KR200230164Y1 - a bolt working die - Google Patents

Abstract

The present invention can be punched a part of the tapping finished thread for the purpose of securing the fastening reliability by maintaining the fastening state of the high tension force, and can be expanded by the punched part to increase the thickness width of the thread. The present invention relates to a die for a molding tool in which a maximum frictional force without gaps is formed at a predetermined thickness and maintains a secure fastening state. A support plate on a plate having a groove and a guide groove formed at radial positions facing each other with respect to the groove; The guide groove is inserted at the bottom of the guide groove, and the circular state is symmetrically divided to maintain the contour of the trapezoidal trapezoid, and the upper end of the machined portion along the outer diameter of the bolt is stepped so that the bolt head can be seated. A plurality of ribs in which punch fixing grooves are formed; A punch of cemented carbide detachably press-fitted into the fixing groove and punching the thread of the bolt shaft; A spring fixed to the rear end of the rib to enable elastic restoration of the advanced rib; And drive means linkable with each of the ribs to enable simultaneous forward and backward movement of the ribs by a control program or a detection sensor inputted thereto.

Description

Bolt forming tool die with anti-loosening structure {a bolt working die}

The present invention relates to a die for bolt forming tool having an anti-loosening structure.

More specifically, the present invention punches a part of the tapped thread for the purpose of maintaining the fastening state of the high tension to secure the fastening, and expands the thickness of the thread by the punched part. It relates to a die for a molding tool provided with a bolt that can form a maximum frictional force without gap tolerance with an enlarged thickness width at the time of engagement to maintain a firm fastening state.

In general, bolts used for fastening building materials or mechanical parts must be secured to ensure a secured deposit, except when specially removed. In particular, a plurality of mechanical elements can be mutually secured. In the case of a precision machining device driven by assembly and fastening, the clamping force of the bolt must be preceded above all in order to maintain safety and precision of processing.

Therefore, the method for improving the tightening force of the bolt has been the subject of continuous research, which is based on the fact that most bolts can be sufficiently released by shock or vibration in addition to physical removal from the outside. .

For example, most processing machines to which bolts are fastened are subject to continuous shock and vibration by frictional force and pressure and power generating means such as a motor generated during operation. This external factor is caused by reverse rotation of bolts fastened in one rotational direction. Torque is increased to promote reverse rotation of the bolts fastened along the axis, i.e. the thread thickness width of the interlocked tab portion between the pitch on the axis and the clearance gap constant with the pitch As it is allowed, the fluidity of the bolt shaft due to the play is possible even in the case of minute shock or vibration, and the favorable load or friction applied to the bolt shaft is dispersed, so that no further supporting force can be maintained.

This causes the reliability and durability of the operation cannot be guaranteed, such as weakening the precision and safety of the product, requiring frequent error correction, parts replacement, and occasional inspection.

Therefore, the method of preventing loosening of the bolt fastened by forming a screw thread in a direction different from the rotational direction of the machine or by using a spring washer has been proposed and utilized for a long time. Considering the aspects of manufacturing and durability, the utility was very low, which did not give satisfaction to the user, and a method was proposed to perform a predetermined wedge role with an elastic space section cut in two parts of the end of the bolt shaft. It is not economical and includes the problem of use that fastening and removing work is very inconvenient.

Therefore, it is necessary to give a simple loosening prevention structure to which the ordinary fastening and removal method is applied to the bolt so that it can be maintained firmly and tightly against external shock or vibration.

The present invention was devised to provide an anti-loosening bolt having such a function. By punching a certain portion of the thread formed on the bolt shaft to form a thick thickness part, it eliminates the clearance gap with the tab and maintains tightness and tightness. In the final process, the tapping operation of the bolt is completed and ribs are applied to the falling bolts sequentially, and the punching recesses and releases a certain point of the shaft. The purpose of achieving mass production and utility in use is to be able to form an anti-loosening structure with high precision and reliability in the bolt.

In order to achieve the above object, the present invention provides a tapered groove and a support plate on a plate formed with guide grooves at radial positions opposed to each other based on the grooves so that the completed bolts may be aligned in a vertical state and fall sequentially. ; The guide groove is inserted at the bottom of the guide groove, and the circular state is symmetrically divided to maintain the contour of the trapezoidal trapezoid, and the upper end of the machined portion along the outer diameter of the bolt is stepped so that the bolt head can be seated. A plurality of ribs in which punch fixing grooves are formed; A punch of cemented carbide detachably press-fitted into the fixing groove and punching the thread of the bolt shaft; A spring fixed to the rear end of the rib to enable elastic restoration of the advanced rib; And a driving means for enabling simultaneous advance / reverse of the ribs by a control program or a detection sensor which is coupled to each of the ribs and input.

1 is a bottom perspective view showing the overall configuration of a die for a molding tool;

2 is a perspective view showing a part of the configuration of the rib without the support plate.

3 shows the operating state of the die for bolt gripping,

(a) is a side view of a die on which ribs are placed,

(b) is a plan state diagram of (a).

Figure 4 is a side cross-sectional view showing a machining operation of the bolt held in the rib.

Figure 5 shows several embodiments of a punch for forming tools,

(a) is punching in a straight line along the longitudinal direction of the bolt axis,

(b) is the partial punching along a straight line in the state of (a),

(c) is an embodiment of a punch punched along the rotational direction of the bolt thread.

* Description of the symbols for the main parts of the drawings *

1: support plate 2: groove

3: guide groove 3a: rail

4: rib 4a: step

4b: Punching groove 5: Hanger

6: punch 7: spring

8 link 9: drive means

10: die

The die for the molding tool of the present invention can be specifically reproduced through the following preferred embodiments described with reference to the accompanying drawings.

1 is a perspective view of a die for a molding tool as seen through the bottom surface, and FIG. 2 is a perspective view of a part of the ribs. The bolt 20 processed by the present invention as shown is a head 21. It can correspond to all ordinary bolts divided by and shaft 22, and is not limited to the direction of the thread or the size of the bolt, the type of through bolt or tab bolt, and the use of the fastening means, only the bolt shaft (22) It is possible to select only the rib corresponding to the size of the outer diameter and then replace it on the die of the present invention.

The die 10 for molding according to the present invention is laid at the last step of the bolt processing process divided into several stages, and the shaft 22 receives the bolts 20 sequentially discharged through the vibrating slider after the tapping operation is completed. The tapered groove 2 is formed in the center of the support plate 1 so as to be guided one by one to the circular support plate 1 on the plate which is fixed on the base after being aligned in the downward direction. The guide grooves 3 having a slot shape are provided in the shape of the stepped rails 3a toward the inside at radial positions facing each other with respect to the grooves 2.

Of course, in order to interoperate with the bolt 20 and the die 10 falling as described above, the drop means and the processing means should be interlocked with each other according to a predetermined driving method, in which case the driving method using a cam may be appropriate. It is no longer restricted.

The bottom portion of the support plate 1 has a circular trapezoidal shape by dividing the circular state symmetrically, and is processed into the same inner diameter corresponding to the outer diameter of the bolt, and the upper end of the bolt portion 21 is seated. A plurality of ribs 4 having a step 4a so as to be formed and a lower end of the ribs 4 having a punch fixing groove 4b are radially located along the guide grooves 3 as processing means. Is formed integrally with the protruding hanger (5) to fit into the stepped rail (3a) of the guide groove (3) to move freely along the rail (3a) while preventing separation from each other.

In addition, the punch fixing groove 4b is press-fixed and fixed with a cemented carbide punch 6 to form a recessed portion 23a by punching the thread 23 of the bolt 20 shaft 22 externally. In accordance with the position and shape of the recess 23a formed in the thread 23, the punch 6 of different shapes can be detachably provided so as to be freely replaced, and the rear end of the rib 4 and the support plate are provided. Between (1), a spring 7 having sufficient tension is provided to enable elastic restoration (retraction) of the advanced ribs 4, and each of these ribs 4 simultaneously supports the support plate ( A link 8 capable of articulation at the lower end of the rib 4 is provided to be collected or expanded (released) toward the groove 2 of 1) and operated by a control program or a detection sensor input through a separate control panel. Connected to the drive means 9 , And preferably it would be a cylinder type desired to implement a refractive motion of link 8 in a w / descending motion of the piston SHALL dare not limited to the type of such a mechanical means as a matter of course.

3 is an operational state diagram of the die for bolt gripping, wherein the rib 4 having a shape that is also circularly coupled to the outer diameter of the circular support plate 1 will have a smaller outer diameter. Is collected, the distal end portion (which is somewhat larger than the outer diameter of the bolt axis and smaller than the outer diameter of the bolt head) that maintains the distance width α slightly spaced apart from the outer diameter of the bolt 20 is perpendicular to the lower end of the groove 2. While waiting for the outer diameter of the bolt 20 to fall, the bolt head 21 is seated on the step 4a which is processed in a somewhat enlarged form, so that a stable atmospheric state can be maintained.

Of course, the operation of the ribs 4 will be interlocked according to the bolt manufacturing process adopting the cam driving method as described above, and also by the application of a signal generated by a separate detection sensor provided on the groove 2, the driving means ( 9) can be operated.

Thus, the state in which the ribs 4 hold the bolt 20 is as shown in Fig. 3 (a), and (b) represents the planar state of the die in which the ribs are advanced.

On the other hand, Figure 4 shows a machining operation of the bolt held in the rib, the punch (6) of the cemented carbide is precisely processed in the state that the bolt 20 is dropped in the vertical state as described above is the rib (4) And advances strongly (as far as the α distance between the inner diameter of the rib and the outer diameter of the bolt) to form a depression 23a by punching the thread 23 and expands as the tightened (gathered) rib 4 is retracted again. The processed bolt 20 is dropped by self-weight into the storage passage and discharged.

According to the present invention, the thread 23 of the bolt shaft 22 is artificially partially punched and pressed by the recess 23a, thereby increasing the thickness width L ₁ of the enlarged thread 23 and eventually the pitch width L ₂ . As it becomes narrower, the maximum frictional force without any clearance tolerance can be maintained without any clearance tolerance with another thread engaged with the pitch width L ₂ narrowed by the thickness width L ₁ of the thread 23. The interference factor to prevent reverse rotation is applied every 1 lead according to the advancement of the bolt, so the original tightening state of the bolt can be maintained at all times irrespective of the impact or vibration of the machine itself unless physical removal is performed by the operator. Will be.

Of course, such an anti-loosening structure is obvious that various types of processing can be performed by appropriately replacing only the type of the punch 6 as in each embodiment of FIG. 5, for example, the punch of (a). Is provided to punch in a straight line along the longitudinal direction of the bolt axis, (b) is to be provided in a concave-convex shape at regular intervals for partial punching, (c) is to punch in the horizontal direction along the rotational direction of the bolt thread It is about a punch that is an annular irregularities that can be selected when.

Therefore, the present invention inquires the thread of the tab engaging the pitch with the maximum frictional force by simply and repeatedly punching the finished bolt thread with the maximum frictional force, thereby maintaining a reliable tightening force by maintaining tightness and tightness without gap tolerance. The process features that the bolt is bitten by the die and the thread is pressed and released by the punch at the same time, providing fast working time and reliable loosening structure to achieve economic efficiency and utility.

Hereinafter, the present invention has been illustrated and described with reference to certain preferred embodiments, but various modifications and changes may be made without departing from the spirit or the scope of the present invention provided by the following claims.

Claims (4)

A tapered groove and a plate supporting plate on which a guide groove is formed at a radial position opposite to each other with respect to the groove, so that the completed bolts are vertically aligned and fall sequentially; The guide groove is inserted at the bottom of the guide groove, and the circular state is symmetrically divided to maintain the contour of the trapezoidal trapezoid, and the upper end of the machined portion along the outer diameter of the bolt is stepped so that the bolt head can be seated. A plurality of ribs in which punch fixing grooves are formed; A punch of cemented carbide detachably press-fitted into the fixing groove and punching the thread of the bolt shaft; A spring fixed to the rear end of the rib to enable elastic restoration of the advanced rib; And drive means for enabling simultaneous forward and backward movement of the ribs by a control program or a detection sensor coupled to each of the ribs. The punch for bolt forming tool according to claim 1, wherein the punch is provided in a vertical line along the longitudinal direction of the bolt axis. The punch for bolt forming tool according to claim 1, wherein the punch is provided in a partial concave-convex shape along the longitudinal direction of the bolt axis. The punch for bolt forming tool according to claim 1, wherein the punch is provided in an annular uneven shape along the rotational direction of the bolt axis.