CN111014549A - One-machine-multi-purpose stamping device for parallel forging - Google Patents

Abstract

The invention discloses a one-machine-multipurpose parallel forging stamping device which comprises a main machine case, wherein a part mounting structure of an integrated structure with the main machine case is arranged on one side of the top of the main machine case. Compared with the device with the same cost and the function, the device has a simple structure, can simultaneously perform parallel stamping on a plurality of parts, improves the working efficiency, can freely control the number of stamping, improves the practicability, can automatically control the maximum rotation driving capability in the working process, effectively prevents the motor damage caused by overlarge driving resistance, has an annular array arranged elastic contact type maximum rotation strength control mechanism, can maximize the rotation driving capability, and effectively prevents the motor damage caused by overlarge driving resistance.

Description

One-machine-multi-purpose stamping device for parallel forging

Technical Field

The invention relates to the technical field of stamping devices, in particular to a stamping device for one-machine-multi-purpose parallel forging.

Background

At present, stamping is indispensable in industrial processing, but the existing stamping devices are single stamping and can only work on one part, and some stamping devices have excessively complex structures, poor linkage capacity, poor control capacity and excessively high cost.

Disclosure of Invention

The invention aims to provide a stamping device for parallel forging with multiple purposes by one machine, which solves the problems in the prior art.

In order to achieve the purpose, the invention provides the following technical scheme: a stamping device for one-machine-multi-purpose parallel forging comprises a main machine case, wherein a part mounting structure of an integral structure is arranged on one side of the top of the main machine case, a driving motor mounting shell is mounted on one side of the part mounting structure, a driving motor is mounted inside the driving motor mounting shell, a motor spindle in the driving motor penetrates through the part mounting structure, a part mounting groove structure is arranged at the other end of the part mounting structure, a ring array is mounted at one end of the motor spindle located inside the part mounting groove structure and provided with an elastic contact type maximum rotation strength control mechanism, the circumferential surface of the elastic contact type maximum rotation strength control mechanism of the ring array is mounted inside the part mounting groove structure through a main bearing, and a main first concave rotating shaft is mounted at the center of one end face of the elastic contact type maximum rotation strength control mechanism of the ring array, the main first concave rotating shaft is provided with a main rotating shaft sleeve at the position of the groove shaft body through a main bearing, the transverse rotating shaft body of the main first concave rotating shaft is provided with a rotating shaft sleeve limiting type mounting and stabilizing mechanism through the main bearing, the bottom of the rotating shaft sleeve limiting type mounting and stabilizing mechanism is arranged on the upper surface of the main machine case, one end of the transverse shaft body of the main first concave rotating shaft is provided with a telescopic transmission type rotating part butt joint mechanism, the upper surface of the main machine case is provided with a plurality of auxiliary first concave rotating shafts through the rotating shaft sleeve limiting type mounting and stabilizing mechanism, the plurality of auxiliary first concave rotating shafts and the main first concave rotating shaft are arranged in the same straight line, the tail part of the front auxiliary first concave rotating shaft is symmetrical to the head part of the rear auxiliary first concave rotating shaft, and the tail part of each auxiliary first concave rotating shaft is provided with a telescopic transmission type rotating part butt, the main machine case is provided with a main hollow structure below the groove part of the auxiliary first concave rotating shaft and the main first concave rotating shaft, the bottom of the main hollow structure is provided with a component stamping space, a component placing base plate is installed on the surface of the bottom of the component stamping space, a movable rod is installed in the center of the side face of the main rotating shaft sleeve, and a stamping head is installed at the bottom of the movable rod through a movable hinge.

Further, the annular array-arranged elastic contact type maximum rotation strength control mechanism comprises a main hollow shell for the annular array-arranged elastic contact type maximum rotation strength control mechanism, a main hollow section for the annular array-arranged elastic contact type maximum rotation strength control mechanism, a rotary column for the annular array-arranged elastic contact type maximum rotation strength control mechanism, a semicircular groove structure for the annular array-arranged elastic contact type maximum rotation strength control mechanism, an auxiliary hollow section for the annular array-arranged elastic contact type maximum rotation strength control mechanism, a movable plate for the annular array-arranged elastic contact type maximum rotation strength control mechanism, a spiral spring for the annular array-arranged elastic contact type maximum rotation strength control mechanism and a push rod for the annular array-arranged elastic contact type maximum rotation strength control mechanism; the annular array is provided with an elastic contact type maximum rotation strength control mechanism, the center of one end face of a main hollow shell is fixedly connected with the end part of a motor spindle, the annular array is provided with a main hollow section for the elastic contact type maximum rotation strength control mechanism, the center of the inner part of the main hollow shell is used as the annular array, the main hollow section for the elastic contact type maximum rotation strength control mechanism is arranged in the main hollow section for the annular array, the annular array is provided with the main hollow shell for the elastic contact type maximum rotation strength control mechanism, a rotary column for the elastic contact type maximum rotation strength control mechanism is sleeved in the main hollow section for the annular array, the inner part of the main hollow shell for the elastic contact type maximum rotation strength control mechanism is used as an auxiliary hollow section for the annular array for the elastic contact type maximum rotation strength control mechanism, a movable plate for arranging the elastic contact type maximum rotation strength control mechanism in an annular array is arranged in one end surface of the auxiliary hollow section for arranging the elastic contact type maximum rotation strength control mechanism in the annular array, a spiral spring for arranging the elastic contact type maximum rotation strength control mechanism in an annular array is fixed between one ends of the movable plates for arranging the elastic contact type maximum rotation strength control mechanism in the annular array in the auxiliary hollow section for arranging the elastic contact type maximum rotation strength control mechanism in the annular array, a push rod for arranging the elastic contact type maximum rotation strength control mechanism in an annular array integrated structure with the movable plate for arranging the elastic contact type maximum rotation strength control mechanism in one end surface of the movable plate for arranging the elastic contact type maximum rotation strength control mechanism in the annular array is arranged, and the annular array is provided with a push rod for the elastic contact type maximum rotation strength control mechanism, penetrates through the annular array and is provided with a main hollow shell for the elastic contact type maximum rotation strength control mechanism, and is positioned in the main hollow section for the annular array and elastic contact type maximum rotation strength control mechanism, one end of the annular array and elastic contact type maximum rotation strength control mechanism, which is positioned in the main hollow section for the annular array and elastic contact type maximum rotation strength control mechanism, is of a semicircular structure, the side surface of the annular array and elastic contact type maximum rotation strength control mechanism, which is provided with a semicircular groove structure for placing the annular array and elastic contact type maximum rotation strength control mechanism, at the end part of the push rod for the annular array and elastic contact type maximum rotation strength control mechanism, one end of the rotary column for the annular array provided with the elastic contact type maximum rotary strength control mechanism is fixed with the end part of the main first concave rotary shaft.

Further, the initial length of the coil spring for the annular array-arranged elastic contact type maximum rotation strength control mechanism is larger than the length of the auxiliary hollow section for the annular array-arranged elastic contact type maximum rotation strength control mechanism.

Furthermore, the structural shape of the end part of the push rod for the annular array provided with the elastic contact type maximum rotation strength control mechanism is consistent with the structural shape of the semicircular groove structure for the annular array provided with the elastic contact type maximum rotation strength control mechanism.

Further, the rotating shaft sleeving limiting type mounting and stabilizing mechanism comprises a connecting plate for the rotating shaft sleeving limiting type mounting and stabilizing mechanism, a bolt hole for the rotating shaft sleeving limiting type mounting and stabilizing mechanism, a supporting rod for the rotating shaft sleeving limiting type mounting and stabilizing mechanism, a shaft sleeve mounting hole for the rotating shaft sleeving limiting type mounting and stabilizing mechanism, a bearing mounting groove structure for the rotating shaft sleeving limiting type mounting and stabilizing mechanism and a bearing for the rotating shaft sleeving limiting type mounting and stabilizing mechanism; the utility model discloses a spacing installation stabilizing mechanism for bearing mounting groove structure, including rotation axis cup joint spacing installation stabilizing mechanism for bearing mounting groove structure, the rotation axis cup joints spacing installation stabilizing mechanism for bearing mounting groove structure's inside all installs a rotation axis and cup joints spacing installation stabilizing mechanism for bearing mounting groove structure's for the rotation axis, the rotation axis cup joints the upper surface center installation rotation axis of spacing installation stabilizing mechanism for connecting plate, the rotation axis cup joints spacing installation stabilizing mechanism for the bracing piece, the rotation axis cup joints the top installation rotation axis of spacing installation stabilizing mechanism for bracing piece and cup joints spacing installation stabilizing mechanism for the axle sleeve, the rotation axis cup joints the rotation axis of spacing installation stabilizing mechanism for the axle sleeve and cup joints spacing installation stabilizing mechanism for the axle sleeve mounting hole, every the rotation axis cup joints spacing installation stabilizing mechanism for the bearing mounting groove structure's for the inside all installs a rotation axis and cup joints spacing installation stabilizing.

Furthermore, the rotating shaft is sleeved with a bolt hole for limiting mounting of the stabilizing mechanism and is mounted on the upper surface of the main case through a bolt inserted into the bolt hole.

Furthermore, the auxiliary first concave rotating shaft and the transverse shaft body of the main first concave rotating shaft are arranged in an inner ring of a bearing for the rotating shaft sleeve limiting type mounting stabilizing mechanism.

Further, the telescopic transmission type rotating part butt-joint mechanism comprises a cylindrical hollow shell for the telescopic transmission type rotating part butt-joint mechanism, a shaft body mounting hole for the telescopic transmission type rotating part butt-joint mechanism, a rectangular moving groove structure for the telescopic transmission type rotating part butt-joint mechanism, a rectangular hollow shell for the telescopic transmission type rotating part butt-joint mechanism, a permanent magnet for the telescopic transmission type rotating part butt-joint mechanism and a rectangular shaft body inserting groove structure for the telescopic transmission type rotating part butt-joint mechanism; the utility model provides a telescopic transmission formula rotary part docking mechanism is provided with telescopic transmission formula rotary part for docking mechanism's axis body mounting hole at cylindrical hollow shell terminal surface center for telescopic transmission formula rotary part docking mechanism, telescopic transmission formula rotary part for docking mechanism's other end center is provided with telescopic transmission formula rotary part for docking mechanism's rectangle removal groove structure, telescopic transmission formula rotary part for docking mechanism's rectangle removal groove structure's inside cup joints a telescopic transmission formula rotary part for docking mechanism's rectangle hollow shell, telescopic transmission formula rotary part for docking mechanism the permanent magnet for the internally mounted telescopic transmission formula rotary part for docking mechanism of rectangle hollow shell one end, telescopic transmission formula rotary part for docking mechanism's rectangle hollow shell other end center is provided with telescopic transmission formula rotary part for docking mechanism's rectangle axis body and inserts groove structure.

Further, the cylindrical hollow shell for the telescopic transmission type rotating part butting mechanism is made of steel materials, and the permanent magnet for the telescopic transmission type rotating part butting mechanism is made of neodymium iron boron materials.

Furthermore, a transverse shaft body of the auxiliary first concave rotating shaft and the main first concave rotating shaft is arranged in the shaft body mounting hole for the telescopic transmission type rotating part butting mechanism.

Compared with the prior art, the invention has the beneficial effects that: compared with the device with the same cost and the function, the device has simple structure, can simultaneously carry out parallel stamping on a plurality of parts, improves the working efficiency, can freely control the number of stamping, improves the practicability, can automatically control the maximum rotation driving capability during the working process, effectively prevents the motor damage caused by overlarge driving resistance, has an annular array arranged elastic contact type maximum rotation strength control mechanism, can maximize the rotation driving capability, effectively prevents the motor damage caused by overlarge driving resistance, has a rotating shaft sleeved limiting type mounting and stabilizing mechanism, can limit the rotating shaft, and has a telescopic transmission type rotating part butt joint mechanism which can be connected with the rotating part, meanwhile, the telescopic mechanism has a telescopic function, so that the rotation is realized.

Drawings

FIG. 1 is a schematic view of a full-section structure of a stamping device for parallel forging with multiple purposes;

FIG. 2 is a schematic structural diagram of a ring array-mounted maximum rotation strength control mechanism of a stamping apparatus for multi-purpose parallel forging of the present invention;

FIG. 3 is a schematic structural view of a rotation shaft sleeving limiting type mounting stabilizing mechanism in the stamping device for one-machine-multiple-use parallel forging of the present invention;

FIG. 4 is a schematic structural diagram of a docking mechanism of a telescopic transmission type rotating member in a stamping device for one-machine multi-purpose parallel forging according to the present invention;

in the figure: 1, a main machine case, 2, a component mounting structure, 3, a driving motor mounting shell, 4, a driving motor, 5, a motor spindle, 6, a component mounting groove structure, 7, an annular array is provided with an elastic contact type maximum rotation strength control mechanism, 71, a main hollow shell body for the elastic contact type maximum rotation strength control mechanism, 72, a main hollow section for the elastic contact type maximum rotation strength control mechanism, 73, a rotary column for the elastic contact type maximum rotation strength control mechanism, 74, a semicircular groove structure for the elastic contact type maximum rotation strength control mechanism, 75, an auxiliary hollow section for the elastic contact type maximum rotation strength control mechanism, 76, a movable plate for the elastic contact type maximum rotation strength control mechanism, 77, a spiral spring for the elastic contact type maximum rotation strength control mechanism, 78, the annular array is provided with push rods for an elastic contact type maximum rotation strength control mechanism, 8, a main first concave rotating shaft, 9, a main rotating shaft sleeve, 10, a rotating shaft sleeve connection limiting type installation stabilizing mechanism, 101, a connecting plate for a rotating shaft sleeve connection limiting type installation stabilizing mechanism, 102, a bolt hole for a rotating shaft sleeve connection limiting type installation stabilizing mechanism, 103, a supporting rod for a rotating shaft sleeve connection limiting type installation stabilizing mechanism, 104, a shaft sleeve for a rotating shaft sleeve connection limiting type installation stabilizing mechanism, 105, a shaft sleeve installation hole for a rotating shaft sleeve connection limiting type installation stabilizing mechanism, 106, a bearing installation groove structure for a rotating shaft sleeve connection limiting type installation stabilizing mechanism, 107, a bearing for a rotating shaft sleeve connection limiting type installation stabilizing mechanism, 11, a telescopic transmission type rotating part butt joint mechanism, 101, a cylindrical hollow shell for a telescopic transmission type rotating part butt joint mechanism, 102, a shaft body installation hole for a telescopic transmission type rotating part, 103, flexible transmission formula rotary part docking mechanism removes groove structure with rectangle, 104, flexible transmission formula rotary part docking mechanism inserts groove structure, 12, vice first spill rotation axis, 13, main hollow structure, 14, part punching press space, 15, and base plate, 16, movable rod, 17, activity hinge, 18, the punching press head are placed to the part for flexible transmission formula rotary part docking mechanism permanent magnet, 106, flexible transmission formula rotary part docking mechanism.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, an embodiment of the present invention: the device comprises a main machine case 1, wherein one side of the top of the main machine case 1 is provided with a component mounting structure 2 which is integrated with the main machine case, one side of the component mounting structure 2 is provided with a driving motor mounting shell 3, a driving motor 4 is mounted inside the driving motor mounting shell 3, a motor spindle 5 in the driving motor 4 penetrates through the component mounting structure 2, the other end of the component mounting structure 2 is provided with a component mounting groove structure 6, one end of the motor spindle 5, which is positioned inside the component mounting groove structure 6, is provided with an annular array and an elastic contact type maximum rotation strength control mechanism 7, the circumferential surface of the annular array and the elastic contact type maximum rotation strength control mechanism 7 is mounted inside the component mounting groove structure 6 through a main bearing, and a main first concave rotating shaft 8 is mounted at the center of one end surface of the annular array and the elastic contact type maximum rotation strength control mechanism 7, a main rotating shaft sleeve 9 is arranged at the position of the groove shaft body of the main first concave rotating shaft 8 through a main bearing, a rotating shaft sleeve limiting type mounting stabilizing mechanism 10 is arranged at the transverse rotating shaft body of the main first concave rotating shaft 8 through the main bearing, the bottom of the rotating shaft sleeve limiting type mounting stabilizing mechanism 10 is arranged on the upper surface of the main machine case 1, a telescopic transmission type rotating part butt joint mechanism 11 is arranged at one end of the transverse shaft body of the main first concave rotating shaft 8, a plurality of auxiliary first concave rotating shafts 12 are arranged on the upper surface of the main machine case 1 through the rotating shaft sleeve limiting type mounting stabilizing mechanism 10, the auxiliary first concave rotating shafts 12 and the main first concave rotating shaft 8 are arranged in the same straight line, the tail part of the front auxiliary first concave rotating shaft 12 is symmetrical to the head part of the rear auxiliary first concave rotating shaft 12, and a telescopic transmission type rotating part butt joint mechanism 11 is arranged at the tail part of each auxiliary first concave rotating shaft 12, the main body case 1 is provided with a main hollow structure 13 below the groove part of the auxiliary first concave rotating shaft 12 and the main first concave rotating shaft 8, a component stamping space 14 is arranged at the bottom of the main hollow structure 13, a component placing substrate 15 is arranged on the surface of the bottom of the component stamping space 14, a movable rod 16 is arranged at the center of the side surface of the main rotating shaft sleeve 9, and a stamping head 18 is arranged at the bottom of the movable rod 16 through a movable hinge 17.

Referring to fig. 2, the annular array elastic contact type maximum rotation strength control mechanism 7 includes a main hollow housing 71 for the annular array elastic contact type maximum rotation strength control mechanism, a main hollow section 72 for the annular array elastic contact type maximum rotation strength control mechanism, a rotary column 73 for the annular array elastic contact type maximum rotation strength control mechanism, a semicircular groove structure 74 for the annular array elastic contact type maximum rotation strength control mechanism, an auxiliary hollow section 75 for an annular array-arranged elastic contact type maximum rotation strength control mechanism, a movable plate 76 for an annular array-arranged elastic contact type maximum rotation strength control mechanism, a coil spring 77 for an annular array-arranged elastic contact type maximum rotation strength control mechanism, and a push rod 78 for an annular array-arranged elastic contact type maximum rotation strength control mechanism; the center of one end face of the main hollow shell 71 for the annular array arrangement elastic contact type maximum rotation strength control mechanism is fixedly connected with the end part of the motor spindle 5, the center of the main hollow shell 71 for the annular array arrangement elastic contact type maximum rotation strength control mechanism is the main hollow section 72 for the annular array arrangement elastic contact type maximum rotation strength control mechanism, the main hollow shell 71 for the annular array arrangement elastic contact type maximum rotation strength control mechanism is sleeved with an annular array arrangement elastic contact type maximum rotation strength control mechanism rotary column 73 in the main hollow section 72 for the annular array arrangement elastic contact type maximum rotation strength control mechanism, the inner part of the main hollow shell 71 for the annular array arrangement elastic contact type maximum rotation strength control mechanism is the auxiliary hollow section 75 for the annular array arrangement elastic contact type maximum rotation strength control mechanism, a movable plate 76 for the annular array arrangement elastic contact type maximum rotation strength control mechanism is placed in the annular array arrangement elastic contact type maximum rotation strength control mechanism auxiliary hollow section 75 at one end face of the annular array arrangement elastic contact type maximum rotation strength control mechanism main hollow section 72, an annular array arrangement elastic contact type maximum rotation strength control mechanism spiral spring 77 is fixed between the annular array arrangement elastic contact type maximum rotation strength control mechanism auxiliary hollow section 75 and one end face of the annular array arrangement elastic contact type maximum rotation strength control mechanism movable plate 76, an annular array arrangement elastic contact type maximum rotation strength control mechanism push rod 78 is arranged on one end face of the annular array arrangement elastic contact type maximum rotation strength control mechanism movable plate 76 and is integrated with the annular array arrangement elastic contact type maximum rotation strength control mechanism push rod 78, and the annular array is provided with a push rod 78 for the elastic contact type maximum rotation strength control mechanism, penetrates through the annular array and is provided with a main hollow shell 71 for the elastic contact type maximum rotation strength control mechanism, and is positioned in the annular array and is provided with an elastic contact type maximum rotation strength control mechanism main hollow section 72, the annular array is provided with the elastic contact type maximum rotation strength control mechanism push rod 78, one end of the annular array and is provided with the elastic contact type maximum rotation strength control mechanism main hollow section 72 is of a semicircular structure, the side surface of the annular array and elastic contact type maximum rotation strength control mechanism rotary column 73 is provided with a semicircular groove structure 74 for placing the annular array and elastic contact type maximum rotation strength control mechanism push rod 78 end part, one end of the annular array provided with the elastic contact type maximum rotation strength control mechanism of the rotary column 73 is fixed with the end part of the main first concave rotary shaft 8; the initial length of the coil spring 77 for the annular array arrangement elastic contact type maximum rotation strength control mechanism is longer than the length of the auxiliary hollow section 75 for the annular array arrangement elastic contact type maximum rotation strength control mechanism; the structural shape of the end portion of the push rod 78 for the annular array arrangement elastic contact type maximum rotation strength control mechanism is consistent with the structural shape of the semicircular groove structure 74 for the annular array arrangement elastic contact type maximum rotation strength control mechanism, and the main functions are as follows: when the driving resistance is too large, the resistance is larger than the elasticity of the spiral spring 77 for the elastic contact type maximum rotation strength control mechanism arranged in the annular array, so that the spiral spring 77 for the elastic contact type maximum rotation strength control mechanism arranged in the annular array is compressed, and under the causal action, the two rotating shafts are relatively rotated to play a protection role, so that the elasticity of the spiral spring 77 for the elastic contact type maximum rotation strength control mechanism arranged in the annular array is smaller than the rotation force of the driving motor under the maximum power.

Referring to fig. 3, the rotating shaft sleeving limiting type mounting stabilizing mechanism 10 includes a connecting plate 101 for the rotating shaft sleeving limiting type mounting stabilizing mechanism, a bolt hole 102 for the rotating shaft sleeving limiting type mounting stabilizing mechanism, a support rod 103 for the rotating shaft sleeving limiting type mounting stabilizing mechanism, a shaft sleeve 104 for the rotating shaft sleeving limiting type mounting stabilizing mechanism, a shaft sleeve mounting hole 105 for the rotating shaft sleeving limiting type mounting stabilizing mechanism, a bearing mounting groove structure 106 for the rotating shaft sleeving limiting type mounting stabilizing mechanism, and a bearing 107 for the rotating shaft sleeving limiting type mounting stabilizing mechanism; the connecting plate 101 for the rotating shaft sleeved limiting type mounting and stabilizing mechanism is internally provided with a plurality of bolt holes 102 for the rotating shaft sleeved limiting type mounting and stabilizing mechanism, the rotating shaft is sleeved with a supporting rod 103 for the rotating shaft sleeved limiting type mounting and stabilizing mechanism, the top of the supporting rod 103 for the rotating shaft sleeved limiting type mounting and stabilizing mechanism is provided with a shaft sleeve 104 for the rotating shaft sleeved limiting type mounting and stabilizing mechanism, the center of the shaft sleeve 104 for the rotating shaft sleeved limiting type mounting and stabilizing mechanism is provided with a shaft sleeve mounting hole 105 for communicating two ends of the rotating shaft sleeved limiting type mounting and stabilizing mechanism, two ends of the shaft sleeve mounting hole 105 for the rotating shaft sleeved limiting type mounting and stabilizing mechanism are provided with bearing mounting groove structures 106 for the rotating shaft sleeved limiting type mounting and stabilizing mechanism, and each of the bearing mounting groove structures 106 for the rotating shaft sleeved limiting type mounting and stabilizing mechanism is internally provided with a rotating shaft sleeved limiting type mounting and stabilizing mechanism A fixing mechanism bearing 107; the rotating shaft is sleeved with a limiting bolt hole 102 for mounting the stabilizing mechanism and is mounted on the upper surface of the main case 1 through a bolt inserted into the bolt hole; the auxiliary first concave rotating shaft 12 and the transverse shaft body of the main first concave rotating shaft 8 are arranged in the inner ring of the bearing 107 for the rotating shaft sleeve limiting type mounting stabilizing mechanism, and the main functions are as follows: the auxiliary first concave rotary shaft 12 and the main first concave rotary shaft 8 can be limited without affecting the normal rotary function thereof.

Referring to fig. 4, the telescopic driving type rotating member docking mechanism 11 includes a cylindrical hollow housing 111 for the telescopic driving type rotating member docking mechanism, a shaft body mounting hole 112 for the telescopic driving type rotating member docking mechanism, a rectangular moving groove structure 113 for the telescopic driving type rotating member docking mechanism, a rectangular hollow housing 114 for the telescopic driving type rotating member docking mechanism, a permanent magnet 115 for the telescopic driving type rotating member docking mechanism, and a rectangular shaft body insertion groove structure 116 for the telescopic driving type rotating member docking mechanism; a shaft body mounting hole 112 for a telescopic transmission type rotating part butting mechanism is arranged at the center of one end face of a cylindrical hollow shell 111 for the telescopic transmission type rotating part butting mechanism, a rectangular moving groove structure 113 for the telescopic transmission type rotating part butting mechanism is arranged at the center of the other end of the cylindrical hollow shell 111 for the telescopic transmission type rotating part butting mechanism, a rectangular hollow shell 114 for the telescopic transmission type rotating part butting mechanism is sleeved inside the rectangular moving groove structure 113 for the telescopic transmission type rotating part butting mechanism, a permanent magnet 115 for the telescopic transmission type rotating part butting mechanism is arranged inside one end of the rectangular hollow shell 114 for the telescopic transmission type rotating part butting mechanism, a rectangular shaft body inserting groove structure 116 for the telescopic transmission type rotating part butting mechanism is arranged in the center of the other end of the rectangular hollow shell 114 for the telescopic transmission type rotating part butting mechanism; the telescopic transmission type rotating part butt joint mechanism is made of a cylindrical hollow shell 111 made of steel materials, and the permanent magnet 115 made of neodymium iron boron materials is used for the telescopic transmission type rotating part butt joint mechanism; the inside of flexible transmission formula rotary part axis body mounting hole 112 for the docking mechanism installs the horizontal axis body of vice first spill rotation axis 12 and main first spill rotation axis 8, and its main function is: can change vice first spill rotation axis 12 and main first spill rotation axis 8 and insert the inside spatial position of groove structure 116 at the rectangle axis body for flexible transmission formula rotary part docking mechanism through pulling flexible transmission formula rotary part docking mechanism with rectangular hollow shell 114, make it be in connection or non-connection state to the realization drives down the rotation of mechanism or does not drive, has the rotation nature.

The specific use mode is as follows: during the operation of the invention, firstly, the parts to be punched are placed on the upper surfaces of the bottom part placing base plates 15, then the telescopic transmission type rotating part butting mechanisms 11 are adjusted to enable the rotating shafts of the parts to be punched to be connected, then the driving motor 4 is turned on, under the linkage action of the driving motor 4 and the parts, the movable rods 16 drive the punching heads 18 to do reciprocating motion, and the motion can enable the punching heads 18 to continuously punch the surfaces of the parts, thereby realizing the punching.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (10)

1. The utility model provides a parallelly connected forging of a tractor serves several purposes formula uses stamping device, includes main part machine case (1), its characterized in that: the main part machine case (1) top one side is provided with rather than the part mounting structure (2) of integral type structure, one side-mounting driving motor installation shell (3) of part mounting structure (2), an internally mounted driving motor (4) of driving motor installation shell (3), motor spindle (5) among driving motor (4) run through part mounting structure (2), and the other end of part mounting structure (2) is provided with part installation groove structure (6), motor spindle (5) are in the inside one end installation annular array of part installation groove structure (6) and set up elasticity and support the inside of touching formula maximum rotation intensity control mechanism (7) through the base bearing installation in part installation groove structure (6), the annular array sets up a terminal surface center installation of elasticity support the touching formula maximum rotation intensity control mechanism (7), just the annular array sets up elasticity and supports the inside of touching formula maximum rotation intensity control mechanism (7) through the base bearing installation groove structure (6) A main first concave rotating shaft (8), a main rotating shaft sleeve (9) is arranged at the position of the main first concave rotating shaft (8) positioned in the groove shaft body of the main first concave rotating shaft through a main bearing, a rotating shaft sleeve limiting type mounting stabilizing mechanism (10) is arranged at the transverse rotating shaft body of the main first concave rotating shaft (8) through the main bearing, the bottom of the rotating shaft sleeve limiting type mounting stabilizing mechanism (10) is arranged on the upper surface of the main machine case (1), a telescopic transmission type rotating part butt joint mechanism (11) is arranged at one end of the transverse shaft body of the main first concave rotating shaft (8), a plurality of auxiliary first concave rotating shafts (12) are arranged on the upper surface of the main machine case (1) through the rotating shaft sleeve limiting type mounting stabilizing mechanism (10), and the plurality of auxiliary first concave rotating shafts (12) and the main first concave rotating shaft (8) are arranged in the same straight line, the tail part of the first concave rotating shaft (12) of the previous pair is symmetrical with the head part of the first concave rotating shaft (12) of the next pair, and the tail part of each pair of first concave rotating shafts (12) is provided with a telescopic transmission type rotating part butt joint mechanism (11), the auxiliary first concave rotating shaft (12) is provided with a main rotating shaft sleeve (9) at the position of the groove shaft body through a main bearing, a main hollow structure (13) is arranged below the groove part of the auxiliary first concave rotating shaft (12) and the main first concave rotating shaft (8) of the main machine case (1), a part stamping space (14) is arranged at the bottom of the main hollow structure (13), a component placing substrate (15) is installed on the bottom surface of the component punching space (14), the center of the side surface of the main rotating shaft sleeve (9) is provided with a movable rod (16), and the bottom of the movable rod (16) is provided with a stamping head (18) through a movable hinge (17).

2. The stamping device for one-machine-multiple-use parallel forging as claimed in claim 1, wherein: the annular array arrangement elastic contact type maximum rotation strength control mechanism (7) comprises a main hollow shell (71) for the annular array arrangement elastic contact type maximum rotation strength control mechanism, a main hollow section (72) for the annular array arrangement elastic contact type maximum rotation strength control mechanism, a rotary column (73) for the annular array arrangement elastic contact type maximum rotation strength control mechanism, a semicircular groove structure (74) for the annular array arrangement elastic contact type maximum rotation strength control mechanism, an auxiliary hollow section (75) for the elastic contact type maximum rotation strength control mechanism is arranged in an annular array, a movable plate (76) for the elastic contact type maximum rotation strength control mechanism is arranged in the annular array, a spiral spring (77) for the elastic contact type maximum rotation strength control mechanism is arranged in the annular array, and a push rod (78) for the elastic contact type maximum rotation strength control mechanism is arranged in the annular array; the center of one end face of a main hollow shell (71) for the annular array provided with the elastic contact type maximum rotation strength control mechanism is fixedly connected with the end part of a motor spindle (5), the center of the inner part of the main hollow shell (71) for the annular array provided with the elastic contact type maximum rotation strength control mechanism is a main hollow section (72) for the annular array provided with the elastic contact type maximum rotation strength control mechanism, the main hollow shell (71) for the annular array provided with the elastic contact type maximum rotation strength control mechanism is positioned in the main hollow section (72) for the annular array provided with the elastic contact type maximum rotation strength control mechanism, an annular array provided with a rotary column (73) for the elastic contact type maximum rotation strength control mechanism is sleeved in the main hollow section (71), and the inner part of the main hollow shell (71) for the annular array provided with the elastic contact type maximum rotation strength control mechanism is an auxiliary hollow section for the annular array provided with the elastic contact type maximum rotation strength control mechanism A ring-array-arranged movable plate (76) for the elastic contact-type maximum rotational strength control mechanism is arranged in one end surface of the ring-array-arranged secondary hollow section (75) for the elastic contact-type maximum rotational strength control mechanism in the ring-array-arranged secondary hollow section (72) for the elastic contact-type maximum rotational strength control mechanism, a ring-array-arranged spiral spring (77) for the elastic contact-type maximum rotational strength control mechanism is fixed between one ends of the ring-array-arranged movable plates (76) for the elastic contact-type maximum rotational strength control mechanism in the ring-array-arranged secondary hollow section (75) for the elastic contact-type maximum rotational strength control mechanism, a push rod (78) for the elastic contact-type maximum rotational strength control mechanism is arranged on one end surface of the ring-array-arranged movable plate (76) for the elastic contact-type maximum rotational strength control mechanism in an integrated structure with the ring-array-arranged push rod, and the annular array is provided with a push rod (78) for the elastic contact type maximum rotation strength control mechanism, penetrates through the annular array and is provided with a main hollow shell (71) for the elastic contact type maximum rotation strength control mechanism, is positioned in the main hollow section (72) for the elastic contact type maximum rotation strength control mechanism, the push rod (78) for the annular array and is of a semicircular structure at one end of the main hollow section (72) for the elastic contact type maximum rotation strength control mechanism arranged in the annular array, the side surface of the annular array and is provided with a semicircular groove structure (74) for placing the annular array and the end part of the push rod (78) for the elastic contact type maximum rotation strength control mechanism arranged in the annular array, and the annular array and the semicircular groove structure (74) for the elastic contact type maximum rotation strength control mechanism arranged in the annular array are arranged on the side surface of the rotating column (73) for the annular array and the elastic contact type maximum rotation strength control mechanism arranged in the annular array, one end of the annular array provided with the elastic contact type maximum rotation strength control mechanism of the rotary column (73) is fixed with the end part of the main first concave rotary shaft (8).

3. The stamping device for one-machine-multiple-use parallel forging as claimed in claim 2, wherein: the initial length of the coil spring (77) for the annular array-arranged elastic contact type maximum rotation strength control mechanism is greater than the length of the auxiliary hollow section (75) for the annular array-arranged elastic contact type maximum rotation strength control mechanism.

4. The stamping device for one-machine-multiple-use parallel forging as claimed in claim 2, wherein: the structural shape of the end part of the push rod (78) for the annular array arranged elastic contact type maximum rotation strength control mechanism is consistent with the structural shape of the semicircular groove structure (74) for the annular array arranged elastic contact type maximum rotation strength control mechanism.

5. The stamping device for one-machine-multiple-use parallel forging as claimed in claim 1, wherein: the rotating shaft sleeve limiting type mounting and stabilizing mechanism (10) comprises a connecting plate (101) for the rotating shaft sleeve limiting type mounting and stabilizing mechanism, a bolt hole (102) for the rotating shaft sleeve limiting type mounting and stabilizing mechanism, a supporting rod (103) for the rotating shaft sleeve limiting type mounting and stabilizing mechanism, a shaft sleeve (104) for the rotating shaft sleeve limiting type mounting and stabilizing mechanism, a shaft sleeve mounting hole (105) for the rotating shaft sleeve limiting type mounting and stabilizing mechanism, a bearing mounting groove structure (106) for the rotating shaft sleeve limiting type mounting and stabilizing mechanism and a bearing (107) for the rotating shaft sleeve limiting type mounting and stabilizing mechanism; a plurality of bolt holes (102) for the rotating shaft sleeving limiting type mounting stabilizing mechanism are arranged in a connecting plate (101) for the rotating shaft sleeving limiting type mounting stabilizing mechanism, a supporting rod (103) for the rotating shaft sleeving limiting type mounting stabilizing mechanism is arranged in the center of the upper surface of the connecting plate (101) for the rotating shaft sleeving limiting type mounting stabilizing mechanism, a shaft sleeve (104) for the rotating shaft sleeving limiting type mounting stabilizing mechanism is arranged at the top of the supporting rod (103) for the rotating shaft sleeving limiting type mounting stabilizing mechanism, a shaft sleeve mounting hole (105) for the rotating shaft sleeving limiting type mounting stabilizing mechanism is arranged in the center of the shaft sleeve (104) for the rotating shaft sleeving limiting type mounting stabilizing mechanism and communicated with the two ends, a bearing mounting groove structure (106) for the rotating shaft sleeving limiting type mounting stabilizing mechanism is arranged at the two ends of the shaft sleeve mounting hole (105) for the, and a bearing (107) for the rotating shaft sleeved limiting type mounting and stabilizing mechanism is arranged in the bearing mounting groove structure (106) for the rotating shaft sleeved limiting type mounting and stabilizing mechanism.

6. The stamping device for one-machine-multiple-use parallel forging as claimed in claim 5, wherein: the rotating shaft is sleeved with a bolt hole (102) for limiting installation of the stabilizing mechanism, and the bolt hole is installed on the upper surface of the main machine case (1) through a bolt inserted into the bolt hole.

7. The stamping device for one-machine-multiple-use parallel forging as claimed in claim 5, wherein: and the auxiliary first concave rotating shaft (12) and the transverse shaft body of the main first concave rotating shaft (8) are arranged in an inner ring of a bearing (107) for a rotating shaft sleeve limiting type mounting and stabilizing mechanism.

8. The stamping device for one-machine-multiple-use parallel forging as claimed in claim 1, wherein: the telescopic transmission type rotating part butt-joint mechanism (11) comprises a cylindrical hollow shell (111) for the telescopic transmission type rotating part butt-joint mechanism, a shaft body mounting hole (112) for the telescopic transmission type rotating part butt-joint mechanism, a rectangular moving groove structure (113) for the telescopic transmission type rotating part butt-joint mechanism, a rectangular hollow shell (114) for the telescopic transmission type rotating part butt-joint mechanism, a permanent magnet (115) for the telescopic transmission type rotating part butt-joint mechanism and a rectangular shaft body inserting groove structure (116) for the telescopic transmission type rotating part butt-joint mechanism; a shaft body mounting hole (112) for the telescopic transmission type rotating part butt joint mechanism is arranged at the center of one end face of the cylindrical hollow shell (111) for the telescopic transmission type rotating part butt joint mechanism, a rectangular moving groove structure (113) for the telescopic transmission type rotating part butt joint mechanism is arranged at the center of the other end of the cylindrical hollow shell (111) for the telescopic transmission type rotating part butt joint mechanism, a rectangular hollow shell (114) for the telescopic transmission type rotating part butt joint mechanism is sleeved in the rectangular moving groove structure (113) for the telescopic transmission type rotating part butt joint mechanism, a permanent magnet (115) for the telescopic transmission type rotating part butt joint mechanism is arranged in one end of the rectangular hollow shell (114) for the telescopic transmission type rotating part butt joint mechanism, the other end center of the rectangular hollow shell (114) for the telescopic transmission type rotating part butting mechanism is provided with a rectangular shaft body insertion groove structure (116) for the telescopic transmission type rotating part butting mechanism.

9. The stamping device for one-machine-multiple-use parallel forging as claimed in claim 8, wherein: the cylindrical hollow shell (111) for the telescopic transmission type rotating part butting mechanism is made of steel materials, and the permanent magnet (115) for the telescopic transmission type rotating part butting mechanism is made of neodymium iron boron materials.

10. The stamping device for one-machine-multiple-use parallel forging as claimed in claim 8, wherein: and a transverse shaft body of the auxiliary first concave rotating shaft (12) and the main first concave rotating shaft (8) is arranged in the shaft body mounting hole (112) for the telescopic transmission type rotating part butt joint mechanism.

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