CN204108203U - A kind of consubstantiality double-station forging processing unit (plant) - Google Patents

Abstract

The utility model relates to a kind of consubstantiality double-station forging processing unit (plant), belongs to forging machinery apparatus field.Consubstantiality double-station forging processing unit (plant) of the present utility model, comprises drive unit, top mold frame and lower mold holder; Lower mold holder is installed on the table; Drive unit drives the relative lower mold holder motion of top mold frame, and top mold frame is provided with Preform Die patrix and finish forge mould patrix; Lower mold holder is provided with Preform Die counterdie and finish forge mould counterdie; Drive unit drives the motion of top mold frame relative lower mold holder, and Preform Die patrix coordinates with Preform Die counterdie and carries out blocking processing to workpiece; Finish forge mould patrix and the cooperation of finish forge mould counterdie simultaneously carries out finish forge processing to workpiece.Consubstantiality double-station forging processing unit (plant) of the present utility model, finish forge and blocking carry out on same equipment simultaneously, eliminate the workpiece transfer process between finish forge and blocking operation, forging die efficiency is high, production cost.

Description

A kind of consubstantiality double-station forging processing unit (plant)

Technical field

The utility model relates to a kind of consubstantiality double-station forging processing unit (plant), belongs to forging machinery apparatus field.

Background technology

the die forging of current domestic employing is that blocking separates with finish forge and processes on two equipment mostly, again workpiece transfer is carried out finish forge processing to finish forge punch press after blocking machines.This equipment needs an operative employee to carry out the transfer of workpiece specially in die forging process, not only reduces the die forging cost that operating efficiency also add workpiece.

Utility model content

Goal of the invention of the present utility model is: the die forging inefficiency, the problem that cost is high that exist for prior art, provide the consubstantiality double-station forging processing unit (plant) that a kind of die forging operating efficiency is high, cost is low.

To achieve these goals, the technical solution adopted in the utility model is:

A kind of consubstantiality double-station forging processing unit (plant), comprises drive unit, top mold frame and lower mold holder; Described lower mold holder is installed on the table; Described drive unit drives the relatively described lower mold holder motion of described top mold frame, and described top mold frame is provided with Preform Die patrix and finish forge mould patrix; Described lower mold holder is provided with Preform Die counterdie and finish forge mould counterdie; Described drive unit drives the motion of described top mold frame relatively described lower mold holder, and described Preform Die patrix coordinates with described Preform Die counterdie and carries out blocking processing to workpiece; Described finish forge mould patrix and the cooperation of described finish forge mould counterdie simultaneously carries out finish forge processing to workpiece.The consubstantiality double-station forging processing unit (plant) of said structure, drive unit can be forcing press, cylinder, also can motor; Device adds man-hour to workpiece, first will the workpiece of finish forge can being needed to be placed on finish forge mould counterdie by site operation personnel, being placed on Preform Die counterdie by needing the workpiece of blocking; Then start drive unit, drive unit drives the relatively described lower mold holder motion of described top mold frame, on same equipment, to needing the workpiece of finish forge and need the workpiece of blocking to process simultaneously.After above-mentioned machining, finish forge mould is shaping, Preform Die need process finish forge further, by site operation personnel, the workpiece after finish forge and blocking is taken out, and the workpiece after blocking is placed on finish forge mould counterdie, then will the workpiece of blocking be needed in addition to be placed on Preform Die counterdie, start drive unit, carry out the blocking of above-mentioned workpiece and the processing of finish forge.Consubstantiality double-station forging processing unit (plant) of the present utility model, finish forge and blocking carry out on same equipment simultaneously, eliminate the workpiece transfer process between finish forge and blocking operation, improve the efficiency of die forging; Finish forge and blocking carry out on same equipment simultaneously, and each workshop section can reduce operating personnel and a driving arrangement, reduces the production cost of mould section.

As preferred version of the present utility model, described Preform Die patrix is upper pier head, and described upper pier head is cylindrical shape; The upper end of described upper pier head is fixed in described top mold frame; Described Preform Die counterdie is lower pier nose, and described lower pier nose is cylindrical shape, and the lower end of described lower pier nose is fixed in described top mold frame; Described lower pier nose and described upper pier head concentric.The Preform Die of said structure, structure is simple, easy for installation; During die forging work, described upper pier head coordinates with described lower pier nose and carries out blocking processing to workpiece, makes workpiece locally thicker; Described lower pier nose and described upper pier head concentric simultaneously, device weight capacity is good, and device is not fragile.

As preferred version of the present utility model, described upper pier head comprises cylinder one and the cylinder two of one connection, and described cylinder one is positioned at the top of described cylinder two, and the diameter of described cylinder one is greater than the diameter of described cylinder two; Be socketed with upper pier head trim ring outside described cylinder two, described upper pier head trim ring is bolted in top mold frame, and described upper pier head trim ring limits axis and the radial motion of described upper pier head.The upper pier head of said structure, structure is simple, easy for installation, and upper pier head trim ring to be socketed on described cylinder two and to be bolted in top mold frame, and described upper pier head is installed firm, and device is not fragile.

As preferred version of the present utility model, described lower pier nose lower end is provided with external screw thread, and the external thread part of described lower pier nose lower end is socketed with lower pier nose seat, and described lower pier nose seat is provided with the internal thread coordinated with described external screw thread; Described lower pier nose is arranged on described lower mold holder by described external screw thread; Described lower pier nose seat is arranged on described lower mold holder by bolt, the axis of the described lower pier nose of described lower pier nose seat restriction and radial motion.The lower pier nose of said structure, structure is simple, easy for installation, and the height of described lower pier nose in the vertical direction can be regulated by described external screw thread and described internal thread, further, axis and the radial motion of the described lower pier nose of described lower pier nose seat restriction are set, the good stability of device, device is not fragile, safety coefficient is high.

As preferred version of the present utility model, be provided with adjustment cushion block above described lower pier nose seat, described adjustment cushion block contacts with described lower pier nose.Above described lower pier nose seat, adjustment cushion block is set, can adjust the height of lower pier nose in the vertical direction, the spacing of adjustment upper pier head and lower pier nose, enables blocking and finish forge carry out simultaneously, can also increase the weight capacity of lower pier nose, device weight capacity is good, safety coefficient is high simultaneously.

As preferred version of the present utility model, described top mold frame is provided with upper padding plate and locating piece, described locating piece is positioned at outside described upper padding plate; Described finish forge mould patrix contacts with described upper padding plate, and described locating piece limits the radial motion of described finish forge mould patrix.The consubstantiality double-station forging processing unit (plant) of said structure, described top mold frame arranges upper padding plate, and during device work, top mold frame promotes described finish forge mould patrix by described upper padding plate and moves downward, and can improve the weight capacity of device, the safety coefficient of device is high; Simultaneously at upper padding plate arranged outside locating piece, the radial motion of described finish forge mould patrix can be limited.During the work of this sampling device, finish forge mould patrix is without skew, and die forging Workpiece Machining Accuracy is high, and equipment safety is good.

As preferred version of the present utility model, inside described locating piece, be provided with upper holder block; The contact surface of described locating piece and described upper holder block is the conical surface one, and the upper end diameter of the described conical surface one is less than lower end diameter; Be socketed with Upper Die-sleeve outside described finish forge mould patrix, described Upper Die-sleeve and described finish forge mould patrix are together arranged on the inner side of described upper holder block; The contact surface of described Upper Die-sleeve and described upper holder block is the conical surface two, and the diameter of the described conical surface two upper end is greater than the diameter of the described conical surface two lower end.The locating piece of said structure and finish forge mould annexation, during device work, finish forge mould patrix has by workpiece reaction force upwards the trend moved upward, finish forge mould patrix can be fastened in locating piece by the described conical surface one by locating piece, improve the stability of device, the described conical surface two can prevent locating piece described in finish forge mould desulfurization simultaneously.

As preferred version of the present utility model, described locating piece comprises locating piece one and locating piece two, and described locating piece one and described locating piece two are about the Central Symmetry of described upper padding plate; Described upper holder block is divided into two pieces, and contacts with described locating piece two medial surface with described locating piece one respectively.Be two by locating piece and then upper holder block portion, both can reduce the input of device materials, it can also be avoided to be subject to the extruding of finish forge mould patrix and to damage.

As preferred version of the present utility model, described lower mold holder is provided with lower bolster, above described lower bolster, lower cushion block is installed; Described lower cushion block upper surface contacts with described finish forge mould counterdie lower surface, described finish forge mould patrix and described finish forge mould counterdie concentric; Described finish forge mould counterdie lateral surface is socketed with lower die-sleeve, and described lower die-sleeve lower end is socketed on described lower cushion block simultaneously, and described lower die-sleeve limits diametrically moving of described finish forge mould and described lower cushion block.The consubstantiality double-station forging processing unit (plant) of said structure, lower mold holder and finish forge mould counterdie syndeton are simple, and device weight capacity is large, can the load-bearing pressure of more than load-bearing 1000T, and equipment safety is good and have wide range of applications.

As preferred version of the present utility model, outside described lower die-sleeve, be socketed with lower clamping ring; The contact surface of described lower clamping ring and described lower die-sleeve is the face of falling vertebra; Described lower clamping ring is fixedly mounted on described lower mold holder by screw, and described lower clamping ring limits the axis of described lower die-sleeve and moves radially.Above-mentioned lower clamping ring is socketed with outside lower die-sleeve, can further by the described finish forge mould counterdie in location, device process, finish forge mould counterdie is installed firm, and Workpiece Machining Accuracy is high.

In sum, owing to have employed technique scheme, the beneficial effects of the utility model are:

Consubstantiality double-station forging processing unit (plant) of the present utility model, drive unit drives the relatively described lower mold holder motion of described top mold frame to carry out finish forge, can also complete blocking operation by Preform Die patrix and Preform Die counterdie simultaneously; Finish forge and blocking carry out on same equipment simultaneously, eliminate the workpiece transfer process between finish forge and blocking operation, improve the efficiency of die forging; Finish forge and blocking carry out on same equipment simultaneously, and each workshop section can reduce operating personnel and a driving arrangement, reduces the production cost of mould section.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model (top view);

Fig. 2 is structural representation of the present utility model (front sectional view);

Fig. 3 is part diagram of the present utility model (alignment pin front view);

Fig. 4 is part diagram of the present utility model (top mold frame);

Fig. 5 is the A-A sectional view of Fig. 4;

Fig. 6 is the B-B sectional view of Fig. 4;

Fig. 7 is part diagram of the present utility model (locating piece);

Fig. 8 is the A-A sectional view of Fig. 7;

Fig. 9 is part diagram of the present utility model (upper padding plate);

Figure 10 is the A-A sectional view of Fig. 9;

Figure 11 is part diagram of the present utility model (Upper Die-sleeve);

Figure 12 is part diagram of the present utility model (upper pier head trim ring);

Figure 13 is part diagram of the present utility model (upper pier head);

Figure 14 is part diagram of the present utility model (upper holder block);

Figure 15 is the A-A sectional view of Figure 14;

Figure 16 is part diagram of the present utility model (lower die-sleeve);

Figure 17 is part diagram of the present utility model (lower clamping ring);

Figure 18 is the A-A sectional view of Figure 17;

Figure 19 is part diagram of the present utility model (lower mold holder);

Figure 20 is the A-A sectional view of Figure 19;

Figure 21 is the B-B sectional view of Figure 19;

Figure 22 is part diagram of the present utility model (adjustment cushion block);

Figure 23 is the A-A sectional view of Figure 22;

Figure 24 is part diagram of the present utility model (lower pier nose);

Figure 25 is part diagram of the present utility model (lower pier nose seat);

Figure 26 is the A-A sectional view of Figure 25.

Mark in figure: 1-Upper Die-sleeve, 2-upper pier head trim ring, 3-upper pier head (Preform Die patrix), 301-cylinder one, pier nose (Preform Die counterdie) under 302-cylinder two, 4-, 5-adjusts cushion block, pier nose seat under 6-, 7-lower mold holder, 8-lower bolster, 9-lower cushion block, 10-lower clamping ring, 11-lower die-sleeve, 12-upper holder block, 13-locating piece, 14-upper padding plate, 15-top mold frame, 16-alignment pin, 17-finish forge mould patrix, 18-finish forge mould counterdie.

Detailed description of the invention

In order to make the purpose of this utility model, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the utility model, and be not used in restriction the utility model.

embodiment 1

As shown in Figure 1 and Figure 2; The consubstantiality double-station forging processing unit (plant) of the present embodiment, comprises top mold frame 15 and lower mold holder 7;

Top mold frame 15 central upper portion place is provided with alignment pin 16, and top mold frame 15 to be arranged on forcing press and by alignment pin 16 and forcing press concentric locating; Fig. 3 is the front view of alignment pin 16;

The lower end of top mold frame 15 is provided with upper padding plate 14 and locating piece 13, and upper padding plate 14 is concentric with top mold frame 15; Locating piece 13 comprises locating piece one and locating piece two, and locating piece one and locating piece two are positioned at outside upper padding plate 14, and about the Central Symmetry of upper padding plate 14; Fig. 4 is the structural representation of top mold frame 15, and Fig. 5 is the A-A sectional view of Fig. 4; The cylinder shape groove in top mold frame 15 centre installs backing plate 14, and two ring grooves outside the cylinder shape groove in centre install locating piece one and locating piece two respectively;

As shown in Figure 2, the medial surface of locating piece 13 is the conical surface (conical surface diameter is up big and down small), and be provided with upper holder block 12 inside locating piece 3, upper holder block 12 is divided into two pieces, contacts respectively with locating piece one with locating piece two; The lateral surface of upper holder block 12 is the conical surface, and is connected with the inner side conical surface of locating piece 13; Fig. 7 is the structural representation of locating piece 13, and Fig. 8 is the A-A sectional view of Fig. 7; Figure 14 is the structural representation of upper holder block 12, and Figure 15 is the A-A sectional view of Figure 14.

Upper Die-sleeve 1 is socketed on finish forge mould patrix 17, and Upper Die-sleeve 1 and finish forge mould patrix 17 are together arranged on the inner side of upper holder block 12, and finish forge mould contacts with upper padding plate 14 simultaneously, as shown in Figure 2; Upper holder block 12 comprises the conical surface and cylinder two parts with the contact surface of Upper Die-sleeve 1, and one end that conical surface diameter is less is positioned at below and is smoothly connected with cylinder; Figure 11 is the front sectional view of Upper Die-sleeve 1.

Top mold frame 15 is also provided with upper pier head 3, and upper pier head 3 is positioned at the outside of cushion block 14, and the cylinder concave surface that the B-B in cope match-plate pattern structural representation as shown in Figure 4 analyses and observe position goes out; As shown in figure 13, upper pier head 3 comprises cylinder 1 and the cylinder 2 302 of one connection, and cylinder 1 is positioned at the top of cylinder 2 302, and the diameter of cylinder 1 is greater than the diameter of cylinder 2 302; The outside of cylinder 2 302 is socketed with upper pier head trim ring 2, upper pier head trim ring 2 is bolted in top mold frame 15, be fixed in top mold frame 15 by upper pier head 3, the B-B that now cylinder 1 is arranged in the cope match-plate pattern structural representation shown in Fig. 4 analyses and observe the cylinder concave surface of position simultaneously; Figure 12 is upper pier head trim ring 2 front sectional view.

As shown in Figure 2, lower mold holder 7 is installed on the table, lower mold holder 7 is provided with lower bolster 8, installs lower cushion block 9 above lower bolster 8, lower bolster 8, lower cushion block 9, upper padding plate 14 and finish forge mould patrix 17 concentric locating;

Lower cushion block 9 upper surface contacts with finish forge mould counterdie 18 lower surface, lower cushion block 9 and finish forge mould counterdie 18 concentric locating; Finish forge mould counterdie 18 lateral surface is socketed with lower die-sleeve 11, and lower die-sleeve 11 lower end is socketed on lower cushion block 9 simultaneously, and lower die-sleeve 11 limits diametrically moving of finish forge mould and lower cushion block 9;

As shown in figure 16, lower die-sleeve 11 lateral surface is divided into two sections, and epimere is cylindrical shape, and hypomere is vertebral body shape (centrum diameter is up-small and down-big), and Figure 16 is the front sectional view of lower die-sleeve 11; The inner side of lower clamping ring 10 is provided with the inverted cone surface coordinated with the outside reverse taper of lower die-sleeve 11; As shown in figure 17, lower clamping ring 10 is socketed in outside the reverse taper of lower die-sleeve 11; Lower clamping ring 10 is fixedly mounted on lower mold holder 7 by screw, is fixed by lower die-sleeve 11 by the inverted cone surface of inner side simultaneously, and the motion upwards of restriction lower die-sleeve 11, is fixed on lower mold holder 7 by lower die-sleeve 11 by finish forge mould counterdie 18 simultaneously; Figure 16 is the front sectional view of lower die-sleeve, and Figure 17 is the top view of lower clamping ring 10; Figure 18 is the A-A sectional view of Figure 17.

Lower mold holder 7 is also provided with lower pier nose 4, lower pier nose 4 and upper pier head 3 concentric locating; The lower end of lower pier nose 4 is provided with external screw thread, and the external screw thread of lower pier nose 4 lower end is socketed with lower pier nose seat 6, and the internal thread on lower pier nose seat 6 coordinates with the external screw thread of lower pier nose 4 lower end; Lower pier nose 4 is arranged on lower mold holder 7 by the external screw thread of lower pier nose 4 lower end, to be arranged on lower mold holder 7 and to be fixed on lower mold holder 7 by lower pier nose 4 with pier nose seat 6 at present by bolt; Figure 24 is the main TV structure schematic diagram of lower pier nose 4, and Figure 25 is the plan structure schematic diagram of lower pier nose seat 6, and Figure 26 is the A-A sectional view of Figure 25.

Lower pier nose seat 6 is provided with adjustment cushion block 5, and adjustment cushion block 5 upper surface contacts with lower pier nose 4 lower surface, and adjustment cushion block 5 can be used for the position adjusting lower pier nose 4 in the vertical direction.Figure 22 is the plan structure schematic diagram of adjustment cushion block 5, and Figure 23 is the A-A sectional view of Figure 22.

The consubstantiality double-station forging processing unit (plant) of the present embodiment, finish forge mould counterdie 18 and lower pier nose 4 are installed motionless on the table with lower mold holder 7; Operating personnel first as required finish forge workpiece and need the feature such as thickness, shape of workpiece of blocking, the lower vertical height of pier nose 4 on lower mold holder 7 is adjusted by adjustment cushion block 5, make meeting under finish forge processing conditions, lower pier nose 4 and the spacing of upper pier head 3 can meet the spacing parameter that blocking process, so namely can realize blocking processing and finish forge and process and carry out simultaneously.

To be adjusted descend well the vertical height of pier nose 4 after, to the workpiece of finish forge be needed by operating personnel and need the workpiece of blocking to be placed on finish forge mould counterdie and Preform Die counterdie (namely descending pier nose 4) respectively, then starting pressure machine, slide block on forcing press drives top mold frame 15 to move down by die shank, and top mold frame 15 drives simultaneously and is arranged on finish forge mould patrix 17 in top mold frame 15 and upper pier head 3 moves down; Preprocessing module completes blocking processing at upper pier head 3 and lower pier nose 4 place, completes finish forge processing at finish forge mould patrix 17 and finish forge mould counterdie 18 place simultaneously.

Consubstantiality double-station forging processing unit (plant) of the present utility model, collects finish forge and blocking processing unit (plant) on same mould bases, when finish forge is carried out in the electronic die pressing machine work of 1000T, also drives Preform Die to carry out work, realizes the effect that finish forge and blocking are processed simultaneously.Consubstantiality double-station forging processing unit (plant) of the present utility model is adopted to carry out module processing, each operation can save a press equipment and an operator, every day cost-saved 287 yuan (forcing press power 12KW, per tour work 8 hours, electricity charge unit price 0.8 yuan/degree, operator's wage meter 2000 yuan/month, carries out double-shift work duty); Shorten blocking and finish forge transfer time simultaneously, increase work efficiency.

The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all do within spirit of the present utility model and principle any amendment, equivalent to replace and improvement etc., all should be included within protection domain of the present utility model.

Claims (10)

1. a consubstantiality double-station forging processing unit (plant), comprises drive unit, top mold frame and lower mold holder; Described lower mold holder is installed on the table; Described drive unit drives the relatively described lower mold holder motion of described top mold frame, it is characterized in that:

Described top mold frame is provided with Preform Die patrix and finish forge mould patrix; Described lower mold holder is provided with Preform Die counterdie and finish forge mould counterdie;

Described drive unit drives the motion of described top mold frame relatively described lower mold holder, and described Preform Die patrix coordinates with described Preform Die counterdie and carries out blocking processing to workpiece; Described finish forge mould patrix and the cooperation of described finish forge mould counterdie simultaneously carries out finish forge processing to workpiece.

2. consubstantiality double-station forging processing unit (plant) according to claim 1, is characterized in that:

Described Preform Die patrix is upper pier head, and described upper pier head is cylindrical shape; The upper end of described upper pier head is fixed in described top mold frame;

Described Preform Die counterdie is lower pier nose, and described lower pier nose is cylindrical shape, and the lower end of described lower pier nose is fixed in described top mold frame;

Described lower pier nose and described upper pier head concentric.

3. consubstantiality double-station forging processing unit (plant) according to claim 2, is characterized in that:

Described upper pier head comprises cylinder one and the cylinder two of one connection, and described cylinder one is positioned at the top of described cylinder two, and the diameter of described cylinder one is greater than the diameter of described cylinder two;

Be socketed with upper pier head trim ring outside described cylinder two, described upper pier head trim ring is bolted in top mold frame, and described upper pier head trim ring limits axis and the radial motion of described upper pier head.

4. the consubstantiality double-station forging processing unit (plant) according to Claims 2 or 3, is characterized in that:

Described lower pier nose lower end is provided with external screw thread, and the external thread part of described lower pier nose lower end is socketed with lower pier nose seat, and described lower pier nose seat is provided with the internal thread coordinated with described external screw thread; Described lower pier nose is arranged on described lower mold holder by described external screw thread; Described lower pier nose seat is arranged on described lower mold holder by bolt, the axis of the described lower pier nose of described lower pier nose seat restriction and radial motion.

5. consubstantiality double-station forging processing unit (plant) according to claim 4, is characterized in that: be provided with adjustment cushion block above described lower pier nose seat, described adjustment cushion block contacts with described lower pier nose.

6. consubstantiality double-station forging processing unit (plant) according to claim 1, is characterized in that:

Described top mold frame is provided with upper padding plate and locating piece, described locating piece is positioned at outside described upper padding plate;

Described finish forge mould patrix contacts with described upper padding plate, and described locating piece limits the radial motion of described finish forge mould patrix.

7. consubstantiality double-station forging processing unit (plant) according to claim 6, is characterized in that:

Upper holder block is provided with inside described locating piece; The contact surface of described locating piece and described upper holder block is the conical surface one, and the upper end diameter of the described conical surface one is less than lower end diameter;

Be socketed with Upper Die-sleeve outside described finish forge mould patrix, described Upper Die-sleeve and described finish forge mould patrix are together arranged on the inner side of described upper holder block;

The contact surface of described Upper Die-sleeve and described upper holder block is the conical surface two, and the diameter of the described conical surface two upper end is greater than the diameter of the described conical surface two lower end.

8. consubstantiality double-station forging processing unit (plant) according to claim 7, is characterized in that:

Described locating piece comprises locating piece one and locating piece two, and described locating piece one and described locating piece two are about the Central Symmetry of described upper padding plate;

Described upper holder block is divided into two pieces, and contacts with described locating piece two medial surface with described locating piece one respectively.

9. consubstantiality double-station forging processing unit (plant) according to claim 1, is characterized in that:

Described lower mold holder is provided with lower bolster, above described lower bolster, lower cushion block is installed; Described lower cushion block upper surface contacts with described finish forge mould counterdie lower surface, described finish forge mould patrix and described finish forge mould counterdie concentric;

Described finish forge mould counterdie lateral surface is socketed with lower die-sleeve, and described lower die-sleeve lower end is socketed on described lower cushion block simultaneously, and described lower die-sleeve limits diametrically moving of described finish forge mould and described lower cushion block.

10. consubstantiality double-station forging processing unit (plant) according to claim 9, is characterized in that:

Lower clamping ring is socketed with outside described lower die-sleeve; The contact surface of described lower clamping ring and described lower die-sleeve is the face of falling vertebra; Described lower clamping ring is fixedly mounted on described lower mold holder by screw, and described lower clamping ring limits the axis of described lower die-sleeve and moves radially.