Utility model content
The purpose of this utility model is to provide a kind of four tups swaging tools, forged and pressed with alleviating to exist in the prior art
The technical problem that forging center easily shifts in journey.
The utility model provides a kind of four tups swaging tools;Including:Guide frame, driving part and executive item;
The executive item includes:First hammer body, the second hammer body, the 3rd hammer body and the 4th hammer body;
The guide frame is annular solid, and annular solid is circumferentially evenly arranged with four pilot holes;The pilot hole is along ring
Body is radially arranged,
Four hammer bodies are slidably disposed in four pilot holes;
The driving part is connected with the end of four hammer bodies, for driving four hammer bodies along the pilot hole along the ring
Body is diametrically reciprocated.
Further, the driving part includes being arranged on the upper anvil block above the annular solid;
Upper anvil block includes a upper V-groove that Open Side Down;
The upper V-groove includes symmetrically arranged first inclined working and the second inclined working;
The tail end of first hammer body relative can be slidably connected with the upper anvil block, and the tail end of first hammer body can edge
First inclined working is relative with the upper anvil block to be slided;
The tail end of second hammer body relative can be slidably connected with the upper anvil block, and the tail end of second hammer body can edge
Second inclined working is relative with the upper anvil block to be slided;
The upper anvil block can move up and down setting, during upper anvil block is moved up or down, the tail of first hammer body
End is slided along first inclined working is relative with the upper anvil block, and then drives first hammer body to be retracted along the pilot hole
Or stretch out;The tail end of second hammer body is slided along second inclined working is relative with the upper anvil block, and then drives institute
The second hammer body is stated to retract or stretch out along the pilot hole.
Further, the driving part also includes lower anvil block, the first STATEMENT OF FEDERALLY SPONSORED and the second STATEMENT OF FEDERALLY SPONSORED;
The lower anvil block includes the lower V-groove of opening upwards;
The lower V-groove includes symmetrically arranged 3rd inclined working and the 4th inclined working;
The first end of first STATEMENT OF FEDERALLY SPONSORED is slided along first inclined working is relative with the upper anvil block, described
Second end of the first STATEMENT OF FEDERALLY SPONSORED can be slided along the 3rd inclined working is relative with the lower anvil block, and the of second STATEMENT OF FEDERALLY SPONSORED
One end is slided along second inclined working is relative with the upper anvil block, and the second end of second STATEMENT OF FEDERALLY SPONSORED can be along the described 4th
Inclined working is relative with the lower anvil block to be slided;By first inclined working, the second inclined working, the 3rd inclined working and
The relative motion of 4th inclined working is to drive first STATEMENT OF FEDERALLY SPONSORED and the second STATEMENT OF FEDERALLY SPONSORED to move left and right.Further, it is described
Second end of the first STATEMENT OF FEDERALLY SPONSORED is abutted with the tail end of the 3rd hammer body, and the second end of first STATEMENT OF FEDERALLY SPONSORED and the described 3rd
Hammer body is set in angle, so that first STATEMENT OF FEDERALLY SPONSORED drives the 3rd hammer body to be stretched out along the pilot hole;
Second end of second STATEMENT OF FEDERALLY SPONSORED is abutted with the tail end of the 4th hammer body, and second STATEMENT OF FEDERALLY SPONSORED
Second end is set with the 4th hammer body in angle, so that second STATEMENT OF FEDERALLY SPONSORED drives the 4th hammer body along the pilot hole
Stretch out.
Further, first hammer body includes:The head rod and the first tup being arranged in a mutually vertical manner, described second
Hammer body includes:The second connecting rod being arranged in a mutually vertical manner and the second tup;
The head rod can be slided along first inclined working is relative with the upper anvil block;
Second connecting rod can be slided along second inclined working is relative with the upper anvil block;
The upper and lower ends of the head rod are provided with the first chute, and the upper and lower ends of second connecting rod are all provided with
It is equipped with the second chute;
The first end of 3rd hammer body is provided with the 3rd tup, and the second end of the 3rd hammer body is provided with 45 °
Inclined plane;
Second end of the 3rd hammer body is abutted with the second end of first STATEMENT OF FEDERALLY SPONSORED, so that first STATEMENT OF FEDERALLY SPONSORED is pushed away
The 3rd hammer body is moved to stretch out along the pilot hole;
3rd hammer body is identical with the 4th hammer body structure.
Further, the first end of first STATEMENT OF FEDERALLY SPONSORED is provided with the 3rd chute, the second end of first STATEMENT OF FEDERALLY SPONSORED
It is provided with the 4th chute;
3rd chute and first chute are on the same line;
The first end of second STATEMENT OF FEDERALLY SPONSORED is provided with the 5th chute, and the second end of second STATEMENT OF FEDERALLY SPONSORED is provided with the 6th
Chute;
5th chute is on same straight line with second chute.
Further, first inclined working includes:First link slot and multiple first connecting holes;First connection
Groove be arranged in parallel with first chute, and multiple first connecting holes are arranged on first link slot and first chute
Between;
Second inclined working includes:Second link slot and multiple second connecting holes, second link slot with it is described
5th chute and second chute be arranged in parallel, and multiple second connecting holes are arranged on second link slot and described the
Between five chutes and second chute.
Further, the 3rd inclined working includes:7th chute and the 3rd connecting hole;
7th chute be arranged in parallel with the 4th chute, and multiple 3rd connecting holes are arranged on the 7th cunning
Between groove and the 4th chute;
4th inclined working includes:8th chute and the 4th connecting hole;
8th chute be arranged in parallel with the 6th chute, and multiple 4th connecting holes are arranged on the 8th cunning
Between groove and the 6th chute.
Further, in addition to for connecting the first guide plate of the first inclined working and the first STATEMENT OF FEDERALLY SPONSORED first end, even
Connect the second guide plate of the second inclined working and the second linkage first end, the 3rd inclined working of connection and first the second end of STATEMENT OF FEDERALLY SPONSORED
The 3rd guide plate and connection the 4th inclined working and second the second end of STATEMENT OF FEDERALLY SPONSORED the 4th guide plate;
First guide plate includes:Body and the first slide rail being arranged on plate body, the second slide rail and multiple connecting holes,
First slide rail and second slide rail are arranged in parallel;
First guide plate, the second guide plate, the 3rd guide plate and the 4th guide board structure are identical.
A kind of forging press, including four above-mentioned tup swaging tools.
The utility model provides a kind of four tups swaging tools, and four tup swaging tools include:Guide frame, driving part
And executive item;The executive item includes:First hammer body, the second hammer body, the 3rd hammer body and the 4th hammer body;The guide frame is ring
Body, annular solid is circumferentially evenly arranged with four pilot holes;The pilot hole is radially arranged along annular solid, and four hammer bodies can
It is slidably arranged in four pilot holes;The driving part is connected with the end of four hammer bodies, for driving four hammers
Body diametrically reciprocating along the pilot hole along the annular solid.Four hammer bodies are slidably disposed in pilot hole, also,
Pilot hole is radially arranged along annular solid, and driving part drives four hammer bodies in pilot hole, to solve forging during forging and stamping
The technical problem that center easily shifts.
Embodiment
The technical solution of the utility model is clearly and completely described below in conjunction with accompanying drawing, it is clear that described
Embodiment is a part of embodiment of the utility model, rather than whole embodiments.Based on the embodiment in the utility model, sheet
The every other embodiment that field those of ordinary skill is obtained under the premise of creative work is not made, belongs to this practicality
Novel protected scope.
, it is necessary to explanation in description of the present utility model, term " " center ", " on ", " under ", it is "left", "right", " perpendicular
Directly ", the orientation or position relationship of the instruction such as " level ", " interior ", " outer " are, based on orientation shown in the drawings or position relationship, to be only
Described for the ease of description the utility model and simplifying, rather than to indicate or imply that signified device or element must have specific
Orientation, with specific azimuth configuration and operation, therefore it is not intended that to limitation of the present utility model.In addition, term " the
One ", " second ", " the 3rd " are only used for describing purpose, and it is not intended that indicating or implying relative importance.
, it is necessary to which explanation, unless otherwise clearly defined and limited, term " are pacified in description of the present utility model
Dress ", " connected ", " connection " should be interpreted broadly, for example, it may be fixedly connected or be detachably connected, or integratedly
Connection;Can be mechanical connection or electrical connection;Can be joined directly together, can also be indirectly connected to by intermediary,
It can be the connection of two element internals.For the ordinary skill in the art, above-mentioned art can be understood with concrete condition
Concrete meaning of the language in the utility model.
The utility model provides a kind of four tups swaging tools;Including:Guide frame, driving part and executive item;
The executive item includes:First hammer body 11, the second hammer body 12, the 3rd hammer body 13 and the 4th hammer body 14;
The guide frame is annular solid 1, and annular solid 1 is circumferentially evenly arranged with four pilot holes;The pilot hole edge
Annular solid 1 is radially arranged,
Four hammer bodies are slidably disposed in four pilot holes;
The driving part is connected with the end of four hammer bodies, for driving four hammer bodies along the pilot hole along the ring
Body 1 is diametrically reciprocated.
In the present embodiment, guide frame is annular solid 1, and annular solid 1 is circumferentially evenly arranged with four pilot holes;It is described to lead
To hole being radially arranged along annular solid 1, four hammer bodies are slidably disposed in four pilot holes;The driving part with
The end connection of four hammer bodies, for driving four hammer body diametrically reciprocating along the pilot hole along the annular solid 1.Four
Individual hammer body is slidably disposed in pilot hole, also, pilot hole being radially arranged along annular solid 1, and driving part drives four
Hammer body is in pilot hole, to solve the technical problem that forging center easily shifts during forging and pressing.
On the basis of above-described embodiment, further, the driving part includes being arranged on the top of annular solid 1
Upper anvil block 2;
Upper anvil block 2 includes a upper V-groove that Open Side Down;
The upper V-groove includes the symmetrically arranged inclined working 22 of first inclined working 21 and second;
The tail end of first hammer body 11 relative can be slidably connected with the upper anvil block 2, and the tail of first hammer body 11
End can be slided along first inclined working 21 and the upper anvil block 2 are relative;
The tail end of second hammer body 12 relative can be slidably connected with the upper anvil block 2, and the tail of second hammer body 12
End can be slided along second inclined working 22 and the upper anvil block 2 are relative;
The upper anvil block 2 can move up and down setting, during upper anvil block 2 is moved up or down, first hammer body 11
Tail end slided along first inclined working 21 and the upper anvil block 2 are relative, and then drive first hammer body 11 along described
Pilot hole is retracted or stretched out;The tail end of second hammer body 12 is relative with the upper anvil block 2 along second inclined working 22
Slide, and then drive second hammer body 12 to retract or stretch out along the pilot hole.
In the present embodiment, by being arranged on the first inclined working 21 and the second inclined working 22 of upper V-groove, the first hammer body
11 tail end can be slided along first inclined working 21 and the upper anvil block 2 are relative, and the tail end of the second hammer body 12 can edge
Second inclined working 22 is relative with the upper anvil block 2 to be slided, also, upper anvil block 2 can be moved up and down, in upper anvil block 2
It is downwards or upward, due to, the tail end of the first hammer body 11 is slided along the first inclined working 21 and the upper anvil block 2 are relative, and second
The tail end of hammer body 12 is slided along second inclined working 22 and upper anvil block 2 are relative, and then makes anvil block 2 while driving first
The hammer body 12 of hammer body 11 and second is retracted or stretched out along pilot hole, so that the first hammer body 11 and the second hammer body 12 are acted on simultaneously
On forging, also, the 3rd hammer body 13 and the 4th hammer body 14 driving structure can be with the first hammer body 11 and the second hammer body 12 driving
Structure is identical, as long as ensureing that the upper anvil block 2 of driving is identical with the power of the 3rd hammer body 13 of driving, the 4th hammer body 14, ensures that first hammers into shape
Body 11, the second hammer body 12, the 3rd hammer body 13 and the 4th hammer body 14 are moved simultaneously.
On the basis of above-described embodiment, further, the driving part also includes lower anvil block 3, the first STATEMENT OF FEDERALLY SPONSORED 4
With the second STATEMENT OF FEDERALLY SPONSORED 5;
The lower anvil block 3 includes the lower V-groove of opening upwards;
The lower V-groove includes symmetrically arranged 3rd inclined working 31 and the 4th inclined working 32;
The first end of first STATEMENT OF FEDERALLY SPONSORED 4 is slided along first inclined working 21 and the upper anvil block 2 are relative,
Second end of first STATEMENT OF FEDERALLY SPONSORED 4 can be slided along the 3rd inclined working 31 and the lower anvil block 3 are relative, and described second
The first end of moving part 5 is slided along second inclined working 22 and the upper anvil block 2 are relative, and the second of second STATEMENT OF FEDERALLY SPONSORED 5
End can be slided along the 4th inclined working 32 and the lower anvil block 3 are relative;Worked by first inclined working 21, second
The relative motion on inclined-plane 22, the 3rd inclined working 31 and the 4th inclined working 32 is to drive first STATEMENT OF FEDERALLY SPONSORED 4 and second
Moving part 5 is moved left and right.
Wherein, the first STATEMENT OF FEDERALLY SPONSORED 4 is identical with the structure of the second STATEMENT OF FEDERALLY SPONSORED 5.
Wherein, the shape of the first STATEMENT OF FEDERALLY SPONSORED 4 can be to be a variety of, such as:Triangle or rhombus etc..
In the present embodiment, the first end of the first STATEMENT OF FEDERALLY SPONSORED 4 is stated along first inclined working 21 and the upper phase of anvil block 2
To sliding, the second end of first STATEMENT OF FEDERALLY SPONSORED 4 can be slided along the 3rd inclined working 31 and the lower anvil block 3 are relative, institute
The first end for stating the second STATEMENT OF FEDERALLY SPONSORED 5 is slided along second inclined working 22 and the upper anvil block 2 are relative, second STATEMENT OF FEDERALLY SPONSORED
5 the second end can be slided along the 4th inclined working 32 and the lower anvil block 3 are relative, to drive the He of the first STATEMENT OF FEDERALLY SPONSORED 4
Second STATEMENT OF FEDERALLY SPONSORED 5 is moved left and right.So, anvil block 2 can be caused to be synchronized with the movement with the first STATEMENT OF FEDERALLY SPONSORED 4 and the second STATEMENT OF FEDERALLY SPONSORED 5, with
Make four tups while acting on forging.
On the basis of above-described embodiment, further, the second end of first STATEMENT OF FEDERALLY SPONSORED 4 and the 3rd hammer body 13
Tail end abut, and the second end of first STATEMENT OF FEDERALLY SPONSORED 4 and the 3rd hammer body 13 are in angle setting, so that described first
Moving part 4 drives the 3rd hammer body 13 to be stretched out along the pilot hole;
Second end of second STATEMENT OF FEDERALLY SPONSORED 5 is abutted with the tail end of the 4th hammer body 14, and second linkage
Second end of part 5 is set with the 4th hammer body 14 in angle, so that second STATEMENT OF FEDERALLY SPONSORED 5 drives the edge of the 4th hammer body 14
The pilot hole stretches out.
In the present embodiment, the first end of the first STATEMENT OF FEDERALLY SPONSORED 4 and the second STATEMENT OF FEDERALLY SPONSORED 5 is respectively along the first inclined working 21 and second
Inclined working 22 is relative with upper anvil block 2 to be slided, and the second end of the first STATEMENT OF FEDERALLY SPONSORED 4 and the second STATEMENT OF FEDERALLY SPONSORED 5 is hammered into shape with the 3rd respectively
The tail end of the hammer body 14 of body 13 and the 4th is abutted, and is set in angle, so, when upper anvil block 2 is moved downward, the 3rd hammer body
13 and the 4th hammer body 14 promoted by the first STATEMENT OF FEDERALLY SPONSORED 4 and the second STATEMENT OF FEDERALLY SPONSORED 5 so that the 3rd hammer body 13 and the 4th hammer body 14 are along guiding
Hole is stretched out, and when upper anvil block 2 is moved upwards, the 3rd hammer body 13 and the 4th hammer body 14 are reverted to originally by the downward component of gravity
Position.
On the basis of above-described embodiment, further, first hammer body 11 includes:First be arranged in a mutually vertical manner connects
The tup 111 of extension bar 110 and first, second hammer body 12 includes:The second connecting rod being arranged in a mutually vertical manner and the second tup;
The head rod 110 can be slided along first inclined working 21 and the upper anvil block 2 are relative;
Second connecting rod can be slided along second inclined working 22 and the upper anvil block 2 are relative;
The upper and lower ends of the head rod 110 are provided with the first chute 112, and up and down the two of second connecting rod
End is provided with the second chute;
The first end of 3rd hammer body 13 is provided with the 3rd tup 130, and the second end of the 3rd hammer body 13 is provided with
In 45 ° of inclined plane;
Second end of the 3rd hammer body 13 is abutted with the second end of first STATEMENT OF FEDERALLY SPONSORED 4, so that first linkage
Part 4 promotes the 3rd hammer body 13 to be stretched out along the pilot hole;
3rd hammer body 13 is identical with the structure of the 4th hammer body 14.
In the present embodiment, head rod 110 can be slided along the first inclined working 21 and the upper anvil block 2 are relative, and second
Connecting rod can be slided along second inclined working 22 and the upper anvil block 2 are relative, and the upper and lower ends of head rod 110 are all provided with
The first chute 112 is equipped with, the upper and lower ends of the second connecting rod are provided with the second chute;Head rod 110 and second is connected
Bar is slided by the way that the first chute 112 of setting and the second chute are relative with upper anvil block 2;Second end of the 3rd hammer body 13, which is provided with, is in
45 ° of inclined plane, is slided so that the second end of the first STATEMENT OF FEDERALLY SPONSORED 4 is relative with the used inclined plane in the second end of the 3rd hammer body 13, with
The 3rd hammer body 13 and the 4th hammer body 14 is driven to be stretched out along pilot hole.
On the basis of above-described embodiment, further, the first end of first STATEMENT OF FEDERALLY SPONSORED 4 is provided with the 3rd chute
41, the second end of first STATEMENT OF FEDERALLY SPONSORED 4 is provided with the 4th chute 42;
3rd chute 41 and first chute 112 are on the same line;
The first end of second STATEMENT OF FEDERALLY SPONSORED 5 is provided with the 5th chute, and the second end of second STATEMENT OF FEDERALLY SPONSORED 5 is provided with
6th chute;
5th chute is on same straight line with second chute.
In the present embodiment, the 3rd chute 41 and the first chute 112 that the first end of the first STATEMENT OF FEDERALLY SPONSORED 4 is set are in same straight line
On, the 5th chute that one end of the second STATEMENT OF FEDERALLY SPONSORED 5 is set is on same straight line with the second chute, so, and upper anvil block 2 is can be with
The first hammer body 11, the second hammer body 12, the first STATEMENT OF FEDERALLY SPONSORED 4 and the second STATEMENT OF FEDERALLY SPONSORED 5 are driven simultaneously, to ensure the first hammer body 11 and second
Hammer body 12 acts on the object of forging simultaneously.
On the basis of above-described embodiment, further, first inclined working 21 includes:The He of first link slot 211
Multiple first connecting holes 212;First link slot 211 be arranged in parallel with first chute 112, multiple first connections
Hole 212 is arranged between first link slot 211 and first chute 112;
Second inclined working 22 includes:Second link slot 221 and multiple second connecting holes 222, second connection
Groove 221 be arranged in parallel with the 5th chute and second chute, and multiple second connecting holes 222 are arranged on described second
Between link slot 221 and the 5th chute and second chute.
In the present embodiment, the first link slot 211 be arranged in parallel with the first chute 112, the second link slot 221 and the 5th chute
Be arranged in parallel, the first link slot 211 and the first chute 112 be slidably connected by connector, and by the second link slot 221 with
5th slide is connected, in multiple first connecting holes by being arranged in the first inclined working 21 and the second inclined working 22
212 and second connecting hole 222, connecting plate is limited to the first inclined working 21 and the second inclined working 22, to ensure the first company
The chute 112 of access slot 211 and first is slidably connected, the stability that the second link slot 221 is connected with the 5th slide, improves device
Security performance.
On the basis of above-described embodiment, further, the 3rd inclined working 31 includes:7th chute 310 and
Three connecting holes 311;
7th chute 310 be arranged in parallel with the 4th chute 42, and multiple 3rd connecting holes 311 are arranged on institute
State between the 7th chute 310 and the 4th chute 42;
4th inclined working 32 includes:8th chute 320 and the 4th connecting hole 321;
8th chute 320 be arranged in parallel with the 6th chute, and multiple 4th connecting holes 321 are arranged on described
Between 8th chute 320 and the 6th chute.
In the present embodiment, the 3rd inclined working 31 and the 4th inclined working 32 are fixed, and are provided with the 3rd inclined working 31
The 8th chute 320 and the 4th connecting hole 321 are provided with 7th chute 310 and the 3rd connecting hole 311, the 4th inclined working 32,
Slided and connected by second end at the second end and the second STATEMENT OF FEDERALLY SPONSORED 5 of the 7th chute 310 and the 8th chute 320 and the first STATEMENT OF FEDERALLY SPONSORED 4
Connect, so that the first STATEMENT OF FEDERALLY SPONSORED 4 and the second STATEMENT OF FEDERALLY SPONSORED 5 can drive the third and fourth hammer body 14.
On the basis of above-described embodiment, further, in addition to for connecting the first inclined working 21 and the first linkage
First guide plate 410 of the first end of part 4, the second guide plate 510 of the linkage first end of the second inclined working of connection 22 and second,
Connect the 3rd guide plate 420 of the 3rd inclined working 31 and the end of the first STATEMENT OF FEDERALLY SPONSORED 4 second and be connected the 4th inclined working 32 and
4th guide plate 520 at the end of two STATEMENT OF FEDERALLY SPONSORED 5 second;
First guide plate 410 includes:Body and the first slide rail 4101 being arranged on plate body, the second slide rail 4102
With multiple connecting holes 4103, first slide rail 4101 and second slide rail 4102 are arranged in parallel;
First guide plate 410, the second guide plate 510, the 3rd guide plate 420 are identical with the structure of the 4th guide plate 520.
In the present embodiment, by connecting the first guide plate 410 of the first inclined working 21 and the first end of the first STATEMENT OF FEDERALLY SPONSORED 4,
The second guide plate 510 of the second inclined working 22 and the second linkage first end is connected, the 3rd inclined working 31 and first is connected
3rd guide plate 420 at the end of moving part 4 second and the 4th guide plate at the 4th inclined working 32 of connection and the end of the second STATEMENT OF FEDERALLY SPONSORED 5 second
520 four guide plates will be slidably connected between upper anvil block 2 and lower anvil block 3, and be provided with each guide plate two
Slide rail and multiple connecting holes 4103, are fixed with being directed to plate, to keep the stabilization of process.
A kind of forging press, including four above-mentioned tup swaging tools.
Forging press in the present embodiment can avoid the position of workpiece from offseting during workpiece is forged and pressed, and improve forging
Quality.
Finally it should be noted that:Various embodiments above is only limited to illustrate the technical solution of the utility model, rather than to it
System;Although the utility model is described in detail with reference to foregoing embodiments, one of ordinary skill in the art should
Understand:It can still modify to the technical scheme described in foregoing embodiments, or to which part or whole
Technical characteristic carries out equivalent substitution;And these modifications or replacement, the essence of appropriate technical solution is departed from this practicality newly
The scope of each embodiment technical scheme of type.