FR3119559A1 - crimping head and installation for the assembly of profiles - Google Patents

Abstract

Crimping head (1) comprising two jaws (2) with at least one tool holder part (3) and a device (4) for driving the said jaws (2) in pivoting movement, each jaw (2) having the shape an arm (5) pivoting around a pivot axis (XX'), the pivot axes (XX') being parallel, each arm (5) having a first arm section (6) equipped with the tool holder part (3) of the jaw (2) and a second arm section (7). The drive device (4) comprises, arranged between said second arm sections (7), a cam (8) in sliding or rolling bearing contact with the second section (7) of each of the arms and an actuator (9 ) for driving the cam (8) in displacement, in the state driven in displacement of the cam (8) by said actuator (9) in a first direction (D1), mounted to pivot in the direction of a approximation of the tool holder parts (3), the distance (D) between the support contact zone of the cam (8) with the second section (7) of an arm (5) and the axis (XX' ) pivot of said arm (5) varying in the direction of a reduction of this distance (D) in the driven state in movement of the cam (8) in said first direction (D1). Figure for abstract: Fig. 2

Description

crimping head and installation for the assembly of profiles

The present invention relates to a crimping head and an installation for crimping comprising at least one such crimping head.

It relates in particular to at least one crimping head for the automated assembly of sections joining together forming a dihedral, said crimping head comprising two jaws with at least one tool holder part and a device for driving said jaws between a spaced position and a position close to said tool holder parts for cutting a crimping tab in the wall of the sections to be connected, each jaw having the form of an arm pivoting around a pivot axis, the pivot axes of the arms being parallel, each arm having a first arm section and a second arm section arranged on either side of a plane passing through the pivot axes of said arms, the first section of each arm being equipped with the tool holder part of the jaw.

Such a crimping head is known as illustrated in particular by patent FR 2 887 792. Such a crimping head uses two tool holder jaws to produce the crimping tongues. The tools have teeth capable, during the approximation of the jaws, of cutting and deforming the constituent material of the profile so as to constitute a tongue which cooperates with a square placed in the connection angle of the profiles so as to secure said profiles. Such an operation requires for its success a perfect synchronism of the jaws. A movement drive mechanism for the jaws, as described in patent FR 2 887 792, is satisfactory, but this mechanism is complex and therefore expensive.

An object of the invention is to provide a crimping head of the aforementioned type whose design is simplified while limiting the breakage of the tools of said crimping head.

To this end, the subject of the invention is a crimping head, in particular for the automated assembly of sections connecting to form a dihedral, said crimping head comprising two jaws with at least one tool holder part and a device for driving in pivoting movement of said jaws between a separated position and a close position of said tool holder parts, each jaw having the form of an arm pivoting around a pivot axis, the pivot axes of the arms being parallel, each arm having a first arm section and a second arm section arranged one, on one side, the other, on the other side of a plane passing through the pivot axes of said arms, the first section of each arm being equipped with the tool holder part of the jaw, characterized in that the device for driving the jaws in pivoting movement comprises, arranged at least partially between the said second arm sections, a cam in bearing contact g smoothing or rolling with the second section of each of the arms and an actuator for driving the cam in displacement between two extreme positions, one corresponding to the spaced position of the tool-holder parts, the other to the close position of the parts tool holder, said jaws being, by bearing contact of the cam with said second sections of the arms, in the state driven in displacement of the cam by said actuator in a first direction, mounted to pivot in the direction of a bringing together of the tool holder parts, the distance between the bearing contact zone of the cam with the second section of an arm and the pivot axis of the said arm varying in the direction of a reduction of this distance to the state driven in movement of the cam in said first direction in the direction of bringing together the tool holder parts of the jaws.

The presence of an active cam by pressing contact on each of the jaws allows synchronous operation of said jaws. The design of the cam/second section cooperation of the arms allows a reduction of the lever arm and therefore of the force applied by the tool holder jaws on the profiles during the bringing together of the tool holder parts of the jaws, which limits the risk breakage. The force decreases during the passage of the tool-holder parts of the jaws from the separated position to the close position, which corresponds to what is desired for the performance of the crimping operation at the level of the profile.

According to one embodiment of the invention, the second section of each arm provides, at its part capable of coming into bearing contact with the cam, a so-called cam surface and the cam surfaces of the arms form between them surfaces converging in the direction of the pivot axes of the arms. This geometric arrangement allows a simple course of the cam. The cam surfaces form between them the branches of a V pointing towards the pivot axes of the arms.

According to one embodiment of the invention, the cam in rolling support contact with the second section of each of the arms is equipped, at the level of each support contact zone, with at least one roller mounted free to rotate . This design makes it possible to limit the risks of premature wear of the arms or the cam.

According to one embodiment of the invention, the jaws, in bearing contact of the cam with said second sections of the arms, are, in the state driven in movement of the cam by said actuator in a second direction opposite to the first direction, mounted to pivot in the direction of separation of the tool holder parts, and the crimping head comprises a jaw return member in the spaced position of said tool holder parts. This results in a simplification of the design of the crimping head.

According to one embodiment of the invention, the member for returning the jaws to the spaced position of said tool-holder parts is a spring arranged between the second sections of the arms.

According to one embodiment of the invention, the crimping head is equipped with a centering V projecting between the first sections of the arms. This centering V is configured to match the apex of the dihedral angle formed by the profiles to be assembled. This centering V thus prevents, during the crimping operation, an offset of the sections at the top of the dihedral formed in the support position of an angle of the frame formed by the sections on said centering V.

According to one embodiment of the invention, said crimping head comprises, for the tool holder part of each jaw, a cutting tool that can be removably coupled to said tool holder part. This cutting tool can be formed by one or more crimping teeth.

According to one embodiment of the invention, the centering V is arranged between the cutting tools in a position close to the tool holder parts of the jaws.

According to one embodiment of the invention, the jaws and the device for driving the jaws in pivoting movement are mounted on a common support. This common support can thus be easily installed on a mobile frame.

According to one embodiment of the invention, the crimping head comprises at least one clamping device, said clamping device comprising at least one articulated arm carried by said support and a pressing member arranged at the end of the articulated arm, this pressing member being associated with an actuating member, such as a jack, for movement of said pressing member between a separated position and a position close to the support. Such a clamping device allows the profiles to be assembled to be held in position. The presser member can be positioned at least partially above and plumb with the centering V. This pressing device makes it possible to avoid an offset of the sections in a direction parallel to the edge of the dihedral formed by the sections.

Another subject of the invention is an installation for crimping, in particular frames formed from four sections, characterized in that said installation comprises four crimping heads in accordance with that described above and a control unit configured to control operation in synchronism of the four crimping heads. The four crimping heads are mounted on a frame of the installation.

Other characteristics and advantages of the invention will emerge from the description which follows, which is purely illustrative and not limiting and must be read in conjunction with the appended drawings, in which:

there shows a perspective view of a crimping head according to the invention;

there shows a partial perspective view of a crimping head according to the invention in a position separated from the tool holder parts of the jaws;

there shows a partial perspective view of a crimping head according to the invention in the close position of the tool holder parts of the jaws;

there shows a partial perspective view taken from below of a crimping head according to the invention in a position separated from the tool holder parts of the jaws;

there shows a perspective view of an installation for crimping according to the invention.

DETAILED DESCRIPTION

The inventive concept is described more fully below with reference to the accompanying drawings, in which embodiments of the inventive concept are shown. Like numbers refer to like elements throughout the drawings. However, this concept of the invention can be implemented in many different forms and should not be construed as being limited to the embodiments set forth herein. Instead, these embodiments are provided so that this description is complete, and communicates the scope of the inventive concept to those skilled in the art.

Reference throughout the specification to "an embodiment" means that a particular feature, structure, or feature described in connection with an embodiment is included in at least one embodiment of the present invention. Thus, the appearance of the phrase "in one embodiment" at various places throughout the specification does not necessarily refer to the same embodiment. Further, the particular functionalities, structures, or features may be combined in any suitable manner in one or more embodiments.

The crimping head 1, object of the invention, is used in the example shown to connect two sections (not shown) together. This crimping head 1 is generally integrated into an installation 20 for crimping which comprises four crimping heads 1 as illustrated in . This installation 20 allows the crimping of a frame formed of four sections. In such an installation, the crimping heads 1 are mounted on a frame which can have a large number of shapes.

In the example shown in , the frame comprises two parallel beams mounted movable in the direction of a rapprochement and a spacing from one another. Each beam carries two crimping heads 1 mounted on a movable beam in the direction of bringing them closer together and moving them apart from each other. This arrangement makes it possible to manage the crimping of frames of different dimensions. These frames are generally metal carpentry frames, such as door, window or other frames. Each frame profile is in the form of a tubular element. Each profile of the frame is assembled at right angles to another profile of the frame by a bracket inserted into the cavities of the profiles to form a dihedral.

The installation 20 further comprises a control unit 21 configured to control the movements of the moving parts, such as the parts of the frame and the synchronous operation of the crimping heads 1 which will be described in more detail below.

This control unit 21 is in the form of an electronic and computer system which includes, for example, a microprocessor and a working memory. According to a particular aspect, the control unit can take the form of a programmable automaton.

That is, the described functions and steps can be implemented as a computer program or via hardware components (eg programmable gate arrays). In particular, the functions and steps operated by the control unit or its modules can be performed by instruction sets or computer modules implemented in a processor or controller or be performed by dedicated electronic components or components of the FPGA type or ASIC. It is also possible to combine computer parts and electronic parts.

When it is specified that the unit or means or modules of said unit are configured to carry out a given operation, this means that the unit comprises computer instructions and the corresponding means of execution which make it possible to carry out said operation and/ or that the unit includes corresponding electronic components.

. In the installation 20 for crimping, shown in , the four crimping heads 1 are identical. A single crimping head 1 will be described below.

Of course, installations for crimping comprising a single crimping head 1 can also be implemented without departing from the scope of the invention.

The crimping head 1 allowing the automated assembly of sections connecting to form a dihedral comprises two jaws 2 each having a tool holder part 3. This crimping head 1 further comprises a device 4 for driving the jaws in movement by pivoting 2. These jaws 2 are capable of each cutting a tab in the wall of one of the sections to be connected. These jaws 2 are actuated simultaneously by the device 4 for driving the jaws in pivoting movement between a separated position and a close position of the tool holder parts 3 of the jaws 2 to guarantee the movement symmetry of the jaws 2.

In the examples shown, the jaws 2 and the device 4 for driving the jaws 2 in pivoting movement are mounted on a common support 15. This common support 15 has, in the examples shown, the form of a plate mounted on a part of the frame of the installation 20. Each jaw 2 has the form of an arm 5 pivoting about a pivot axis XX'. The pivot axes XX' of the arms 5 are parallel. The axis XX' of each arm 5 is a so-called vertical axis which extends perpendicularly to the support 15 formed here by a plate. Thus, in the positioned state of the installation 20 on any flat horizontal surface, the axes XX' of the arms 5 extend perpendicularly to said surface. Each arm 5 has a first arm section 6 and a second arm section 7 arranged one, on one side, the other, on the other side of a plane P passing through the pivot axes XX' of said arms 5.

The first section 6 of each arm 5 is equipped with the tool-holder part 3 of the jaw 2. This tool-holder part 3 is arranged at the level of the end of the arm 5 arranged on the side of the first section 6 of the arm 5. results that in the state driven in pivoting movement of the jaws 2, when the first sections 6 of said jaws 2 and therefore the tool holder parts 3 tend to move away from each other, the second sections 7 of said jaws 2 tend to approach each other and vice versa.

The crimping head 1 comprises, for the tool holder part 3 of each jaw 2, a cutting tool 14 that can be removably coupled to said tool holder part 3. This cutting tool 14 has here the shape of a tooth of crimping. This tooth, mounted on the tool holder part 3 of the jaw 2, is intended to penetrate into the constituent material of the profile and to cut a tab in the wall of the profile to be connected. This tongue is intended to cooperate with the bracket placed beforehand inside the angle formed by the two sections. The cooperation of the bracket with at least two crimping tabs formed in the wall of each profile makes it possible to secure the profiles and to maintain them in the crimping position.

In the case of a crimping head operating in a horizontal plane, that is to say with the pivot axis XX' of each arm 5 vertical, provision may be made to equip a jaw 2 with a series of teeth superimposed, that is to say arranged one above the other. Thus, several tongues can be cut simultaneously with the same movement of the jaw 2.

In the examples shown, the crimping head 1 is equipped with a centering V 13 projecting between the first sections 6 of the arms 5. This centering V 13 is arranged between the cutting tools 14 in a position close to the carrier parts. tool 3 of the jaws 2. This centering V 13 is able to match the vertex of the angle formed by the profiles and corresponding to the edge of the dihedral. This centering V 13 is mounted in a stationary manner on the support 15 and is therefore independent in movement of the jaws 2. The frame or the sections to be crimped are therefore prepositioned at this centering V before crimping, that is to say say before driving in pivoting movement of the jaws 2 in the direction of bringing together the tool holder parts 3.

To allow the drive in pivoting movement of the jaws 2, the device 4 for driving in pivoting movement of the jaws 2 comprises, arranged at least partially between said sections 7 of arms 5, a cam 8 in sliding bearing contact or rolling with the second section 7 of each of the arms 5 and an actuator 9 for driving the cam 8 in displacement between two extreme positions, one corresponding to the spaced position of the tool holder parts 3 and therefore of the first sections 6 of arm, the other, in the close position of the tool holder parts 3 and therefore of the first sections 6 of the arm. This actuator 9 for driving the cam 8 in displacement between two extreme positions corresponding, one, to the separated position of the tool holder parts 3, the other, to the close position of the tool holder parts 3, allows a movement of the cam 8 along at least a first direction D1 for the passage of the cam 8 from the extreme position of the cam 8 corresponding to the separated position of the tool holder parts to the extreme position of the cam 8 corresponding to the close position of the tool holder parts. This actuator 9 also allows, by driving the cam 8 in displacement in a second direction D2 opposite to the first direction, the passage of the cam 8 from the extreme position corresponding to the close position of the tool holder parts 3 to the extreme position. corresponding to the separated position of the tool holder parts 3. This actuator 9 is therefore a drive actuator in displacement and back and forth of the cam 8. Indeed, this actuator 9 is a drive actuator in displacement of the cam 8 in a first direction D1 and in a second opposite direction D2. The actuator 9 is here a cylinder whose body is fixed to the support 15 and whose rod is coupled to the cam 8. This actuator 9 is here a double-acting cylinder. This cylinder is therefore configured to drive the cam 8 in displacement along a first direction D1 for the passage of the cam 8 from an extreme position corresponding to the spaced position of the tool holder parts 3 to another extreme position corresponding to the close position of the tool holder parts 3 and in a second direction D2 opposite to the first direction for the return of the cam 8 from this extreme position corresponding to the close position of the tool holder parts 3 to the extreme position corresponding to the separated position of the parts tool holder 3. As a variant, this actuator 9 could have been made in the form of two single-acting cylinders ensuring, one, the movement of the cam in the first direction D1, the other, the movement of the cam in the second direction D2 opposite to D1. As a further variant, the actuator 9 could have been formed by a single single-acting cylinder in cooperation with an elastic return member. This or these jacks can be hydraulic or pneumatic or electric jacks. Generally, the working pressure of these cylinders is between 5 and 6 10 ⁵ .Pa. As a further variant, the actuator could have been a motor.

The cam 8 is in sliding or rolling bearing contact with the second section 7 of one of the arms 5 and with the second section 7 of the other of the arms 5 to allow, in the driven state in movement of the cam 8 in said first direction D1, by bearing contact with said second sections 7 of the arms, a pivoting movement of the jaws 2 in the direction of bringing together the tool holder parts 3. In other words, the jaws 2 are, by bearing contact of the cam 8 with the second sections 7 of the arms, in the state driven in displacement of the cam 8 by the said actuator 9 in a first direction D1, for the passage of the cam 8 from the one of the extreme positions corresponding to the separated position of the tool holder parts 3 to the other extreme position corresponding to the close position of the tool holder parts 3, mounted to pivot in the direction of bringing the tool holder parts 3 closer together The contact of the cam 8 with the second section 7 of an arm 5 forms a bearing contact area. This displacement drive of the cam 8 in the first direction D1 is illustrated by the passage of the to the of the jaws 2. During its movement in the first direction D1, the actuator 9, which is here a double-acting cylinder, retracts and the cam 8 tends to approach the pivot axes XX' of the arms 5. This approximation of the cam 8 of the pivot axes XX' of the arms 5 therefore corresponds to the first direction D1 of movement of the cam 8. During this movement of the cam 8 along this first direction D1, the distance D between the contact zone of support of the cam 8 with the second section 7 of an arm 5 and the pivot axis XX' of said arm 5 varies in the direction of a reduction of this distance D. In other words, the contact zone of support of the cam 8 with the second section 7 of each arm 5 tends to approach the pivot axis XX' of the arms in the driven state of the cam 8 in the first direction D1. This reduction in the distance D is visible between FIGS. 2 and 3. This reduction in the distance D results in a shorter lever arm for driving the pivoting arm 5 in displacement. Consequently, the force produced is maximum at the start of the movement of the cam 8, which is desired for the crimping operation in order to optimize this crimping operation without risk of breakage. Conversely, for the passage of the jaws 2 from the close position to the separated position of the tool holder parts 3 of said jaws 2, the actuator 9 for driving the cam 8 in displacement drives the cam 8 in the second direction. in the direction of a spacing of the cam from the axes XX' pivot of the arms 5 as illustrated by the passage of the to the . Cam 8 is in bearing contact with said second sections 7 of arms 5 in the state driven in displacement of cam 8 by said actuator 9 in second direction D2 opposite to first direction D1. The jaws 2 are mounted so as to pivot in the direction of a separation of the tool holder parts 3 in the state driven in movement of the cam 8 by said actuator in the second direction D2.

To this end, the crimping head 1 comprises a member 12 for returning the tool-holder parts 3 of the jaws 2 to a position separated from said tool-holder parts 3, that is to say in a close position to the second sections 7 of the arms 5. This member 12 for recalling the tool holder parts 3 of the jaws 2 in the spaced position from said tool holder parts 3 is a spring disposed between the second sections 7 of the arms 5. This spring tends to return the second sections 7 of the arms in position close to each other to come to bear on the cam 8. In the examples shown, the second section 7 of each arm 5 forms, at the level of its part capable of coming into bearing contact with the cam 8, a surface 10 called cam surface. The cam surfaces 10 form between them, seen in a direction parallel to the pivot axis XX' of the arms 5, a V with the tip of the V oriented towards the pivot axes XX' of the arms 5.

These cam surfaces 10 therefore form between them surfaces converging in the direction of the pivot axes XX' of the arms.

The cam 8 in rolling support contact with the second section 7 of each arm 5 is equipped, at each support contact zone, with at least one roller 11 rotatably mounted on the rest of the cam 8 Indeed, the cam 8 in this case comprises a cam body and rollers 11. Each roller 11 rotates by rolling on the cam surface 10 of the arm with which the roller 11 is in rolling bearing contact during movement. of the cam 8 along the second section 7 of the arms 5.

In practice, the movement of the cam 8 in the first direction D1, that is to say in the direction of bringing the cam 8 closer to the pivot axes XX' of the arms 5 therefore causes, by pivoting movement of the arms 5 around the axes XX ', a rapprochement of the tool holder parts 3 of the jaws 2, that is to say a rapprochement of the first sections 6 of the arms 5 and a separation of the second sections 7 of the arms 5, while the displacement of the cam 8 in the second direction D2 opposite to the first direction D1, that is to say in the direction of a separation of the cam 8 from the pivot axes XX' of the arms 5, allows a pivoting movement of the arms 5 around the axes XX 'pivot in the direction of a separation of the tool holder parts 3 of the jaws 2, that is to say in the direction of a separation of the first sections 6 of the arms 5 and of a reconciliation of the second sections 7 of the arms 5.

The movement of the cam 8 in the first direction D1 takes place against the action of the member 12 for return. Indeed, this recall member 12 tends to recall the second arm sections 7 in the position close to each other while the movement of the cam 8 in the first direction D1 tends by bearing contact of the cam 8 with the second arm sections 7 to be driven in displacement of the second arm sections 7 in the direction of a separation from one another.

To complete, the crimping head 1 comprises at least one clamping device 16 to allow the profiles to be assembled to be held in position. Said clamping device 16 comprises at least one articulated arm 17 carried by said support 15 and a presser member 18 disposed at the end of the articulated arm 17, this presser member 18 being associated with an actuating member 19, such as a cylinder, for movement of said pressing member 18 between a spaced position and a position close to the support 15. This pressing member 18, such as a movable stud, can be positioned at least partially plumb with the inside of the centering V 13. This clamping device 16 ensures a vice setting of the profiles between the support 15 and the presser member 18.

The course of a crimping operation of two sections forming a dihedral will now be described. The operator first places the sections on the support 15 so as to place the connection zone of the two sections at the level of the two jaws 2 of the crimping head 1 in the centering V 13. The tool holder part of each jaw 2 is brought into bearing contact on one of the sections to be assembled by moving the cam 8 in the direction D1 in the direction of bringing the cam 8 closer to the pivot axes XX' of the arms 5. The two sections are therefore arranged between the cutting tools 14. There represents the crimping head 1 in this position, the profiles having been omitted. To reach this position, the cam 8 is therefore driven in movement by the actuator 9 for driving the movement of the cam 8 in the first direction D1, that is to say in the direction of bringing the cam closer. 8 of the axes XX' pivot to allow a separation of the second sections of the arms and in parallel a rapprochement of the first sections 6 of arms to a position in which the cutting tools 14 of the jaws 2 are in contact on the profiles to be connected to the crimping point of the latter before crimping. The continuation of the movement of the cam 8 in the first direction with the aid of the actuator 9 for driving the movement of the cam 8 allows the cutting tools 14 to penetrate into the constituent material of the profiles and to cut a tab in the wall of each profile to be connected. This tongue is intended to cooperate with a bracket placed beforehand inside the angle formed by the two sections. The cooperation of said bracket with at least two crimping tabs provided in the wall of each profile makes it possible to secure said profiles and to maintain them in the crimping position. Once the crimping is done, the actuator 9 drives the cam 8 in the second direction to allow the separation of the tools 14 as illustrated in . During this crimping operation, the presser member 18 presses the profiles against the support 15.

The installation, shown in , can be used to make simultaneous connections of four profiles to form a frame. Said installation comprises four crimping heads 1 in accordance with the invention. Each of these heads 1 is placed at one of the corners of the frame to be assembled. The four heads are operated in synchronism in order to cut crimping tongues in each of the profile walls to be assembled according to the process described above.

Claims (11)

Crimping head (1) in particular for the automated assembly of profiles connecting to form a dihedral, said crimping head (1) comprising two jaws (2) with at least one tool holder part (3) and a device (4 ) for driving in pivoting movement said jaws (2) between a separated position and a close position of said tool holder parts (3), each jaw (2) having the form of an arm (5) pivoting around a pivot axis (XX'), the pivot axes (XX') of the arms (5) being parallel, each arm (5) having a first arm section (6) and a second arm section (7) arranged one, on one side, the other, on the other side of a plane passing through the pivot axes (XX') of said arms (5), the first section (6) of each arm (5) being equipped with the part tool holder (3) of the jaw (2), characterized in that the device (4) for driving the jaws (2) in pivoting movement comprises, disposed at least partially between the said s second arm sections (7), a cam (8) in sliding or rolling bearing contact with the second section (7) of each of the arms (5) and an actuator (9) for driving the cam ( 8) between two extreme positions, one corresponding to the separated position of the tool holder parts (3), the other to the close position of the tool holder parts (3), said jaws (2) being, by contact of support of the cam (8) with said second sections (7) of the arms, in the state driven in displacement of the cam (8) by the said actuator (9) in a first direction (D1), mounted so as to pivot in the direction in which the tool holder parts (3) come together, the distance (D) between the bearing contact zone of the cam (8) with the second section (7) of an arm (5) and the 'axis (XX') pivot of said arm (5) varying in the direction of a reduction of this distance (D) in the driven state in displacement of the cam (8) in said first direction in the direction of an approximation Parties tool holder (3) jaws (2). Crimping head (1) according to Claim 1, characterized in that the second section (7) of each arm (5) provides, at the level of its part capable of coming into bearing contact with the cam (8), a surface called cam and in that the cam surfaces (10) of the arms form between them surfaces converging in the direction of the pivot axes (XX') of the arms (5). Crimping head (1) according to one of Claims 1 or 2, characterized in that the cam (8) in rolling bearing contact with the second section (7) of each of the arms (5) is equipped, at of each bearing contact zone, at least one roller (11) mounted free to rotate. Crimping head (1) according to one of Claims 1 to 3, characterized in that the jaws (2), in bearing contact of the cam (8) with the said second sections (7) of the arms, are, the state driven in movement of the cam (8) by the said actuator (9) in a second direction (D2) opposite to the first direction (D1), mounted to pivot in the direction of a separation of the tool-holder parts (3), and in that the crimping head (1) comprises a member for returning the jaws (2) to the spaced position of the said tool holder parts (3). Crimping head (1) according to Claim 4, characterized in that the member (12) for returning the jaws (2) to the spaced position from the said tool-holder parts (3) is a spring disposed between the second sections (7) arms (5). Crimping head (1) according to one of Claims 1 to 5, characterized in that the crimping head (1) is equipped with a centering V (13) projecting between the first sections (6) of the arms ( 5). Crimping head (1) according to one of Claims 1 to 6, characterized in that the said crimping head (1) comprises, for the tool holder part (3) of each jaw (2), a tool (14) releasably coupleable to said tool holder part (3). Crimping head (1) according to Claim 7 taken in combination with Claim 6, characterized in that the centering V (13) is arranged between the cutting tools (14) in a position close to the tool holder parts (3) jaws (2). Crimping head (1) according to one of Claims 1 to 8, characterized in that the jaws (2) and the device (4) for driving the jaws (2) in pivoting movement are mounted on a support (15 ) commmon. Crimping head (1) according to Claim 9, characterized in that the crimping head (1) comprises at least one clamping device (16), the said clamping device (16) comprising at least one articulated arm (17) carried by said support (15) and a pressing member (18) disposed at the end of the articulated arm (17), this pressing member (18) being associated with an actuating member (19), such as a jack, to a movement of said presser member (18) between a separated position and a position close to the support (15). Installation (20) for crimping, in particular of frames formed from four sections, characterized in that said installation (20) comprises four crimping heads (1) in accordance with any one of Claims 1 to 10 and a unit (21) control configured to control synchronous operation of the four crimping heads (1).