CN117531947A - Forging die for bowl head hanging plate - Google Patents

Abstract

The invention discloses a forging die for a bowl head hanging plate, and particularly relates to the technical field of die processing, comprising a fixed bottom plate, wherein a lower die base is embedded and installed at the top end of the fixed bottom plate, a fixed cavity is formed at the top end of the lower die base, fixed side openings are formed at the left side and the right side of the lower die base, fixed notches are formed at the left end and the right end of the fixed bottom plate, a linkage structure is rotatably sleeved at the top end of the fixed bottom plate, a driving assembly is embedded and installed at one side of the top end of the fixed bottom plate, and an elastic reset assembly is embedded and installed at the side surface of the linkage structure. According to the invention, the movable plunger is driven by the telescopic cylinder to transversely shrink through the linkage structure, the driving assembly and the fixed bottom plate, the two power plates are driven to synchronously move, and the side surfaces of the workpiece are pushed and extruded through the fixed push plate and the arc-shaped adapting port above the two power plates, so that the workpiece gradually moves to the center of the fixed cavity above the lower die base, and the effect of accurate placement is further achieved.

Description

Forging die for bowl head hanging plate

Technical Field

The invention relates to the technical field of die processing, in particular to a die for forging a bowl head hanging plate.

Background

The bowl head hanging plate is a connecting piece formed by a cap nest and double sheets or single-sheet hanging plates, and can be divided into a single-joint bowl head hanging plate and a double-joint bowl head hanging plate according to different structures and using conditions, wherein the double-joint bowl head hanging plate comprises a WS-shaped and a W-shaped bowl head hanging plate which are respectively used for connecting an upper end steel cap and a lower end steel foot of a suspension insulator, and in actual production of the hanging plate, the forging die especially relates to a forging die used in a forging flow, the forging die is a tool capable of forming a blank into a die forging, the forging die is key technological equipment necessary in the die forging production, and is a tool required to be used in each stroke of equipment, and the tool plays a role in the die forging production.

It still has some drawbacks in practical use, such as: at present forge the mould when using, because the inside forging cavity that is equipped with of bed die, operating personnel is when placing the material, often feel the central part of placing the bed die with the material, adopt the last mould to carry out the suppression shaping to the material afterwards, when placing the material, because the shape specificity of bed die, light relies on operating personnel manual to come the distance and the position of real-time adjustment work piece, the fixed position error of forging at every turn is great, the problem that its artificial real degree of difficulty of operating is big, when batch production, can cause the mould inner chamber not be filled with the probability increase of material, and then increased the cost of equipment, the increase of product rejection rate has been caused.

The forging die for the bowl head hanging plate is provided for researching and improving the existing structure and the existing defects so as to achieve the purpose of having more practical value.

Disclosure of Invention

In order to overcome the defects in the prior art, the embodiment of the invention provides a forging die for a bowl head hanging plate, through the mutual matching of a linkage structure, a driving assembly and a fixed bottom plate, a telescopic cylinder drives a movable plunger to transversely shrink, at the moment, a mounting block at the side end of the movable plunger is driven to move inwards through the movable plunger, at the moment, a power plate at one side is driven to move towards the inner side of the fixed bottom plate through the mounting block, at the moment, a sliding notch at the bottom end of the power plate can transversely and centrally slide at the surface of a fixed strip on a fixed sliding seat, at the moment, in the process of the centering movement of the power plate, one side of the movable rotating plate is pressed through a connecting plate and a fixed side plate on the surface of the movable rotating plate, at the moment, a fixed rotating shaft and an adaptive rotating shaft on the top end face of one side of the movable rotating plate are respectively matched and rotated on the top end of the movable rotating plate, so that the movable rotating plate is ensured, at the moment, the movable rotating plate is driven to slide towards the inner side of the fixed bottom plate through the rotating effect of the movable rotating plate, at the moment, the movable rotating plate is driven to slide towards the center of the movable plate, at the movable plate is pushed by the moment, at the moment, the two power plates are moved towards the center of the movable plate, and the movable plate is gradually, and the movable plate is pushed towards the center of the movable plate by the upper side of the movable plate and the movable plate, and is positioned towards the upper side of a fixed die, which is positioned at the upper side, and is positioned at the movable cavity, and is positioned, and gradually, and is positioned, and accurately, and positioned, at the upper, and has the upper side position, and has the problem.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a forging die of bowl head link plate, includes the fixed baseplate, the top of fixed baseplate is inlayed and is installed the lower mould base, fixed cavity has been seted up on the top of lower mould base, fixed side mouth has all been seted up to the left and right sides of lower mould base, fixed notch has all been seted up at both ends about the fixed baseplate, the top of fixed baseplate rotates the cover and is equipped with the linkage structure, drive assembly is inlayed and installs on one side of the top of fixed baseplate, the side mosaic of linkage structure is installed elasticity and is reset the subassembly, fixed slide is inlayed and is installed to the inside of fixed notch, fixed rectangular is inlayed and is installed on the top of fixed slide;

the linkage structure is including linkage commentaries on classics board, fixed commentaries on classics mouth has all been seted up on the top left and right sides of linkage commentaries on classics board, two the top of fixed commentaries on classics mouth is all rotated and is installed the connecting plate, two the one end of connecting plate is inlayed and is installed fixed pivot, the top of linkage commentaries on classics board is rotated the cover and is equipped with the location pivot, the bottom of location pivot runs through the inside of linkage commentaries on classics board and extends to on classics on the top terminal surface of fixed baseplate to with the top fixed mounting of linkage commentaries on classics board, the rotation round hole has been seted up on the surface of linkage commentaries on classics board, the other end of connecting plate is inlayed and is installed fixed curb plate, the other end of fixed curb plate is inlayed and is installed the adaptation pivot.

In a preferred embodiment, the other end of the adaptive rotating shaft is rotatably sleeved with a power plate, an adaptive notch is formed in the side face of the power plate, a top side plate is mounted on one side of the top end of the power plate in an embedded mode, a fixing opening is formed in one side of the bottom end of the top side plate, and a fixing pin is mounted in the fixing opening in an embedded mode.

In a preferred embodiment, the side of top curb plate is inlayed and is installed the mounting panel, the fixed push pedal of the other end fixedly connected with of mounting panel, the embedding slotted hole has been seted up to the lateral surface of power board, the adaptation round hole has been seted up on the top of power board, the sliding notch with fixed rectangular mutual adaptation has been seted up to the bottom of power board, the arc adaptation mouth has been seted up to the side of fixed push pedal.

In a preferred embodiment, the driving assembly comprises an embedded cylinder, a mounting block is embedded in the side face of the embedded cylinder, a movable plunger is fixedly embedded in the other end of the mounting block, a telescopic cylinder is movably sleeved at the other end of the movable plunger, and a base is fixedly connected to one side end of the telescopic cylinder.

In a preferred embodiment, the elastic reset component comprises a sliding side plate, a fixed top plate is inlaid at the top end of the sliding side plate, a through round hole is formed in the side surface of the fixed top plate, a fixed column body is inlaid in the through round hole, and an arc-shaped bottom plate is inlaid at the other side end of the fixed column body.

In a preferred embodiment, the back of slip curb plate has seted up the slip round hole, the laminating of bottom slip of slip curb plate has the connection bottom plate, the side of connection bottom plate inlays the installation with the outside of fixed bottom plate, the side back of connection bottom plate inlays and installs fixed backplate, the side of fixed backplate is inlayed and is installed reset spring, both ends are inlayed and are installed the slip post about the one side of fixed backplate that is close to fixed backplate.

In a preferred embodiment, the side surface of the sliding column and the sliding round hole on the sliding side plate are mutually and slidably sleeved, the outer surface of the sliding column is uniformly coated with a layer of lubricating grease, and the sliding round hole penetrates from one side of the top end of the sliding side plate to the other side surface.

In a preferred embodiment, the number of the elastic reset components is two, the two elastic reset components are respectively located at two side ends of the linkage structure, the number of the fixed sliding seats is two, the two fixed sliding seats are respectively installed on inner faces of two fixed side face openings at the left side and the right side of the fixed bottom plate, and the whole material of the fixed sliding seats is made of alloy materials.

In a preferred embodiment, S1, a blank making process: the main function of the blank making step is to redistribute the volume of the blank or change the axial shape of the blank, reasonably distribute the volume of the blank, ensure that the cross-sectional area of the blank along the axial line is approximately matched with that of the forging, and is beneficial to filling the cavity with the forging metal, and the blank making step mainly comprises upsetting, drawing, rolling, flattening, shoulder pressing, clamping, forming and bending;

s2, die forging step: the die forging step comprises a pre-forging step and a final-forging step, wherein the pre-forging step and the final-forging step are used for forging blanks subjected to blank making to obtain forgings with required shapes and sizes, the used grooves are called forging die bores or die forging grooves, the pre-forging step and the final-forging step are needed, and whether the pre-forging step is adopted or not can be determined according to specific conditions;

s3, cutting off: the main function of the cutting step is to cut and separate the forging from the bar stock, when a plurality of die forgings are adopted, the forged forging is cut off, so that the next forging can be continuously forged or burrs and jaws can be cut off;

s4, oxide skin treatment: the adhered forging oxide skin remained in the lower die and the upper die is blown off by high-pressure gas, so that the cleanliness degree of the inner cavities of the upper die and the lower die is ensured, and the continuous and stable execution of the subsequent forging work is facilitated;

s5, collecting materials: and cooling and intensively storing the forged workpiece, grinding burrs on the surface of the workpiece after the forging, and finally inspecting the surface and the size of the workpiece, packaging and storing the workpiece after the forging is error-free.

The invention has the technical effects and advantages that:

according to the invention, through the mutual matching of the linkage structure, the driving assembly and the fixed bottom plate, the telescopic cylinder drives the movable plunger to transversely shrink, at the moment, the movable plunger drives the mounting block at the side end of the movable plunger to move inwards, at the moment, the mounting block drives the power plate at one side to move inwards towards the inner side of the fixed bottom plate, at the moment, the sliding notch at the bottom end of the power plate can transversely center and slide at the surface of the fixed strip on the fixed sliding seat, at the moment, in the centering and moving process of the power plate, one side of the movable rotating plate is pressed through the connecting plate and the fixed side plate on the surface of the movable plate, at the moment, the fixed rotating shaft and the adaptive rotating shaft on the surfaces of the connecting plate and the fixed side plate are respectively adapted to rotate on the top end face of one side of the movable rotating plate and the top end of the movable plate, so as to ensure the smoothness of the movable rotating plate in the rotating process, at the moment, the movable rotating plate drives one power plate at the other side to slide towards the center of the movable plate by the self-rotating action, at the moment, and at the moment, the movable plate is moved in a centering way, only by the centering and moving material workpiece above the lower die base, the movable plate is pushed by the two power plates, and the fixed side faces are gradually matched to the center of the movable plate, and the movable die is positioned on the side face of the movable plate;

according to the invention, the elastic reset component is arranged, and the arc-shaped bottom plate is embedded and installed at the other side end of the fixed column body, so that when one end of the sliding column is excessively contracted in the transverse reciprocating sliding process, one end of the fixed column body contacts with the surface of the arc-shaped bottom plate, and the whole sliding column is buffered;

according to the invention, the fixed sliding seat, the power plate, the fixed strip and the linkage rotating plate are arranged, and the two fixed sliding seats are respectively arranged on the inner faces of the two fixed side face openings at the left side and the right side of the fixed bottom plate, so that the two power plates can synchronously and transversely move on the fixed sliding seats respectively in the linkage process, the effect of sliding adjustment is further achieved, and the linkage effect and the smoothness of the device are further improved.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic view of a three-dimensional assembly structure of the present invention;

FIG. 3 is a schematic view of a three-dimensional assembly structure of the present invention;

FIG. 4 is an enlarged schematic view of the structure of FIG. 3A according to the present invention;

FIG. 5 is a perspective assembly schematic view of the linkage structure of the present invention;

FIG. 6 is a schematic view of a three-dimensional assembly structure of the elastic restoring assembly of the present invention;

FIG. 7 is a schematic perspective view of a linkage and drive assembly of the present invention;

FIG. 8 is a schematic perspective view of a driving assembly according to the present invention;

FIG. 9 is a schematic diagram of the movement of the linkage structure according to the present invention;

fig. 10 is a schematic view of the linkage structure and the driving assembly structure of the present invention.

The reference numerals are: 1. a fixed bottom plate; 2. a lower die base; 3. a fixed cavity; 4. fixing the side opening; 5. a fixed notch; 6. a linkage structure; 7. a drive assembly; 8. an elastic reset assembly; 9. fixing the sliding seat; 10. fixing the strip; 61. a linkage rotating plate; 62. fixing the rotating opening; 63. a connecting plate; 64. fixing the rotating shaft; 65. positioning a rotating shaft; 66. rotating the round hole; 67. fixing the side plates; 68. the rotating shaft is adapted; 69. a power plate; 610. an adaptation notch; 611. a top side plate; 612. a fixed port; 613. a fixing pin; 614. a mounting plate; 615. fixing the push plate; 616. embedding the slot holes; 617. fitting the round hole; 618. a sliding notch; 619. an arc-shaped adapting port; 71. embedding a cylinder; 72. a mounting block; 73. a movable plunger; 74. a telescopic cylinder; 81. sliding the side plates; 82. fixing the top plate; 83. penetrating through the round hole; 84. a fixed column; 85. an arc-shaped bottom plate; 86. a sliding round hole; 87. a connecting bottom plate; 88. fixing the backboard; 89. a return spring; 891. and a sliding column.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The forging die for the bowl head hanging plate comprises a fixed bottom plate 1, wherein a lower die base 2 is embedded and installed at the top end of the fixed bottom plate 1, a fixed cavity 3 is formed in the top end of the lower die base 2, fixed side face ports 4 are formed in the left side and the right side of the lower die base 2, fixed slots 5 are formed in the left end and the right end of the fixed bottom plate 1, a linkage structure 6 is sleeved at the top end of the fixed bottom plate 1 in a rotating mode, a driving assembly 7 is embedded and installed at one side of the top end of the fixed bottom plate 1, an elastic reset assembly 8 is embedded and installed at the side face of the linkage structure 6, a fixed sliding seat 9 is embedded and installed in the inside of the fixed slot 5, and a fixed strip 10 is embedded and installed at the top end of the fixed sliding seat 9;

the linkage structure 6 comprises a linkage rotating plate 61, fixed rotating openings 62 are formed in the left side and the right side of the top end of the linkage rotating plate 61, connecting plates 63 are rotatably mounted on the top ends of the fixed rotating openings 62, fixed rotating shafts 64 are mounted on one ends of the connecting plates 63 in an embedded mode, positioning rotating shafts 65 are rotatably sleeved on the top ends of the linkage rotating plate 61, the bottom ends of the positioning rotating shafts 65 penetrate through the inside of the linkage rotating plate 61 and extend to the top end face of the fixed bottom plate 1, the positioning rotating shafts are fixedly mounted on the top ends of the linkage rotating plate 61, rotating round holes 66 are formed in the surface of the linkage rotating plate 61, fixed side plates 67 are mounted on the other ends of the connecting plates 63 in an embedded mode, and adapting rotating shafts 68 are mounted on the other ends of the fixed side plates 67 in an embedded mode.

The other end of the adapting rotating shaft 68 is rotatably sleeved with a power plate 69, an adapting notch 610 is formed in the side face of the power plate 69, a top side plate 611 is inlaid and installed on one side of the top end of the power plate 69, a fixed port 612 is formed in one side of the bottom end of the top side plate 611, a fixed pin 613 is inlaid and installed in the interior of the fixed port 612, a mounting plate 614 is inlaid and installed on the side face of the top side plate 611, a fixed push plate 615 is fixedly connected with the other end of the mounting plate 614, an inlaid slotted hole 616 is formed in the outer side face of the power plate 69, an adapting round hole 617 is formed in the top end of the power plate 69, a sliding notch 618 mutually adapting with the fixed strip 10 is formed in the bottom end of the power plate 69, an arc adapting port 619 is formed in the side face of the fixed push plate 615, the driving assembly 7 comprises an inlaid cylinder 71, a mounting block 72 is inlaid and installed on the side face of the inlaid cylinder 71, the other end of the mounting block 72 is fixedly embedded with a movable plunger 73, the other end of the movable plunger 73 is movably sleeved with a telescopic cylinder 74, one side end of the telescopic cylinder 74 is fixedly connected with a base, the side surface of the sliding column 891 and a sliding round hole 86 on the sliding side plate 81 are mutually and slidably sleeved, the outer surface of the sliding column 891 is uniformly coated with a layer of lubricating grease, the sliding round hole 86 penetrates from one side to the other side surface of the top end of the sliding side plate 81, the back surface of the sliding side plate 81 is provided with a sliding round hole 86, the bottom end of the sliding side plate 81 is slidably attached with a connecting bottom plate 87, the side surface of the connecting bottom plate 87 is embedded and mounted with the outer side of the fixed bottom plate 1, the back surface of the side surface of the connecting bottom plate 87 is embedded and mounted with a fixed back plate 88, the side surface of the fixed back plate 88 is embedded and mounted with a reset spring 89, the left and right ends of the side, close to the fixed backboard 88, of the fixed backboard 88 are embedded with sliding posts 891.

Referring to fig. 3-6 of the specification, the elastic reset assembly 8 includes a sliding side plate 81, a fixed top plate 82 is inlaid and mounted at the top end of the sliding side plate 81, a through circular hole 83 is formed in the side surface of the fixed top plate 82, a fixed column 84 is inlaid and mounted in the through circular hole 83, and an arc-shaped bottom plate 85 is inlaid and mounted at the other side end of the fixed column 84.

The implementation mode specifically comprises the following steps: the arc-shaped bottom plate 85 is embedded and installed at the other side end of the fixed column 84, so that when one end of the sliding column 891 excessively contracts due to inertia in the transverse reciprocating sliding process, one end of the fixed column 84 contacts the surface of the arc-shaped bottom plate 85, and the whole buffering effect is achieved.

Referring to fig. 4-7 of the specification, the number of the elastic reset assemblies 8 is two, the two elastic reset assemblies 8 are respectively located at two side ends of the linkage structure 6, the number of the fixed sliding seats 9 is two, the two fixed sliding seats 9 are respectively installed on inner faces of the two fixed side face openings 4 at the left side and the right side of the fixed bottom plate 1, and the whole materials of the fixed sliding seats 9 are all made of alloy materials.

The implementation mode specifically comprises the following steps: firstly, two fixed sliding seats 9 are respectively arranged on the inner faces of two fixed side face openings 4 on the left side and the right side of the fixed bottom plate 1, so that two power plates 69 can respectively transversely move on the fixed sliding seats 9 in the linkage process, thereby achieving the function of sliding adjustment and further improving the linkage effect and the smoothness of the device.

The forging die method of the bowl head hanging plate comprises the following steps: s1, blank making: the main function of the blank making step is to redistribute the volume of the blank or change the axial shape of the blank, reasonably distribute the volume of the blank, ensure that the cross-sectional area of the blank along the axial line is approximately matched with that of the forging, and is beneficial to filling the cavity with the forging metal, and the blank making step mainly comprises upsetting, drawing, rolling, flattening, shoulder pressing, clamping, forming and bending;

s2, die forging step: the die forging step comprises a pre-forging step and a final-forging step, wherein the pre-forging step and the final-forging step are used for forging blanks subjected to blank making to obtain forgings with required shapes and sizes, the used grooves are called forging die bores or die forging grooves, the pre-forging step and the final-forging step are needed, and whether the pre-forging step is adopted or not can be determined according to specific conditions;

s3, cutting off: the main function of the cutting step is to cut and separate the forging from the bar stock, when a plurality of die forgings are adopted, the forged forging is cut off, so that the next forging can be continuously forged or burrs and jaws can be cut off;

s4, oxide skin treatment: the adhered forging oxide skin remained in the lower die and the upper die is blown off by high-pressure gas, so that the cleanliness degree of the inner cavities of the upper die and the lower die is ensured, and the continuous and stable execution of the subsequent forging work is facilitated;

s5, collecting materials: and cooling and intensively storing the forged workpiece, grinding burrs on the surface of the workpiece after the forging, and finally inspecting the surface and the size of the workpiece, packaging and storing the workpiece after the forging is error-free.

The working principle of the invention is as follows:

the first step: first the operator normally assembles the various components of the device and then normally starts the device.

And a second step of: firstly, operating personnel start telescopic cylinder 74, telescopic cylinder 74 drives movable plunger 73 and transversely contracts this moment, at this moment, drive the installation piece 72 of its side end through movable plunger 73 and carry out the inboard removal, at this moment, drive the inboard removal towards fixed bottom plate 1 of power board 69 through installation piece 72, slide notch 618 on the bottom of power board 69 can carry out horizontal centering slip in the surface department of fixed rectangular 10 on fixed slide 9 this moment, at this moment in the in-process of power board 69 centering removal, one side through connecting plate 63 and the fixed curb plate 67 on its surface is exerted pressure on one side of linkage rotating board 61, make it rotatory, at this moment fixed pivot 64 and the adaptation pivot 68 of the respective surface of connecting plate 63 and fixed curb plate 67 carry out the adaptation rotation on the top terminal surface of one side of linkage rotating board 61 and the top of power board 69 respectively, so as to ensure the smooth degree of linkage rotating board 61 in the swivel work, at this moment, the action of utilizing self rotation is utilized to drive one power board 69 of its opposite side this moment, and move towards the center department of moving of linkage rotating board 61, and then utilize two power boards 69 to carry out centering removal, the connecting plate 63 and fixed die carrier 2 place the bottom face of work piece position 2 on the side face of side and the fixed die holder 2, the manual work piece 3 is moved the distance is realized, and the manual work piece position is moved more accurately and is adjusted to the manual work position is more than the manual work is carried out, and is more than the fixed to the position is easy to the manual work is moved to the position of the place on the bottom face 2.

And a third step of: the operator first closes the device normally, then checks whether the fixity between the various components of the device is normal, and then replaces and repairs the parts inside the device that are more subject to aging and wear.

The last points to be described are: first, in the description of the present application, it should be noted that, unless otherwise specified and defined, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be mechanical or electrical, or may be a direct connection between two elements, and "upper," "lower," "left," "right," etc. are merely used to indicate relative positional relationships, which may be changed when the absolute position of the object being described is changed;

secondly: in the drawings of the disclosed embodiments, only the structures related to the embodiments of the present disclosure are referred to, and other structures can refer to the common design, so that the same embodiment and different embodiments of the present disclosure can be combined with each other under the condition of no conflict;

finally: the foregoing description of the preferred embodiments of the invention is not intended to limit the invention to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and principles of the invention are intended to be included within the scope of the invention.

Claims (8)

1. The utility model provides a forging die of first link plate of bowl, includes PMKD (1), lower mould base (2) are inlayed and are installed on the top of PMKD (1), fixed chamber (3), its characterized in that have been seted up on the top of lower mould base (2): fixed side ports (4) are formed in the left side and the right side of the lower die base (2), fixed slots (5) are formed in the left end and the right end of the fixed bottom plate (1), a linkage structure (6) is rotatably sleeved at the top end of the fixed bottom plate (1), a driving assembly (7) is mounted on one side of the top end of the fixed bottom plate (1), an elastic reset assembly (8) is mounted on the side face of the linkage structure (6), a fixed sliding seat (9) is mounted in the fixed slots (5), and a fixed strip (10) is mounted on the top end of the fixed sliding seat (9) in an embedded mode;

the linkage structure (6) comprises a linkage rotating plate (61), fixed rotating openings (62) are formed in the left side and the right side of the top end of the linkage rotating plate (61), connecting plates (63) are rotatably mounted on the top ends of the fixed rotating openings (62), fixed rotating shafts (64) are mounted on one ends of the connecting plates (63) in an embedded mode, positioning rotating shafts (65) are rotatably sleeved on the top ends of the linkage rotating plate (61), the bottom ends of the positioning rotating shafts (65) penetrate through the inside of the linkage rotating plate (61) and extend to the top end face of a fixed bottom plate (1), the linkage rotating plate is fixedly mounted on the top end of the linkage rotating plate (61), rotating round holes (66) are formed in the surface of the linkage rotating plate (61), fixed side plates (67) are mounted on the other ends of the connecting plates (63) in an embedded mode, and adapter rotating shafts (68) are mounted on the other ends of the fixed side plates (67).

2. The die for forging a bowl head hanging plate according to claim 1, wherein: the other end of adaptation pivot (68) rotates the cover and is equipped with power board (69), adaptation notch (610) have been seted up to the side of power board (69), top curb plate (611) are inlayed on top one side of power board (69), fixed mouth (612) have been seted up on bottom one side of top curb plate (611), fixed pin (613) are installed in the inside embedding of fixed mouth (612).

3. A die for forging a bowl head hanging plate according to claim 2, wherein: the side of top curb plate (611) is inlayed and is installed mounting panel (614), the fixed push pedal (615) of the other end fixedly connected with of mounting panel (614), embedded slotted hole (616) have been seted up to the lateral surface of power board (69), adaptation round hole (617) have been seted up on the top of power board (69), slide notch (618) with fixed rectangular (10) looks adaptation have been seted up to the bottom of power board (69), arc adaptation mouth (619) have been seted up to the side of fixed push pedal (615).

4. The die for forging a bowl head hanging plate according to claim 1, wherein: the driving assembly (7) comprises an embedded cylinder (71), a mounting block (72) is embedded in the side face of the embedded cylinder (71), a movable plunger (73) is fixedly embedded at the other end of the mounting block (72), a telescopic cylinder (74) is movably sleeved at the other end of the movable plunger (73), and a base is fixedly connected to one side end of the telescopic cylinder (74).

5. The die for forging a bowl head hanging plate according to claim 1, wherein: the elastic reset assembly (8) comprises a sliding side plate (81), a fixed top plate (82) is inlaid at the top end of the sliding side plate (81), a through round hole (83) is formed in the side face of the fixed top plate (82), a fixed column body (84) is inlaid in the through round hole (83), and an arc-shaped bottom plate (85) is inlaid at the other side end of the fixed column body (84).

6. The die for forging a bowl head hanging plate according to claim 5, wherein: the utility model discloses a sliding column structure, including fixed backplate (88), slip curb plate (81) and sliding column, slip round hole (86) has been seted up at the back of slip curb plate (81), the laminating of bottom slip of slip curb plate (81) has connecting plate (87), the side of connecting plate (87) is inlayed with the outside of fixed baseplate (1) and is installed, the side back of connecting plate (87) is inlayed and is installed fixed backplate (88), reset spring (89) are inlayed and are installed to the side of fixed backplate (88), both ends are inlayed and are installed sliding column (891) about the one side of being close to fixed backplate (88).

7. The die for forging a bowl head hanging plate according to claim 6, wherein: the side of the sliding column (891) and the sliding round hole (86) on the sliding side plate (81) are mutually and slidably sleeved, a layer of lubricating grease is uniformly coated on the outer surface of the sliding column (891), and the sliding round hole (86) penetrates from one side of the top end of the sliding side plate (81) to the other side.

8. The die for forging a bowl head hanging plate according to claim 1, wherein: the number of the elastic reset components (8) is two, the two elastic reset components (8) are respectively located at two side ends of the linkage structure (6), the number of the fixed sliding seats (9) is two, the two fixed sliding seats (9) are respectively installed on inner faces of the two fixed side face openings (4) at the left side and the right side of the fixed bottom plate (1), and the whole material of the fixed sliding seats (9) is made of alloy materials.