KR101139272B1 - The aerial cam units for with eccentricity-operation prevention means of cam slide - Google Patents

Abstract

PURPOSE: An aerial cam unit having an eccentric driving prevention unit of a cam slide is provided to maintain the position of a spring even if a cam slide and a cam driver are biased to one side. CONSTITUTION: An aerial cam unit having an eccentric driving prevention unit of a cam slide comprises a sliding body(24) and an eccentric driving prevention unit(50). The sliding body slides a cam slide(5). The sliding body is inserted into an operating groove(42) of a base body(44) of a cam slide support base(6) and is linearly moved. The eccentric driving prevention unit is installed between the sliding body and a cam slide body(22). The sliding body and the cam slide body are coupled to each other through the eccentric driving prevention unit.

Description

Aerial cam units for eccentricity-operation prevention means of cam slides

The present invention relates to an aerial cam unit for sliding a cam slide by a cam driver to punch a workpiece such as an iron plate through a corresponding action of a piercing punch mounted on the cam slide and a button die, and more specifically, a cam driver support. The slide body of the cam slide which is inserted into the operation groove formed in the base body of the cam slide support base among the aerial cam units including the base, the cam driver, the cam slide, the cam slide support base, and the return means and is moved straight in the A direction. By providing an eccentric drive preventing means of the cam slide between the cam slide body slidably positioned at the lower end of the slide body, and by the configuration of the slide body and the cam slide body is fastened to each other through the eccentric drive preventing means , Camsli due to the lowering action of the hieroglyphic base When the slide surface of the cam driver comes into contact with the slide surface of the cam driver, the cam slide and the slide surface of the cam driver according to the eccentricity are not positioned on the same line and are prevented from being biased toward one side of the left and right sides. At the same time, the feed slide is adjusted to the correct position so that the cam slide can be slidably operated. Particularly, the cam groove is formed in the base body of the cam slide support base and is straight in the direction A in the state inserted in the groove. Since the gap between the both sides of the slide body of the cam slide to be conveyed is composed of a fitting tolerance, dust or foreign matter is caught between the gap between the working groove and the both sides of the slide body, as in the conventional aerial cam unit, thereby causing a coupling or placement error. Each slide surface of cam slide and cam driver according to eccentricity接觸) The unstable operation state of the entire aerial cam unit, such as the adjustment of the in-situ feed adjustment to prevent it from being made smoothly, is solved, as well as the one-sided contact between the cam slide and the cam driver according to the eccentricity. While interfering with the guide screw mounted on the semi-circumferential groove of the slide body and the spring interpolated in the spring spring, the spring for the guide screw can be kept in place even during the one-contact. It is also possible to prevent the use of separate members for preventing excessive gaps formed on both sides of the working groove and the slide body so that unnecessary and complicated structural problems caused by the use of separate members between the excessive gaps can be improved to a simple structure. Of aerial cam unit provided with cam slide eccentric drive prevention means The.

Generally, a cam driver is a device that punches workpieces such as steel plates by sliding a cam slide by a cam driver to correspond to a piercing punch mounted on the cam slide and a button die, and is suspended between upper and lower molds of a press die. A fixed aerial cam unit is used. The aerial cam unit will be briefly described as follows.

As described above, a cam device (Patent Registration No. 0607047) patented on July 24, 2006 has been proposed in the case of a conventional aerial cam unit, which is fixed to a cam driver support base with a V-shaped cross section. A cam slide having a slide surface having a same cross-sectional shape corresponding to the slide surface and being in sliding contact with the slide surface of the cam driver, and the cam slide slide surface and the cam driver slide surface being in contact with each other. The cam slide support base is configured to support the cam slide along the slide surface of the driver so that the cam slide slides on the slide surface of the cam driver when the cam slide support base is fixed. Slide surface of the cam drive correspondingly An operation formed on the base body of the cam slide support base as shown in FIGS. 1 to 9 described in the patent registration document, with a basic configuration in which the cam slide slides in the A direction along the slide surface of the fiber. The cam slide is configured to be movable in the B direction with respect to the base body of the cam slide support base by a gap formed between both sides of the groove and both sides of the slide body of the cam slide.

Further, with respect to the gap, elastic means, each of which is covered with a sliding plate and fixed together with the sliding plate by a screw spring or a urethane rubber plate fixed to the cam slide support base or the cam slide by screws, may be arranged. The plate and the elastic means are placed in contact with the sliding plate and the elastic means on both sides of the slide body of the cam slide as shown in Fig. 8 described in the patent registration, or the elastic means and sliding on both sides of the slide body of the cam slide as shown in Figure 9 Place the plates in contact sequentially.

In the case of the conventional aerial cam unit (cam device) configured as described above, the cam slide is removed from the cam slide support base, and the cam slide is placed on the cam driver without the upper die in the press die. It is possible to take advantage of the positional alignment with the installed button die, that is, the cutting edge of the cutting edge, and furthermore, the coupling error of the cam slide support base to the upper die base and the cam error of the cam slide to the cam slide support base, or press die Even if eccentric driving occurs due to the arrangement error of the upper and lower dies, the slide surfaces of the cam driver and the cam slide are transported and adjusted to each other to ensure smooth surface contact. Although it has the technical features and effects to eliminate the amount of the working groove and the slide body On the side surface, the cam driver and each slide surface of the cam slide according to the eccentric driving are transported and adjusted to each other in an exact position so that an excessive gap is formed to prevent smooth contact and smooth surface contact. In case of dust or foreign matter intervening between the formed gaps, in-situ feed adjustment to prevent unidirectional contact between each slide surface of cam slide and cam driver according to eccentric drive caused by coupling error or placement error. Since the operation is not performed smoothly, the entire aerial cam unit is in an unstable operating state such that the slides of the cam slide and the cam driver are moved in the A direction while making surface contact with the one-sided contact. There was a huge problem that can only be achieved.

In addition, the guide rod mounted in the semi-circumferential groove of the slide body in the state of being inserted into the spring during the eccentric contact of the cam slide and the cam driver according to the eccentric drive as described above, but the spring is the cam slide and the cam As the eccentricity is transferred to one side of the B direction along with the slide body by the eccentric amount of each slide surface of the driver, the interference between the guide rod and the spring occurs during the eccentric contact of the cam slide and the cam driver according to the eccentric driving. This also had a problem that the entire aerial cam unit is forced to achieve an unstable operating state.

In the conventional aerial cam unit, as another embodiment, the cam slide is supported together with the sliding plate in an excessive gap formed between both sides of the operation groove formed in the base body of the cam slide support base and both sides of the slide body of the cam slide as described above. When arranging the elastic means consisting of a leaf spring or urethane rubber plate fixed by screws to the base or cam slide, it is possible to prevent dust or foreign matter from entering between the excess gaps, but A separate member is provided, such as a sliding plate and an elastic means, which are necessary for smoothly moving the slide of the slide body from the base body of the cam slide support base together with the prevention of foreign matter inflow. According to the structure itself In addition to the increase in the production and assembly process according to the complex structural problems as described above, additional problems such as the production and sales cost through this will also be forced to be raised continuously. .

The present invention devised to solve the above problems, the cam driver support base, cam driver, cam slide, cam slide support base, formed in the base body of the cam slide support base of the aerial cam unit consisting of return means The eccentric driving prevention means of the cam slide is provided between the slide body of the cam slide inserted in the operation groove and moved straight forward in the A direction and the cam slide body slidably correspondingly positioned at the lower end of the slide body. As the slide body and the cam slide body are configured to be fastened to each other through the driving preventing means, when the slide surface of the cam slide due to the lowering action of the upper die base corresponds to the slide surface of the cam driver, Each slide face of the cam driver is not on the same line And it is an object to the left, and at the same time to prevent the biased contact piece (偏 接觸) to one side of the feed is adjusted to the right place so that the cam slide made reliably slide action.

In addition, in the present invention, the gap between the two sides of the slide body of the cam slide that is linearly moved forward and backward in the A direction while being inserted into the operating groove formed in the base body of the cam slide support base in the A direction. Therefore, as in the conventional aerial cam unit, with the formation of excess gaps on both sides of the working groove and the slide body, dust or foreign matter enters between the excess gaps, and through this, camslides and cams according to eccentric driving due to coupling or placement errors. The cam slide according to the eccentricity is solved while the unstable operation state of the entire aerial cam unit is eliminated, such as the in-position feed adjustment action for preventing the sliding contact of each slide surface of the driver from being smoothly performed. And one-way contact between cam driver There are different aims while blocking the interference between the screw guide and a spring mounted to the body banwonju groove so as to keep the spring to the guide screw, even when the contact piece (偏 接觸) in place.

In addition, the present invention also prevents the use of separate members for preventing excessive gaps formed on both side surfaces of the operating groove and the slide body, and thus, according to the conventional aerial cam unit, there is no need to install separate members between the excessive gaps. In addition to improving the complex structural problems to a simple structure, as well as to reduce the production and assembly process, which is a technical feature of the improvement to the simple structure, and to obtain a secondary effect that can also reduce the production and sales cost through this. There is another purpose.

In addition, in the case of the present invention as described above, by configuring the aerial cam unit of a simple structure through the eccentric drive prevention means of the cam slide installed between the slide body of the cam slide and the cam slide body as described above, the conventional aerial cam unit with such a simple structure alone. It is possible to take advantage of the simple advantage of the cutting edge of the piercing punch and button die on the cutting edge, and the coupling error of the cam slide support base to the upper base and the cam slide support to the cam slide support base. Another object is to provide the same technical features, such as preventing the piercing punch from colliding and breaking around the button die by the eccentric driving according to the arrangement error of the upper mold and the lower mold of the press die.

An aerial cam unit cam device provided with an eccentric drive preventing means of a cam slide according to the present invention includes a cam driver fixed to a cam driver support base having a V-shaped cross section and slidable to a slide surface of the cam driver. And a cam slide having a slide surface having the same cross-sectional shape corresponding to the slide surface, and the cam slide slide surface and the cam driver slide surface are brought into contact with each other so that the cam slide slides along the slide surface of the cam driver. It is composed of a cam slide support base for supporting the cam slide so that the slide surface of the cam slide is in contact with the slide surface of the cam driver when the upper side of the upper mold base on which the cam slide support base is fixed is lowered. Camslide along the side In the laterally operated aerial cam unit, when the slide surface of the cam slide due to the lowering action of the upper die base is brought into contact with the slide surface of the cam driver, the cam slide according to the eccentricity and the slide surfaces of the cam driver are in the same line. It is not located on the left and right side to prevent one-sided contact (과) and at the same time transporting to the correct position to insert the cam slide is inserted into the operation groove formed in the base body of the cam slide support base to slide After the cam slide is linearly moved, and the cam slide main body between the cam slide body slidably positioned at the lower end of the slide body is further provided with an eccentric drive prevention means, and through the eccentric drive prevention means The slide body and the cam slide body is characterized in that the mutual fastening fixed.

According to the present invention, when the slide surface of the cam slide corresponding to the slide surface of the cam driver in accordance with the lowering action of the upper die base through the eccentric drive prevention means of the cam slide installed between the slide body of the cam slide and the cam slide body , Cam slides and cam drivers are not positioned on the same line due to the eccentricity and are prevented from being biased toward one of the left and right sides. There is an excellent effect such as a slide action can be made.

In addition, since the gap between the operating grooves formed in the base body of the cam slide support base and both sides of the slide body of the cam slide is about a fitting tolerance, the gap between the operating grooves and the slide bodies on both sides of the operating groove and the slide body is formed as in the conventional aerial cam unit. In addition, the dust or foreign matter is inserted into the gap between the excess position and the in-situ transport to prevent the slide slide of the cam slide and the cam driver in one-sided contact according to the eccentric drive by the coupling error or the placement error The unstable operation state of the entire aerial cam unit, such as the adjustment operation, is not smoothly performed, and the slide body is inserted into the spring when the cam slide and the cam driver are eccentrically contacted by the eccentricity. While blocking the interference between the guide screw and the spring mounted in the semicircular groove Effect such as to maintain the spring guide for the screw even when the contact piece group (偏 接觸) in place, too.

In addition, the use of separate members for preventing excessive gaps formed on both sides of the operating groove and the slide body also prevents unnecessary and complicated structural problems due to the installation and use of separate members between the excessive gaps as in the conventional aerial cam unit. In addition to improving the structure to a simple structure, the production and assembly process, which is a technical feature of the improvement to the simple structure, as well as a side effect that can also reduce the production and sales costs through this.

In addition, as described above, since the aerial cam unit having a simple structure is formed through the eccentric driving prevention means of the cam slide installed between the slide body of the cam slide and the cam slide body, the piercing generated in the conventional aerial cam unit is simple even with such a simple structure. It is possible to take advantage of the simple advantage of the cutting edge of the punch and the button die on the cutting edge, and the coupling error of the cam slide support base to the upper die base and the cam error of the cam slide to the cam slide support base, The same technical features may be provided, for example, to prevent the piercing punch from colliding around the button die and being broken by the eccentric driving according to the arrangement error of the upper and lower dies.

1 is a side cross-sectional view schematically showing a state in which the aerial cam unit of the present invention is installed between the upper and lower dies of the press.
2 is a cross-sectional view and a partially enlarged view taken along line II of the aerial cam unit of the present invention.
3 is an enlarged cross-sectional view of the aerial cam unit of the present invention.
Figure 4 is a state diagram showing the general operation of the aerial cam unit according to the present invention.
5 to 7 is a state diagram showing the operation process according to the eccentric of the aerial cam unit according to the present invention.

An aerial cam unit (hereinafter referred to as an aerial cam unit) equipped with an eccentric drive preventing means of a cam slide according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a side cross-sectional view schematically showing a state in which the aerial cam unit of the present invention is installed between the upper and lower dies of the press, and FIG. 2 is a cross-sectional view and a partially enlarged view taken along line II of the aerial cam unit of the present invention. 3 is an enlarged cross-sectional view of the aerial cam unit of the present invention.

The aerial cam unit 1 of the present invention slides the cam slide 5 by the cam driver 3 to counteract the action of the piercing punch 21 mounted on the cam slide 5 and the button die 111. An apparatus for punching a workpiece such as an iron plate through a cam, which has a slide surface 2 having a V-shaped cross section and is fixed to a lower mold base 15, which is a support base of the cam driver 3, as shown in FIG. A driver 3; A cam slide (5) having a slide surface (4) having the same cross-sectional shape corresponding to the slide surface (2) and sliding contact with the slide surface (2) of the cam driver (3); The slide surface 4 of the cam slide 5 and the slide surface 2 of the cam driver 3 come into contact with each other so that the cam slide 5 moves forward along the slide surface 2 of the cam driver 3. A cam slide support base (6) for movably supporting the cam slide (5) such that a slide action is made in the A direction; The slide surface 4 of the cam slide 5 and the slide surface 2 of the cam driver 3 are separated, and are constituted of return means 7 for returning the cam slide 5 to an initial position when it is not in contact. have.

The operation process for the aerial cam unit 1 of the present invention configured as described above, that is, the cam slide support base 6 is in contact with each other according to the lifting and lowering action of the upper die base 93 on the upper die 92 side to which it is fixed The slide surface 4 of the cam slide 5 is separated from the slide surface 2 of the cam driver 3, or the slide surface of the cam slide 5 is formed on the slide surface 2 of the cam driver 3 ( The upper base 93 during the operation of the aerial cam unit 1, in which 4) is correspondingly contacted so that the cam slide 5 linearly slides forward and backward along the slide surface 2 of the cam driver 3. When the slide surface 4 of the cam slide 5 according to the lowering action of the cam slide 5 corresponds to the slide surface 2 of the cam driver 3, the slide surface 4 of the cam slide 5 according to the eccentricity is cam. It is not located on the same line as the slide surface 2 of the driver 3 and is oriented to one side. As shown in FIGS. 2 and 3, the cam slide is inserted into the operation groove 42 formed in the base body 44 of the cam slide support base 6 so as to prevent contact. (5) providing an eccentric drive preventing means (50) of the cam slide (5) between the slide body (24) and the cam slide body (22) slidably positioned at the lower end of the slide body (24); In addition, the slide body 24 and the cam slide main body 22 are fastened to each other through the eccentric driving preventing means 50.

Here, in the case of the cam driver 3, the cam slide 5 and the cam slide support base 6, the cam is a component of the cam device (Patent Registration No. 0607047) patented on July 24, 2006 The cam driver 3, the cam slide 5, and the cam slide support base 6 have the same structure. In the case of the cam driver 3, the slide surface 2 having a V-shaped cross section is formed on the upper surface. The cam plate 11 and the cam base 13 in which the cam plate 11 was fixed to the upper surface by the screw 12 etc. are provided, and the said cam base 13 supports the cam driver 3 by the screw 14 etc. It is composed of a structure that is fixed and supported by the lower mold base (15) constituting the base.

In addition, in the case of the cam slide 5, the piercing punch 21 is coupled to the front surface, and at the same time, a cam slide body 22 having a V-shaped slide surface 4 and a cam slide support base ( The slide body 24 slidably installed in the operation groove 42 formed in the base body 44 of 6), and the cam slide according to the press operation is bound between the cam slide body 22 and the slide body 24. The key member for transmitting the slide pressing force acting on the slide body 24 by the lowering action of the support base 6 to the cam slide body 22 so that the cam slide body 22 is slide-transferred to the button die 111 side. (28) and the rear end of the slide member (24) prevent the spring bearing portion (29) from colliding with the rear wall (48) of the cam slide support base (6) by the return force of the return means (7). It consists of an elastic body (not shown), such as rubber for In the case of the slide body (24) on both sides in the longitudinal direction so that the upper end is engaged by the cam slide release prevention plate 25 screwed to the lower end of both sides of the base body 44 of the cam slide support base (6). A semi-circumferential groove 26 is formed on the upper surface of the spring 71 on which the locking jaw is seated, and is integrated into the upper surface on which the semi-circumferential groove 26 is formed. At the same time as the spring 71 and at the same time as the front wall 47 formed inclined to the front of the lower end of the base body 44 and the spring support portion 29 for supporting the spring are formed, respectively The lower part is installed in the groove part 31 formed at the upper end of the cam slide main body 22, and is fixed to the cam slide main body 22 by the slide body fixing bolt 32 among the eccentric driving prevention means 50, and the related operation As a course , The cam slide support base 6 fixed to the upper base 93 when the cam slide support base 6 and the upper die base 93 on which the cam slide 5 is fixed by the lowering operation of the hydraulic ram 95 are fixed. ) And the cam slide 5 are also lowered in the same direction so that the hydraulic ram 95 continues in a state where the slide surface 4 of the cam slide 5 is in contact with the slide surface 2 of the cam driver 3. When the pressing action of the upper mold base 93 according to the lowering of the slide body 24 installed inclined upward in the operating groove 42 of the base body 44 while being supported by the spring 71 is separated from the cam slide The key member is fixed between the slide body 24 and the cam slide body 22 while the slide conveying action is performed while pressing and compressing the spring 71 in the upwardly inclined direction according to the guide of the prevention plate 25. To the slide body 24 which is slide-transferred through 28 The applied slide pressing force is transmitted to the cam slide body 22 so that the cam slide body 22 slides along the slide surface 2 of the cam driver 3 inclined downward and toward the button die 111 as shown in "A". The through hole 112 of the button die 111 mounted on the lower die base 15 has a piercing punch 21 mounted on the front surface of the cam slide body 22 of the cam slide 5 by moving forward. Through the punching action to penetrate the workpiece such as iron plate located in the button die 111 to a predetermined hole size (see Fig. 5), on the contrary, the cam slide through the lifting operation of the hydraulic ram 95 When the upper base 93 on which the support base 6 and the cam slide 5 are fixed is raised, the slide surface 2 and the cam slide 5 of the cam driver 3 in sliding contact with each other as shown in FIG. 4. The slide surface (4) is separated from each other and at the same time As the transfer slide toward the opposite direction of the rear wall through the elastic restoring force of the 24 pressure spring 71 that was compressed by the action of the return to the initial position (see Fig. 4) are presented. " This operation process is the same as the operation process of the conventional aerial cam unit of the conventional structure, and it is known in advance that the operation process is widely used in the aerial cam unit of the above-described structure.

In addition, in the case of the cam slide support base 6, a base body 44 in which a pair of side walls 41 and a pair of side grooves 41 are formed in an integral manner in which an operation groove 42 having a yaw shape is integrally formed. And screwed to both lower ends of the base body 44 and slidably fitted to the lower end of the slide body 24 to prevent the slide body 24 from being separated from the base body 44. A pair of cam slide release preventing plates 25 and a rear wall 48 fixed to the pair of side walls 41 by a screw 46 or the like so as to close the rear end of the operation groove 42 of the base body 44. In the case of the base body 44, the upper mold base 93 is fixed to the upper mold base 93 of the upper mold 92 by the screw 91 or the like, and the upper mold base 93 is the hydraulic ram 95 by the screw 94 or the like. ), It is possible to move up and down. In addition, along the guide post 97 coupled to the lower mold base 15 of the lower mold 96, the upper mold base 93 is guided and positioned with respect to the lower mold base 15 while being raised and lowered.

In addition, the return means 7 is a spring 71 supported between the front wall 47 formed inclined to the front of the lower end of the base body 44 and the spring support 29 of the rear end of the slide body 24. ) And a pair of screws separated from each other are fastened to the front wall 47 of the base body 44 and the spring support part 29 of the rear end of the slide body 24 in the state of being inserted into the spring 71 and the spring It consists of a guide screw 72 for preventing bending of the 71 and adjusting the elastic force, wherein the spring 71 is elastically supported so that the cam slide 5 always faces the rear wall 48 by the elastic force. .

On the other hand, in the aerial cam unit (1) configured as described above, the slide body is formed on both side walls (41) of the base body (44) connected to both sides of the working groove (42) among the components of the cam slide support base (6). Both side surfaces of the cam 24 are spaced apart as a slide-fitting tolerance, and the slide surface 4 of the cam slide 5 moves in the eccentric state during the lowering action of the upper base 93. The base body 44 through the eccentric drive preventing means 50 of the cam slide 5 provided between the slide body 24 and the cam slide body 22 of the cam slide 5 even if the corresponding contact with the surface (2) The spring 71 and the slide body 24 installed at the center of the upper end surface of the slide body 24 corresponding to the operation groove 42 of the left side within the base body 44 of the cam slide support base 6, In the state that the center is kept in the right position without being biased to one side of the right side There is sex.

Here, the eccentric drive prevention means 50 of the cam slide penetrates through the inner center of the slide body 24 provided with the semi-circular groove 26 corresponding to the operation groove 42 in the upper center as shown in FIG. A bolt insertion hole 51; A slide body fixing bolt 32 which is inserted through the bolt insertion hole 51 and has an end in diameter at the same time as the end thereof is fastened to the cam slide body 22; A bolt fastening hole 52 formed to fasten an end of the slide body fixing bolt 32 to an upper end of the cam slide body 22; It is formed by the difference in diameter between the bolt insertion hole 51 and the slide body fixing bolt 32, the slide surface 4 of the cam slide (5) according to the lowering action of the upper die base 93 is the cam driver (3) The slide surface 4 of the cam slide 5 according to the eccentricity in contact with the slide surface 2 of the cam driver 5 is not located on the same line as the slide surface 2 of the cam driver 3 and is shifted to one of the left and right sides. It is comprised by the clearance gap 53 which prevents single-contact and conveys and adjusts to a fixed position.

In addition, when the slide body fixing bolt 32 is fastened to the bolt fastening hole 52 of the cam slide body 22 through the bolt insertion hole 51, the slide body fixing bolt (the depth of the bolt fastening hole 52) ( The lower end of the head of 32 is protruded and spaced apart from the upper end of the bolt insertion hole 51 to form a gap 55.

In addition, the head 33 of the slide body fixing bolt 32 is pulled out below the head catching portion 51a of the bolt insertion hole 51 at the bottom of the head portion 33 of the slide body fixing bolt 32. A washer 54 for preventing the damage is provided.

Hereinafter, the preferred embodiment of the aerial cam unit 1 according to the present invention in comparison with the accompanying drawings will be described as follows.

4 is a state diagram showing a general operation of the aerial cam unit according to the present invention, Figures 5 to 7 is a state diagram showing the operation process according to the eccentric of the aerial cam unit according to the present invention.

First, as a general general operation process of the aerial cam unit 1 according to the present invention, the cam slide support base 6 and the cam slide of the aerial cam unit 1 of the present invention through the lifting operation of the hydraulic ram 95 ( When the upper mold base 93 to which 5) is fixed rises, the slide surface 2 of the cam driver 3 and the slide surface 4 of the cam slide 5 which are in sliding contact with each other as shown in FIG. The cam slide 5 which slides forward and slides along the slide surface 2 of the cam driver 3 as the upper and lower bases 93 are lowered and separated from each other is separated from each other. It is returned to the initial position while the slide is transported to the rear in the opposite direction through the elastic action, on the contrary, through the lowering operation of the hydraulic ram (95), the cam slide (5) support base and the cam base (5) fixed upper base When 93 drops down, in FIG. As shown, the cam slide support base 6 and the cam slide 5 fixed to the upper base 93 are also lowered so that the slide surface 4 of the cam slide 5 slides of the cam driver 3. At the same time as contacting the surface (2), the cam slide (5) slides along the slide surface (2) of the cam driver (3) to advance in the forward direction A, and the cam driver (3) as described above. Cam slide 5 that slides forward along the slide surface 2 of the slid, that is, the piercing punch 21 mounted on the front surface of the cam slide 5 is the lower mold base 15 Through the punching action penetrating through the through-hole 112 of the button die 111 mounted in the to be drilled to a predetermined hole size, such as a steel plate located in the button die 111.

On the other hand, coupling error of the cam slide support base 6 to the upper base 93 during operation of the aerial cam unit 1 according to the present invention, and of the cam slide 5 to the cam slide support base 6. The slide surface 4 of the cam slide 5 due to the lowering action of the upper mold base 93 due to the coupling error and the arrangement error of the upper mold 92 and the lower mold 96 is the slide surface 2 of the cam driver 3. 6), the cam slide 5 according to the eccentricity and the slide surfaces 4 and 2 themselves of the cam driver 3 according to the eccentricity, as shown in FIG. As shown in FIG. 7, the cam slides 5 and the slide surfaces 4 and 2 themselves of the cam driver 3 according to the eccentricity are lowered to one side of the left and right sides. Slide body 24 on both side walls of the base body 44 connected to both sides of the operation groove 42 of the components of the support base (6) The base body 44 of the cam slide support base 6 and the slide body 24 and the spring 71 of the cam slide 5 are kept concentric as both sides are spaced apart as a slide-fitting tolerance. The eccentric drive preventing means 50 of the cam slide 5 installed between the slide body 24 and the cam slide body 22 of the cam slide 5, that is, the operation groove 42 of the base body 44 And a gap 53 formed by a diameter difference between the bolt insertion hole 51 and the slide body fixing bolt 32 penetrating through the inner center of the slide body 24 provided with a semi-circular groove 26 corresponding thereto. When the slide body fixing bolt 32 is fastened to the bolt fastening hole 52 of the cam slide body 22 through the bolt insertion hole 51, the slide body fixing bolt 32 is as deep as the bolt fastening hole 52. The lower portion of the head 33 is formed between the protrusions spaced apart from the upper end of the bolt insertion hole 51 Cam slide according to the eccentricity when the slide surface 4 of the cam slide 5 corresponding to the slide surface 2 of the cam driver 3 according to the lowering action of the upper base 93 through the pole 55 ( The slide surface 4 of 5) is not positioned on the same line as the slide surface 2 of the cam driver 3, and the hydraulic pressure is continuously maintained in a state in which one-sided contact is made in contact with one of the left and right sides. When the pressing action of the upper mold base 93 according to the lowering of the ram 95 is made, first, the slide of the cam slide 5 eccentrically contacted with the slide surface 2 of the cam driver 3 by eccentricity. The cam slide main body 22 of the cam slide 5 is moved to the opposite side in which the surface 4 is concentric with the slide surface 2 of the cam driver 3. While the groove portion 31 formed on the upper end of the cam slide body 22 and the lower end of the slide body 24 The gap formed is narrowed to one side, and the cam slide main body 22 is screwed to the lower end of the slide body 24 installed to be slide-movable in the operation groove 42 of the base body 44 in the above process. The slide body fixing bolt 32 to fix the gap 53 and 55 together with the movement of the cam slide body 22 in a state of mutual concentricity with the slide body 24 and the cam slide body 22. The upper side of the slide body fixing bolt 32 through the opposite direction to the moving direction of the cam slide body 22, the lower side of the slide body fixing bolt 32 in the same direction as the moving direction of the cam slide body 22 And the slide surface 4 of the cam slide 5 is brought into contact with the home position without being one-sided in contact with the slide surface 2 of the cam driver 3 while being displaced to one side on the center line. At the same time the camsli The rod 5 slides along the slide surface 2 of the cam driver 3 and moves forward in the A direction, and the cam slide along the slide surface 2 of the cam driver 3 as described above. (5) slides forward and slides, and through this process, a button die (pierced with a piercing punch 21 mounted on the front surface of the cam slide 5 mounted on the lower die base 15) Through the punching action penetrating through the through-hole 112 of the 111, the workpiece such as the iron plate located in the button die 111 is drilled to a predetermined hole size.

Therefore, in the case of the aerial cam unit 1 according to the present invention, the cam slide support base 6 and the cam slide 5 are separated from the upper die base 93 in the same manner as in the prior art. After placing the cam slide 5, the concentricity by the adjustment of the position between the piercing punch 21 coupled to the front surface of the cam slide 5 and the button die 111 provided on the lower die base 15 Even if the cam slide 5 is fixed to the cam slide support base 6, the alignment between the piercing punch 21 and the button die 111 is corrected again or the slide of the cam slide 5 is fixed. Each slide surface 4, 2 of the cam slide 5 and the cam driver 3 is removed in order to eliminate one-sided contact between the surface 4 and the slide surface 2 of the cam driver 3. Technical special features such as eliminating the need for separate machining Has the.

Although the preferred embodiments of the present invention have been described for illustrative purposes, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims. .

1. Aerial cam unit 2, 4. Slide surface
3. Cam driver 5. Cam slide
6. Cam slide support base 7. Return means
11.Campan 13.Cam Base
15. Bottom base 21. Piercing punch
22. Cam slide body 24. Slide body
25. Cam slide departure prevention plate 26. Semi-circle groove
28. Key member 29. Spring support
31. Slot 32. Slider Fixing Bolt
42. Working groove 44. Base body
47.Front Wall 48.Rear Wall
50. Eccentric drive prevention means 51. Bolt insertion hole
52. Bolted hole 53, 55. Clearance
54. Washer 71. Spring
72. Guide screw 92. Pictograph
93. Pictograph base 95. Hydraulic ram
96. Bottom 97.Post
111.Button Die

Claims (4)

A cam driver fixed to a cam driver support base having a V-shaped cross section, a cam slide having a slide surface having the same cross-sectional shape as the slide surface and sliding contact with the slide surface of the cam driver; And a cam slide support base for supporting the cam slide such that the cam slide slide surface and the cam driver slide surface are in contact with each other so that the slide of the cam slide is performed along the slide surface of the cam driver. In the aerial cam unit in which the slide surface of the cam slide is brought into contact with the slide surface of the cam driver when the fixed upper form upper base is lowered so that the cam slide slides back and forth along the slide surface of the cam driver.
When the slide surface of the cam slide according to the lowering action of the upper base is in contact with the slide surface of the cam driver, the slide surface of the cam slide and the cam driver according to the eccentricity are not positioned on the same line with each other, but one of the left and right sides The slide of the cam slide, which is inserted into the operation groove formed in the base body of the cam slide support base and is moved straight before and after the cam slide is prevented from being shifted to one side and the cam slide slides. An eccentric drive preventing means of the cam slide is further provided between the sieve and the cam slide body slidably positioned at the lower end of the slide body, and the slide body and the cam slide body are mutually fastened through the eccentric driving preventing means. Composed of fixed,
The eccentric drive preventing means of the cam slide includes a bolt insertion hole penetrating the inner center of the slide body having a semi-circumferential groove corresponding to the operation groove in the upper center; A slide body fixing bolt which is inserted through the bolt insertion hole and has an end in diameter while having a diameter step; A bolt fastening hole formed so that the end of the slide body fixing bolt is fastened to an upper end of the cam slide body; The slide surface of the cam slide according to the eccentricity is formed by the diameter difference between the bolt insertion hole and the slide body fixing bolt, and when the slide surface of the cam slide according to the lowering action of the upper die base corresponds to the slide surface of the cam driver. It is not located on the same line as the slide surface of the slide and prevents one-sided contact with one of the left and right sides.
When the slide body fixing bolt is fastened to the bolt fastening hole of the cam slide body through the bolt inserting hole, the lower end of the head of the slide body fixing bolt is spaced apart from the top of the bolt inserting hole by the depth of the bolt fastening hole, characterized in that a gap is formed. An aerial cam unit with an eccentric drive prevention means of a cam slide. According to claim 1, On both side walls of the base body connected to both sides of the operating groove is installed on both sides of the slide body spaced apart as a slideable insertion tolerance,
Even when the slide surface of the cam slide contacts the slide surface of the cam driver in an eccentric state during the lowering action of the upper base, the base body is provided through the eccentric driving preventing means of the cam slide installed between the slide body of the cam slide and the cam slide body. The spring and the slide body is installed in the upper center of the slide body corresponding to the operation groove of the cam slide support base is characterized in that the center is maintained in the correct position without being biased to one side of the left, right side Aerial cam unit with eccentric drive prevention means of cam slide. delete delete

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