over the hinge pocket. The hinge receptacles are approximately hollow-cylindrical, with a receiving opening that is approximately circular in cross-section. The casing that surrounds the receiving openings forms the lateral edge around the central part. At the end, i.e. in the longitudinal direction away from the front entry opening of the receiving openings, the edge is formed by an end edge section that is raised relative to the central part and extends in the transverse direction between the casings of the receiving openings. The edge section and the band holders are adjacent to one another and thus form a closed edge area. An edge section is also formed on the longitudinally opposite edge at the end, which delimits the middle section. This is formed by an area for clamping. The through-opening with the preferably circular cylindrical through-section is arranged in the middle section thus bordered. By arranging it in the middle section, the material thickness through which the through-section passes is smaller than, for example, on the wing section or on the edge. The through-opening is closed in two stages by two longitudinally offset Elongated holes are formed. The elongated holes are otherwise formed in the same way, i.e. they have the same dimensions in the longitudinal axis and width axis and are also formed to the same depth. Due to the offset arrangement of the elongated holes, a step is formed in the through opening in the non-overlapping area of the elongated holes. The elongated hole forms the upper part of the through opening. The elongated hole forms the lower part of the through opening. The overlapping part of the elongated holes forms the through section. In the embodiment shown, the through section is designed in the form of a circular cylinder and has a circular cross-section in the depth direction. The circular cylindrical through section is arranged eccentrically in the middle part in the longitudinal direction. In particular, the circular cylindrical through section is arranged closer to the front edge in the longitudinal direction than to the rear edge. The eccentric arrangement in the middle part in the longitudinal direction enables an improved screw connection to a structure to be realized. In the transverse direction, the through section and/or the through opening is arranged centrally in the middle part. The through-opening and/or the through-section is arranged closer to the front edge than to the rear edge in order to insert a screw or other fastening means as close as possible to the front edge. In the longitudinal direction, the through-opening and/or the circular cylindrical through-section is further away from the end edge than from the front edge. The through-opening and/or the through-section is arranged as close as possible to the front edge. In the exemplary embodiment shown, the entire through-opening and/or the through-section is arranged longitudinally in the front half of the middle part. The through-opening and/or the through-section borders close to the front edge at a distance in the longitudinal direction. The distance to the front edge is less than 50%, further less than 40%, even further less than 30% and shown less than 25% of the distance T to the end edge 33 in the longitudinal direction. A plate is tightened against the part to be clamped using a screw connection, here an Allen screw connection. It is also shown that the lower part of the through-opening, the elongated hole, is arranged longitudinally closer to the front edge, and even extends into it, than the upper part, i.e. the elongated hole. Accordingly, the step formed is arranged closer to the front edge than the step.

The drilling template according to the invention is designed for producing a bore for fastening the hinge pocket, in particular the hinge pocket as described above.

Further measures improving the invention are specified in the subclaims or emerge from the following description of at least one embodiment of the invention, which is shown schematically in the figures. All of the details arising from the claims, the description or the drawing Features and/or advantages, including design details, spatial arrangement and method steps can be essential to the invention both individually and in a wide variety of combinations. In the figures, identical or similar components are identified by identical or similar reference symbols.

Fig. 1

schematisch in einer Draufsicht eine Ausführungsform einer erfindungsgemäße Bandtasche,

Fig. 2

schematisch in einer Ansicht von unten die Ausführungsform nach Fig. 1,

Fig. 3

schematisch in einer perspektivischen Ansicht eine Ausführungsform einer erfindungsgemäßen Bohrschablone,

Fig. 4

schematisch in einer Seitenansicht die Ausführungsform nach Fig. 3,

Fig. 5

schematisch in einer Draufsicht die Ausführungsform nach Fig. 3 und 4,

Fig. 6

schematisch in einer Vorderansicht die Ausführungsform nach Fig 3 bis 5,

Fig. 7

schematisch in einer anderen perspektivischen Ansicht die Ausführungsform nach Fig. 3 bis 6 und

Fig. 8

schematisch in noch einer anderen perspektivischen einer Ansicht die Ausführungsform nach Fig. 3 bis 7

Show it:

Fig.1

schematically in a plan view an embodiment of a strap pocket according to the invention,

Fig.2

schematically in a view from below the embodiment according to Fig.1 ,

Fig.3

schematically in a perspective view an embodiment of a drilling template according to the invention,

Fig.4

schematically in a side view the embodiment according to Fig.3 ,

Fig.5

schematically in a plan view the embodiment according to Fig. 3 and 4 ,

Fig.6

schematically in a front view the embodiment according to Figs 3 to 5 ,

Fig.7

schematically in another perspective view the embodiment according to Fig. 3 to 6 and

Fig.8

schematically in yet another perspective view the embodiment according to Fig. 3 to 7

The Fig. 1 and 2 show in different views an embodiment of a strap pocket 1. Fig.1 shows schematically in a plan view an embodiment of the strap pocket 1 according to the invention. Fig. 2 shows schematically in a view from below the embodiment according to Fig.1 .

The Figures 3 to 8 show an embodiment of the drilling template 1 in different views. Fig.3 shows schematically in a perspective view an embodiment of a drilling template according to the invention. Fig.4 shows schematically in a side view the embodiment according to Fig. 3. Fig. 5 shows schematically in a plan view the embodiment according to Fig. 3 and 4. Fig. 6 shows schematically in a front view the embodiment according to Fig. 3 to 5. Fig. 7 shows schematically in a different perspective View the embodiment according to Fig. 3 to 6 . And Fig.8 shows schematically in yet another perspective view the embodiment according to Fig. 3 to 7 .

The band pocket 1 is designed as an injection-molded part. The band pocket 1 is designed to receive a band part. For this purpose, the band pocket has a band receiving area 10. The band receiving area 10 is designed to receive band projections of the band part. The band pocket also has a fastening area 20. The fastening area 20 is designed to fasten the band pocket 1 to a structure such as a wall, masonry or the like. In addition, the fastening area 20 has a central part 30 and two wing parts 40 adjacent to it. The central part 30 has at least one through-opening 50. The through-opening 50 is designed to fasten the band pocket 1 to the structure. Fastening takes place by means of fastening means that protrude through the through-opening 50. The fastening means are preferably each inserted into a mounting hole in the structure.

The middle part 30 has a recessed section 31. The recessed section 31 is surrounded by an edge 32, opposite which the section 31 is recessed. The edge 32 is formed laterally, i.e. in the transverse direction Q, by the band receptacles 11 extending over the band pocket 1. The band receptacles 11 are approximately hollow cylindrical, with a receiving opening that is approximately circular in cross section. The casing that surrounds the receiving openings forms the lateral edge around the middle part 30. At the end, i.e. in the longitudinal direction L away from the front inlet opening of the receiving openings, the edge 32 is formed by an end edge section 33 that is raised relative to the middle part 30 and extends in the transverse direction Q between the casings of the receiving openings. Edge section 33 and band receptacles 11 border one another and thus form a closed edge region. An edge section 34 delimiting the middle part 30 is also formed on the side opposite the end edge 33 in the longitudinal direction L. This is formed by a region 60 for clamping. The through opening 50 with the preferably circular cylindrical through section 51 is arranged in the middle part thus bordered. By arranging it in the middle part 30, the material thickness through which the through section 51 penetrates is less than, for example, on the wing part 40 or on the edge 32.

In the embodiment shown, the through-opening 50 is formed in two stages by two elongated holes 52, 53 arranged offset in the longitudinal direction L. The elongated holes 52 and 53 are otherwise formed identically, i.e. they have the same dimensions in the longitudinal axis and width axis and are also formed to the same depth.

Due to the offset arrangement of the elongated holes 52 and 53, a step 54, 55 is formed in the through opening in the non-overlapping area of the elongated holes 52, 53. The elongated hole 52 forms the upper part of the through opening 50. The elongated hole 53 forms the lower part of the through opening 50. The overlapping part of the elongated holes 52, 53 forms the through section 51. In the embodiment shown, the through section 51 is designed in the form of a circular cylinder and has a circular cross-section in the depth direction. The circular cylindrical through section is arranged eccentrically in the longitudinal direction L in the middle part 30. In particular, the circular cylindrical through section 51 is arranged closer to the front edge 34 in the longitudinal direction L than to the rear edge 33. The eccentric arrangement in the middle part 30 in the longitudinal direction L enables an improved screw connection to a structure to be realized. In the transverse direction Q, the passage section 51 and/or the passage opening 50 is arranged centrally in the middle part.

The through-opening 50 and/or the through-section 51 is arranged closer to the front edge 34 than to the rear edge 33 in order to introduce a screw or other fastening means as close as possible to the front edge 34. In the longitudinal direction L, the through-opening 50 and/or the circular-cylindrical through-section 51 is further away from the end edge 33 than from the front edge 34. The through-opening 50 and/or the through-section 51 is arranged as close as possible to the front edge 34. In the exemplary embodiment shown, the entire through-opening 50 and/or the through-section 51 is arranged in the front half of the central part 30 in the longitudinal direction L. The through-opening 50 and/or the through-section 51 borders close to the front edge 34 at a distance S in the longitudinal direction L. The distance S to the front edge 34 is less than 50%, further less than 40%, even further less than 30% and shown less than 25% of the distance T to the end edge 33 in the longitudinal direction L.

In Fig.2 it is shown how the clamping works in the clamping area 60. A plate 62 is tightened against the part to be clamped via a screw connection, here an Allen screw connection 61. It is also shown that the lower part of the through-opening 50, the slotted hole 53, is arranged in the longitudinal direction L closer to the front edge 34, even protruding into it, than the upper part, i.e. the slotted hole 52. Accordingly, the step 55 formed is arranged closer to the front edge 34 than the step 54.

The drilling template 101 is designed for the hinge pocket 1, in particular for guiding a drill for drilling a mounting hole for the hinge pocket 1. The drilling template 101 has a base body 110 designed as an angle. The Base body 110 has an inner side 111 and an outer side 112. A positioning section 120 protruding from the outer side 112 is formed on the outer side 112 in order to position the drilling template 101 for drilling. Furthermore, a protruding guide section 130 is formed on the inner side 111 in order to guide the drill. The positioning section 120 is designed in a peg-like manner and protrudes from the outer side 112 at a first angle. The guide section 130 protrudes in a tubular manner from the inner side 111 at a second angle. The guide section 130 has a through-opening 131 which penetrates the base body 110. The first angle and the second angle are aligned at an angle to one another.

The base body 110, which is designed as an angle, has a first leg section 113 and a second leg section 114. The two leg sections 113 and 114 are aligned at right angles to one another in order to form a contact surface on the outer side 112. The leg sections 113, 114 are connected to one another so that they form the first angle. The base body 110 is designed in one piece. The leg sections 113, 114 are firmly formed as one piece with one another. In the embodiment shown, the leg sections 113, 114 are designed at right angles to one another. The base body 110 and thus the leg sections 113, 114 have the inner side 111 and the outer side 112. The outer side 112 is preferably designed to rest against an object. The object is intended for fastening the strap pocket 1. Preferably, a section of the outer side 112 of the first leg section 113 and a section of the second leg section 114 are provided for attachment to an object, more precisely to an angled section of the object. The angled section of the object corresponds to the angled section of the drilling template 101. The positioning section 120 is provided for further positioning of the drilling template 101. This protrudes from the outer side 112 of a leg section 113, 114, here the larger leg section 114. The positioning section 120 is provided for insertion into a recess in the object to which the strap pocket 1 is to be attached. The contour of the recess and the contour of the positioning section 120 are complementary, so that the positioning section 120 can be accommodated in the recess. The positioning section 120 is preferably designed in the shape of a pin. In the embodiment shown, the pin has a substantially cylindrical basic shape, but can also have other basic shapes such as a conical basic shape. Recesses, moldings or other processing can be carried out on the basic shape, but these are not provided here. Preferably, the positioning section 120 protrudes at a first angle from the outside 112, the first angle here being a right angle. The positioning section 120 is formed in one piece with the base body 110. A guide section 130 is also provided on the base body 110 for making the hole. attached. The guide section 130 is tubular and protrudes from the inner side 111 at a second angle from the base body 110. The guide section 130 is formed in one piece with the base body 110. The guide section 130 has a through-opening 131 through which a drill can be guided. The through-opening 131 penetrates the base body 110 so that the drill can be inserted into the through-opening 131 on the inside and the hole can be made on the outside by the drill. The first angle and the second angle or the second angle and the inner side 111 and/or the outer side 112 are arranged at an angle to one another. This means that the through-opening 131 runs neither parallel nor perpendicular to the inner side 111, the outer side 112 and/or the positioning section 120, more precisely its axis(es).

The leg section 114 from which the positioning section 120 protrudes is larger than the other - first - leg section 113. The larger - second - leg section 114 is longer than the other leg section 112, the length being measured from a connecting region of the leg sections 113, 114 to the remote or furthest end of the respective leg section 113, 114 from the connecting region. In the connecting region, the two leg sections 113, 114 have approximately the same width, so that no projection is created on the two leg sections 113, 114 in the connecting region. Both leg sections 113, 114 are of the same thickness in the connecting region. The leg section 114 varies in the longitudinal direction in terms of its width. Overall, the larger leg section 114 has a larger surface area, a larger volume and/or a higher weight than the other leg section 113. The guide section 120 is preferably dimensioned such that it is longer than the smaller leg section 113 and thus protrudes beyond it in its longitudinal direction.

The first angle is designed as a right angle. The positioning section designed as a pin thus protrudes at a right angle from the outside 112 of the larger leg section 114. The extent into which the positioning section 120 protrudes is dimensioned such that a secure hold in a hole or other corresponding receptacle is ensured. To simplify positioning, the positioning section 120 has a circular cross-section or generally a cross-section suitable for rotation in the recess. This makes it possible to easily position the drilling template 101.

The second angle is formed at an angle to the first angle. In the embodiment shown, the angles are formed so that they are at an angle of approximately 60° to each other. The drilling template 101 is particularly intended for making oblique holes. The angle of the guide section 130 is designed to match the hole required for the hinge pocket 1.

A stiffening section 140 protrudes from an outer side 132 of the guide section 120 and the inner side of the base body 110. The stiffening section 140 is designed approximately like a web. It preferably extends along the outer side 132 of the guide section 130 to its ends and along the inner side 111 to the end of the larger leg section 114. The stiffening section 140 reduces its width so that an approximately triangular stiffening section 140 is realized in a side view. The stiffening section 140 tapers accordingly over a length of the larger leg section 114. The larger leg section 114 is also designed to taper. The larger leg section 114 tapers in particular in its width, thus transversely to the extension from the connection area to the furthest end from the connection area. In a plan view, this results in a trapezoidal leg section 114.

The through-opening 131 opens into both leg sections 113, 114. The guide section 130 is arranged such that the through-opening 131 runs in the direction of the connection area and penetrates both a part of the larger leg section 114 and a part of the smaller leg section 113. In this way, a hole can be made from the connection area into the object.

The positioning section 120 is beveled on one side with a bevel 121. For better positioning, the positioning section 120 has the bevel 121 extending from the front side facing away from the outside 112 in the direction of the outside 112. The beveled surface or bevel 121 points away from the smaller leg section 113. The bevel 121 extends from the front side of the positioning section 120 towards the outside 112. The angle of the bevel 121 is formed here at an angle of approximately 60°.

It is understood that the above-mentioned features of the invention can be used not only in the combination specified in each case, but also in other combinations or on their own, without departing from the scope of the invention.

List of reference symbols

1

Band bag

10

Tape recording area

11

Tape recording

20

Mounting area

30

Middle part

31

Section (deepened)

32

edge

33

end edge section

34

front edge section

40

Wing parts

50

Passage opening

51

Passage section

52

Long hole (upper part)

53

Long hole (lower part)

54

Level

55

Level

60

Area (clamping)

61

Allen screw connection

62

plate

101

Drilling template

110

Base body

111

inside

112

Outside

113

Thigh section

114

Thigh section

120

Positioning section

121

bevel

130

Guide section

131

Passage opening

132

Outside

140

Alignment section

L

Longitudinal direction

Q

Transverse direction

S

Distance

T

Distance

Claims (15)

Hinge pocket (1) for receiving a hinge part, in particular a plastic hinge pocket for receiving hinge projections on the frame and/or casing side, with a hinge receiving area (10) for receiving the hinge projections and a fastening area (20) for fastening the hinge pocket to a structure, wherein the fastening area (20) has a central part (30) and two wing parts (40) adjacent thereto, characterized in that
the central part (30) has at least one through-opening (50) for fastening the strap pocket (1) to the structure by means of fastening means extending through the through-opening (50). Belt bag (1) according to claim 1, characterized in that
the central part (30) has a recessed portion (31) and the through opening (50) is formed in the recessed portion (31). Belt bag (1) according to claim 1 or 2, characterized in that
the through opening (50) is arranged closer to the adjacent tape receiving area (10) than to the end of the fastening area (20) opposite the tape receiving area (10). Belt bag (1) according to one of the preceding claims 1 to 3, characterized in that
the through opening (50) is stepped with a step (54, 55) located between an inlet opening and an outlet opening of the through opening (50). Belt bag (1) according to one of the preceding claims 1 to 4, characterized in that
the through opening (50) is designed as an elongated hole (52, 53) in the region of the inlet opening and the step (54, 55) and/or in the region of the outlet opening and the step (55, 54). Belt bag (1) according to one of the preceding claims, characterized in that
the step (54) in the direction from the inlet opening towards step (54) is designed differently from the step (55) in the direction from the outlet opening towards step (54). Belt bag (1) according to one of the preceding claims 1 to 6, characterized in that
the through-opening (50) with the step (54, 55) is formed by two elongated holes (52, 53) introduced from different sides offset from one another, wherein the elongated holes (52, 53) form an overlapping passage section (51) enabling the passage to form the through-opening (50). Belt bag (1) according to one of the preceding claims 1 to 7, characterized in that
the elongated hole (52) forming the inlet opening is further away from the tape receiving area (10) in a receiving direction than the elongated hole (53) forming the outlet opening. Belt bag (1) according to one of the preceding claims 1 to 8, characterized in that
in a direction perpendicular to the receiving direction, the two elongated holes (52, 53) are not offset from one another. Drilling template (101) for a strap pocket, in particular a strap pocket (1) according to one of the preceding claims, for guiding a drill for drilling a mounting hole for the strap pocket (1), comprising
a base body (110) designed as an angle, with an inner side (111) and an outer side (112), wherein a positioning section (120) protruding from the outer side (112) is formed on the outer side (112) in order to position the drilling template (101) for drilling, and wherein a protruding guide section (130) is formed on the inner side (111) in order to guide the drill, wherein the positioning section (120) is designed in the shape of a pin and protrudes from the outer side (112) at a first angle, and wherein the guide section (130) protrudes tubularly from the inner side (111) at a second angle and has a through-opening (131) which penetrates the base body (110), wherein the first angle and the second angle are aligned at an angle to one another. Drilling template (101) according to claim 10, characterized in that
the base body (110) designed as an angle has a first leg portion (113) and a second leg portion (114), wherein the two leg portions (113, 114) are aligned at right angles to one another in order to form a contact surface. Drilling template (101) according to claim 10 or 11, characterized in that
the leg portion (113) from which the positioning portion (120) protrudes is larger than the other leg portion (114). Drilling template (101) according to one of the preceding claims 10 to 12, characterized in that
the first angle is formed as a right angle and/or the second angle is formed obliquely to the first angle, in particular in a range of 10 to 80°. Set comprising a band bag (1) according to one of the preceding claims 1 to 9 and a drilling template (101) according to one of the preceding claims 10 to 13. Method for producing a hinge pocket (1) for receiving a hinge part, in particular a plastic hinge pocket for receiving frame- and/or casing-side hinge projections, in particular a hinge pocket (1) according to one of the preceding claims 1 to 9, characterized in that
the band pocket (1) is designed as an injection-molded part, wherein a through-opening (50) is formed in a recessed central part (30) of a fastening region (20) by two elongated holes (52, 53) offset from one another in a receiving direction from different sides, thereby forming an overlapping through-section (51) for forming a through-opening (50) having at least one step (54, 55).

Images