CN108620515A - Component forming processing device - Google Patents

Abstract

The present invention provides a kind of component forming processing devices, including engine base, material detent mechanism, support membrane module, molding cutting mechanism, material receiving mechanism and controller.Material detent mechanism is arranged on engine base；It is arranged on engine base and positioned at the first side of material detent mechanism to support membrane module position-adjustable；It is arranged on engine base to molding cutting mechanism position-adjustable, and is molded the second side opposite with the first side that cutting mechanism is located at material detent mechanism；Material receiving mechanism is arranged in the lower section of material detent mechanism；Controller is connect with support membrane module, molding cutting mechanism.The present invention solves the problems, such as that the PIN foot in the prior art to triode cuts out molding processing difficulties, improves production efficiency, is conducive to mass processing triode.

Description

Component forming processing device

Technical field

The present invention relates to component processing technique fields, in particular to a kind of component forming processing device.

Background technology

The PIN foot length specification that the standard 220 that supplier provides at present encapsulates triode is all unified, using convenient for certainly Dynamic metaplasia production, the pipe dress encapsulation detected.But it needs to carry out two to three PIN foot of triode before 220 encapsulation triode applications It is secondary to cut out processing and forming, and the size of processing and forming is multifarious, it is desirable that it is even more ever-changing.Respectively all adopted substantially using producer Manually cut out processing and forming, artificial not only inefficiency and high processing costs, it is difficult to mass production.

Invention content

The main purpose of the present invention is to provide a kind of component forming processing devices, to solve in the prior art to three poles The PIN foot of pipe cuts out the problem of molding processing difficulties.

To achieve the goals above, according to an aspect of the invention, there is provided a kind of component forming processing device, packet Include engine base, material detent mechanism, support membrane module, molding cutting mechanism, material receiving mechanism and controller.Material detent mechanism is arranged On engine base；It is arranged on engine base and positioned at the first side of material detent mechanism to support membrane module position-adjustable；Molding is cut out It cuts mechanism position to be adjustably disposed on engine base, and is molded cutting mechanism and is located at the opposite with the first side of material detent mechanism The second side；Material receiving mechanism is arranged in the lower section of material detent mechanism；Controller is connect with support membrane module, molding cutting mechanism.

Further, support membrane module and molding cutting mechanism are along same linear motion.

Further, support membrane module includes：First pedestal；Supporting lug for the pin for withstanding material, support are convex Block is arranged on the first pedestal；First driving portion, the first driving portion connect with controller and are arranged on engine base, the first driving portion The first pedestal is driven to move back and forth.

Further, supporting lug includes：Two sub- matrixs, two sub- matrixs are vertically spaced setting；It is molded convex Block, molding convex block are in convex shape structure towards the end face of pin, and the lug boss of convex shape structure is embedded between two sub- matrixs And stretched out towards the direction of the free end of pin, on the stretching direction of lug boss, it is spaced and sets between subbase block and molding convex block It sets to form forming gap.

Further, molding cutting mechanism includes：Second pedestal；Cutter for cutting material, cutter are arranged second On pedestal；Second driving portion, the second driving portion connect with controller and are arranged on engine base, and the second driving portion drives the second pedestal It moves back and forth.

Further, the blade of cutter is aligned with the edge of subbase block and/or molding convex block.

Further, cutter includes：Two molding cutters, molding cutter is vertically spaced setting, and molding is cut When mechanism is moved to support membrane module side, molding cutter can be in insert molding gap to be rolled over to the pin after cutting Curved, the blade of molding cutter is aligned with the edge of subbase block；Middle part cutter, middle part cutter are located between two molding cutters, and The blade of middle part cutter is aligned with the edge of molding convex block.

Further, molding cutting mechanism further includes：Elastic pre-pressing part, elastic pre-pressing part are telescopically disposed in It is stretched out on two pedestals and to material side, when elastic pre-pressing part is under pressure, elastic pre-pressing part is to the second pedestal side Movement.

Further, support membrane module further includes with escape groove, component forming processing device：Elastic component, elastic component It is arranged in escape groove；The first end of de- material support plate, de- material support plate is located in escape groove and is connect with elastic component, de- material branch The second end of fagging in escape groove by stretching out；Thrust piece, thrust piece setting molding cutting mechanism on, when molding cutting mechanism to When material side moves, thrust piece pushes de- material support plate and is retracted into escape groove.

Further, material receiving mechanism has material spilling hole.

Further, material detent mechanism has the positioning runner extended vertically.

Further, component forming processing device further includes feed mechanism, and feed mechanism is arranged in material detent mechanism On, feed mechanism has the positioning region for positioned tubular material.

It applies the technical scheme of the present invention, when cutting out the PIN foot of processing and forming triode, the material detent mechanism on engine base Multiple triodes are positioned, controller control support membrane module is moved towards material detent mechanism to withstand triode The portion of PIN foot, molding cutting mechanism control molding cutting mechanism and are moved towards material detent mechanism with to triode again PIN foot cut and machine-shaping, cut out the triode that molding processes and collected by material receiving mechanism, whole process Realize mechanized operation.Compared with the artificial PIN foot for cutting molding triode in the prior art, cutting processing and forming is reduced Difficulty and production cost, improve production efficiency, be conducive to mass processing triode.

Description of the drawings

The accompanying drawings which form a part of this application are used to provide further understanding of the present invention, and of the invention shows Meaning property embodiment and its explanation are not constituted improper limitations of the present invention for explaining the present invention.In the accompanying drawings：

Fig. 1 shows the structural schematic diagram of the embodiment of the component forming processing device of the present invention；

Fig. 2 shows the partial structural diagrams of the first angle of the component forming processing device in Fig. 1；

Fig. 3 shows the partial structural diagram of the second angle of the component forming processing device in Fig. 1；

Fig. 4 shows the partial structural diagram of the third angle of the component forming processing device in Fig. 1；

Fig. 5 shows the partial structural diagram of the fourth angle of the component forming processing device in Fig. 1；

Fig. 6 show molding cutter in the component forming processing device without the second pedestal in Fig. 5, middle part cutter, Position relationship schematic diagram between elastic pre-pressing part and thrust piece；

Fig. 7 shows the structural representation using triode before and after the component forming processing device processing triode in Fig. 1 Figure.

Wherein, above-mentioned attached drawing includes the following drawings label：

10, engine base；20, material detent mechanism；21, positioning runner；30, membrane module is supported；31, the first pedestal；32, subbase Block；33, the first driving portion；34, it is molded convex block；341, lug boss；35, forming gap；40, it is molded cutting mechanism；41, the second base Seat；42, the second driving portion；43, molding cutter；44, middle part cutter；45, elastic pre-pressing part；50, material receiving mechanism；51, material leakage Hole；60, controller；70, pin；80, de- material support plate；90, thrust piece；100, feed mechanism.

Specific implementation mode

It should be noted that in the absence of conflict, the features in the embodiments and the embodiments of the present application can phase Mutually combination.The present invention will be described in detail below with reference to the accompanying drawings and embodiments.

It should be pointed out that unless otherwise specified, all technical and scientific terms used in this application have and the application The normally understood identical meanings of person of an ordinary skill in the technical field.

In the present invention, in the absence of explanation to the contrary, the noun of locality used is typically directed to attached drawing as " upper and lower " Shown in for direction, or on vertical, vertical or gravity direction；Similarly, it for ease of understanding and retouches It states, " left and right " is typically for shown in the drawings left and right；" inside and outside " refers to the inside and outside of the profile relative to each component itself, But the above-mentioned noun of locality is not intended to restrict the invention.

In order to solve the problems, such as that the PIN foot in the prior art to triode cuts out molding processing difficulties, the present invention provides A kind of component forming processing device.

If Fig. 1 is to shown, which includes engine base 10, material detent mechanism 20, support membrane module 30, cutting mechanism 40, material receiving mechanism 50, controller 60 are molded.Material detent mechanism 20 is arranged on engine base 10；Support membrane module It is arranged on engine base 10 to 30 position-adjustables and positioned at the first side of material detent mechanism 20；Being molded 40 position of cutting mechanism can Adjustably it is arranged on engine base 10, and is molded second opposite with the first side that cutting mechanism 40 is located at material detent mechanism 20 Side；Material receiving mechanism 50 is arranged in the lower section of material detent mechanism 20；Controller 60 and support membrane module 30, molding cutting mechanism 40 Connection.

When cutting out the PIN foot of processing and forming triode, the material detent mechanism 20 on engine base 10 carries out multiple triodes Positioning, controller control support membrane module 30 move the part position of the PIN foot to withstand triode towards material detent mechanism 20 It sets, molding cutting mechanism 40 controls molding cutting mechanism 40 and moved towards material detent mechanism 20 with the PIN foot to triode again Cut simultaneously machine-shaping, cuts out the triode that molding processes and collected by material receiving mechanism 50, whole process is realized Mechanized operation.Compared with the artificial PIN foot for cutting molding triode in the prior art, the difficulty for cutting processing and forming is reduced Degree and production cost, improve production efficiency, are conducive to mass processing triode.

Optionally, support membrane module 30 and molding cutting mechanism 40 are along same linear motion.Support membrane module 30 is playing Assistant formation cutting mechanism 40 is gone back while mould action, and processing and forming is cut out to the PIN foot of triode.To triode When PIN foot is cut out processing and forming, support membrane module 30 and molding cutting mechanism 40 are moved towards material detent mechanism 20, Support membrane module 30 withstands the part of the PIN foot of triode, 40 edge of molding cutting mechanism from the first side of material detent mechanism 20 The second side of material detent mechanism 20 cuts the PIN foot of triode to the direction of the first side.By supporting membrane module 30, avoid The PIN foot of molding cutting mechanism 40 triode when cutting towards the first lateral bend of material detent mechanism 20 and reducing cut effect or It can not cut, success rate is cut to improve molding cutting mechanism 40.

Specifically, support membrane module 30 include the first pedestal 31, pin 70 for withstanding material supporting lug and First driving portion 33.Wherein, supporting lug is arranged on the first pedestal 31；First driving portion 33 connect and is arranged with controller 60 On engine base 10, the first driving portion 33 drives the first pedestal 31 to move back and forth.Processing and forming is cut out to the PIN foot of triode When, the first driving portion 33 drives the first pedestal 31 to be moved towards material detent mechanism 20, so that supporting lug withstands triode The part of PIN foot carries out processing of cutting convenient for molding cutting mechanism 40.After processing of cutting is good, the first driving portion 33 drives again First pedestal 31 is moved far from material detent mechanism 20, so that the triode processed moves on on material receiving mechanism 50, it is next to wait for The triode of processing moves on to the position for waiting for processing of cutting.

As shown in Figures 2 and 3, supporting lug includes two sub- matrixs 32 and molding convex block 34, and two sub- matrixs 32 are along perpendicular Histogram is arranged to interval；It is in convex shape structure that convex block 34, which is molded, towards the end face of pin 70, and the lug boss 341 of convex shape structure is embedding It is located between two sub- matrixs 32 and is stretched out towards the direction of the free end of pin 70, on the stretching direction of lug boss 341, son Interval is arranged to form forming gap 35 between matrix 32 and molding convex block 34.Cut out three PIN foot of processing and forming triode When, a part for molding cutting mechanism 40 passes through forming gap 35 to cut the both ends PIN foot of triode, and another part is along protrusion The intermediate PIN foot for cutting triode in portion 341, to by three length of triode it is the same cut into it is long between the brachymedial of both ends PIN foot.

Optionally, when needing to change the cutoff length of PIN foot of triode, need to only install different sizes or shape at Type convex block 34 can be realized, simple and convenient.

As shown in Figure 1, molding cutting mechanism 40 includes the second pedestal 41, the cutter for cutting material and the second driving portion 42.Cutter is arranged on the second pedestal 41；Second driving portion 42 connect with controller 60 and is arranged on engine base 10, the second driving Portion 42 drives the second pedestal 41 to move back and forth.After support membrane module 30 withstands the PIN foot of triode, the second driving portion 42 is controlling It is moved towards triode under device 60, cutter just cuts the portion to be cut cut away of the PIN foot of triode when being moved to precalculated position Point.

The blade of cutter is aligned with the edge of subbase block 32 and/or molding convex block 34, subbase block 32 and/or molding convex block 34 Positioning action is played to the blade of cutter, the blade of cutter is made to be aligned with the edge of subbase block 32 and/or molding convex block 34, it can The length of the PIN foot of the triode after cutting is set to meet the requirements.Simultaneously, moreover it is possible to ensure to cut quality, PIN foot when avoiding cutting The part at prominent subbase block 32 and/or the edge for being molded convex block 34 generates bending.

After the identical PIN foot of the three of triode length is cut into different length, it is also necessary to carry out bending to PIN foot Operation.Substantially also all it is that manually bending, time-consuming and laborious and bending effect is used to vary with each individual in existing technology.In order to Effectively solve the problems, such as this, in the present embodiment, as shown in figure 5, cutter includes two molding cutters 43 and middle part cutter 44, at Type cutter 43 is vertically spaced setting, and when being molded cutting mechanism 40 and being moved to 30 side of support membrane module, molding cutter 43 can be in insert molding gap 35 to carry out bending, blade and the subbase block 32 of molding cutter 43 to the pin 70 after cutting Edge is aligned.Middle part cutter 44, middle part cutter 44 is located between two molding cutters 43, and the blade of middle part cutter 44 and molding The edge of convex block 34 is aligned.By two molding cutters 43 and middle part cutter 44, cut in three PIN foot to triode After can also carry out processing and forming, obtain triode as shown in Figure 7.In figure, (a) is to cut out the triode before processing and forming, (b) To cut out the triode after processing and forming.

As shown in Figure 5 and Figure 6, molding cutting mechanism 40 further includes elastic pre-pressing part 45, and elastic pre-pressing part 45 can be stretched Contracting ground is arranged on the second pedestal 41 and is stretched out to material side, when elastic pre-pressing part 45 is under pressure, elastic pre-pressing Part 45 is moved to 41 side of the second pedestal.Elastic pre-pressing part 45 and support membrane module 30 play PIN foot to triode and play folder Tight effect, in order to carry out cutting molding to PIN foot.

As shown in Figure 3 and Figure 4, support membrane module 30 have escape groove, component forming processing device further include elastic component, De- material support plate 80 and thrust piece 90, elastic component are arranged in escape groove；The first end of de- material support plate 80 is located in escape groove And connect with elastic component, the second end of de- material support plate 80 in escape groove by stretching out；The setting of thrust piece 90 is in molding cutting mechanism On 40, when molding cutting mechanism 40 is moved to material side, thrust piece 90 pushes de- material support plate 80 and is retracted into escape groove.

Specifically, material detent mechanism 20 has along its short transverse there are one through-hole structure, multiple triodes are arranged one by one It is listed in through-hole structure, the PIN foot of triode is exposed in the side of material detent mechanism 20.It is arranged in object in de- material support plate 80 Expect the lower end of detent mechanism 20 and the top positioned at material receiving mechanism 50, plays the work of the opening of 20 lower end of plug material detent mechanism With being entered in material receiving mechanism 50 with the triode in obstacle material detent mechanism 20.The PIN foot of one triode is cut out molding and is added Working hour, thrust piece 90 push de- material support plate 80 and are retracted into escape groove, and before the triode a triode is located at de- Material receiving mechanism 50 is fallen into material support plate 80 and during de- material support plate 80 is retracted into escape groove.As the PIN of triode Foot is cut out molding and is machined, and molding cutting mechanism 40 is moved far from material side, and thrust piece 90 is also detached from de- material support plate 80, De- material support plate 80 is stretched out escape groove by the elastic force effect of elastic component, and the triode processed moves on in de- material support plate 80, Next triode move on to cut position wait for cut molding.

Optionally, material receiving mechanism 50 has material spilling hole 51.De- material support plate 80 is retracted once into escape groove, and thereon three Grade pipe just enters from material spilling hole 51 in material receiving mechanism 50, and triode after molding is cut to collect one by one.

Optionally, material detent mechanism 20 has the positioning runner 21 extended vertically.By positioning runner 21, multiple three poles Pipe is arranged on material detent mechanism 20 and is moved down along positioning runner 21 one by one.

As shown in Figure 1, component forming processing device further includes feed mechanism 100, the setting of feed mechanism 100 is fixed in material In the mechanism 20 of position, feed mechanism 100 has the positioning region for positioned tubular material.Feed mechanism 100 waits cutting out for storing Molding triode, as the triode in material detent mechanism 20 gradually decreases, the triode in feed mechanism 100 is in gravity Effect is lower to wait cutting out molding triode into material detent mechanism 20 to continuously be provided to material detent mechanism 20.

It should be noted that when molding cutting mechanism 40 is moved to material side, thrust piece 90 and de- material support plate 80 It first contacts, after having cut molding material with after the disengaging of de- material support plate 80 in de- material support plate 80, cutter just connects with material It touches and is cut.

It can be seen from the above description that the above embodiments of the present invention realize following technique effect：

When cutting out the PIN foot of processing and forming triode, the material detent mechanism 20 on engine base 10 carries out multiple triodes Positioning, controller control support membrane module 30 move the part position of the PIN foot to withstand triode towards material detent mechanism 20 It sets, molding cutting mechanism 40 controls molding cutting mechanism 40 and moved towards material detent mechanism 20 with the PIN foot to triode again Cut simultaneously machine-shaping, cuts out the triode that molding processes and collected by material receiving mechanism 50, whole process is realized Mechanized operation.Compared with the artificial PIN foot for cutting molding triode in the prior art, the difficulty for cutting processing and forming is reduced Degree and production cost, improve production efficiency, are conducive to mass production.

Obviously, above-mentioned described embodiment only a part of the embodiments of the present invention, instead of all the embodiments. Based on the embodiments of the present invention, obtained by those of ordinary skill in the art without making creative efforts all Other embodiment should all belong to the scope of protection of the invention.

It should be noted that term used herein above is merely to describe specific implementation mode, and be not intended to restricted root According to the illustrative embodiments of the application.As used herein, unless the context clearly indicates otherwise, otherwise singulative It is also intended to include plural form, additionally, it should be understood that, when in the present specification using term "comprising" and/or " packet Include " when, indicate existing characteristics, step, work, device, component and/or combination thereof.

It should be noted that term " first " in the description and claims of this application and above-mentioned attached drawing, " Two " etc. be for distinguishing similar object, without being used to describe specific sequence or precedence.It should be appreciated that using in this way Data can be interchanged in the appropriate case, so that presently filed embodiment described herein can be in addition to illustrating herein Or the sequence other than those of description is implemented.In addition, term " comprising " and " having " and their any deformation, it is intended that Cover it is non-exclusive include, for example, containing the process of series of steps or unit, method, system, product or equipment need not limit In those of clearly listing step or unit, but may include not listing clearly or for these processes, method, production The intrinsic other steps of product or equipment or unit.

The foregoing is only a preferred embodiment of the present invention, is not intended to restrict the invention, for the skill of this field For art personnel, the invention may be variously modified and varied.All within the spirits and principles of the present invention, any made by repair Change, equivalent replacement, improvement etc., should all be included in the protection scope of the present invention.

Claims (12)

1. a kind of component forming processing device, which is characterized in that including：

Engine base (10)；

Material detent mechanism (20), the material detent mechanism (20) are arranged on the engine base (10)；

Membrane module (30) is supported, be arranged on the engine base (10) to support membrane module (30) position-adjustable and is located at institute State the first side of material detent mechanism (20)；

It is molded cutting mechanism (40), is arranged on the engine base (10) to molding cutting mechanism (40) position-adjustable, and The molding cutting mechanism (40) is located at the second side opposite with first side of the material detent mechanism (20)；

Material receiving mechanism (50), the material receiving mechanism (50) are arranged in the lower section of the material detent mechanism (20)；

Controller (60), the controller (60) connect with the support membrane module (30), the molding cutting mechanism (40).

2. component forming processing device according to claim 1, which is characterized in that the support membrane module (30) and institute Molding cutting mechanism (40) is stated along same linear motion.

3. component forming processing device according to claim 2, which is characterized in that support membrane module (30) packet It includes：

First pedestal (31)；

Supporting lug for the pin (70) for withstanding material, the supporting lug are arranged on first pedestal (31)；

First driving portion (33), first driving portion (33) connect with the controller (60) and are arranged in the engine base (10) On, first driving portion (33) drives first pedestal (31) to move back and forth.

4. component forming processing device according to claim 3, which is characterized in that the supporting lug includes：

Two sub- matrixs (32), two subbase blocks (32) are vertically spaced setting；

It is molded convex block (34), the molding convex block (34) is towards the end face of the pin (70) in convex shape structure, the type The lug boss (341) of shape structure is embedded between two subbase blocks (32) and towards the side of the free end of the pin (70) To stretching, on the stretching direction of the lug boss (341), it is spaced between the subbase block (32) and the molding convex block (34) It is arranged to form forming gap (35).

5. component forming processing device according to claim 4, which is characterized in that molding cutting mechanism (40) packet It includes：

Second pedestal (41)；

Cutter for cutting material, the cutter are arranged on second pedestal (41)；

Second driving portion (42), second driving portion (42) connect with the controller (60) and are arranged in the engine base (10) On, second driving portion (42) drives second pedestal (41) to move back and forth.

6. component forming processing device according to claim 5, which is characterized in that the blade of the cutter and the son The edge alignment of matrix (32) and/or the molding convex block (34).

7. component forming processing device according to claim 6, which is characterized in that the cutter includes：

Two molding cutters (43), the molding cutter (43) are vertically spaced setting, and the molding cutting mechanism (40) when being moved to support membrane module (30) side, the molding cutter (43) can be embedded in the forming gap (35) To carry out bending, the edge pair of the blade of the molding cutter (43) and the subbase block (32) to the pin (70) after cutting Together；

Middle part cutter (44), the middle part cutter (44) is located between two molding cutters (43), and the middle part cutter (44) blade is aligned with the edge of the molding convex block (34).

8. component forming processing device according to claim 5, which is characterized in that the molding cutting mechanism (40) is also Including：

Elastic pre-pressing part (45), it is described elasticity pre-pressing part (45) be telescopically disposed on second pedestal (41) and to The material side is stretched out, and when the elastic pre-pressing part (45) is under pressure, the elasticity pre-pressing part (45) is to described Second pedestal (41) side moves.

9. component forming processing device according to any one of claim 1 to 8, which is characterized in that the branch hold mode Component (30) has escape groove, and the component forming processing device further includes：

Elastic component, the elastic component are arranged in the escape groove；

The first end of de- material support plate (80), the de- material support plate (80) is located in the escape groove and connects with the elastic component It connects, the second end of the de- material support plate (80) in the escape groove by stretching out；

Thrust piece (90), the thrust piece (90) is arranged on the molding cutting mechanism (40), when the molding cutting mechanism (40) when being moved to material side, the thrust piece (90) pushes the de- material support plate (80) and is retracted into the escape groove.

10. component forming processing device according to any one of claim 1 to 8, which is characterized in that the receiver Structure (50) has material spilling hole (51).

11. component forming processing device according to any one of claim 1 to 8, which is characterized in that the material is fixed Position mechanism (20) has the positioning runner (21) extended vertically.

12. component forming processing device according to any one of claim 1 to 8, which is characterized in that the component Forming processing device further includes feed mechanism (100), and the feed mechanism (100) is arranged in the material detent mechanism (20) On, the feed mechanism (100) has the positioning region for positioned tubular material.