FR2635999A1 - Pusher rod for taking up and laying down inserts of the sleeve type - Google Patents

Abstract

The pusher rod 6 is intended for taking up and laying down inserts having diameters of the central hole which are different by at least one millimetre. It comprises, at the front end, a spring 7 secured to the body 60 of the rod and having a width which is less than the diameter of the rod. The spring includes a flexible flat loop 712, 72 which extends longitudinally in front of the rod body and which has a width l which is substantially greater than the maximum diameter DM of the central holes of the inserts. The loop may be flattened to a width close to the minimum diameter of the insert holes, and which is defined by the diameter of a stub 67 of the rod. The stub 67 includes two longitudinal grooves 682 from which convex longitudinal branch portions 712 of the spring loop 712, 72 project partially. The pusher rod is preferably included in an automatic appliance for laying down inserts.

Description

Push rod for grabbing and placing inserts
socket type
The present invention relates to a push rod for gripping and fitting inserts with a tapped or smooth central hole, of the socket type. The insert can be an expandable insert and has one or more longitudinal slots.

 The gripping of the insert by the push rod makes it possible to implant, by means of an automatic inserting device, the insert in a pre-punched hole in a piece of soft or hard material, such as wood or plastic material, in order to obtain a resistant hole in this room. When the hole in the insert is tapped, it is suitable for receiving a threaded rod, a screw, or similar connecting element. When the hole of the insert is smooth, it is intended to receive a smooth end of a rod, a centering pin, a dowel, a pivot, an alum pin, or similar connecting element .

 In most fitting devices, the main function of the push rod consists in pushing the insert through the front end of the rod, after injection and when the insert stops in a front end of the device where the push rod is slidably mounted.

 However, the push rod can also be used to grasp an injected insert and to keep it completely visible in front of the front end of the device in order to align and press the insert visibly on the mouth of the preformed hole of the pliers. , prior to the thrust exerted by the push rod to implant the insert in the part.

 Such a push rod for gripping and inserting an insert is included in the device for inserting inserts described in French patent application NO 88-09087 filed on July 5, 1988, in the name of the current applicant, and not yet published. The front end of the push rod has a stud having a longitudinal slot to form an expandable clamp. At rest, the nipple has a diameter substantially greater than the diameter of the central hole of the inserts so that, during the penetration of the nipple into the hole with an insert, the slot of the nipple narrows and the insert is gripped by expansion. elastic of the slit.

 However, this elastic expansion of the stud is very small, of the order of one to three tenths of a millimeter, so that the stud can only grasp inserts having a very small tolerance of the diameter of the central hole. When manufacturing a batch of inserts in large series, it turns out that the variations in diameter of the holes of the inserts are much greater than the maximum possible amplitude of the spacing of the nipple slot at the end front of the push rod. Furthermore, if one wishes to install inserts with hole diameters different from a few millimeters, with the same installation device, the push rod or at least the clamp nipple must be changed to adapt the diameter of the nipple to the diameter inside the inserts.

 The present invention aims to remedy the drawbacks of the previous push rods, so that the same push rod can grip inserts having different central hole diameters of at least about one millimeter.

 To this end, a push rod according to the invention comprises, at a front end, a spring secured to the body of the push rod and having a width less than the diameter of the push rod, said spring comprising a flexible flat loop which extends longitudinally in front of the body of the push rod and which has a width substantially greater than the maximum diameter of the central holes of the inserts. The flexibility of the flat loop of the spring is much higher than that of the clamp-shaped nipple according to the prior art, and as a result the spring loop can be flattened to a width a few millimeters less than the maximum diameter of the central holes of insert and substantially equal to the minimum diameter of said insert holes.

 According to a preferred embodiment, the front end of the push rod comprises a stud having a diameter less than the minimum diameter of the central holes of the inserts and surrounded at least in part by said flat loop. The stud helps guide the flat spring loop in the central hole of an insert and prevents irreversible crushing of the flat spring loop. In addition, any twisting of the flat loop is avoided by virtue of two longitudinal grooves which are formed in the stud and from which convex longitudinal portions of said spring loop partially project. The overall difference between said convex loop portions is substantially greater than the maximum diameter of the central insert holes, when the loop is at rest and does not grip an insert.

 In practice, the spring is a removable pincer spring and comprises two branches which are applied respectively in two longitudinal grooves made in said front end of the push rod. These spring branches partially pinch the bottom of the grooves and have end strands embedded in the diametrical holes of the rod body at the rear of the grooves in order to secure the spring and the push rod especially when the stud and the spring loop are removed from the hole of an implanted insert.

 As will be seen below, the invention also relates to an automatic device for fitting inserts with a central hole which comprises a push rod according to the invention. The push rod is mounted 2 sliding in a longitudinal conduit of the device communicating with a lateral conduit for injecting inserts. Preferably, the device is of a type analogous to that described in French patent application NO 88-09087.

Other characteristics and advantages of the invention will appear more clearly on reading the following description of several preferred embodiments of the invention with reference to the corresponding appended drawings in which
- Fig. 1 is a longitudinal view partially in axial section of an insert of the expandable threaded sleeve type, positioned on the mouth of a prepunched part hole
- Fig. 2 is a detailed view in longitudinal section from above of the front part of the body of a device for fitting inserts with magazine and percussion piston cylinder in the rest position, containing a push rod according to the invention
- Fig. 3 is a view partially in axial section of the push rod;
- Fig. 4 is a detailed axial sectional view taken along the line IV-IV of FIG. 5, from a stud and spring end, to the front of the push rod
- Fig. 5 is an end view of the front end of the push rod shown in FIG. 4
- Fig. 6 is a detailed view in longitudinal section of the front end of the delivery device, the loader being at the end of the advance travel to retain an injected insert
- Fig. 7 is a view similar to FIG. 6, the charger being substantially at the mid-point of the recoil, when an insert is gripped by the front end of the push rod; and
- Fig. 8 is a view similar to FIG. 6, the charger being at rest, at the end of the recoil stroke, in order to visibly maintain an insert to be implanted outside.

 By way of example, an insert 1 capable of being grasped by a push rod according to the invention is illustrated in FIG. I in the form of a cylindrical threaded and expanding brass socket.

The insert 1 comprises an upper portion 11 and a lower portion 12 shared by a peripheral annular groove 13. The upper portion 11, called the insert head, offers external longitudinal grooves 14, while the lower portion 12 has a cylindrical surface knurled external 15 with sharp pyramidal points. The lower portion of the insert can be terminated by a short circular centering stud 16, cylindrical or frustoconical, having a small height and a diameter substantially smaller than that of the knurled surface 15. The stud 16 serves to center the insert on the mouth of a cylindrical hole
T, blind or ferry, of a piece P of soft material such as wood, or of harder material such as plastic, before introduction of the insert into the hole, as will be seen below. The diameter of the hole T is between the external diameter of the insert and the diameter of the centering pin 16.

 The insert 1 also has an axial threaded bore 17 over the entire length of the insert. Two longitudinal slots 18 are formed in a diametrical plane of the insert 1 and extend from the centering stud 16 to the groove 13 or substantially beyond the latter.

 According to other embodiments, an insert intended to be grasped by a push rod according to the invention has no longitudinal slot or has more than two longitudinal slots, and has a smooth axial bore, or a threaded bore in the upper portion it and smooth in the lower portion 12, which can be terminated by a frustoconical or ogival longitudinal section, opening or blind, at the level of the lower portion.

The outside diameters of the portions 11 and 12 can be equal, or the diameter of the upper portion 11 can be substantially greater than that of the lower portion 12, as shown in FIG. 1. The groove 13 or any other shoulder between the portions 11 and 12 can be deleted. All types of grooves and points or teeth can be provided both on one and on the other of the portions 12 and 13, one of these portions being able to be smooth. These grooves and / or teeth serve, in a known manner, to immobilize at least in axial rotation the insert in the hole T of the part P in which a tapping or resistant hole is to be made.

In order to fix the ideas, we recall the role of a push rod in a fitting device according to French patent application NO 88-09087 of July 5, 19pu, although a push rod according to the invention can be introduced. in other delivery devices, such as those described in patent documents
FR-A-2595609, FR-A-2165813 and DE-A-2920410 for example.

 As shown in Fig. 2, an automatic inserting device 10 according to patent application NO 88-09087 constitutes the part forming the barrel of a pneumatic gun. The apparatus 10 is essentially composed of cylindrical and tubular elements arranged coaxially to a longitudinal axis YY 'of the apparatus. Seen from the outside, the device comprises three removable main cylindrical elements, namely a first pneumatic single-acting cylinder pushing 2 at the front, a second pneumatic single-acting cylinder (not shown) at the rear, and a support for cylindrical adaptation 4 located between the two cylinders.

 The front cylinder 2 comprises a front longitudinal bore 20 and a rear longitudinal bore 21 which are separated by an intermediate internal shoulder 22.

 The rear bore 21 forms a chamber in which slides a head of the first piston 23 with recessed O-ring 230. The piston head 23 slides between a rear countersinking 210 of the bore 21 and the rear end of a stop ring 24 which is forced into the front bottom of the bore 21, against the shoulder 22.

The thrust exerted by the first piston is created by compressed air introduced by a flexible pipe which is connected to an adjustable elbow fitting 40 fixed laterally to the support 4 and opening into the counterbore 210 through a small bent conduit 41 made in the body of the support 4. The first piston is returned to the rest position shown in FIG. 2 by means of a helical spring 25 which is housed coaxially around the hollow rod of the first piston 26 and partially in the stop ring 24 and which is applied against the fixed shoulder 22 and the movable piston head 23.

 In the front bore 20 of the cylinder 21 is slidably mounted an insert magazine 5 secured to the front end of the first piston rod 26. The body of the magazine constitutes a connection at approximately 300 and with three branches.

 A first branch at the rear of the loader 5 has a threaded bore 51 into which the threaded front end 261 of the first piston rod 26 which is screwed through the shoulder 22 internal to the cylinder 2 is screwed.

 A second branch at the front of the loader 5 has a bore 52 which extends from the bottom of the bore 51 of larger diameter, a longitudinal bore 262 passing through the entire rod 26 and the head 23 of the first piston. In the abutted bores 52 and 262 coaxial with the axis YY 'is slidably mounted a long cylindrical push rod for gripping the insert 6, according to the invention.

At the front end of the second branch of the charger are provided three insert retaining lugs 54 embedded in three radial holes 55 of the charger and distributed axially. An external annular spring 56 applies the lugs 54 against internal annular abutment shoulders at the holes 55 and flush with the bore 52. The annular spring 56 is housed in an external groove of the second branch of the loader and in V-grooves on the lugs 54. The internal ends of the lugs are spherical and protrude into the bore 52 under the pressure of the spring 56 in order to stop an insert injected by the third branch of the loader, or are applied against the periphery of the cylindrical body of the rod- pusher 6 when the latter slides in the bore 52, as will be seen below.

 A third branch of the loader 5 comprises an insert injection bore 53 which is inclined at an angle of approximately 300 with the first branch 51 and which communicates with the bore 52 through an orifice 57 lateral to the latter. The internal diameters of the bores 52 and 53 of the magazine and the external diameter of the body of the push rod 6 are substantially greater and less than the external diameter of the insert 1, respectively. The rear end of the bore 53 is widened and tapped to receive a threaded connection 58 of a flexible plastic sheath 580 in which the inserts are pneumatically transported one by one from a reserve of inserts. The insert injection sheath 58C is fixed to the pistol grip. The third branch of the magazine slides in a groove 27 longitudinal to the bore 20 and formed in the cylinder 2 in front of the shoulder 22 which acts as a rear stop. of the charger 5 and therefore also of the first piston 23-26 secured to the charger.

 The reserve of inserts (not shown) is of a known type comprising a vibrating bowl containing loose inserts, mounted on a high frequency vibrating system by electromagnet, and provided with a pneumatic slide selector. The selector is connected to the other end of the insert injection sheath 580 and ensures the distribution one by one of the inserts. The injection of an insert is controlled at the delivery device by means of ur.

Pneumatic push button micro-distributor. The micro-distributor is connected to a pressurized air supply duct and serves, through a T-connector, on the one hand, the chamber 21 in the cylinder 2 through the conduits 40, 41 and 210, and d 'on the other hand a pipe which is connected to the selector drawer. When the push button is pressed, the pressurized air passes through the T-connector and simultaneously causes the injection of an insert into the sheath 580 from the selector of the vibrating bowl, and the push of the head of the first piston 23 to advance the feeder 5.

 According to the embodiment illustrated in FIG. 3, the push rod 6 according to the invention differs from the push rod according to French patent application No. 88-09087 only by its front end 66.

Thus, the push rod 6 consists essentially of a long cylindrical body 60 slidably mounted in the coaxial bores 52 and 262. At the rear of the push rod 6 is provided a cylindrical head 61. The head 61 is intended to slide in a bore made at the rear of the adaptation support 4, first towards the front, and against a return spring 62, during the implantation by force of a gripped insert 1 in the hole T of a part P, then backwards to release the front end 66 from the implanted insert. The advance of the push rod 6 is obtained by the percussion of the front end of a piston rod of the second cylinder of the device (not shown) against the bottom 65 of a lông blind cylindrical axial hole 64 made at the rear of the push rod 6.The retraction of the push rod is obtained under the action of the return spring 62.

 The front end 66 of the push rod 6 according to the invention is detailed in Figs. 4 and 5.

 The front end 66 offers a cylindrical stud 67 having an external diameter D67 substantially less than the minimum internal diameter Dm of the bore 17 of the inserts to be gripped by the push rod 6. The length L of the stud 67 is less than the height H inserts 1 and preferably equal to approximately E / 2.

The front of the rod body 60 and the rear of the stud 67 thus form a straight diametrical shoulder 671 which serves as a stop for the upper portion 11 of an insert when the loader 5 recedes, and as a push-stop of the portion 11 during the implantation of an insert, as will be seen below. The periphery of the front face of the stud 67 is rounded at 672 in order to facilitate the penetration of the stud into the insert bore 17.

 The front end of the rod 66 also comprises two narrow longitudinal blind grooves 681 and 682 which are symmetrical with respect to the axis of the rod YY 'and situated in a diametral plane. The grooves 681 and 682 extend all along the stud 67 and in a front portion of the body 60, behind the shoulder 671. According to the embodiment illustrated in FIG. IL, the bottom of each of the grooves 681 and 682 is composed of three parts substantially of equal length: a concave and blind rear part 680 in the body 60; an intermediate part 681 rectilinear and parallel to the axis YY 'in the body 60; and a front part 682 situated in the stud 67 and extending straightly the part 681. The bottoms of the grooves 681 and 682 thus form a Y-shaped profile flared towards the rear, as seen in section in FIG. 4.However, the bottom front parts 682 are shorter than the stud 67, and communicate with a diametrical groove 683 opening forward and laterally, at the end of the stud 67.

 The grooves 681 and 682 and, incidentally, the front groove 683 are intended to accommodate a flat spring 7 of the pincer spring type, substantially in the form of a pin V. The spring 7 comes from a steel rod having a diameter substantially equal to the width of the grooves 681 and 682 and of the groove 683. The spring 7 offers two symmetrical branches 711 and 712 housed respectively in the longitudinal grooves 681 and 682, and a front bend 72, substantially circular and housed at least partly in the transverse groove 683. Each of the spring branches 711, 712 is composed of three portions of substantially equal length: a first straight portion 710, housed in the concave bottom portion 680 of the respective groove and inclined relative to the axis YY 'to constitute a rope from part 680; a second rectilinear portion 711 parallel to the axis YY 'and applied against the bottom part 681 of the respective groove in the body 60; and a third convex portion 712 housed in the bottom portion 682 of the respective groove in the stud 67 and connected to one of the ends of the spring bend 72. The inclined rear portion 710 forms with the axis YY 'an angle of 300 approximately.

 The portions 712 of the two spring branches 711 and 712 with the elbow 72 thus form an open loop surrounding the bottoms 682 of the grooves 681 and 682 in the stud 67. The loop is open at the shoulder 671. At rest, the width t of said loop is substantially greater than the maximum internal diameter DM of the bore 17 of the inserts to be grasped by the push rod 6, and is always greater than the diameter D67 of the stud 67. Under these conditions, the substantially convex longitudinal parts of the third front portions 712 of the spring branches 711 and 722 project longitudinally from the stud 67, and may be substantially flattened when they are inserted into an insert bore 17, while exerting opposite radial expansion forces sufficient to grip an insert.

 Behind the spring loop, the intermediate portions of spring branch 711 strongly pinch the bottom portions of groove 681. This pinching contributes to retaining the spring 7 in the grooves against any thrust or traction exerted during the introduction. or removing the stud 67 from the insert bore 17.

 The rear ends of the spring branches 711 and 712 comprise two end retaining strands 73 which are folded substantially at ItOd relative to the rear portions of branch 710. The strands 73 are housed opposite in a diametral hole 69, or in two diametric holes blind, of the push rod body 60. The hole 69 is located in the diametral plane defined by the grooves 681 and 682 and opens in the rear part of the concave parts of the bottom of the groove 680, set back from the cylindrical periphery of the body 60, so that the whole of the spring 7 does not project laterally from the push rod 6 and does not hamper the sliding of the push rod in the bores 262 and 52 of the setting device (Fig. 2). The embedding of the spring strands 73 in the hole 69 maintains the spring in close connection with the push rod 6 during the various stresses exerted by the wall of the insert bore 17 against the front spring loop 712, and l spacing of the strands 73 contributes to the pinching exerted by the intermediate spring portions 711.

 As a practical example, the spring 7 has a rod diameter of 0.6 mm, an overall length of 21 mm, and a loop diameter 712 which can vary between Dm = D67 + 0.05 mm, in view to enter inserts 1 having bore diameters 17 between Dm = 4.5 mm and DM = 6 mm, ie a tolerance of 1.5 mm.

 The entry of an insert 1 by means of the apparatus 10 comprising a push rod 6 according to the invention is carried out in two distinct stages. A first step consists of loading an insert with a visible front end I1 of the push rod 6 through the magazine 5. A second step consists of introducing the loaded insert into the hole T of the part P by percussion of the second piston rod against the push rod 6.

 The loading step essentially consists of the successive forward and backward strokes of the first piston 23-26 and of the loader 5 illustrated in FIGS. 6, 7 and 8, from the rest phase shown in FIG. 2. These two strokes are controlled by pressing in and then releasing the pneumatic micro-distributor bolt, keeping the gun with its front end free, and therefore separated from part P, so that the magazine 5 can slide freely in the bore 20 and groove 27.

During the entire loading step, the second piston in the rear pneumatic cylinder is not stressed and the push rod 6 is immobilized by return of the spring 62 (FIG. 2) against the head 61.

 The loading step is initialized by depressing the button of the micro-distributor which controls on the one hand, the forward translation of the first piston 23-26 under the air pressure in the countersink 21C, on the other hand apart from the opening of the selector drawer associated with the vibrating insert reserve bowl and the blowing of an insert 1 into the sheath 580.

 During the routing of the insert injected 1 into the sheath 580, the loader 5 secured to the rod 26 of the first piston slides forward, according to the arrow CA in FIG. 6, by axial guidance in the front bore 2Q and the longitudinal groove 27 of the first cylinder 2 and around the front portion of the body 60 of the push rod 6. At the start of the feeder travel 5, the pins retaining 54 cross the front stud 67 of the stationary push rod 6 and are returned radially over approximately 1 mm towards the central axis YY 'and in abutment against the internal shoulders of the radial holes 55 by the annular spring 56 so that the ends hemispherical lugs protrude into the bore 52 of the magazine. The end of stroke C5 of the first piston 23-36 and of the magazine 5, indicated in Figs. 2 and 6, is defined by the stop of the piston head 23 against the rear base of the ring 24 in which the spring 25 is compressed.

 At the end of the feeder advance travel, as shown in Fig.

6, the first branch with threaded bore 51 is positioned on the front end of the push rod 6 and surrounds the stud 67 which is behind the insert passage orifice 57. The orifice 57 is thus completely free from the front end of the push rod 6 so that the insert I injected into the sheath 580 arrives, after the end of advance travel of the loader 5, in the third loader branch 53, passes through the orifice 57 and either stopped by the hemispherical ends of the three lugs 54, following the path of the arrow IN in FIG. 6. At this stage, the front base 16 of the insert 1 is in contact with the lugs 54, and the insert 1 is arranged coaxially in the bore 52 in front of the stud 67 recessed in the first branch 51.

 The release of the button of the micro-distributor causes a vacuum in particular in the cylinder chamber 21 at the rear of the piston head 23. The head 23 is then returned towards the rear by the spring 25 until the first branch 51 of the loader 5 abuts against the internal shoulder 22 at the end of the recoil stroke.

 During this reversing stroke following the arrow CR, as shown in FIG. 7, the insert 1 is transported by the charger 5 in the direction of the stationary push rod 6. Noticeably at half of the feeder's recoil stroke, ie the axial hole 17 of the insert 1 slides frictionally over the front loop portions 712 of the spring 7, under the career thrust exerted by the lugs 54, until the rear face of the part 11 of the insert abuts against the front shoulder 671 of the push rod 6 and that the insert completely contains the stud 67. When sliding the spring portions 712 on the psroi of the insert hole 17, the portions 712 are substantially close together and exert antagonistic bending forces against the wall of the hole 17.

 During the end of the magazine 5's recoil stroke, the lugs 54 are retracted radially towards the inside of the magazine and slide. under the action of the annular spring 56, against the periphery of the insert 1 gripped by the loop of the spring 712, then against the cylindrical front end of the push rod 6.At the end of the feeder's recoil stroke, as shown in Fig. 8, when the first branch 51 of the loader is in abutment against the shoulder 77, the insert 1 is butted at the front end 66 of the push rod 6, held by the elastic expansion of the spring loop 712 in the insert bore 17, and completely projecting from the second lug leg of the magazine 5, the push rod E completely passing through the axial bore 52 of the magazine and closing the insert passage orifice 57, as shown in Figs. 2 and 8.

 Then the centering pin 16 of the gripped insert 1 completely visible at the end of the device 10 is pressed axially on the mouth of the hole T of the part P. The hole T can open upwards, as shown in FIG. . 1, or lead down, or can be tilted. Indeed, the opposite radial forces exerted by the spring loop portions 712 are sufficient to hold the insert in place at the end of the push rod, whatever the orientation thereof.

 Then during the second step triggered by actuation of a trigger of the gun, following a percussion by the rod of the second piston, the push rod 6 is propelled very quickly towards 11 forward. During this forward propulsion, the insert 1 is pushed by the front end 66 of the sliding push rod in the bores 262 and 52 of the first piston rod and of the magazine and penetrates by force into the hole T of the part P to a predetermined depth. This predetermined depth is generally at least greater than the height of the insert 1 when the latter does not have a shoulder between upper 11 and lower portions 12, or is equal to the height of the lower portion 12 when the insert comprises a head 11 in the form of a base. In the case where the insert 1 is split, as shown in FIG. 1, the lower parts of the insert 1 shared by the slot 18 are substantially brought together by narrowing of the slot 18 and sensitive folding at the level of the groove 13; the subsequent introduction of a screw or other connecting element into the bore 17 of the insert 1 will widen the slot 18. In all cases, the grooves 14 and sharp teeth 15 penetrate into the material of the part P and thus block the insert in the hole T both in translation and in rotation.

 This firm implantation of the insert 1 in the hole T allows the relatively low sliding friction of the convex longitudinal portions of loop 712 of the spring 7 in the axial hole 17 of the insert when the push rod 6 returns to its rest position. under the restoring force exerted towards the rear by the spring 62 against the rod head 61. The pinching of the intermediate bottom parts 681 of the grooves 681 and 682 by the spring portions 711, as well as the retention exerted by the rear strands radials 73 of the spring 7 in the hole 69 hold the spring 7 integral with the body 60 of the push rod 6.

Claims (10)

 1 - Push rod (6) for gripping and fitting inserts (1) with central hole (17), characterized in that it comprises, at a front end (66), a spring (7) secured to the body (60 ) of the push rod and having a width less than the diameter of the push rod, said spring (7) comprising a flexible flat loop (712, 72) which extends lengthwise in front of the body of the push rod and which has a width () substantially greater than the maximum diameter (DM) of the central holes (17) of the inserts (1).  2 - Push rod according to claim 2, characterized in that the front end (66) comprises a stud (67) having a diameter (D67) less than the minimum diameter (Dm) of the central holes (17) of the inserts ( 1) and surrounded at least in part by said flat loop (712, 72).  3 - Push rod according to claim 2, characterized in that the stud (67) has two longitudinal grooves (6su) of which convex longitudinal branch portions (712) of said spring loop (712, 72) project partially.  4 - Push rod according to claim 3 characterized in that the stud (67) has a diametrical groove (72) into which open said grooves (712) and is housed at least part of a bend (72) of said loop (712, 72).  5 - Push rod according to any one of claims I to 4, characterized in that said. spring (7) is of the pincer spring type and comprises two branches (711, 712) which are applied respectively in two longitudinal grooves (68 i> 682) formed in said front end (66) of the push rod (6).  6 - Push rod according to claim 5, characterized in that the spring branches (711, 712) comprise longitudinal straight portions (711) linked from the ends of the loop (712, 72) and pinching the bottoms of the grooves ( 681).  7 - Push rod according to claim 5 or 6, characterized in that the spring branches (711, 712) comprise, at their end, strands (73) housed opposite in one or two diametrical holes (69) made in the push rod body (60) and opening into said grooves (681, 682).  8 - Push rod according to claims 6 and 7, characterized in that the spring branches (711, 712) include portions (710) which are located between the straight portions (711) and said strands (73) and which converge in the direction of said loop (712, i2).  9 - Automatic device (10) for fitting inserts (1) with central hole (17), characterized in that it comprises a push rod (6) according to any one of claims I to 8, mounted to slide in a longitudinal duct (262, 52! of the apparatus which communicates with a lateral duct for injecting inserts (53).  10 - Apparatus according to claim 9, characterized in that it comprises an insert loader (5) partially including said conduits as well as retractable means (54) for retaining an insert (1) injected into the longitudinal conduit ( 262, 52), said loader (5) being slidably mounted in a front end (2) of the device (10) and being able to move forward and backward relative to the front end (66) of the push rod (6 ) when the latter is stationary so that the loop (712, 72) of the spring (7) penetrates into and grasps an insert (1) to present it outside the device.