CN205834088U - The forging hammer assembly of forging die device - Google Patents

Abstract

This utility model relates to the forging hammer assembly of a kind of forging die device.It solve during prior art hammer stem uses and the technical problems such as skew occur.Including support body, forging hammer passage, forging hammer connecting rod, forging hammer body, circumferential anti-offset structure and upper die body, forging hammer body lower end has upper mold mounting groove, upper die body upper end has upper mold and installs raised line, upper mold is installed and is formed drift gap between raised line and upper mold mounting groove, at least one end, drift gap is inserted with wedge shape positioning body, upper wedge shape positioning body side has inclined plane, opposite side locating surface, inclined plane and/or locating surface are provided with between damping structure, and upper wedge shape positioning body and forging hammer body and are provided with drift positioning component.Advantage is: can prevent forging hammer in use multiple directions from offseting, frictional force is less, and service life is long, cost-effective, and upper wedge shape positioning body is difficult to depart from from forging hammer in forging process, easy for installation, firm position.

Description

The forging hammer assembly of forging die device

Technical field

This utility model belongs to forging process equipment technical field, particularly relates to a kind of forging die The forging hammer assembly of device.

Background technology

Forging equipment refers in forging processing for the plant equipment shaped and separate.Forging Manufacturing apparatus include shape forging hammer, punching machine, hydraulic press, fly press and Horizontal forging and upsetting machine, and the auxiliary equipment such as forging manipulator, uncoiler, arbor press, cutter. Wherein, forging hammer is to utilize the drive mechanism such as air pressure or hydraulic pressure to make to fall part, including piston, Hammer stem, tup, upper anvil etc. produce motion and accumulate kinetic energy, are applied in the extremely short time Forging, is allowed to obtain plastic deformation ability, completes the metal forming machinery of various Forging Technology.Existing Some forging hammers also exist many deficiencies, such as, poor stability, forging hammer body in use process Not having guide frame in dropping process, shift phenomenon easily occur, this is mainly due to forging hammer Dropping process produces the biggest hitting power, and the reverse impact power that tup is produced by forging The biggest, irregularly forge face when tup clashes into forging, then reverse impact power vertically to On, the most still there is the power of a skew, forging hammer body so can be caused to produce Raw bigger biasing force so that forging hammer body easily occurs shift phenomenon, and existing mold leads to Cross drift to be fixed on forging hammer, but the vibrations that forging process produces are relatively big, use this Fixing means is fixed, and mold easily departs from from forging hammer, there is bigger safety Hidden danger.

In order to solve the problem that prior art exists, people have carried out long-term exploration, have carried Go out solution miscellaneous.Such as, Chinese patent literature discloses a kind of forging hammer [application number: 201520088191.1], including frame and hammer stem, described frame is arranged There is chute；Described hammer stem is slidably connected in chute；Described frame and the intersection of chute It is fixed with anchorage bar；Axle sleeve free to rotate it is arranged with on described anchorage bar；Described axle Set position is corresponding with the notch position of chute horizontal direction.

Above-mentioned scheme cooperates to realize the purpose that hammer stem guides by hammer stem and axle sleeve, But the one side being only oriented towards outside chute due to hammer stem contacts with axle sleeve, its residue and chute pair The side answered does not has guide frame, and hammer stem still there will be left and right skew during using Problem, although can by hammer stem is directly contacted with chute overcome left and right skew ask Topic, but hammer stem necessarily causes frictional force between two kinds to increase after directly contacting with chute, shadow Ring the decrease speed of hammer stem and impulsive force, and such scheme still also exist mold easily from The problem departed from forging hammer.

Summary of the invention

The purpose of this utility model is for the problems referred to above, it is provided that a kind of design is the most reasonable, The forging hammer assembly of the forging die device that upper mold and forging hammer are connected firmly.

For reaching above-mentioned purpose, this utility model have employed following technical proposal: this forging die The forging hammer assembly of device, including domed support body, described support body vertically sets Having forging hammer passage, sliding in described forging hammer passage is provided with forging hammer connecting rod, and described Forging hammer connecting rod connects has one end slip to be arranged in support body upper end, and the other end connects forging hammer Body, it is characterised in that be provided with between described forging hammer body and support body and can prevent forging hammer body court To the anti-offset structure of circumference of either direction skew, and it is provided with upper die body in forging hammer body lower end, Described forging hammer body lower end has and extends to opposite side and cross section along forging hammer body bottom side Upper mold mounting groove in shape with wide top and narrow bottom, described upper die body upper end has installs with upper mold Groove is corresponding and cross section is presented the upper mold of narrow structure under width and installed raised line, and described upper Mould is installed raised line side and is resisted against upper mold mounting groove side, and it is another that described upper mold installs raised line Forming drift gap between side and upper mold mounting groove opposite side, described drift gap is extremely Few one end is inserted with and leans and wedge shaped with upper mold installation raised line and upper mold mounting groove respectively Upper wedge shape positioning body, it is characterised in that described upper wedge shape positioning body side have with The inclined plane that upper mold installation raised line sidepiece or upper mold mounting groove sidepiece lean, opposite side has Have, with upper mold mounting groove sidepiece or upper mold, the locating surface that raised line sidepiece leans is installed, described Inclined plane and/or locating surface be provided with damping structure, and described upper wedge shape positioning body with The upper drift that wedge shape positioning body and forging hammer body can be made to be mutually located it is provided with fixed between forging hammer body Hyte part.

In the forging hammer assembly of above-mentioned forging die device, described circumference anti-offset structure bag Including four lateral surface being arranged on forging hammer body outer circumferential, described support body lower end is by peace Assembling structure is provided with and is formed by connecting and is positioned at forging hammer passage lower end circumference by four connecting rod circumferences Peripheral rectangle support body, described connecting rod is respectively positioned on same level and described connection Bar head and the tail successively are fixedly linked and are spliced to form rectangular configuration, and described rectangle support body level sets Put and be all arranged with in each connecting rod can freely circumferentially rotate and with the outside of forging hammer body The rotation roll body that face contacts, and described rotation roll body outer circumferential is provided with lubricating layer.

In the forging hammer assembly of above-mentioned forging die device, described mounting structure includes some It is arranged on the mounting seat of support body lower end, and described connecting rod is fixedly linked with mounting seat； The quantity of described mounting seat is four and is separately positioned on four angles upper of rectangle support body Side and being connected with adjacent Liang Ge connecting rod intersection.

In the forging hammer assembly of above-mentioned forging die device, described rotation roll body overall dimensions Identical and described rotation roll body is sheathed in connecting rod, and described rotation roll body and company Bearing it is provided with between extension bar.

In the forging hammer assembly of above-mentioned forging die device, described lubricating layer is polytetrafluoroethyl-ne Alkene layer.

In the forging hammer assembly of above-mentioned forging die device, described upper drift positioning component bag Include and extend along upper wedge shape positioning body length direction and be separately positioned on inclined plane and/or location It is provided with in bar-shaped trough on face, and described bar-shaped trough and can slide axially along bar-shaped trough and side The sliding shoe leant inside portion and bar-shaped trough, described sliding shoe connects and has towards upper Mould mounting groove extends and can extend radially through in the connecting rod of forging hammer body, described connecting rod It is provided with the positioning sleeve being connected with connecting rod screw thread.

In the forging hammer assembly of above-mentioned forging die device, the external side of described forging hammer has platform Hole, rank, described positioning sleeve is arranged in stepped hole and connecting rod is without departing from stepped hole.

In the forging hammer assembly of above-mentioned forging die device, the quantity of described bar-shaped trough is one Individual and be axially disposed within the middle part of inclined plane；It is fixed that described bar-shaped trough one end extends to wedge shape Body front end, position, the described bar-shaped trough other end extends to wedge shape positioning body rear end.

In the forging hammer assembly of above-mentioned forging die device, described damping structure includes respectively It is arranged on inclined plane and the damping layer on locating surface, and described damping layer is fixed with upper wedge shape Position body is connected as a single entity structure；Described damping layer is viscoelastic material layer.

In the forging hammer assembly of above-mentioned forging die device, the cross section of described bar-shaped trough in The T-shaped structure of outer narrow inner width.

Compared with prior art, the advantage of the forging hammer assembly of this forging die device is: set Meter is reasonable, and simple in construction can prevent forging hammer in use multiple directions from offseting, rub Wiping power is less, and service life is long, cost-effective, and upper wedge shape positioning body is difficult to forging Journey departs from from forging hammer, easy for installation, firm position.

Accompanying drawing explanation

Fig. 1 is the structural representation that this utility model provides.

Fig. 2 is enlarged drawing at A in Fig. 1.

Fig. 3 provides the partial structurtes schematic diagram of this utility model embodiment.

Fig. 4 provides the structural representation of the upper wedge shape positioning body of this utility model embodiment Figure.

In figure, support body 1, forging hammer passage 2, forging hammer connecting rod 3, forging hammer body 4, upper mold Body 41, upper mold installation raised line 42, upper wedge shape positioning body 5, inclined plane 51, upper drift are fixed Hyte part 52, bar-shaped trough 53, sliding shoe 54, connecting rod 55, positioning sleeve 56, step Hole 57, lateral surface 6, connecting rod 7, rectangle support body 8, rotate roll body 9, lubricating layer 91, Mounting seat 92, bearing 93.

Detailed description of the invention

This utility model is done further details of with detailed description of the invention below in conjunction with the accompanying drawings Explanation.

As Figure 1-4, the forging hammer assembly of this forging die device, including domed support body 1, support body 1 is vertically provided with forging hammer passage 2, and sliding in forging hammer passage 2 is provided with forging Hammer connecting rod 3 into shape, and forging hammer connecting rod 3 connection have one end slip to be arranged in support body 1 upper end, The other end connects forging hammer body 4, it is characterised in that set between forging hammer body 4 and support body 1 There is the anti-offset structure of circumference that can prevent forging hammer body 4 from offseting towards either direction, and in forging Hammer body 4 lower end is provided with upper die body 41, and forging hammer body 4 lower end has bottom forging hammer body 4 one Side extends to opposite side and cross section is the upper mold mounting groove of shape with wide top and narrow bottom, upper die body 41 Upper end has and cross section corresponding with upper mold mounting groove and presents the upper mold peace of narrow structure under width Fill raised line 42, and upper mold is installed raised line 42 side and is resisted against upper mold mounting groove side, on Mould is installed and is formed drift gap, wedge between raised line 42 opposite side and upper mold mounting groove opposite side At least one end, ferrum gap is inserted with installs raised line 42 and upper mold mounting groove phase with upper mold respectively Against and wedge shaped upper wedge shape positioning body 5, it is characterised in that upper wedge shape positioning body 5 Side has and inclining that upper mold installation raised line 42 sidepiece or upper mold mounting groove sidepiece lean Inclined-plane 51, opposite side has installs raised line 42 sidepiece with upper mold mounting groove sidepiece or upper mold The locating surface leant, inclined plane 51 and/or locating surface be provided with damping structure, and on It is provided with between wedge shape positioning body 5 and forging hammer body 4 and can make wedge shape positioning body 5 and forging hammer body The 4 upper drift positioning components 52 being mutually located.

Specifically, the anti-offset structure of the circumference in the present embodiment includes that four are arranged on forging hammer The lateral surface 6 of body 4 outer circumferential, support body 1 lower end is provided with by four by mounting structure Connecting rod 7 circumference is formed by connecting and is positioned at forging hammer passage 2 lower end week rectangle rack to the periphery Body 8, connecting rod 7 is respectively positioned on same level and connecting rod 7 head and the tail successively are fixedly linked Being spliced to form rectangular configuration, rectangle support body 8 is horizontally disposed with and equal in each connecting rod 7 It is arranged with the rotation roller that can freely circumferentially rotate and contact with the lateral surface 6 of forging hammer body 4 Body 9, and rotate roll body 9 outer circumferential be provided with lubricating layer 91, such as, lubrication here Layer 91 can be polytetrafluoroethylene floor.Wherein, mounting structure here includes some settings In the mounting seat 92 of support body 1 lower end, and connecting rod 7 is fixedly linked with mounting seat 92； The quantity of mounting seat 92 is four and is separately positioned on the top at four angles of rectangle support body 8 And be connected with adjacent two connecting rod 7 intersections, rotation roll body 9 overall dimensions here Identical and rotation roll body 9 is sheathed in connecting rod 7, and rotates roll body 9 and connecting rod 7 Between be provided with bearing 93.

Further, upper drift positioning component 52 here includes along upper wedge shape positioning body 5 Length direction extends and is separately positioned on the bar-shaped trough on inclined plane 51 and/or locating surface 53, it is preferable that the cross section of bar-shaped trough 53 is the T-shaped structure of outer narrow inner width, and bar shaped It is provided with in groove 53 and can slide axially along bar-shaped trough 53 and sidepiece offsets inside bar-shaped trough 53 The sliding shoe 54 leaned on, sliding shoe 54 connects and has towards the extension of upper mold mounting groove and energy footpath To the connecting rod 55 through forging hammer body 4, connecting rod 55 is provided with and connecting rod 55 spiral shell The positioning sleeve 56 that stricture of vagina is connected, in order to not interfere, here forging hammer body 4 uphill process Forging hammer body 4 outside there is stepped hole 57, in positioning sleeve 56 is arranged on stepped hole 57 and Connecting rod 55 is without departing from stepped hole 57, and the quantity of bar-shaped trough 53 here is one and axle To being arranged in the middle part of inclined plane 51；Bar-shaped trough 53 one end extends to wedge shape positioning body 5 Front end, bar-shaped trough 53 other end extends to wedge shape positioning body 5 rear end, this；Here Damping structure includes being separately positioned on inclined plane 51 and the damping layer on locating surface, and damping Layer is connected as a single entity structure with upper wedge shape positioning body 5；Damping layer is viscoelastic material layer.

Specific embodiment described herein is only for example to this utility model spirit Explanation.This utility model person of ordinary skill in the field can be to described concrete Embodiment is made various amendment or supplements or use similar mode to substitute, but not Spirit of the present utility model can be deviateed or surmount model defined in appended claims Enclose.

Although the most more employ support body 1, forging hammer passage 2, forging hammer connecting rod 3, Forging hammer body 4, upper die body 41, upper mold are installed raised line 42, upper wedge shape positioning body 5, are tilted Face 51, upper drift positioning component 52, bar-shaped trough 53, sliding shoe 54, connecting rod 55, Positioning sleeve 56, stepped hole 57, lateral surface 6, connecting rod 7, rectangle support body 8, rotation The terms such as roll body 9, lubricating layer 91, mounting seat 92, bearing 93, but be not precluded from making By the probability of other term.Use these terms to be only used to more easily to describe and Explain essence of the present utility model；Being construed as any additional restriction is all Contrary with this utility model spirit.

Claims (10)

1. a forging hammer assembly for forging die device, including domed support body (1), described Support body (1) be vertically provided with forging hammer passage (2), described forging hammer passage (2) Interior slip is provided with forging hammer connecting rod (3), and described forging hammer connecting rod (3) connection has one End slip is arranged in support body (1) upper end, and the other end connects forging hammer body (4), its feature It is, is provided with between described forging hammer body (4) and support body (1) and forging hammer body (4) can be prevented Towards the anti-offset structure of circumference of either direction skew, and it is provided with in forging hammer body (4) lower end Upper die body (41), described forging hammer body (4) lower end has along forging hammer body (4) bottom one Side extends to opposite side and cross section is the upper mold mounting groove of shape with wide top and narrow bottom, and described is upper It is knot wide at the top and narrow at the bottom that die body (41) upper end has and cross section corresponding with upper mold mounting groove The upper mold of structure installs raised line (42), and described upper mold install raised line (42) side against In upper mold mounting groove side, described upper mold is installed raised line (42) opposite side and is pacified with upper mold Forming drift gap between tankage opposite side, described at least one end, drift gap is inserted with With upper mold, raised line (42) is installed respectively and upper mold mounting groove leans and wedge shaped upper wedge Shape positioning body (5), it is characterised in that described upper wedge shape positioning body (5) side has The inclined plane leant with upper mold installation raised line (42) sidepiece or upper mold mounting groove sidepiece (51), opposite side has and upper mold mounting groove sidepiece or upper mold installation raised line (42) sidepiece The locating surface leant, described inclined plane (51) and/or locating surface are provided with damping knot It is provided with and can make between structure, and described upper wedge shape positioning body (5) and forging hammer body (4) The upper drift positioning component (52) that wedge shape positioning body (5) and forging hammer body (4) are mutually located.

The forging hammer assembly of forging die device the most according to claim 1, it is characterised in that The anti-offset structure of described circumference includes that four are arranged on outside forging hammer body (4) outer circumferential Side (6), described support body (1) lower end is provided with by four connecting rods by mounting structure (7) circumference is formed by connecting and is positioned at forging hammer passage (2) lower end week rectangle rack to the periphery Body (8), described connecting rod (7) is respectively positioned on same level and described connecting rod (7) Head and the tail are fixedly linked and are spliced to form rectangular configuration successively, described rectangle support body (8) level Arrange and each connecting rod (7) on be all arranged with can freely circumferentially rotate and with forging hammer body (4) the rotation roll body (9) that lateral surface (6) contacts, and described rotation roll body (9) outer circumferential is provided with lubricating layer (91).

The forging hammer assembly of forging die device the most according to claim 2, it is characterised in that Described mounting structure includes some mounting seats (92) being arranged on support body (1) lower end, And described connecting rod (7) is fixedly linked with mounting seat (92)；Described mounting seat (92) Quantity be four and be separately positioned on rectangle support body (8) four angles top and with phase Adjacent two connecting rod (7) intersections are connected.

The forging hammer assembly of forging die device the most according to claim 2, it is characterised in that The rotation roll body (9) that described rotation roll body (9) overall dimensions is identical and described is sheathed Set between rotation roll body (9) in connecting rod (7) and described and connecting rod (7) There is bearing (93).

The forging hammer assembly of forging die device the most according to claim 2, it is characterised in that Described lubricating layer (91) is polytetrafluoroethylene floor.

6. according to the forging hammer of the forging die device described in claim 1 or 2 or 3 or 4 or 5 Assembly, it is characterised in that described upper drift positioning component (52) includes along upper wedge shape Positioning body (5) length direction extends and is separately positioned on inclined plane (51) and/or location Being provided with in bar-shaped trough (53) on face, and described bar-shaped trough (53) can be along bar-shaped trough (53) Slide axially and sliding shoe (54) that sidepiece and bar-shaped trough (53) inner side leans, described The upper connection of sliding shoe (54) have and extend towards upper mold mounting groove and can extend radially through in forging The connecting rod (55) of hammer body (4), described connecting rod (55) is provided with and connecting rod (55) positioning sleeve (56) that screw thread is connected.

The forging hammer assembly of forging die device the most according to claim 6, it is characterised in that Described forging hammer body (4) outside has stepped hole (57), described positioning sleeve (56) It is arranged in stepped hole (57) and connecting rod (55) is without departing from stepped hole (57).

The forging hammer assembly of forging die device the most according to claim 6, it is characterised in that The quantity of described bar-shaped trough (53) is one and is axially disposed within inclined plane (51) Portion；Described bar-shaped trough (53) one end extends to wedge shape positioning body (5) front end, institute Bar-shaped trough (53) other end stated extends to wedge shape positioning body (5) rear end.

The forging hammer assembly of forging die device the most according to claim 1, it is characterised in that Described damping structure includes being separately positioned on inclined plane (51) and the damping on locating surface Layer, and described damping layer is connected as a single entity structure with upper wedge shape positioning body (5)；Described Damping layer be viscoelastic material layer.

The forging hammer assembly of forging die device the most according to claim 6, its feature exists In, the cross section of described bar-shaped trough (53) is the T-shaped structure of outer narrow inner width.