CN203862939U

CN203862939U - Energy-saving forging hammer machine

Info

Publication number: CN203862939U
Application number: CN201420256710.6U
Authority: CN
Inventors: 诸兆民
Original assignee: CHANGZHOU CHANGLIN JVJIN ROAD MACHINERY Co Ltd
Current assignee: CHANGZHOU CHANGLIN JVJIN ROAD MACHINERY Co Ltd
Priority date: 2014-05-20
Filing date: 2014-05-20
Publication date: 2014-10-08
Anticipated expiration: 2024-05-20

Abstract

The utility model relates to the technical field of forging pressing apparatus and especially relates to an energy-saving forging hammer machine which comprises a rack, an anvil block, a hammer rod, a hammer head and an anvil pad, wherein the hammer rod is connected to the rack; the hammer head is connected to the hammer rod; the anvil block is located on a bottom portion of the rack; the anvil pad is connected to the anvil block; the hammer rod is constituted of a left rod and a right rod; the anvil pad is constituted of a left pad and a right pad; the hammer rod is designed to be a combined structure of the left rod and the right rod, the left rod and the right rod are connected to be a V-shape and a servo motor is used as a drive; when the left rod rebounds under the effect of the counter force generated by the impact of the left rod and the right rod, the servo motor takes the advantage of the opportunity to convert the counter force without waste to be the driving force that the right rod is downwardly rotated; the right rod is driven to hit to the right pad, and vice versa; during the process of impact by swinging left and right, not only the efficiency is improved, but also the energy is fully used, thus the unnecessary loss is avoided and the production cost is greatly reduced.

Description

Energy-conservation forging hammer machine

Technical field

The utility model relates to technical field of forging and pressing equipment, especially a kind of energy-conservation forging hammer machine.

Background technology

Forging hammer is that a kind of transmission mechanisms such as air pressure or hydraulic pressure that utilize fall, and produces and moves and accumulate kinetic energy, in the extremely short time, imposes on forging, makes it to obtain plastic deformation ability, completes the metal forming machinery of various Forging Technologies.Existing forging hammer is all to adopt the tup of elevating movement to impact the anvil that is fixed on below, forging is is vertically forged and pressed, during shock, produce very large reaction force, not only fuselage is damaged to power, and this energy is wasted, cannot effectively utilize, virtually increase energy consumption, promote production cost.

Utility model content

More in order to overcome the energy dissipation of existing forging hammer machine, utilization rate is low, increases the deficiency of cost, and the utility model provides a kind of energy-conservation forging hammer machine.

The utility model solves the technical scheme that its technical problem adopts: a kind of energy-conservation forging hammer machine, comprise frame, anvil block, hammer stem, tup and anvil pad, hammer stem is connected in frame, tup is connected on hammer stem, anvil block is positioned at the bottom of frame, anvil pad is connected on anvil block, and hammer stem is comprised of left bar and right bar, and anvil pad is comprised of left pad and right pad.

According to another embodiment of the present utility model, further comprise that left bar and right bar connect into " V " shape.

According to another embodiment of the present utility model, further comprise that left bar and right bar junction are provided with axle sleeve.

According to another embodiment of the present utility model, further comprise that axle sleeve is enclosed within the rotating shaft of a servomotor.

According to another embodiment of the present utility model, further comprise that left pad and right pad lay respectively at the below of left bar and right bar.

The beneficial effects of the utility model are, hammer stem is designed to the combining structure of left bar and right bar, connect into " V " shape, and adopt servomotor as driving, in rotary manner the left pad of the supporting correspondence in both sides and right pad are replaced to rotation strike, because left bar and right bar are integral type structure, motion has related property, when left bar is when clashing under the bounce effect producing resilience with left pad, servomotor is taken advantage of a situation and this bounce is had no to the whole of waste is converted into the driving force that right bar is rotated down, drive right bar to hit to right pad, vice versa.At this, swing in the process of hitting, both improved efficiency, take full advantage of again energy, avoided meaningless loss, greatly reduce production cost.

Accompanying drawing explanation

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

Fig. 1 is structural representation of the present utility model.

1. frames in figure, 2. anvil block, 3. left bar, 4. hammer stem, 5. tup, 6. anvil pad, 7. left pad, 8. servomotor, 9. right bar, 10. right pad, 11. axle sleeves.

The specific embodiment

If Fig. 1 is structural representation of the present utility model, a kind of energy-conservation forging hammer machine, comprise frame 1, anvil block 2, hammer stem 4, tup 5 and anvil pad 6, hammer stem 4 is connected in frame 1, tup 5 is connected on hammer stem 4, and anvil block 2 is positioned at the bottom of frame 1, and anvil pad 6 is connected on anvil block 2, hammer stem 4 is comprised of left bar 3 and right bar 9, and anvil pad 6 is comprised of left pad 7 and right pad 10.Left bar 3 and right bar 9 connect into " V " shape.Left bar 3 is provided with axle sleeve 11 with right bar 9 junctions.Axle sleeve 11 is enclosed within the rotating shaft of a servomotor 8.Left pad 7 and right pad 10 lay respectively at the below of left bar 3 and right bar 9.

Hammer stem 4 is designed to the combining structure of left bar 3 and right bar 9, connect into " V " shape, and adopt servomotor 8 as driving, by the positive anti-switching of direction, in rotary manner the left pad 7 of the supporting correspondence in both sides and right pad 10 are replaced to rotation strike, because left bar 3 and right bar 9 are integral type structure, motion has related property, when left bar 3 is when clashing under the bounce effect producing resilience with left pad 7, servomotor 8 is taken advantage of a situation and this bounce is had no to the whole of waste is converted into the driving force that right bar 9 is rotated down, drive fast right bar 9 to hit to right pad 10, vice versa.At this, swing in the process of hitting, both improved efficiency, take full advantage of again energy, avoided meaningless loss, greatly reduce production cost.

Claims

1. an energy-conservation forging hammer machine, comprise frame (1), anvil block (2), hammer stem (4), tup (5) and anvil pad (6), hammer stem (4) is connected in frame (1), tup (5) is connected on hammer stem (4), anvil block (2) is positioned at the bottom of frame (1), and it is upper that anvil pad (6) is connected to anvil block (2), it is characterized in that, hammer stem (4) is comprised of left bar (3) and right bar (9), and anvil pad (6) is comprised of left pad (7) and right pad (10).

2. energy-conservation forging hammer machine according to claim 1, is characterized in that, left bar (3) and right bar (9) connect into " V " shape.

3. energy-conservation forging hammer machine according to claim 1, is characterized in that, left bar (3) is provided with axle sleeve (11) with right bar (9) junction.

4. energy-conservation forging hammer machine according to claim 3, is characterized in that, axle sleeve (11) is enclosed within the rotating shaft of a servomotor (8).

5. energy-conservation forging hammer machine according to claim 1, is characterized in that, left pad (7) and right pad (10) lay respectively at the below of left bar (3) and right bar (9).