CN204524125U - A kind of vertical parting four station horizontal forging and upsetting machine - Google Patents

Abstract

The utility model discloses a kind of vertical parting four station horizontal forging and upsetting machine, comprise frame, described frame is provided with horizontally disposed longitudinal die set and transverse mold clamping device, longitudinal die set and transverse mold clamping device share the action of a set of dynamical system Synchronous Transmission, the utility model adopts secondary transmission, the first order is V--belt Drive, and the second level is gear drive.Motor drives by small belt pulley and V-belt the flywheel turns that clutch is housed, and when operator sends actuating signal, clutch is combined with power transmission shaft and drives pinion, drives hyperbolic crankshaft rotating by gear wheel simultaneously.Hyperbolic bent axle is provided with a crank throw, drives the 3rd slide block and the second slide block to move reciprocatingly simultaneously.When the first slide block arrives certain clamped position, Wedge device does maintenance clamping function.Forging mold arrives the location of workpiece and does all kinds of press work simultaneously.

Description

A kind of vertical parting four station horizontal forging and upsetting machine

Technical field

The utility model relates to a kind of horizontal forging and upsetting machine, relates to a kind of vertical parting four station horizontal forging and upsetting machine of the hammered work for all kinds of stock workpiece specifically.

Background technology

At present, all kinds of stock workpiece such as making tyre wrench, the general ordinary press that adopts is produced, because stock workpiece needs techniques such as heating, forge, doing a tyre wrench needs minimum 2 ordinary press, and forcing press is blowing, needs the troublesome work such as repacking.Need 2 operative, heat and just can complete for 2 times, every day can only produce about 2000 simultaneously, time-consuming, take a lot of work, take electricity, and production efficiency is lower.

Utility model content

Problem to be solved in the utility model is for users solve the difficult problem that cannot complete on common forging equipment, the vertical parting four station horizontal forging and upsetting machine that a kind of use equipment can complete all kinds of stock work piece production is provided, there is advantage that is time saving and energy saving, that enhance productivity.

In order to solve the problem, the utility model by the following technical solutions:

A kind of vertical parting four station horizontal forging and upsetting machine, comprise frame, described frame is provided with horizontally disposed longitudinal die set and transverse mold clamping device, longitudinal die set and transverse mold clamping device share the action of a set of dynamical system Synchronous Transmission.

Below the further optimization of the utility model to such scheme:

Longitudinal die set comprises horizontally disposed die holder, the dynamic model block being provided with cover half block in described die holder and matching with cover half block, described frame is provided with near the position in cover half block and dynamic model block front can with the drift of cover half block and dynamic model block interoperation.

Further optimization: transverse mold clamping device comprises the first slide block with dynamic model calling, the first slide block laterally can slide and promote dynamic model block and move to coordinate with cover half block and compress.

Further optimization: described dynamical system comprises motor, described electric-motor drive is connected with hyperbolic bent axle, and described hyperbolic transmission of crankshaft is connected with the second slide block, and described drift is arranged on the second slide block.

Wherein one end of described hyperbolic bent axle is provided with gear wheel, and the power output shaft of described motor is connected with flywheel by V--belt Drive, and flywheel is coaxially connected with pinion, and described pinion is meshed with gear wheel.

Further optimization: be provided with in described die holder and horizontal slip of the first slide block can be driven to make the drive unit of pinching action.

This drive unit comprises the 3rd slide block be connected with hyperbolic bent axle, the front position of described 3rd slide block is connected with Wedge device, the position relative with the right side of the first slide block is provided with Four-slider in described die holder, and described Wedge device can be inserted between the first slide block and Four-slider and to promote the first slide block and is moved to the left and dynamic model block and cover half block clamped.

The described first slide block position corresponding with on Four-slider is separately installed with rotating roller.When Wedge device inserts, can rotate with roller and contact, reduce the resistance that Wedge device inserts.

Described die holder is provided with the adjusting screw of adjustable Four-slider right position near the side of Four-slider.

The utility model adopts secondary transmission, and the first order is V--belt Drive, and the second level is gear drive.Motor drives by small belt pulley and V-belt the flywheel turns that clutch is housed, and when operator sends actuating signal, clutch is combined with power transmission shaft and drives pinion, drives hyperbolic crankshaft rotating by gear wheel simultaneously.Hyperbolic bent axle is provided with a crank throw, drives the 3rd slide block and the second slide block to move reciprocatingly simultaneously.

When the first slide block arrives certain clamped position, Wedge device does maintenance clamping function.Forging mold arrives the location of workpiece and does all kinds of press work simultaneously.

When press work completes, when forging mold does backhaul work, the first slide block continues to keep clamping function, guarantees that mould exits from workpiece hole.When forging mold is back to top dead-centre, Wedge device retreats to initial position.First slide block is back to original position under the action of the spring and does relaxation state, to take out workpiece.

The utility model only need heat once, and 1 work operates all operations and completes on an equipment.Every day, finished product guarded number of packages more than 4000.Eliminate 1 equipment, 1 workman, 1 coreless induction furnace, efficiency but improves 1 times, and real is time saving and energy saving, substantially increases production efficiency.

Below in conjunction with drawings and Examples, the utility model is described in further detail.

Accompanying drawing explanation

Accompanying drawing 1 is the structural representation of the utility model embodiment;

Accompanying drawing 2 is die opening state schematic diagram in the utility model embodiment;

Accompanying drawing 3 is matched moulds view in the utility model embodiment;

Accompanying drawing 4 is the structural representation of stock box spanner part mould in the utility model embodiment.

In figure: 1-motor; 2-flywheel; 3-pinion; 4-gear wheel; 5-hyperbolic bent axle; 6-the 3rd slide block; 7-second slide block; 8-Four-slider; 9-first slide block; 10-roller; 11-Wedge device; 12-adjusting screw; 13-drift; 14-cover half block; 15-die holder.

Detailed description of the invention

Embodiment, as shown in Figure 1, a kind of vertical parting four station horizontal forging and upsetting machine, comprise frame, it is characterized in that: described frame is provided with horizontally disposed longitudinal die set and transverse mold clamping device, longitudinal die set and transverse mold clamping device share the action of a set of dynamical system Synchronous Transmission.

Longitudinal die set comprises horizontally disposed die holder 15, the dynamic model block being provided with cover half block 14 in described die holder 15 and matching with cover half block 14, described frame is provided with near cover half block 14 and the position in dynamic model block front can with the drift 13 of cover half block 14 and dynamic model block interoperation.

Transverse mold clamping device comprises laterally to slide with the first slide block 9, first slide block 9 of dynamic model calling and promoting dynamic model block and moves to coordinate with cover half block 14 and compress.

Described dynamical system comprises motor 1, and described motor 1 is connected with hyperbolic bent axle 5, and described hyperbolic bent axle 5 is connected with the second slide block 7, and described drift 13 is arranged on the second slide block 7.

Wherein one end of described hyperbolic bent axle 5 is provided with gear wheel 4, and the power output shaft of described motor 1 is connected with flywheel 2 by V--belt Drive, and flywheel 2 is coaxially connected with pinion 3, and described pinion 3 is meshed with gear wheel 4.

Be provided with in described die holder 15 and horizontal slip of the first slide block 9 can be driven to make the drive unit of pinching action, this drive unit comprises the 3rd slide block 6 be connected with hyperbolic bent axle 5, the front position of described 3rd slide block 6 is connected with Wedge device 11, in described die holder 15, the position relative with the right side of the first slide block 9 is provided with Four-slider 8, and described Wedge device 11 can be inserted between the first slide block 9 and Four-slider 8 and to promote the first slide block 9 and is moved to the left and dynamic model block and cover half block 14 clamped.

Described first slide block 9 position corresponding with on Four-slider 8 is separately installed with rotating roller 10, when Wedge device 11 inserts, can rotate contact with roller 10, reduces the resistance that Wedge device 11 inserts.

Described die holder 15 is provided with the adjusting screw 12 of adjustable Four-slider 8 right position near the side of Four-slider 8, facilitates the gap between adjustment Four-slider 8 and the first slide block 9.

The utility model adopts secondary transmission, and the first order is V--belt Drive, and the second level is gear drive.Motor 1 drives the flywheel 2 that clutch is housed to rotate by small belt pulley and V-belt, and when operator sends actuating signal, clutch is combined with power transmission shaft and drives pinion 3, drives hyperbolic bent axle 5 to rotate by gear wheel 4 simultaneously.Hyperbolic bent axle 5 is provided with 2 crank throws, drives the 3rd slide block 6 and the second slide block 7 to move reciprocatingly simultaneously.

As shown in Figure 2 and Figure 3, the 3rd slide block 6 is equipped with high strength Wedge device 11 and does clamping movement by roller 10 transmission to the first slide block 9.Four-slider 8 does synkinesia.

When the first slide block 9 arrives certain clamped position, Wedge device 11 does maintenance clamping function.Forging mold arrives the location of workpiece and does all kinds of press work simultaneously.

When press work completes, when forging mold does backhaul work, the first slide block 9 continues to keep clamping function, guarantees that mould exits from workpiece hole.When forging mold is back to top dead-centre, Wedge device 11 retreats to initial position.First slide block 9 is back to original position and does relaxation state under the effect of spring (not shown), to take out workpiece.

As shown in Figure 4, we are for the spanners for automobile tyre of stock, horizontal forging and upsetting machine and ordinary press main difference be the mould simultaneously can installing multiple tracks station, once heated whole press works.A, B are that material gathers, and C is blocking, and D is finish-forging.Four road stations complete all work.

The utility model only need heat once, and 1 work operates all operations and completes on an equipment.Every day, finished product guarded number of packages more than 4000.Eliminate 1 equipment, 1 workman, 1 coreless induction furnace, efficiency but improves 1 times, and real is time saving and energy saving.

The utility model is applicable to: 1, multiple working procedure workpiece, such as: the workpiece such as auto wrench, porcelain vase inner core.

2, stock workpiece as; The reaming of oil field pipe, contracting bar, the unrestricted workpiece of the thick equal length of end pier of automobile axle shaft.

The pneumatic dry type that adopts the utility model rubs combined clutch, and the positive clutch used than ordinary press is more durable in use, considerably reduces maintenance cost.Adopt trick at electric utility, anti-ly the chain function such as to repeat for protection personal safety and provide guarantee.

In above-described embodiment, fuselage adopts high-quality Q235 welded-steel plate construction.Through artificial aging process, exquisite appearance, rational in infrastructure.Lathe bed easy fracture cast by grey cast-iron than ever mutually. the defects such as fragmentation.More adapt to the hammered work of all kinds of heavy load.

Be more than a detailed description of the invention of the application, these embodiments are only created for illustration of the utility model and are not used in restriction creation scope of the present utility model.After having read the utility model and having created the content lectured, those skilled in the art can create the utility model and make various change or amendment, and these equivalent form of values fall into the application's appended claims limited range equally.

Claims (9)

1. a vertical parting four station horizontal forging and upsetting machine, comprise frame, it is characterized in that: described frame is provided with horizontally disposed longitudinal die set and transverse mold clamping device, longitudinal die set and transverse mold clamping device share the action of a set of dynamical system Synchronous Transmission.

2. one according to claim 1 vertical parting four station horizontal forging and upsetting machine, it is characterized in that: longitudinal die set comprises horizontally disposed die holder (15), the dynamic model block being provided with cover half block (14) in described die holder (15) and matching with cover half block (14), described frame is provided with near the position in cover half block (14) and dynamic model block front can with the drift (13) of cover half block (14) and dynamic model block interoperation.

3. one according to claim 2 vertical parting four station horizontal forging and upsetting machine, is characterized in that:

Transverse mold clamping device comprises the first slide block (9) with dynamic model calling, and the first slide block (9) laterally can slide and promote dynamic model block and move to coordinate with cover half block (14) and compress.

4. one according to claim 3 vertical parting four station horizontal forging and upsetting machine, is characterized in that:

Described dynamical system comprises motor (1), and described motor (1) is connected with hyperbolic bent axle (5), and described hyperbolic bent axle (5) is connected with the second slide block (7), and described drift (13) is arranged on the second slide block (7).

5. one according to claim 4 vertical parting four station horizontal forging and upsetting machine, is characterized in that:

Wherein one end of described hyperbolic bent axle (5) is provided with gear wheel (4), the power output shaft of described motor (1) is connected with flywheel (2) by V--belt Drive, flywheel (2) is coaxially connected with pinion (3), and described pinion (3) is meshed with gear wheel (4).

6. one according to claim 5 vertical parting four station horizontal forging and upsetting machine, is characterized in that: be provided with in described die holder (15) and horizontal slip of the first slide block (9) can be driven to make the drive unit of pinching action.

7. one according to claim 6 vertical parting four station horizontal forging and upsetting machine, it is characterized in that: this drive unit comprises the 3rd slide block (6) be connected with hyperbolic bent axle (5), the front position of described 3rd slide block (6) is connected with Wedge device (11), the position relative with the right side of the first slide block (9) is provided with Four-slider (8) in described die holder (15), and described Wedge device (11) can be inserted between the first slide block (9) and Four-slider (8) and to promote the first slide block (9) and is moved to the left and dynamic model block and cover half block (14) clamped.

8. one according to claim 7 vertical parting four station horizontal forging and upsetting machine, is characterized in that:

Described first slide block (9) is separately installed with rotating roller (10) with the upper corresponding position of Four-slider (8).

9. one according to claim 8 vertical parting four station horizontal forging and upsetting machine, is characterized in that:

The upper side near Four-slider (8) of described die holder (15) is provided with the adjusting screw (12) of adjustable Four-slider (8) right position.