CN203184945U - Shape righting chamfering machine - Google Patents

Abstract

The utility model discloses a shape righting chamfering machine. The shape righting chamfering machine comprises a mold cavity, a shape righting pressing mold core and a chamfering mechanism, wherein a machining station is arranged inside the mold cavity, the machining station comprises a first side and a second side, the shape righting pressing mold core can be controlled to penetrate through the first side to conduct shape righting on a workpiece located on the machining station, the chamfering mechanism can be controlled to penetrate through the second side to carry out chamfering cutting on the workpiece located on the machining station, and the central axis of the shape righting mold core and the rotating axis of the chamfering mechanism are located on the same straight line. The shape righting chamfering machine has the advantages that shape righting and chamfering cutting of the workpiece can be achieved, in addition, extra manual adjusting of the position of the workpiece is not needed in the machining process, shape righting and chamfering cutting of the workpiece are automatically accomplished once, labor cost is saved, and production efficiency is improved.

Description

Orthopedic beveler

Technical field

The utility model belongs to the Machining Technology field, is specifically related to a kind of orthopedic beveler.

Background technology

Ginseng Fig. 4 and Fig. 5, at chamfering section straightening of the present utility model concrete workpiece 200 to be processed, because the particularity of its material and shape own, the first finished product of workpiece need just can meet user demand through orthopedic and two operations of chamfering cutting, wherein, orthopedic operation is used for the port 202 of workpiece 200 and bottom 201 are carried out orthopedic, so that the appearance and size of workpiece 200 and the control of standard-sized error is in the default margin of tolerance, chamfering process is for the salient point 202 on the cutting workpiece.

Existing equipment and processing method are with chamfering and orthopedicly are divided into two steps and carry out, chamfering is processed at bench drill, workpiece is put into after bench drill machines again and carries out orthopedicly on the special-purpose tool mould with cylinder, these two operations all are manually-operated, need expend a large amount of costs of labor.

So, be badly in need of a kind of orthopedic beveler at this kind workpiece, address the above problem.

The utility model content

The purpose of this utility model is to provide a kind of orthopedic beveler, and it can once finish two operations of orthopedic and chamfering cutting of workpiece to be processed, has saved cost of labor.

For realizing above-mentioned utility model purpose, the utility model provides a kind of orthopedic beveler, comprising: mold cavity, orthopedic binder core rod, and chamfer mechanism; Has processing stations in the described mold cavity, described processing stations comprises first side and second side, it is orthopedic so that the workpiece that is positioned at processing stations is carried out that described orthopedic binder core rod can be passed described first side with controlling, and described chamfer mechanism can be passed described second side the workpiece that is positioned at processing stations is carried out the chamfering cutting with controlling; Wherein, the rotating shaft of the central shaft of described orthopedic binder core rod and described chamfer mechanism is positioned at same straight line.

As further improvement of the utility model, described first side and described second side are oppositely arranged.

As further improvement of the utility model, described orthopedic binder core rod comprises the guide part that faces the workpiece that is positioned at processing stations, the first orthopedic portion that is connected with described guide part and the second orthopedic portion that is connected with described first orthopedic, the diameter of described guide part is less than the diameter of the described first orthopedic portion, and the diameter of the described first orthopedic portion is less than the diameter of the described second orthopedic portion.

As further improvement of the utility model, described mold cavity include accent and with described go into accent relative go out accent, described orthopedic beveler comprises that an end goes into charging gathering sill that accent cooperates and an end and go out the discharging gathering sill that accent cooperates with described with described.

As further improvement of the utility model, the accent of going into of described mold cavity is combined with and can opens drivenly or close described stop gauge of going into accent.

As further improvement of the utility model, the accent that goes out of described mold cavity is combined with and can opens drivenly or close the described doffer that goes out accent.

As further improvement of the utility model, described processing stations is so arranged so that described orthopedic binder core rod carries out when orthopedic the workpiece that is positioned at processing stations, and described workpiece is held on the madial wall of described mold cavity by described orthopedic binder core rod.

As further improvement of the utility model, described orthopedic beveler also comprises the orthopedic binder cylinder that drives described orthopedic binder core rod, the main shaft cutting cylinder that drives described chamfer mechanism and the backgauge blanking cylinder that drives described stop gauge and doffer.

As further improvement of the utility model, described orthopedic beveler also comprises the main shaft guide rail that is connected with described main shaft cutting cylinder and is installed in main shaft on the described main shaft guide rail that described chamfer mechanism is installed on the described main shaft.

As further improvement of the utility model, described main shaft guide rail is provided with buffer.

Compared with prior art, the orthopedic beveler that the utility model provides is by the mold cavity that is equipped with, orthopedic binder core rod, and chamfer mechanism, can carry out orthopedic to the workpiece of the processing stations that is positioned at mold cavity and the chamfering cutting, and, concrete part at processing, the central shaft of orthopedic binder core rod and the rotating shaft of chamfer mechanism are arranged at same straight line, in process, need not the position of extra artificial adjustment workpiece, the disposable orthopedic and chamfering cutting of finishing workpiece automatically, save human cost, improved production efficiency.

Description of drawings

Fig. 1 is the structural representation of orthopedic beveler one embodiment of the utility model;

Fig. 2 is the enlarged diagram of the interior part-structure of frame of broken lines among Fig. 1;

Fig. 3 is the structural representation of orthopedic binder core rod in orthopedic beveler one embodiment of the utility model;

Fig. 4 is the vertical view of the workpiece processed of the orthopedic beveler of the utility model;

Fig. 5 is the cutaway view of the workpiece processed of the orthopedic beveler of the utility model.

The specific embodiment

Below with reference to the specific embodiment shown in the drawings the utility model is described in detail.But these embodiments do not limit the utility model, and the conversion on the structure that those of ordinary skill in the art makes according to these embodiments, method or the function all is included in the protection domain of the present utility model.

Join Fig. 1 and Fig. 2, introduce a specific embodiment of the orthopedic beveler 100 of the utility model.In the present embodiment, this orthopedic beveler 100 comprises mold cavity 10, orthopedic binder core rod 20 and chamfer mechanism 30.

Has processing stations in the mold cavity 10, this processing stations comprises first side and second side, it is orthopedic so that the workpiece 200 that is positioned at processing stations (indicating) is carried out that orthopedic binder core rod 20 can be passed first side with controlling, and chamfer mechanism 30 can be passed second side the workpiece 200 that is positioned at processing stations is carried out the chamfering cutting with controlling.To need to prove that said " first side " " second side " do not represent function or structural absolute differentiation relation here, and only to be the convenience in order describing.

In the present embodiment, orthopedic binder core rod 20 is respectively arranged with machining hole at the sidewall that is positioned at its first side and second side, orthopedic binder core rod 20 and chamfer mechanism 30 can pass corresponding machining hole respectively to finish the processing to the workpiece that is positioned at processing stations, preferably, this first side and second side are oppositely arranged.

Cooperation is with reference to Fig. 4 and Fig. 5, the concrete condition that cooperates workpiece 200, orthopedic binder core rod 20 and chamfer mechanism 30 are divided into the both sides of mold cavity 10, at orthopedic binder core rod 20 with 30 pairs of workpiece of chamfer mechanism 200 carry out orthopedic and chamfering when cutting, orthopedic binder core rod 20 and chamfer mechanism 30 are respectively towards the direction motion towards mold cavity 10, and, distinguishingly, the rotating shaft of the central shaft of orthopedic binder core rod 20 and chamfer mechanism 30 is positioned at same straight line, workpiece 200 is being added man-hour, only need workpiece 200 one-time positioning to processing stations, need not extra adjustment operation, can realize workpiece 200 continuous orthopedic and chamferings are cut, save great deal of labor, improve production efficiency.

Ginseng Fig. 3, as preferred embodiment, orthopedic binder core rod 20 comprises the guide part 21 that faces the workpiece 200 that is positioned at processing stations, first orthopedic 22 and second orthopedic 23 of being connected with first orthopedic 22 who is connected with guide part 21, wherein, the diameter of guide part 21 is less than first orthopedic 22 diameter, and first orthopedic 22 diameter is less than second orthopedic 23 diameter.

Guide part 21 comes down to be defined by a chamfering on the orthopedic binder core rod 20, after workpiece to be processed 200 enters mold cavity 10, be in the location status of relative " freedom ", in the process of first side of passing processing stations when orthopedic binder core rod 20, the guide part 21 of orthopedic binder core rod 20 cooperates with workpiece 200 gradually, and, the diameter of guide part 21 is set to less than the diameter D of " opening " of workpiece 200 definition own, under the guiding of guide part 21, workpiece 200 is linked on the orthopedic binder core rod 20 gradually, and then arrives the position of processing stations.Preferably, this processing stations is so arranged so that 20 pairs of orthopedic binder core rods are positioned at the workpiece 200 of processing stations carries out when orthopedic, workpiece 200 is held on the madial wall of mold cavity 10 by orthopedic binder core rod 20, so, realize fixing to the workpiece 200 that is positioned at processing stations simultaneously, avoided issuable position skew in the process.

The concrete workpiece of processing at orthopedic beveler 100 of the present utility model 200, in the prior art, need usually respectively the bottom 201 of this workpiece 200 and port 202 are carried out orthopedic so that its appearance and size reaches designing requirement.And carry out in the orthopedic process at bottom 201 and the port 202 to workpiece 200 respectively, because the elastic deformation coefficient of workpiece 200 is very unstable, so once orthopedic success rate is lower, it is orthopedic to need more repeatedly do over again.At this kind situation, the orthopedic binder core rod 20 of the orthopedic beveler 100 that the utility model provides has different first orthopedic 22 and second orthopedic 23 of size, first orthopedic 22 size is a bit larger tham the opening diameter D of workpiece 200, be used for carrying out orthopedic to the bottom 201 of workpiece 200, second orthopedic 23 size is used for the port 202 of workpiece 200 is carried out the effect of orthopedic and firm workpiece 200 greater than first orthopedic 22 size.Like this, workpiece 200 is being carried out when orthopedic, the port 202 of workpiece 200 and bottom 201 are subjected to the extruding of orthopedic binder core rod 20 simultaneously, have improved once orthopedic success rate.

As preferred embodiment, mold cavity 10 include accent 11 and with go into accent 11 relative go out accent 12, part enters processing stations in the mold cavity 10 from going into accent 11, after to be processed the finishing, leaves processing stations by going out accent 12.Orthopedic beveler 100 also comprises an end and goes into charging gathering sill 51 that accent 11 cooperates and an end and go out the discharging gathering sill 52 that accent 12 cooperates, wherein, go into accent 11 and be combined with the stop gauge 41 that can open or close into accent drivenly, go out accent 12 and be combined with the doffer 42 that can open or close out accent drivenly.

Simultaneously, orthopedic beveler 100 also comprises the orthopedic binder cylinder 62 that drives orthopedic binder core rod 20, the main shaft 72 cutting cylinders 63 that drive chamfer mechanism 30 and the backgauge blanking cylinder 61 that drives stop gauge 41 and doffer 42.It will be appreciated that, though in the present embodiment, mainly adopted the mode of cylinder to drive above-mentioned each parts, but in the embodiment of other conversion, those of ordinary skill in the art can adopt other drive unit to reach identical technique effect easily, and the embodiment of these conversion all should be considered as the category of not unconventional the utility model skill spirit.

Further preferably, orthopedic beveler 100 also comprises the main shaft guide rail 71 that is connected with main shaft 72 cutting cylinders 63 and is installed in main shaft 72 on the main shaft guide rail 71 that above-mentioned chamfer mechanism 30 is installed on this main shaft 72.So arrange, the stationarity of excellence when chamfer mechanism 30 motions can be provided realizes the accurate processing cutting to salient point 203 on the workpiece 200.Especially, also be equipped with buffer 80 on the main shaft guide rail 71.

Usually, orthopedic beveler 100 of the present utility model can also adopt sensor (not shown) and controller (not shown) to realize the cooperation control of each operating procedure.For example, can be equipped with the orthopedic sensor of binder, backgauge blanking sensor, cutting cylinder sensor etc.; Here said controller can be to comprise microcontroller (Micro Controller Unit, MCU) integrated circuit, well-known to those skilled in the artly be, microcontroller can comprise CPU (Central Processing Unit, CPU), read-only memory module (Read-Only Memory, ROM), at random memory module (Random Access Memory, RAM), time block, digital-to-analogue conversion module (A/D Converter) and some input/output end ports.Certainly, controller also can adopt the integrated circuit of other form, as application-specific IC (Application Specific Integrated Circuits, ASIC) or field programmable gate array (Field-programmable Gate Array, FPGA) etc.

Below introduce an embodiment of the concrete course of work of orthopedic beveler 100 of the present utility model, when workpiece 200 comes out to enter charging gathering sill 51 from the vibrating disk (not shown), and roll into mold cavity 10 along charging gathering sill 51, at this moment, the stop gauge 41 of going into accent 11 places is in open mode, after workpiece 200 enters mold cavity 10 fully, orthopedic binder cylinder 62 drives the machining hole on the sidewall that orthopedic binder core rod 20 passes processing stations first side, in this process, workpiece 200 is positioned and compresses and be fixed on processing stations, the orthopedic sensor of binder sends induced signal subsequently, this moment, backgauge blanking cylinder 61 started, and stop gauge 41 was become closure state by open mode, in this simultaneously, doffer 42 becomes open mode by closure state, and keeps this state; After backgauge blanking cylinder 61 is finished above-mentioned action, backgauge blanking sensor sends induced signal, main shaft 72 cutting cylinders 63 drive machining hole on the sidewall that chamfer mechanism 30 on the main shafts 72 passes processing stations second side by main shaft guide rail 71, to finish the chamfering cutting to workpiece 200, after the chamfering cutting is finished, the cutting cylinder sensor sends induced signal, main shaft 72 cutting cylinders 63 returns, behind the time-delay 300ms, the orthopedic cylinder return of binder is behind the orthopedic cylinder return of binder 200ms, backgauge blanking cylinder 61 returns, processed good workpiece 200 falls into discharging gathering sill 52 from going out accent 12, and circulation so far finishes, and next workpiece 200 will repeat this process.Need to prove that said in the present embodiment " return " refers to that each parts of orthopedic beveler 100 get back to the position that workpiece 200 is not added man-hour.

The utility model is by above-mentioned embodiment, has following beneficial effect: the mold cavity 10 of the orthopedic beveler 100 that the utility model provides by being equipped with, orthopedic binder core rod 20, and chamfer mechanism 30, can carry out orthopedic to the workpiece 200 of the processing stations that is positioned at mold cavity 10 and the chamfering cutting, and, concrete part at processing, the central shaft of orthopedic binder core rod 20 and the rotating shaft of chamfer mechanism 30 are arranged at same straight line, in process, need not the position of extra artificial adjustment workpiece 200, the disposable orthopedic and chamfering cutting of finishing workpiece 200 automatically, save human cost, improved production efficiency.

Be to be understood that, though this specification is described according to embodiment, but be not that each embodiment only comprises an independently technical scheme, this narrating mode of specification only is for clarity sake, those skilled in the art should make specification as a whole, technical scheme in each embodiment also can form other embodiments that it will be appreciated by those skilled in the art that through appropriate combination.

Above listed a series of detailed description only is specifying at feasibility embodiment of the present utility model; they are not in order to limiting protection domain of the present utility model, allly do not break away from equivalent embodiment or the change that the utility model skill spirit does and all should be included within the protection domain of the present utility model.

Claims (10)

1. an orthopedic beveler is characterized in that, comprising: mold cavity, orthopedic binder core rod, and chamfer mechanism; Has processing stations in the described mold cavity, described processing stations comprises first side and second side, it is orthopedic so that the workpiece that is positioned at processing stations is carried out that described orthopedic binder core rod can be passed described first side with controlling, and described chamfer mechanism can be passed described second side the workpiece that is positioned at processing stations is carried out the chamfering cutting with controlling; Wherein, the rotating shaft of the central shaft of described orthopedic binder core rod and described chamfer mechanism is positioned at same straight line.

2. orthopedic beveler according to claim 1 is characterized in that, described first side and described second side are oppositely arranged.

3. orthopedic beveler according to claim 1, it is characterized in that, described orthopedic binder core rod comprises the guide part that faces the workpiece that is positioned at processing stations, the first orthopedic portion that is connected with described guide part and the second orthopedic portion that is connected with described first orthopedic, the diameter of described guide part is less than the diameter of the described first orthopedic portion, and the diameter of the described first orthopedic portion is less than the diameter of the described second orthopedic portion.

4. orthopedic beveler according to claim 1, it is characterized in that, described mold cavity include accent and with described go into accent relative go out accent, described orthopedic beveler comprises that an end goes into charging gathering sill that accent cooperates and an end and go out the discharging gathering sill that accent cooperates with described with described.

5. orthopedic beveler according to claim 4 is characterized in that, the accent of going into of described mold cavity is combined with and can opens drivenly or close described stop gauge of going into accent.

6. orthopedic beveler according to claim 5 is characterized in that, the accent that goes out of described mold cavity is combined with and can opens drivenly or close the described doffer that goes out accent.

7. orthopedic beveler according to claim 1, it is characterized in that, described processing stations is so arranged so that described orthopedic binder core rod carries out when orthopedic the workpiece that is positioned at processing stations, and described workpiece is held on the madial wall of described mold cavity by described orthopedic binder core rod.

8. orthopedic beveler according to claim 6, it is characterized in that described orthopedic beveler also comprises the orthopedic binder cylinder that drives described orthopedic binder core rod, the main shaft cutting cylinder that drives described chamfer mechanism and the backgauge blanking cylinder that drives described stop gauge and doffer.

9. orthopedic beveler according to claim 8 is characterized in that, described orthopedic beveler also comprises the main shaft guide rail that is connected with described main shaft cutting cylinder and be installed in main shaft on the described main shaft guide rail that described chamfer mechanism is installed on the described main shaft.

10. orthopedic beveler according to claim 9 is characterized in that, described main shaft guide rail is provided with buffer.

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