CN114378241B - Workpiece forging and pressing processing supporting device and method for mechanical blade die - Google Patents

Abstract

The invention discloses a workpiece forging and processing supporting device and method for a mechanical blade die, comprising supporting columns, connecting bolts, a forging and processing platform, side uprights, upright bolts and an assembly screw, wherein when the forging and processing of the mechanical blade die is actually carried out, the mechanical blade die is firstly placed between clamping pieces in a processing platform plate, the mechanical blade die is fixed by the clamping pieces under the action of clamping piece springs, the processing platform plate is placed above a supporting plate, the actual height of the processing platform plate is adjusted by adjusting the height of a lifting screw, the position of a pushing screw is adjusted, the position of the processing platform plate is finely adjusted by matching a pushing plate with a guide roller in the supporting plate, the forging and processing operation is carried out on the mechanical blade die fixed in the processing platform plate by using external forging and pressing equipment, so that the fine adjustment of the processing position of the mechanical blade die is effectively realized, meanwhile, the forging and processing of a plurality of groups of mechanical blade dies can be simultaneously carried out, and the actual working efficiency of the mechanical blade die is effectively improved.

Description

Workpiece forging and pressing processing supporting device and method for mechanical blade die

Technical Field

The invention relates to the technical field of forging and pressing processing equipment, in particular to a workpiece forging and pressing processing supporting device and method for a mechanical blade die.

Background

The forging and pressing process is one of two components of forging and pressing to make metal blank to be plastic deformed to obtain forging with certain mechanical performance and certain shape and size, and the forging and pressing process can eliminate the cast loosening and other defects of metal produced during smelting and optimize microstructure.

The patent number CN202022297795.0 provides a panel processing brace table, drive roll and driven voller suit conveyer belt through the brace table main part top mounting groove inside that sets up, and drive through driving roll through driving motor, realize that the panel of placing at conveyer belt top carries out automatic transmission and uses, when the fixed centre gripping processing use is carried out to the panel to needs simultaneously, the backup pad of pressing close to conveyer belt one side installation through the mounting groove inside is convenient for play under the conveyer belt stationary state and support its top panel and use, and advance to fixed limiting plate one side through the inside electric putter drive movable push pedal of first box, be convenient for carry out centre gripping fixed use according to panel actual width size, simple structure and be convenient for panel automation carry material processing use and be convenient for nimble regulation carry out centre gripping fixed use according to panel actual width size. The above patent has the following problems:

1. when the die is placed in the processing area, the processing position of the forging equipment is deviated due to the error problem, and the device cannot accurately finely adjust the position of the die;

2. the processing area of the device can only carry out forging and pressing processing on one group of dies at the same time, and the processing efficiency of a single group of dies is lower.

Disclosure of Invention

The invention aims to provide a workpiece forging and pressing supporting device and method for a mechanical blade die, wherein the mechanical blade die is placed between clamping pieces in a processing platform plate in the using process, the mechanical blade die is fixed by the clamping pieces under the action of clamping piece springs, the processing platform plate is placed above a supporting plate, the actual height of the processing platform plate is adjusted by adjusting the height of a lifting screw, the position of a pushing screw is adjusted, the pushing plate is matched with a guide roller in the supporting plate to finely adjust the position of the processing platform plate, external forging equipment is started, and forging and pressing operation is performed on the mechanical blade die fixed in the processing platform plate, so that the problems in the background art are solved.

In order to achieve the above purpose, the present invention provides the following technical solutions:

the utility model provides a work piece forging and pressing processing strutting arrangement for machinery sword mould, includes support post, connecting bolt, forging and pressing processing platform, side grudging post, grudging post bolt and equipment screw rod, the bottom four corners of forging and pressing processing platform do not is equipped with the support post, install connecting bolt on the support post, forging and pressing processing platform's left and right sides is equipped with the side grudging post respectively, the grudging post bolt is installed in the outside of side grudging post, the equipment screw rod is installed to the upside of side grudging post.

Preferably, the support column comprises a column base, a base bolt, an adjusting sleeve, an inner sliding groove, a buffer spring, a buffer plate, a positioning screw, a buckle nut, a movable column, a side sliding block and a connecting lug plate, wherein the column base is provided with the base bolt in a side way, the column base is internally provided with the adjusting sleeve, the inner side surface of the adjusting sleeve is provided with the inner sliding groove, the bottom of the adjusting sleeve is provided with the buffer spring, the buffer plate is arranged on the upper side of the buffer spring, the positioning screw is arranged on the side surface of the adjusting sleeve, the buckle nut is arranged on the positioning screw, the movable column is arranged in the adjusting sleeve, the side sliding blocks are arranged at the lower ends of the left side and the right side of the movable column, and the connecting lug plate is arranged at the top of the movable column.

Preferably, the forging and pressing processing platform includes platform frame, bottom plate, lifting screw, combination nut, holds groove, backup pad, sliding shaft, guide roll, processing platform board, propelling movement screw rod and propelling movement board, the bottom center department of platform frame is equipped with the bottom plate, install lifting screw rod in the bottom plate, lifting screw rod's outside installation combination nut, the inside of platform frame is equipped with interior holding groove, lifting screw rod's top is equipped with the backup pad, the internally mounted sliding shaft of backup pad, install the guide roll in the sliding shaft, the top installation processing platform board of backup pad, the propelling movement screw rod is installed respectively to both sides around the platform frame, the end of propelling movement screw rod is equipped with the propelling movement board.

Preferably, the processing platform board comprises a processing board body, an embedded groove, a clamping piece spring and a clamping piece plate, wherein the embedded groove is formed in the inner side of the upper end of the processing board body, the clamping piece spring is arranged in the embedded groove, and the clamping piece plate is arranged at the tail end of the clamping piece spring.

Preferably, the mechanical blade die is clamped and installed between clamping piece plates on the front side and the rear side.

Preferably, the positioning screw rod penetrates through the adjusting sleeve and is nested in the through hole on the side face of the movable upright post.

The invention provides another technical scheme that: the implementation method of the workpiece forging and pressing supporting device for the mechanical blade die comprises the following steps of:

step one: placing the mechanical blade die between clamping piece plates in the processing platform plate, and fixing the mechanical blade die by the clamping piece plates under the action of clamping piece springs;

step two: placing the processing platform plate above the supporting plate, and adjusting the actual height of the processing platform plate by adjusting the height of the lifting screw;

step three: the position of the pushing screw is regulated, and the pushing plate is matched with a guide roller in the supporting plate to finely adjust the position of the processing platform plate;

step four: and starting external forging equipment, and forging and machining the mechanical blade die fixed in the machining platform plate.

Compared with the prior art, the invention has the beneficial effects that:

according to the workpiece forging and pressing processing supporting device and method for the mechanical edge die, when forging and pressing processing of the mechanical edge die is actually performed, the mechanical edge die is firstly placed between clamping piece plates in a processing platform plate, the mechanical edge die is fixed by the clamping piece plates under the action of the clamping piece springs, the processing platform plate is placed above a supporting plate, the actual height of the processing platform plate is adjusted by adjusting the height of a lifting screw, the position of a pushing screw is adjusted, the pushing plate is matched with a guide roller in the supporting plate to finely adjust the position of the processing platform plate, external forging equipment is started, forging and pressing processing operation is performed on the mechanical edge die fixed in the processing platform plate, fine adjustment of the processing position of the mechanical edge die is effectively realized, the processing position of the forging equipment is adapted, meanwhile, forging and pressing processing can be performed on multiple groups of mechanical edge dies simultaneously, and the actual working efficiency of the mechanical edge die is effectively improved.

Drawings

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

FIG. 2 is a schematic cross-sectional view of a support column of the present invention;

FIG. 3 is a schematic side view of a forging platform according to the present invention;

FIG. 4 is a schematic view of a partially cut-away structure of a forging platform of the present invention;

FIG. 5 is a schematic top view of the forging platform of the present invention;

FIG. 6 is a schematic top view of a portion of the forging platform of the present invention;

fig. 7 is a schematic structural view of the processing platform plate of the present invention.

In the figure: 1. a support column; 101. a column base; 102. a base bolt; 103. adjusting the sleeve; 104. an inner chute; 105. a buffer spring; 106. a buffer plate; 107. positioning a screw; 108. a snap nut; 109. a movable upright post; 1010. a side slider; 1011. connecting an ear plate; 2. a connecting bolt; 3. forging and pressing a processing platform; 31. a platform outer frame; 32. a bottom connecting plate; 33. lifting screw rods; 34. a combination nut; 35. an inner accommodation groove; 36. a support plate; 37. a sliding shaft; 38. a guide roller; 39. processing a platform plate; 391. processing the plate body; 392. an embedded groove; 393. a clip spring; 394. a clip plate; 310. pushing the screw; 311. a pushing plate; 4. a side stand; 5. a vertical frame bolt; 6. and assembling a screw.

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.

Referring to fig. 1, a workpiece forging and pressing supporting device for a mechanical blade die comprises a supporting column 1, connecting bolts 2, a forging and pressing processing platform 3, side uprights 4, upright bolts 5 and an assembling screw 6, wherein the supporting column 1 is respectively arranged at four corners of the bottom of the forging and pressing processing platform 3, the connecting bolts 2 are installed on the supporting column 1, the side uprights 4 are respectively arranged at the left side and the right side of the forging and pressing processing platform 3, the upright bolts 5 are installed at the outer sides of the side uprights 4, the assembling screw 6 is installed at the upper side of the side uprights 4, and the assembling screw 6 can be installed below a forging and pressing part of forging and pressing equipment according to the requirement of an actual forging and pressing machine tool.

Referring to fig. 2, the support column 1 includes a column base 101, a base bolt 102, an adjusting sleeve 103, an inner sliding groove 104, a buffer spring 105, a buffer plate 106, a positioning screw 107, a fastening nut 108, a movable column 109, side sliding blocks 1010 and a connecting lug plate 1011, wherein the column base 101 is provided with the base bolt 102 on the side surface, the adjusting sleeve 103 is internally provided with the adjusting sleeve 103, the inner sliding groove 104 is arranged on the inner side surface of the adjusting sleeve 103, the buffer spring 105 is arranged at the inner bottom end of the adjusting sleeve 103, the buffer plate 106 is arranged on the upper side of the buffer spring 105, the positioning screw 107 is arranged on the side surface of the adjusting sleeve 103, the fastening nut 108 is arranged on the positioning screw 107, the movable column 109 is arranged in the adjusting sleeve 103 in a penetrating manner and is nested in a through hole on the side surface of the movable column 109, the lower ends of the left side and the right side of the movable column 109 are provided with the side sliding blocks 1010, and the top of the movable column 109 is provided with the connecting lug plate 1011.

Referring to fig. 3-6, the forging and pressing processing platform 3 includes a platform outer frame 31, a bottom connecting plate 32, a lifting screw 33, a combination nut 34, an inner holding groove 35, a supporting plate 36, a sliding shaft 37, a guide roller 38, a processing platform plate 39, a pushing screw 310 and a pushing plate 311, the bottom connecting plate 32 is arranged at the bottom center of the platform outer frame 31, the lifting screw 33 is installed in the bottom connecting plate 32, the combination nut 34 is installed at the outer side of the lifting screw 33, the inner holding groove 35 is arranged in the platform outer frame 31, the supporting plate 36 is arranged at the top of the lifting screw 33, the sliding shaft 37 is installed in the supporting plate 36, the guide roller 38 is installed in the sliding shaft 37, the processing platform plate 39 is installed above the supporting plate 36, the processing platform plate 39 can be displaced under the action of the guide roller 38, the pushing screw 310 is installed at the front side and the rear side of the platform outer frame 31, the pushing screw 311 is arranged at the tail end of the pushing screw 310, and the pushing plate 311 is controlled to advance or retreat by adjusting the extending length of the pushing screw 310, so that the fine adjustment operation on the front and rear directions of the processing platform plate 39 is matched with the guide roller 38, and the forging and pressing equipment is prevented from being scrapped due to forging and pressing errors.

Referring to fig. 7, the processing platform plate 39 includes a processing plate body 391, an embedded groove 392, a clamp spring 393 and a clamp plate 394, wherein the embedded groove 392 is disposed on the inner side of the upper end of the processing plate body 391, the clamp spring 393 is disposed in the embedded groove 392, the clamp plate 394 is disposed at the end of the clamp spring 393, and the mechanical blade mold is mounted between the clamp plates 394 on the front and rear sides in a clamping manner.

In order to better show the implementation flow of the workpiece forging and pressing supporting device for the mechanical blade die, the embodiment now provides an implementation method of the workpiece forging and pressing supporting device for the mechanical blade die, which comprises the following steps:

step one: the mechanical blade die is placed between the clamp plates 394 in the processing platform plate 39, and is fixed by the clamp plates 394 under the action of the clamp springs 393;

step two: placing the machining platform plate 39 above the support plate 36, and adjusting the actual height of the machining platform plate 39 by adjusting the height of the lifting screw 33;

step three: the position of the pushing screw 310 is adjusted, and the pushing plate 311 is matched with the guide roller 38 in the supporting plate 36 to finely adjust the position of the processing platform plate 39;

step four: the external forging apparatus is started to forge the mechanical blade die fixed in the machining platen 39.

The working principle of the invention is as follows: when the forging and pressing processing of the mechanical blade die is actually carried out, the mechanical blade die is firstly placed between clamping plates 394 in a processing platform plate 39, the mechanical blade die is fixed by the clamping plates 394 under the action of clamping springs 393, the processing platform plate 39 is placed above a supporting plate 36, the actual height of the processing platform plate 39 is adjusted by adjusting the height of a lifting screw 33, the position of a pushing screw 310 is adjusted, the position of the processing platform plate 39 is finely adjusted by matching the pushing plate 311 with a guide roller 38 in the supporting plate 36, external forging equipment is started, and the forging and pressing processing operation is carried out on the mechanical blade die fixed in the processing platform plate 39.

To sum up: according to the workpiece forging processing supporting device and method for the mechanical blade die, when the forging processing of the mechanical blade die is actually carried out, the mechanical blade die is firstly placed between the clamping plates 394 in the processing platform plate 39, the mechanical blade die is fixed by the clamping plates 394 under the action of the clamping springs 393, the processing platform plate 39 is placed above the supporting plate 36, the actual height of the processing platform plate 39 is adjusted by adjusting the height of the lifting screw 33, the position of the pushing screw 310 is adjusted, the pushing plate 311 is matched with the guide roller 38 in the supporting plate 36 to finely adjust the position of the processing platform plate 39, and the external forging equipment is started to carry out forging processing operation on the mechanical blade die fixed in the processing platform plate 39.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should be covered by the protection scope of the present invention by making equivalents and modifications to the technical solution and the inventive concept thereof.

Claims (5)

1. Work piece forging and pressing processing strutting arrangement for machinery sword mould, including support post (1), connecting bolt (2), forging and pressing processing platform (3), side stand (4), stand bolt (5) and equipment screw rod (6), its characterized in that: the bottom four corners of the forging processing platform (3) are respectively provided with a supporting column (1), connecting bolts (2) are arranged on the supporting columns (1), side uprights (4) are arranged on the left side and the right side of the forging processing platform (3), side uprights (4) are externally provided with upright bolts (5), the upper sides of the side uprights (4) are provided with assembly screws (6), the forging processing platform (3) comprises a platform outer frame (31), a bottom connecting plate (32), lifting screws (33), combined nuts (34), an inner accommodating groove (35), a supporting plate (36), a sliding shaft (37), a guide roller (38), a processing platform plate (39), a pushing screw (310) and a pushing plate (311), the bottom center of the platform outer frame (31) is provided with a bottom connecting plate (32), the lifting screws (33) are arranged in the bottom connecting plate (32), the lifting screws (33) are externally provided with combined nuts (34), the inner accommodating groove (35) is arranged in the platform outer frame (31), the top of the lifting screws (33) is provided with the supporting plate (36), the inner supporting plate (36) is provided with the sliding shaft (37), the processing platform board (39) is installed to the top of backup pad (36), push screw (310) are installed respectively to the front and back both sides of platform frame (31), the end of push screw (310) is equipped with push plate (311), processing platform board (39) are including processing board body (391), embedded groove (392), clamp spring (393) and clamp board (394), the upper end inboard of processing board body (391) is equipped with embedded groove (392), be equipped with clamp spring (393) in embedded groove (392), the end of clamp spring (393) is equipped with clamp board (394), adjusts the position of push screw (310), carries out the fine setting to the position of processing platform board (39) by guide roll (38) in push plate (311) cooperation backup pad (36).

2. A workpiece forging and pressing supporting device for a mechanical blade die as recited in claim 1, wherein: support post (1) include stand base (101), base bolt (102), adjustment sleeve (103), interior chute (104), buffer spring (105), buffer board (106), positioning screw (107), buckle nut (108), movable stand (109), sideslip piece (1010) and connect otic placode (1011), side-mounting base bolt (102) of stand base (101), internally mounted adjustment sleeve (103) of stand base (101), the medial surface of adjustment sleeve (103) is equipped with interior spout (104), the inside bottom of adjustment sleeve (103) is equipped with buffer spring (105), the upside of buffer spring (105) is equipped with buffer board (106), side-mounting positioning screw (107) of adjustment sleeve (103), install buckle nut (108) on positioning screw (107), install movable stand (109) in adjustment sleeve (103), the left and right sides lower extreme of movable stand (109) is equipped with side slider (1010), the top of movable stand (109) is equipped with connect otic placode (1011).

3. A workpiece forging and pressing supporting device for a mechanical blade die as recited in claim 1, wherein: the mechanical blade mould is clamped and installed between clamping piece plates (394) on the front side and the rear side.

4. A workpiece forging and pressing supporting device for a mechanical blade die as recited in claim 2, wherein: the positioning screw rod (107) penetrates through the adjusting sleeve (103) and is nested and installed in a through hole on the side face of the movable upright post (109).

5. A method of implementing a workpiece forging support device for a machine edge die as recited in any one of claims 1 to 4, comprising the steps of:

s1: placing the mechanical blade die between clamping plates (394) in the processing platform plate (39), and fixing the mechanical blade die by the clamping plates (394) under the action of clamping springs (393);

s2: placing a processing platform plate (39) above the supporting plate (36), and adjusting the actual height of the processing platform plate (39) by adjusting the height of the lifting screw (33);

s3: the position of the pushing screw (310) is adjusted, and the pushing plate (311) is matched with a guide roller (38) in the supporting plate (36) to finely adjust the position of the processing platform plate (39);

s4: and starting an external forging device, and forging and machining the mechanical blade die fixed in the machining platform plate (39).