DE10015495C1 - Rivet ejection device for feeding rivets to welding machine has feed channel for rivets normally blocked at output end by releasable mechanical blocking element - Google Patents

Abstract

The rivet ejection device (15) has a feed channel (20), through which the rivet (10 is fed via an air jet, closed at one end by a mechanical blocking element (2), which is displaced from its blocking position by operation of a coupling element of the ejection device, with a bias spring (22) for automatic return to the blocking position.

Description

The invention relates to a bolt outlet device for feeding Bolts or pins arranged one behind the other by means of blowing air through a Channel to a stud welder.

Such bolt outlet devices are a generally known prior art tion known (EP 0 406 645 B1). These can be sorted with sorting devices be seen, but which are partially designed so that a risk to the Operating personnel is present; they are also not CE compliant.

In a feed unit or device of the aforementioned type is, for example always present a dangerous situation if a feed hose or an execution bushing from a mounting hole of the bolt outlet device removed and then a bolt feed operation intentionally or unintentionally Lich is triggered. The welding stud flying out directly can considerable physical damage due to its high kinetic energy rank eye injuries, lead.

A stud feed device for a stud welding device is known (DE 195 32 937 C1), in which a feed unit and the stud feeder  connecting element is used, which essentially Electrically conductive means in the form of, for example, one along its entire length Has wire mesh, which is electrically conductive with coupling elements connected is. This is also intended to endanger operators then be excluded if a hose or the connecting element not connected damaged is completely destroyed.

The present invention is accordingly based on the object one to create professionally designed mechanical construction, which the aforementioned Effectively excludes source of danger.

This object is achieved in that the end of the channel a mechanical locking element is arranged, which in the locked position in the Exit area of the channel protrudes and releases the channel in the open position and that the mechanical locking element by attaching a connector to the Bolt outlet device from the locked position to the open position and by loosening the connector from the bolt outlet device from the open position can be transferred into the locked position.  

This creates a mechanical outlet lock in a simple manner, which comes into play when the channel is exposed at the end. It can after the impact of the welding bolt on the locking element through the blown air, the bolt still emerge from the channel, however the kinetic energy has been reduced to such an extent that there is a risk of injury no longer exists. It is advantageous with the Kon according to the invention structure also possible, existing bolt outlet devices with it retrofit.

In a further embodiment of the invention, in the case of an outlet device, which before a discharge bushing or a feed hose as a connector is seen, a bearing element on which the locking element is pivotally attached.

This bearing element can have a mounting recess which is coaxial to the channel point into which the discharge bushing or the supply hose under transfer of the locking element can be inserted from the locked position into the open position. This creates an automatically acting, mechanically designed blow-out lock created.

The locking element can be configured, for example, as a leg spring or a leaf spring be det, advantageously the spring in the locked position at an angle protrudes between 25 ° and 35 ° to the vertical into the mounting recess.  

To keep even small welding studs safe from dangerous shooting out prevent, there is a possibility that the into the mounting recess Part of the spring can be connected to an additional part, for example can be designed as a metal shoe. Through this tin shoe can also small other welding studs can be intercepted reliably.

Advantageous further developments result from the further subclaims.

The invention is illustrated below with the aid of one in the drawing Embodiment described in more detail. The drawing shows:

Figure 1 is a schematic side view of the bolt outlet device with locking element in the locking position, in the middle section.

Fig. 2 is a front view of the embodiment of Fig. 1;

Fig. 3 is a representation analogous to that of FIG. 1, in which the locking element is in the open position O.

In Fig. 1 is a schematic side view in the middle section of a Bolzenaus lasseinrichtung 15 is shown, which is used for supplying successively arranged bolts 10 or pins by means of blowing air through a channel 20 to a stud welding device, not shown. As can be seen, a bearing element 30 is fastened on the front of the bolt outlet device 15 , to which a locking element 2 is pivotably mounted. This locking element 2 can be transferred from the locking position 5 shown in FIG. 1 to the open position O shown in FIG. 3 and vice versa.

In the blocking position 5 according to FIG. 1, part of the blocking element 2 protrudes into the exit region of the channel 20 , while according to FIG. 3 in the open position O the corresponding part of the blocking element 2 releases the channel 20 .

The locking element 2 can be designed as a spring 22 , for example as a leg or leaf spring. This spring 22 is preferably attached to the front end of the bearing element 30 on a holder 1 , for example via a La gerstelle 23rd

The bearing element 30 has a receiving groove 5 for storing the locking element 2 in the open position O according to FIG. 3.

The bearing element 30 is equipped with a mounting recess 4 which is coaxial with the channel 20 and into which the discharge bushing 3 or a feed hose (not shown in detail) can be inserted according to FIG. 3, namely by transferring the blocking element 2 from the blocking position S corresponding to FIG. 1 into the open position O 3. Corresponding to FIG. 3, when the discharge bushing 3 is inserted, the corresponding part of the spring 22 is pushed back from the position according to FIG. 1 into the position according to FIG. 3 and is thus stored in the receiving groove 5 .

From Fig. 1 it is apparent that the spring 22 preferably extends in the blocking position S at an angle between 25 ° and 35 ° to the perpendicular in the mounting recess. 4 In this way, a bolt 10 is braked when the bolt conveying process is triggered intentionally or unintentionally so that the high kinetic energy is correspondingly reduced and there is no longer any risk of injury.

The geometry of the part of the spring 22 that causes the locking of a bolt is selected such that even small welding bolts cannot fly out of the bolt outlet device 15 in a direct way. However, there is also the possibility according to the invention that the part of the spring 22 protruding into the mounting recess 4 is provided with a clip-on metal shoe (not shown in any more detail) which is adjusted accordingly to the diameter of the small welding studs.

When pulling out the discharge bushing 3 or the feed hose from the mounting recess 4 , the part causing the blocking position of the Fe 22 swings from the position shown in FIG. 3 into the position shown in FIG. 1 or 2 and thus acts in this blocking position S on simple and reliable Way a mechanical blowout lock. The blowout path of the welding stud 10 from the channel 20 is thus blocked in a functionally reliable manner.

Due to the simple mechanical design of the invention, retrofitting is also possible for example with a rotor separator or with others already in the Practical devices possible at low cost.

Claims (11)

1. Bolt outlet device ( 15 ) for feeding bolts ( 10 ) or pins arranged one behind the other by means of blown air through a duct ( 20 ) to a stud welding device, characterized in that a mechanical locking element ( 2 ) is arranged at the end of the duct ( 20 ), which protrudes into the exit area of the channel ( 20 ) in the blocking position (S) and releases the channel ( 20 ) in the open position (O)
and that the mechanical locking element ( 2 ) by attaching a connecting piece to the bolt outlet device ( 15 ) from the blocking position (S) into the open position (O) and by releasing the connector from the pin outlet device ( 15 ) from the open position (O) the locked position (S) can be transferred. 2. Bolt outlet device according to claim 1, wherein a discharge bushing ( 3 ) or a feed hose is provided as a connecting piece, characterized in that the bolt outlet device ( 15 ) is associated with a bearing element ( 30 ) to which the locking element ( 2 ) is pivotally attached. 3. Bolt outlet device according to claim 1 or 2, characterized in that the bearing element ( 30 ) has a to the channel ( 20 ) coaxial Montageaus recess ( 4 ) into which the discharge bushing ( 3 ) or the supply hose while transferring the locking element ( 2nd ) can be inserted from the locked position (S) into the open position (O). 4. Bolt outlet device according to claim 3, characterized in that the bearing element ( 30 ) has a receiving groove ( 5 ) for receiving the locking element ( 2 ) in the open position (O). 5. Bolt outlet device according to one or more of the preceding claims, characterized in that the locking element ( 2 ) is designed as a spring ( 22 ) which, when the mounting recess ( 4 ) is free, moves automatically from the open position (O) to the locked position (S). emotional. 6. bolt outlet device according to claim 5, characterized in that the spring ( 22 ) is designed as a leg or as a leaf spring. 7. bolt outlet device according to claim 5 or 6, characterized in that the spring ( 22 ) is attached to the front side of the bearing element ( 30 ) on a holder ( 1 ). 8. bolt outlet device according to claim 7, characterized by attachment of the spring ( 22 ) via a bearing ( 23 ) on the holder ( 1 ). 9. bolt outlet device according to one or more of claims 5 to 8, characterized in that the spring ( 22 ) in the locking position (S) protrudes at an angle between 25 ° and 35 ° to the vertical into the mounting recess ( 4 ). 10. Bolt outlet device according to claim 5, characterized in that the part of the spring ( 22 ) projecting into the mounting recess ( 4 ) can be connected to an additional part. 11. Bolt outlet device according to claim 10, characterized in that the additional part is a plate shoe which can be plugged onto the part of the spring ( 22 ) for locking small welding studs.