CN207787385U - Pipe port profile shaping machine structure and mold - Google Patents

Abstract

The utility model provides a kind of pipe port profile shaping machine structure and mold, is related to technology of die manufacturing field, pipe port profile shaping machine structure includes fixed half and moving half；Cover half is equipped with sliding slot, is slidably connected in sliding slot there are two sliding block, and the storage tank for placing pipe port is formed between two sliding blocks；Guide pad there are two being set on dynamic model, when dynamic model is moved towards cover half, two guide pads can push two sliding blocks to be slided towards storage tank respectively, and clamp the pipe port that remodeling is located in storage tank.The technical issues of alleviating abnormal shape molding procedure complexity in pipe port in the prior art, inefficiency and waste raw material.

Description

Pipe port profile shaping machine structure and mold

Technical field

The utility model is related to technology of die manufacturing fields, in particular to a kind of pipe port profile shaping machine structure And mold.

Background technology

With the development of automobile industry, auto parts and components require higher and higher, and each main engine plants are from cost-effective promotion quality Consideration may require that supplier constantly takes new material with new process to increase product competitiveness.The producer of domestic production at present is to making The abnormal shape molding of pipe port is to use punching machine punching production product twice, one-pass molding, a shaping.

Punching machine Sheet Metal Forming Technology is to apply pressure to pipe fitting by punching machine and mold, so that pipe is generated plastic deformation, to obtain Obtain a kind of machining process of the product of definite shape, size.It is such as that pipe is again moulding, square tube etc. is formed, due to punching machine Drawing velocity it is very fast, pipe cannot generate plastic deformation and in place or even rupture very well, and the pipe of rupture can only be scrapped, and mould Property deform pipe not in place and can only use punching press shaping again in place, this scheme efficiency is low, waste raw material, cannot meet people Demand.

Utility model content

The purpose of this utility model is to provide a kind of pipe port profile shaping machine structure and molds, to alleviate the prior art In pipe port abnormal shape molding procedure it is complicated, the technical issues of inefficiency and waste raw material.

The utility model provides a kind of pipe port profile shaping machine structure, including fixed half and moving half；

The cover half is equipped with sliding slot, is slidably connected in the sliding slot there are two sliding block, is formed between two sliding blocks Storage tank for placing pipe port；

Guide pad there are two being set on the dynamic model, when the dynamic model is moved towards the cover half, two guide pads Two sliding blocks can be pushed to be slided towards the storage tank respectively, and clamp the pipe end that remodeling is located in the storage tank Mouthful.

Further；The locating piece that the sliding block deviates from the sliding slot is limited there are two being set on the cover half, described in two Locating piece is oppositely arranged on the both ends of the sliding slot.

Further；Further include two groups of resetting springs and connection bolt, the locating piece is equipped with through-hole, the connection spiral shell Bolt sequentially passes through the resetting spring and the through-hole and is threadedly coupled with the sliding block, and the resetting spring can be by described Sliding block described in bolt pusher is connected towards the corresponding locating piece sliding.

Further；The one side of the locating piece towards the sliding block is equipped with limited step, and the limited step is towards institute The one side for stating sliding block is contacted with sliding block fitting, and the guide pad is equipped with inclined-plane, when the dynamic model is moved towards the cover half When, limited step described in the guide pad face, the inclined-plane can be abutted with the upper rib of the sliding block, and push the sliding block It is slided towards the storage tank.

Further；The first backing plate is installed on the cover half, first backing plate is located in the storage tank, described dynamic The second backing plate is correspondingly provided on mould, when the dynamic model is moved towards the cover half, first backing plate and second backing plate It is common to compress remodeling pipe port.

Further；First backing plate is fastened on the cover half, and second backing plate is fastened on the dynamic model.

Further；The cover half is equipped with the first compact heap, and first compact heap is equipped with for placing the circle First groove of pipe is correspondingly provided with the second compact heap on the dynamic model, is correspondingly provided on second compact heap for placing The second groove for stating pipe, when the dynamic model and the cover half are bonded to each other fixed, first groove and described second recessed Slot limits the movement of the pipe jointly.

Further；The cross section of first groove and second groove is semicircle, and diameter of section is equal to The outer diameter of the pipe.

Further；Guide post there are two being set on the cover half, two guide posts are diagonally positioned, corresponding on the dynamic model If there are two pilot hole, the guide post is inserted into the pilot hole.

The utility model also provides a kind of mold, including pipe port profile shaping machine structure as described above.

Compared with the existing technology, the advantageous effect of pipe port profile shaping machine structure and mold provided by the utility model is such as Under：

Pipe port profile shaping machine structure provided by the utility model, including fixed half and moving half, wherein cover half is equipped with two A blend stop arranged in parallel forms sliding slot between two blend stops, and be slidably connected two sliding blocks in sliding slot, between two sliding blocks Form storage tank, the center of one of blend stop be equipped with convenient for pipe by opening, opening communicates with storage tank, pipe It can be placed in storage tank by opening, the opposite one side of two sliding blocks is that moulding working face is carried out to pipe；Dynamic model energy Enough and solid plate is bonded to each other fixation, and fixed there are two guide pads, and two guide pads correspond to a sliding block respectively, when dynamic model court When being moved to cover half, two guide pads and can push two sliding blocks towards the storage tank respectively with corresponding shoe contact Sliding, two working faces of sliding block are close to each other, the clamping remodeling of the complete pipe port being in pairs in storage tank.

Specifically, when needing to carry out the molding of pipe abnormal shape, first, sliding block is fixed on to the designated position of sliding slot, at this point, The width of storage tank is more than the diameter of pipe；Secondly, pipe is integrally placed on cover half, and so that pipe port is passed through opening and put It sets in storage tank；Finally, driving dynamic model is moved towards cover half, and guide pad drives sliding block to be slided towards storage tank, so that sliding block The shape of remodeling pipe port is gradually clamped, at this point, dynamic model both ends of the surface opposite with cover half can also clamp remodeling pipe, works as dynamic model When being bonded fixed completely with cover half, pressurize certain time completes the special-shaped processing and forming of pipe port.Aforesaid operations process is simple Convenient, one-pass molding, production efficiency is high, and pipe will not occur substantially and scrapped because punching press is too fast, saves material.

The technical advantage phase of the technical advantage of mold provided by the utility model and above-mentioned pipe port profile shaping machine structure Together, details are not described herein again.

Description of the drawings

It, below will be right in order to illustrate more clearly of specific embodiment of the present invention or technical solution in the prior art Specific implementation mode or attached drawing needed to be used in the description of the prior art are briefly described, it should be apparent that, it is described below In attached drawing be that some embodiments of the utility model are not paying creativeness for those of ordinary skill in the art Under the premise of labour, other drawings may also be obtained based on these drawings.

Fig. 1 is the structural schematic diagram of cover half in the pipe port profile shaping machine structure that the utility model embodiment provides；

Fig. 2 is the A-A sectional views of Fig. 1；

Fig. 3 is the structural schematic diagram of dynamic model in the pipe port profile shaping machine structure that the utility model embodiment provides；

Fig. 4 is the workpiece pipe to be added in the utility model embodiment.

Icon：1- cover half；2- dynamic models；3- sliding blocks；4- locating pieces；5- guide pads；6- connection bolts；7- resets Spring；8- pipes；11- blend stops；12- guide posts；The first backing plates of 13-；The first compact heaps of 14-；21- pilot holes；22- Two backing plates；The second compact heaps of 23-；41- limited steps；The inclined-planes 51-；81- pipes port；The first grooves of 141-；231- Second groove.

Specific implementation mode

The technical solution of the utility model is clearly and completely described below in conjunction with attached drawing, it is clear that described Embodiment is the utility model a part of the embodiment, instead of all the embodiments.Based on the embodiments of the present invention, originally The every other embodiment that field those of ordinary skill is obtained without making creative work, belongs to this practicality Novel protected range.

It is in the description of the present invention, it should be noted that term "center", "upper", "lower", "left", "right", " perpendicular Directly ", the orientation or positional relationship of the instructions such as "horizontal", "inner", "outside" is to be based on the orientation or positional relationship shown in the drawings, and is only The utility model and simplifying describes for ease of description, do not indicate or imply the indicated device or element must have it is specific Orientation, with specific azimuth configuration and operation, therefore should not be understood as limiting the present invention.In addition, term " the One ", " second ", " third " are used for description purposes only, and are not understood to indicate or imply relative importance.

In the description of the present invention, it should be noted that unless otherwise clearly defined and limited, term " is pacified Dress ", " connected ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or integrally Connection；It can be mechanical connection, can also be electrical connection；Can be directly connected, can also indirectly connected through an intermediary, It can be the connection inside two elements.For the ordinary skill in the art, it can understand above-mentioned art with concrete condition The concrete meaning of language in the present invention.

Embodiment one

As shown in Figs 1-4, the utility model embodiment provides a kind of pipe port profile shaping machine structure, including 1 He of cover half Dynamic model 2；Cover half 1 is equipped with sliding slot, is slidably connected in sliding slot there are two sliding block 3, is formed between two sliding blocks 3 for placing pipe The storage tank of port 81；Guide pad 5 there are two being set on dynamic model 2, when dynamic model 2 is moved towards cover half 1, two guide pads 5 can It pushes two sliding blocks 3 to be slided towards storage tank respectively, and clamps the pipe port 81 that remodeling is located in storage tank.

The pipe port profile shaping machine structure that the utility model embodiment provides, including cover half 1 and dynamic model 2, wherein fixed It is set on mould 1 there are two blend stop 11 arranged in parallel, forms sliding slot between two blend stops 11, be slidably connected two cunnings in sliding slot Block 3, forms storage tank between two sliding blocks 3, the center of one of blend stop 11 be equipped with convenient for pipe 8 by opening, Opening is communicated with storage tank, and pipe 8 can be placed on by opening in storage tank, and the opposite one side of two sliding blocks 3 is to pipe 8 Carry out moulding working face；Dynamic model 2 can be bonded to each other fixation with 1 plate of cover half, and fixed there are two guide pad 5, two guiding Block 5 corresponds to a sliding block 3 respectively, and when dynamic model 2 is moved towards cover half 1, two guide pads 5 can connect with corresponding sliding block 3 It touches, and pushes two sliding blocks 3 to be slided towards the storage tank respectively, two working faces of sliding block 3 are close to each other, complete to be in pairs at The clamping of pipe port 81 in storage tank is remolded.

Specifically, when needing to carry out 8 abnormal shape molding of pipe, first, sliding block 3 is fixed on the designated position of sliding slot, at this point, The width of storage tank is more than the diameter of pipe 8；Secondly, pipe 8 is integrally placed on cover half 1, and pipe port 81 is made to pass through Opening is placed in storage tank；Finally, driving dynamic model 2 is moved towards cover half 1, and guide pad 5 drives sliding block 3 to be slided towards storage tank It is dynamic, so that sliding block gradually clamps the shape for remolding pipe port 81, at this point, the both ends of the surface opposite with cover half 1 of dynamic model 2 can also clamp Pipe 8 is remolded, when dynamic model 2 is bonded fixed completely with cover half 1, pressurize certain time completes the special-shaped molding of pipe port 81 Processing.Aforesaid operations process is simple and convenient, one-pass molding, and production efficiency is high, and pipe 8 will not occur substantially due to punching press is too fast It scraps, saves material.

It is noted that in the present embodiment, as shown in figure 4, the pipe shaft for the pipe 8 processed is curve shape, put After setting on cover half 1, under the co-location of dynamic model 2, pipe 8 will not rotate, and ensure that molding to pipe port 81 Accuracy.

Specifically, the present embodiment also the concrete structure of pipe port profile shaping machine structure is done it is described in detail below.

First, in the present embodiment, set on cover half 1 there are two limitation sliding block 3 deviate from sliding slot locating piece 4, two locating pieces 4 It is oppositely arranged on the both ends of sliding slot.

Two blend stops 11 for forming sliding slot are bolted on cover half 1, the both ends open of sliding slot, by locating piece Locating piece 4 is arranged in 4 both ends, can limit the abjection of sliding block 3, in the present embodiment, the original state of setting cover half 1 be sliding block 3 with Corresponding locating piece 4 abuts, at this point, the width of storage tank is maximum, storage tank is put into convenient for pipe port 81.

In addition, locating piece 4 is detachably mounted on cover half 1 by bolt, it is fixed on cover half 1 in locating piece 4 Before, two sliding blocks 3 are slid by two openings of sliding slot in sliding slot respectively.

Further, it as shown in Fig. 2, the present embodiment further includes two groups of resetting springs 7 and connection bolt 6, is set on locating piece 4 There are through-hole, connection bolt 6 to sequentially pass through resetting spring 7 and through-hole and be threadedly coupled with sliding block 3, resetting spring 7 can pass through company Connecting bolt 6 pushes sliding block 3 to be slided towards corresponding locating piece 4.

Specifically, the axial direction of through-hole is parallel with the length direction of sliding slot, the outer diameter of resetting spring 7 is more than through-hole Diameter, internal diameter are less than the diameter of connection 6 nut of bolt, and after connection bolt 6 is threadedly coupled with respective slide 3, resetting spring 7 is located at Between coupling nut and locating piece 4, and the moment is in compressive state, and the tension of resetting spring 7 gives sliding block 3 and faces away from appearance The power for setting the sliding of slot direction can slide into initial position, facilitate the different of next workpiece automatically after so that sliding block 3 is detached from guide pad 5 Type is shaped.

Further；Locating piece 4 towards sliding block 3 one side be equipped with limited step 41, limited step 41 towards sliding block 3 one Face is contacted with the fitting of sliding block 3, and guide pad 5 is equipped with inclined-plane 51, when dynamic model 2 is moved towards cover half 1,5 face limiting stand of guide pad Rank 41, inclined-plane 51 can be abutted with the upper rib of sliding block 3, and sliding block 3 is pushed to be slided towards storage tank.

On cover half 1, limited step 41 is less than the height of locating piece 4 and sliding block 3, can by the way that limited step 41 is arranged Facilitate guide pad 5 to be inserted between locating piece 4 and sliding block 3, and then inclined-plane 51 is facilitated to push the sliding of sliding block 3, when cover half 1 and moves After mould 2 is bonded to each other fixation, the top surface of guide pad 5 is contacted with the fitting of the top surface of limited step 41.

In the present embodiment, limited step 41 is integrally formed with locating piece 4.

Specifically, as shown in figures 1 and 3, in the present embodiment, the first backing plate 13, the first 13, backing plate are installed on cover half 1 In in storage tank, being correspondingly provided with the second backing plate 22 on dynamic model 2, when dynamic model 2 is moved towards cover half 1, the first backing plate 13 and second Backing plate 22 compresses remodeling pipe port 81 jointly.

In process, cover half 1 is lower die, and dynamic model 2 is above to touch, and cover half 1 is parallel with respect to ground with the end face of dynamic model 2, Pipe 8 is moved relative to cover half 1 in order to prevent, and pipe 8 when the height of sliding block 3 is placed on storage tank at least more than pipe 8 need to be arranged Center of gravity height, and when the thickness of the rectangular port after needing to process is less than the radius of former pipe 8, then need by first Cushion block and the second cushion block replace the end face of dynamic model 2 and cover half 1 to remold the clamping of pipe port 81, at this point, dynamic model 2 and fixed After mould 1 is bonded to each other, the distance between both ends of the surface subtract the first cushion block and the thickness of the second cushion block is equal to the square end after processing The thickness of mouth.

In the present embodiment, the first backing plate 13 is fastened on cover half 1, and the second backing plate 22 is fastened on dynamic model 2.

For square orifice is processed into pipe port 81, can by be arranged sliding block 3 track length direction thickness, With the width of adjustable side saliva planar end surface cover half 1 and 2 end face of dynamic model can be protruded by the way that the first backing plate 13 and the second backing plate 22 is arranged Height, can also complete adjust port the vertical side face width.

Further, cover half 1 is equipped with the first compact heap 14, and the first compact heap 14 is equipped with for placing pipe 8 One groove 141 is correspondingly provided with the second compact heap 23 on dynamic model 2, is correspondingly provided on the second compact heap 23 for placing pipe 8 Second groove 231, when dynamic model 2 is bonded to each other fixed with cover half 1, the first groove 141 and the second groove 231 limit pipe jointly 8 movement.

The shape of first groove 141 and the second groove 231 is identical as the shape of 8 pipe shaft of pipe, one end of the first groove 141 It is in the horizontal direction fixed can to complete pipe 8 after pipe 8 is placed in the first groove 141 for the opening of the face that is open blend stop 11 Position.

Specifically, the cross section of the present embodiment the first groove 141 of setting and the second groove 231 is semicircle, and section Diameter is equal to the outer diameter of pipe 8.

After cover half 1 and dynamic model 2, which are bonded to each other, to be fixed, inner wall and the pipe 8 of the first groove 141 and the second groove 231 Outer wall fitting contact.

The present embodiment is also set on cover half 1 there are two guide post 12, and two guide posts 12 are diagonally positioned, accordingly set on dynamic model 2 There are two pilot hole 21, guide post 12 is inserted into pilot hole 21.

By two diagonally positioned guide posts 12, the guiding to dynamic model 2 can be completed, dynamic model 2 is made to be moved towards cover half 1 When guide pad 5 and sliding block 3 between always correspond.

Embodiment two

The utility model embodiment provides a kind of mold, including pipe port profile shaping machine structure as described above.

Cover half 1 and dynamic model 2 in mold are each attached on forcing press, and the die sinking and molding of mold pass through forcing press control System, forcing press control the speed of molding and the time of pressurize after molding simultaneously, specifically, when need to carry out pipe 8 it is special-shaped at When type, first, sliding block 3 is fixed on to the designated position of sliding slot, at this point, the width of storage tank is more than the diameter of pipe 8；Secondly, Pipe 8 is integrally placed on cover half 1, and pipe port 81 is made to be placed in storage tank by opening；Finally, pass through forcing press Dynamic model 2 is driven to be moved towards cover half 1, guide pad 5 drives sliding block 3 to be slided towards storage tank, so that sliding block gradually clamps remodeling circle The shape of pipe port 81, at this point, the both ends of the surface opposite with cover half 1 of dynamic model 2 can also clamp remodeling pipe 8, when dynamic model 2 and cover half 1 When fitting is fixed completely, pressurize certain time completes the special-shaped processing and forming of pipe port 81.Aforesaid operations process is simply square Just, one-pass molding, production efficiency is high, and pipe 8 will not occur substantially and scrapped because punching press is too fast, saves material.

Finally it should be noted that：The above various embodiments is only to illustrate the technical solution of the utility model, rather than limits it System；Although the utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art should Understand：It still can be with technical scheme described in the above embodiments is modified, either to which part or whole Technical characteristic carries out equivalent replacement；And these modifications or replacements, this practicality that it does not separate the essence of the corresponding technical solution are new The range of each embodiment technical solution of type.

Claims (10)

1. a kind of pipe port profile shaping machine structure, which is characterized in that including fixed half and moving half；

The cover half is equipped with sliding slot, is slidably connected in the sliding slot there are two sliding block, is formed and is used between two sliding blocks Place the storage tank of pipe port；

Guide pad there are two being set on the dynamic model, when the dynamic model is moved towards the cover half, two guide pads can It pushes two sliding blocks to be slided towards the storage tank respectively, and clamps the pipe port that remodeling is located in the storage tank.

2. pipe port profile shaping machine structure according to claim 1, which is characterized in that limit there are two being set on the cover half The locating piece that the sliding block deviates from the sliding slot is made, two locating pieces are oppositely arranged on the both ends of the sliding slot.

3. pipe port profile shaping machine structure according to claim 2, which is characterized in that further include two groups of resetting springs and Connect bolt, the locating piece is equipped with through-hole, resetting spring and the through-hole described in the connection screw bolt passes and with The sliding block is threadedly coupled, and the resetting spring can pass through the corresponding positioning of sliding block direction described in the connection bolt pusher Block slides.

4. pipe port profile shaping machine structure according to claim 3, which is characterized in that the locating piece is towards the cunning The one side of block is equipped with limited step, and the one side of the limited step towards the sliding block is contacted with sliding block fitting, described to lead It is equipped with inclined-plane to block, when the dynamic model is moved towards the cover half, limited step described in the guide pad face, the inclined-plane It can be abutted with the upper rib of the sliding block, and the sliding block is pushed to be slided towards the storage tank.

5. pipe port profile shaping machine structure according to claim 4, which is characterized in that be installed with first on the cover half Backing plate, first backing plate are located in the storage tank, and the second backing plate is correspondingly provided on the dynamic model, when the dynamic model is towards institute When stating cover half movement, first backing plate and second backing plate compress remodeling pipe port jointly.

6. pipe port profile shaping machine structure according to claim 5, which is characterized in that first backing plate is fastened on institute It states on cover half, second backing plate is fastened on the dynamic model.

7. pipe port profile shaping machine structure according to claim 5, which is characterized in that the cover half is equipped with the first pressure Tight block, first compact heap are equipped with the first groove for placing the pipe, the second pressure are correspondingly provided on the dynamic model Tight block is correspondingly provided with the second groove for placing the pipe on second compact heap, when the dynamic model and the cover half When being bonded to each other fixed, first groove and second groove limit the movement of the pipe jointly.

8. pipe port profile shaping machine structure according to claim 7, which is characterized in that first groove and described The cross section of two grooves is semicircle, and diameter of section is equal to the outer diameter of the pipe.

9. pipe port profile shaping machine structure according to claim 7, which is characterized in that led there are two being set on the cover half Column, two guide posts are diagonally positioned, and two pilot holes are correspondingly provided on the dynamic model, and the guide post is inserted into described lead Into hole.

10. a kind of mold, which is characterized in that including pipe port as claimed in any one of claims 1-9 wherein profile shaping machine Structure.