A kind of pipe end is molded dotting integrated machine structure
Technical field
It the utility model is related to the technical field of mechanical machine work, more particularly to a kind of pipe end shaping dotting integrated machine structure.
Background technology
In refrigerating field, it is necessary to use a kind of double end pipe, the product shown in accompanying drawing 7, the production shown in accompanying drawing 8 is processed into
Product, shaping mainly is carried out to the both ends of pipe, while, it is necessary to carry out getting ready for indent, traditional processing side in the two sides of pipe
Formula first carries out shaping, it is necessary to using two processes to pipe end, then changes an equipment, is got ready, two processes, it is necessary to two
Sleeve clamp, in clamping process, because of the accurate locating surface of workpiece neither one after shaping, so mismachining tolerance is easily caused,
Cause big with a collection of product differentiation to dispatch from the factory, customer complaint is more.
The content of the invention
In order to solve prior art problem, the utility model provides a kind of pipe end shaping dotting integrated machine structure, clamped one time
Can just complete, reduce transfer and clamping times, avoid because of clamping and caused by error, product differentiation is small, high in machining efficiency.
To achieve the above object, technical scheme provided by the utility model is:A kind of pipe end is molded dotting integrated machine structure,
It is characterized in that:Including two feeding clip mechanisms being oppositely arranged, each feeding clip mechanism working end is connected with a fixture block and by the
One hydraulic oil cylinder driving, two fixture blocks are oppositely arranged and can clamp workpiece, along first cylinder movement in the middle part of each fixture block
Direction is provided with a through hole run through, and each feeding clip mechanism rear end is additionally provided with an ejector pin mechanism, the work side of the ejector pin mechanism
To parallel with the feeding clip mechanism, the ejector pin mechanism working end is connected with a thimble and by the 3rd hydraulic oil cylinder driving, the thimble
The through hole is may pass through, the feeding clip mechanism is respectively fixed on the machine frame with the ejector pin mechanism, in the two fixture block both sides also
A pipe end forming mechanism is respectively equipped with, the shaping mechanism is fixed in frame, and the shaping mechanism working end is connected with a shaping
Rod is simultaneously respectively equipped with a groove by the second hydraulic oil cylinder driving, the dressing stick both sides and with respect to the direction of two thimbles.
Preferably, the groove width of the groove is slightly larger than the face size of the thimble.
Preferably, length direction of the groove along the dressing stick is set, and extends to the end face of dressing stick.
Preferably, the working end of the ejector pin mechanism is slidably connected to guide rod to ensure the parallel release of the thimble.
The beneficial effects of the utility model:
The utility model is be arranged in parallel using feeding clip mechanism with ejector pin mechanism, after feeding clip mechanism is Workpiece clamping, two pipes
Shaping mechanism work is held, and shaping is carried out to pipe end, after shaping, dressing stick is stayed in tube cavity, ejector pin mechanism work, to pipe
Both sides carry out getting operation ready, and groove of the thimble alignment on dressing stick, dressing stick prevents pipe fitting from deforming, after the completion of getting ready, folder
Material mechanism, ejector pin mechanism and pipe end forming mechanism are resetted respectively, and work pieces process is completed, and this processing mode, clamped one time will not
Produce error because of multiple clamping, it is necessary to fixture it is few, workpiece get ready it is indeformable during process, it is high in machining efficiency.
Brief description of the drawings
Fig. 1 is stereogram of the present utility model;
Fig. 2 is top view of the present utility model;
Fig. 3 is the stereogram of ejector pin mechanism 3;
Fig. 4 is the top view of fixture block 11;
Fig. 5 is Fig. 4 A-A faces sectional view;
Fig. 6 is the stereogram of dressing stick 21;
Fig. 7 is the stereogram before work pieces process;
Fig. 8 is the stereogram after work pieces process;
In figure:1- feeding clip mechanisms, 11- fixture blocks, 11a- through holes, the oil cylinders of 12- first, 2- pipe end forming mechanisms, 21- shapings
Rod, 21a- grooves, the oil cylinders of 22- second, 3- ejector pin mechanisms, 31- thimbles, the oil cylinders of 32- the 3rd.
Embodiment
Below in conjunction with the accompanying drawings and specific embodiment, the utility model will be further described:
Referring to figs. 1 to Fig. 6, a kind of pipe end is molded dotting integrated machine structure, including two feeding clip mechanisms 1 being oppositely arranged, two folders
Material mechanism 1 is fixed in frame and (frame is not drawn into figure), each working end of feeding clip mechanism 1 be connected with a fixture block 11 and by
First oil cylinder 12 drives, and two fixture blocks 11 are oppositely arranged and can clamp workpiece, and workpiece is circular pipe fitting, as described in Figure 7, each
The middle part of fixture block 11 is provided with a through hole 11a run through along the direction of motion of the first oil cylinder 12, after each feeding clip mechanism 1
End is additionally provided with an ejector pin mechanism 3, and the ejector pin mechanism 3 is fixed in frame, and the feeding clip mechanism 1 and the ejector pin mechanism 3 are simultaneously
Row is set, and the operative orientation of the ejector pin mechanism 3 is parallel with the feeding clip mechanism 1, and the working end of ejector pin mechanism 3 is connected with a top
Pin 31 is simultaneously driven by the 3rd oil cylinder 32, and the thimble 31 is aligned and may pass through the through hole 11a, and the workpiece in fixture block 11 is carried out
To get processing ready, a pipe end forming mechanism 2 is further respectively had in two both sides of fixture block 11, the shaping mechanism 2 is fixed in frame,
The working end of shaping mechanism 2 is connected with a dressing stick 21 and driven by the second oil cylinder 22, and dressing stick 21 sets phase as requested
The shape answered, reference picture 8, dressing stick 21 can be processed into the end of workpiece this bell-mouthed shape, 21 liang of the dressing stick
Side is simultaneously respectively equipped with a groove 21a with respect to the direction of two thimbles 31, and the groove width of the groove 21a is preferably slightly greater than the top
The face size of pin 31, so, thimble 31 have enough Working positions, in addition, groove 21a sets suitable size,
Workpiece can be avoided to deform, certainly, in order to which dressing stick 21 can smoothly be exited after processing is got ready, the groove 21a is along institute
The length direction for stating dressing stick 21 is set, and extends to the end face of dressing stick 21.
Specifically, in order to ensure that thimble 31 after multiple processing, remains to aligned through holes 11a, the work of the ejector pin mechanism 3
End is slidably connected to guide rod 33 to ensure the 31 parallel release of thimble, shifting of the more guide rods 33 along the first oil cylinder 12
Dynamic direction is set, and can so reduce error, it is ensured that the degree of accuracy got ready.
During utility model works, the feed mechanism of equipment can put workpiece between two fixture blocks 11, the work of the first oil cylinder 12
Make, Workpiece clamping, the second oil cylinder 22 is worked, and two dressing sticks 21 are filled in the workpiece both ends mouth of pipe and carry out shaping processing, shaping
Afterwards, dressing stick 21 stays in inside workpiece, and the 3rd oil cylinder 32 works, and the forward impelling of thimble 31, thimble 31 passes fixture block 11, gone forward side by side
Row gets work ready, and after getting ready, thimble 31 and dressing stick 21 exit workpiece, and two fixture blocks 11 unclamp workpiece, machined again.
Examples of implementation described above are only the preferred embodiment of the utility model, are not limited with this of the present utility model
Practical range, therefore the change that all shape, exothermal infrared principles according to the utility model are made, all should cover in the utility model
Protection domain within.