Device for the assembly and disassembly of a fastening device, more preferably a rail fastening device on a support body

Abstract

The invention describes a device for the assembly and disassembly of a fastening device, more preferably of a rail fastening device on a support body, wherein the device is designed as screw adapter and the screw adapter is to be placed on the rail fastening device.

Description

The invention describes a device for the assembly and disassembly of a fastening device, more preferably a rail fastening device on a support body, wherein the device is embodied as screw adapter and the screw adapter is to be placed on the rail fastening device.

Various machines for rail fastening are known wherein the primary concern is the screwing in or out of the bolts or the rail screws or the clamping devices for railway tracks (DE 25 50 819 A1, DE 601 03 475 T2, DE 37 20 381 A1). Here, the screws used can be turned by means of simple hand-guided rotary tools. No additional tool is generally required since the spring/clamp can be manually moved once the screw has been loosened.

The disadvantage of all screwing devices known to date is that these can no longer be used for new types of springs/clamps with a clip function for establishing turning-in from the preassembly into the operating position.

The invention is therefore based on developing a device for the assembly and disassembly of a rail fastening device which sits on the fastening device with an accurate fit and substantially guarantees automated turning in and out of the fastening device in existing engagement stages.

According to the invention this is achieved in that the screw adapter comprising an engagement pin at its stem possesses a centrally arranged recess to accommodate the head of a fastening device in the contact surface of its main body, wherein the main body on both sides next to this recess comprises two mounting pockets embodied trough-shaped as well as a stop!

The mounting pockets on the main body embodied trough-shaped each comprise a lateral guide.

The mounting pockets in the main body embodied trough-shaped each comprise a flattened under-grip.

The device for the assembly and disassembly of rail fastening devices can be employed with track constructions whose support bodies are embodied as both known track sleepers irrespective of type as well as a concrete structure of the fixed road or as another structure.

ADVANTAGES OF THE INVENTION

The fastening device can be automatically turned from the preassembly position in the operating or final assembly position and vice versa

The exact starting of the screw adapter on the fastening device in the preassembly position is made possible via positions which are defined in the tool by means of engagement stages and which can be automatically approached

It is safeguarded that the final assembly position is achieved without twisting/distortion of the fastening device

The angular offset between the fastening device located on the inside of the track and the fastening system located on the outside of the track relative to the longitudinal axis of the device is automatically offset through the appropriate engagement stages when approaching the next engagement position in alternation track inside/track outside so that no overloads can occur

During disassembly of a fastening device the screw adapter can be relocated from the final assembly position to the preassembly position by simply changing the direction of rotation

By forming an engagement pin at the stem of the screw adapter that can be used for nearly all existing screwing devices it can be connected to all hydraulic screwing devices

The screw adapter can be operated by one person without problems

The invention is explained in more detail in the following by means of an exemplary embodiment.

Here it shows:

FIG. 1—the rail fastening system in top view

FIG. 2—the rail fastening system in cross section

FIG. 3—the corresponding screw adapter in lateral view

FIG. 4—the screw adapter in the rearward view

FIG. 5—the screw adapter in a three dimensional lateral view

FIG. 6—the screw adapter in top view

FIG. 7—the screw adapter with fastening system and element in front view

FIG. 8—the screw adapter with fastening system and element in lateral view

FIG. 9—the screw adapter with fastening system and element in a three dimensional lateral view

FIG. 10—the screw adapter with fastening system and element in top view

The screw adapter 1 on its stem 2 comprises the engagement pin 3 of square design to accommodate the screwing machine which is not shown (FIG. 5). The contact surface 4 of the main body 5 comprises a centrally arranged recess 6 for accommodating the head of the fastening element 7, which is sunk in the support body embodied as sleeper 8 (FIG. 1, 2).

Furthermore, the main body 5 on both sides comprises two mounting pockets 9; 10 embodied trough-shaped next to the recess 6 as well as centrally a stop 11 (FIG. 3, 4, 6). The trough-shaped mounting pockets 9; 10 each additionally comprise on the main body 5 the lateral guides 12; 13 and an under-grip 14; 15 of flattened design each for accommodating and fixing the spring loops 14 of the fastening device 16.

FIGS. 7 to 10 show the interaction of the screw adapter 1 with the fastening device 16 and the fastening device 7.

Here, the screw adapter 1 as tool braces itself on the fastening device 7 centrally in such a manner that the force (torque) introduced into the tool during the assembly or disassembly of the fastening device 15 leads to the turning-in of the fastening device 15 onto the head of the fastening element 7 without the possibility of deformation of said fastening element occurring.

• • The screw adapter 1 via the special shape of the trough-shaped mounting pockets 9; 10 in conjunction with the two lateral guides 12, 13 and the under-grips 14; 15 designed flattened achieves a fixing on the fastening device 16 by means of geometrical positive connection. Slipping-off of the screw adapter 1 cannot occur because of this special positive connection. The squarely designed engagement pin 3 additionally grants a non-positive connection with the screwing machine used in each case, which is exchangeable.

The screw adapter 1 automatically approaches the respective angles of rotation (starting, turning in final assembly position, starting with rotational offset on the opposite side of the track) required and stops without overloading the fastening device 16 or the fastening element 7.

LIST OF REFERENCE NUMBERS USED

• 1—Screw adapter
• 2—Stem
• 3—Engagement pin
• 4—Contact surface
• 5—Main body
• 6—Recess
• 7—Fastening element
• 8—Sleeper (support body)
• 9—Trough-shaped mounting pocket
• 10—Trough-shaped mounting pocket
• 11—Stop
• 12—Lateral guide
• 13—Lateral guide
• 14—Flattened under-grip
• 15—Flattened under-grip
• 16—Fastening device

Claims

1. A device for the assembly and disassembly of a fastening device, more preferably of a rail fastening device on a support body, wherein the device is embodied as screw adapter and the screw adapter is to be placed on the rail fastening device, wherein the screw adapter (1) which, on its stem (2) comprises an engagement pin (3), and in the contact surface (4) of its main body (5) possesses a centrally arranged recess (6) to accommodate the head of a fastening element (7), wherein the main body (5) on both sides next to this recess (6) comprises two mounting pockets (9; 10) designed trough-shaped as well as a stop (11).

2. The device according to claim 1, wherein the mounting pockets (9; 10) designed trough-shaped on the main body (5) each comprise a lateral guide (12; 13).

3. The device according to claim 1, wherein the mounting pockets (9; 10) designed trough-shaped in the main body (5) each comprise a flattened under-grip (14; 15).