CN201825857U

CN201825857U - Automatic forming machine for bulk light-emitting diodes

Info

Publication number: CN201825857U
Application number: CN2010205787909U
Authority: CN
Inventors: 曾昭科
Original assignee: Dongguan Heda Electronic Equipment Co Ltd
Current assignee: Dongguan Heda Electronic Equipment Co Ltd
Priority date: 2010-10-27
Filing date: 2010-10-27
Publication date: 2011-05-11
Anticipated expiration: 2020-10-27

Abstract

The utility model relates to the technical field of processing light-emitting diodes, in particular to an automatic forming machine for bulk light-emitting diodes. The automatic forming machine comprises a rack, a material supply vibration disk and a vibration feeding device, wherein the element output end of the material supply vibration disk is connected with the element inlet of the vibration feeding device; the rack is provided with a control circuit, a pulling-over mechanism and a forming module; and the forming module is arranged below the pulling-over mechanism. The automatic forming machine for bulk light-emitting diodes has the advantages of greatly improving the quality of processing the light-emitting diodes, saving the cost and reducing the manpower dependence, and not only realizing the high-efficient and automatic working, but also being capable of ensuring the stable quality in production; in addition, through the matching of a material clamping mechanism and the pulling-over mechanism, the light-emitting diodes to be processed are fed to the forming mould for one-time foot-cutting, forming and processing, so that detection procedures are reduced, the processing time is shortened, and the processing efficiency of the light-emitting diodes is further improved.

Description

Photodiode automatic molder in bulk

Technical field

The utility model relates to the photodiode processing technique field, refers in particular to a kind of photodiode automatic molder in bulk.

Background technology

Along with the whole world to the pressing for of energy-saving and emission-reduction, Environmental Safety demand, the LED lamp that energy consumption is low, the life-span is long, resistance to shock is good (also being referred to as photodiode) is used more and more widely.Before the assembling processing of photodiode, the lamp base of photodiode need be carried out moulding and cut the pin processing, so that photodiode is carried out the assembling processing of next step operation.When the lamp base of giving photodiode carries out moulding and cuts pin handling, what adopt usually is manual operation, the operator utilizes auxiliary means such as wire cutter that one by one photodiode or its lamp base are carried out moulding and cuts pin and handle, moulding and cut the pin treatment process and waste time and energy very much, and moulding and to cut the effect that pin handles also undesirable.Because that adopts is artificial moulding and cuts pin, the moulding that each workman finishes and cut pin after shape also inconsistent, bring inconvenience to the assembling of next step operation of photodiode, have a strong impact on the production efficiency of photodiode and related products thereof.

Therefore, press for a kind of equipment that moulding can automatically photodiode in bulk be carried out and cut the pin processing on the market, with quality, saving cost and the dependence of minimizing manpower that improves photodiode processing.

Summary of the invention

The technical problems to be solved in the utility model provides a kind of photodiode automatic molder in bulk that can carry out moulding to photodiode automatically and cut the pin processing.

In order to solve the problems of the technologies described above, the utility model adopts following technical scheme: photodiode automatic molder in bulk, comprise frame, feed vibrating disk and oscillation feed gear, the element output terminal of feed vibrating disk is connected with the element of oscillation feed gear inlet, frame is provided with pilot circuit, described frame is provided with material toggling mechanism and moulding module, and the moulding module is arranged at the below of material toggling mechanism; Described material toggling mechanism comprises slide track seat that is arranged at frame and the cross slide way that is arranged at slide track seat, and this cross slide way is provided with the slide block that can laterally slide, but this slide block is provided with the feed collet mechanism of folding; Slide track seat is provided with and is used to drive first driving mechanism that slide block laterally slides; Described moulding module comprises mould bases and is arranged at the longitudinal rail of mould bases, but this longitudinal rail is provided with the die matrix of two wiping actions, and two relative sides of die matrix are provided with forming mould; Described frame be provided be used to drive die matrix mutually away from or second driving mechanism drawn close mutually.

Wherein, described feed collet mechanism comprises rotatable the be arranged at linkage gear of slide block, movable first line of a couplet carry-over bar and the movable second line of a couplet carry-over bar that is arranged at slide block that is arranged at slide block, first line of a couplet carry-over bar and second line of a couplet carry-over bar positioned opposite, first line of a couplet carry-over bar and second line of a couplet carry-over bar all are connected with a joggle with linkage gear; The leading section of the leading section of first line of a couplet carry-over bar and second line of a couplet carry-over bar is provided with feed collet bull and feed collet parent part respectively, and the lower end of feed collet bull and feed collet parent part is provided with the clamp of projection; The rearward end of described first line of a couplet carry-over bar is connected with feed screw nut, and described slide block is provided with electric motor, and electric motor is connected with leading screw, and this leading screw is threaded with feed screw nut.

Wherein, described feed collet mechanism has four groups, is respectively the first feed collet mechanism, the second feed collet mechanism, the 3rd feed collet mechanism and the 4th feed collet mechanism; The rearward end of the first line of a couplet carry-over bar of four groups of feed collet mechanisms all is threaded with same feed screw nut.

Wherein, described shaping mould has three groups, be respectively and correct mould, shaping mould and cut the pin mould, when slide block moves to the left part of cross slide way, correct mould, shaping mould and cut the pin mould lay respectively at the 4th feed collet mechanism, the 3rd feed collet mechanism and the second feed collet mechanism under.

Preferably, described first driving mechanism comprises first electric motor, first leading screw that is connected with electric motor that is arranged at slide track seat and first feed screw nut that is arranged at slide block, and first leading screw is threaded with first feed screw nut.

Another is preferred, and described first driving mechanism comprises the first bidirection press cylinder that is arranged at slide track seat, and the driving stem of the first bidirection press cylinder is connected with slide block; The described first bidirection press cylinder is the first two-way pneumatic cylinder or first two-way hydraulic cylinder.

Wherein, described second driving mechanism comprises the camshaft, the cam that is arranged at camshaft that are articulated in frame, be arranged at the follow-up pulley of camshaft and have second electric motor of motion-work wheel, and described motion-work wheel and follow-up pulley are in transmission connection; Described die matrix is provided with return spring, and frame is provided with the spring reference column, and an end of this return spring is connected with die matrix, and the other end of this return spring is connected with the spring reference column.

Wherein, described motion-work wheel and follow-up pulley is in transmission connection to geartransmission is connected, band is in transmission connection or chain drive connects synchronously.

Wherein, described frame is provided with the electrical equipment control assembly, this electrical equipment control assembly comprise the feeding speed that is used to control the feed vibrating disk the first speed regulator knob, be used to control oscillation feed gear feeding speed the second speed regulator knob, control first electric motor or second electric motor rotating speed the 3rd speed regulator knob and control manual or automatic system selector switch;

The described first speed regulator knob, the second speed regulator knob, the 3rd speed regulator knob and system selector switch all are electrically connected with pilot circuit.

Wherein, described frame is provided with safty shield, and material toggling mechanism and moulding module all are positioned at the inside of safty shield; But described safty shield is provided with the translucent cover door of opening and closing, and this translucent cover door is provided with handle.

The beneficial effects of the utility model are: the utility model provides a kind of photodiode automatic molder in bulk, comprise frame, feed vibrating disk and oscillation feed gear, the element output terminal of feed vibrating disk is connected with the element of oscillation feed gear inlet, frame is provided with pilot circuit, described frame is provided with material toggling mechanism and moulding module, and the moulding module is arranged at the below of material toggling mechanism; Described material toggling mechanism comprises slide track seat that is arranged at frame and the cross slide way that is arranged at slide track seat, and this cross slide way is provided with the slide block that can laterally slide, but this slide block is provided with the feed collet mechanism of folding; Slide track seat is provided with and is used to drive first driving mechanism that slide block laterally slides; Described moulding module comprises mould bases and is arranged at the longitudinal rail of mould bases, but this longitudinal rail is provided with the die matrix of two wiping actions, and two relative sides of die matrix are provided with forming mould; Described frame be provided be used to drive die matrix mutually away from or second driving mechanism drawn close mutually.In the course of processing, the photodiode of depositing in the feed vibrating disk in bulk is transported to oscillation feed gear successively after being arranged neatly under the effect of feed vibrating disk, and be transported to material toggling mechanism by oscillation feed gear, be transported to the formulation position of moulding module again by material toggling mechanism, finish the moulding of photodiode and cut pin and handle by the moulding module, last be transported to next step processing unit (plant) by the photodiode of material toggling mechanism after again, or carry out the concentrated rewinding of photodiode forming processes.

This use is novel to have improved quality, the saving cost of photodiode processing greatly and has reduced the manpower dependence, can realize that high-efficient automatic work has stable quality in guaranteeing again to produce; In addition,, photodiode to be processed is delivered to forming mould place one-time feet cutting, forming process, reduced the detection operation, shortened process period, thereby improve the working (machining) efficiency of photodiode processing by the cooperation of feed collet mechanism and material toggling mechanism.

Description of drawings

Fig. 1 is the perspective view of the utility model embodiment one.

Fig. 2 is the utility model embodiment one perspective view when hiding safty shield.

Fig. 3 is the utility model embodiment one plan structure synoptic diagram when hiding safty shield.

Fig. 4 is the plan structure synoptic diagram of second driving mechanism, moulding module and the forming mould of the utility model embodiment one.

Fig. 5 is the perspective view of second driving mechanism and the moulding module of the utility model embodiment one.

Fig. 6 is the perspective view of second driving mechanism, moulding module and the forming mould of the utility model embodiment one.

Fig. 7 is the perspective view of the material toggling mechanism part of the utility model embodiment one.

Fig. 8 is the inside perspective view of the material toggling mechanism part of the utility model embodiment one.

Fig. 9 is the perspective view of the oscillation feed gear of the utility model embodiment one.

Figure 10 is the perspective view of the material toggling mechanism part of the utility model embodiment two.

Embodiment

For the ease of those skilled in the art's understanding, below in conjunction with embodiment and accompanying drawing the utility model is further described, the content that embodiment is mentioned not is to qualification of the present utility model.

As Fig. 1 to the embodiment one that Figure 9 shows that photodiode automatic molder in bulk described in the utility model, comprise frame 1, feed vibrating disk 2 and oscillation feed gear 3, the element output terminal of feed vibrating disk 2 is connected with the element of oscillation feed gear 3 inlet, frame 1 is provided with pilot circuit, described frame 1 is provided with material toggling mechanism 4 and moulding module 5, and moulding module 5 is arranged at the below of material toggling mechanism 4; Described material toggling mechanism 4 comprises slide track seat 41 that is arranged at frame 1 and the cross slide way 42 that is arranged at slide track seat 41, and this cross slide way 42 is provided with the slide block 43 that can laterally slide, but this slide block 43 is provided with the feed collet mechanism 6 of folding; Slide track seat 41 is provided with and is used to drive first driving mechanism 7 that slide block 43 laterally slides; Described moulding module 5 comprises mould bases 51 and is arranged at the longitudinal rail 52 of mould bases 51, is provided with forming mould but this longitudinal rail 52 is provided with 53, two die matrix of die matrix, 53 relative sides of two wiping actions; Described frame 1 be provided be used to drive die matrix 53 mutually away from or second driving mechanism 8 drawn close mutually.

In the course of processing, the photodiode of depositing in the feed vibrating disk 2 in bulk is transported to oscillation feed gear 3 successively after being arranged neatly under the effect of feed vibrating disk 2, and be transported to material toggling mechanism 4 by oscillation feed gear 3, be transported to the formulation position of moulding module 5 again by material toggling mechanism 4, finish the moulding of photodiode and cut pin and handle by moulding module 5, at last by material toggling mechanism 4 photodiode after the forming processes is transported to next step processing unit (plant) again, or carries out the concentrated rewinding of photodiode.

When photodiode was transported to the right-hand member of oscillation feed gear 3, material toggling mechanism 4 moved right, and this moment, feed collet mechanism 6 opened, when feed collet mechanism 6 be positioned at oscillation feed gear 3 right-hand member directly over the time, feed collet mechanism 6 closes up with the gripping photodiode; Subsequently material toggling mechanism 4 move to left feed collet mechanism 6 be positioned at forming mould directly over, but the die matrix 53 of two wiping actions draw close mutually, forming mould is also drawn close thereupon mutually, finishes forming processes to photodiode by forming mould; Then material toggling mechanism 4 continue to move to left feed collet mechanism 6 be positioned at cut pin blade 55 directly over, finish the pin of cutting of photodiode handled by cutting pin blade 55, latter two die matrix 53 mutually away from; Last material toggling mechanism 4 continues to left movement, so that photodiode is transported to next step processing unit (plant) or is collected by material box.

This use is novel to have improved quality, the saving cost of photodiode processing greatly and has reduced the manpower dependence, can realize that high-efficient automatic work has stable quality in guaranteeing again to produce; In addition,, photodiode to be processed is delivered to forming mould place one-time feet cutting, forming process, reduced the detection operation, shortened process period, thereby improve working (machining) efficiency photodiode processing by the cooperation of feed collet mechanism 6 and material toggling mechanism 4.

The described feed collet mechanism 6 of present embodiment comprises rotatable the be arranged at linkage gear 61 of slide block 43, movable first line of a couplet carry-over bar 62 and the movable second line of a couplet carry-over bar 63 that is arranged at slide block 43 that is arranged at slide block 43, first line of a couplet carry-over bar 62 and second line of a couplet carry-over bar 63 positioned opposite, first line of a couplet carry-over bar 62 and second line of a couplet carry-over bar 63 all are connected with a joggle with linkage gear 61; The leading section of the leading section of first line of a couplet carry-over bar 62 and second line of a couplet carry-over bar 63 is provided with feed collet bull 64 and feed collet parent part 65 respectively, and the lower end of feed collet bull 64 and feed collet parent part 65 is provided with the clamp 66 of projection; The rearward end of described first line of a couplet carry-over bar 62 is connected with feed screw nut 67, and described slide block 43 is provided with electric motor 68, and electric motor 68 is connected with leading screw, and this leading screw is threaded with feed screw nut 67.Under the control of pilot circuit, electric motor 68 drives leading screw and rotates, and drive feed screw nut 67 by leading screw and do and vertically move, and then drive first line of a couplet carry-over bar 62 wiping actions, driving linkage gear 61 simultaneously rotates, second line of a couplet carry-over bar 63 under the effect of linkage gear 61 with respect to first line of a couplet carry-over bar 62 reverse slide, with realize feed collet bull 64 and feed collet parent part 65 open and action is closed in the pass.

The described feed collet mechanism 6 of present embodiment has four groups, is respectively the first feed collet mechanism 601, the second feed collet mechanism 602, the 3rd feed collet mechanism 603 and the 4th feed collet mechanism 604; The rearward end of the first line of a couplet carry-over bar 62 of four groups of feed collet mechanisms 6 all is threaded with same feed screw nut 67.Concrete, described shaping mould has three groups, be respectively and correct mould 54, shaping mould 55 and cut pin mould 56, when slide block 43 moves to the left part of cross slide way 42, correct mould 54, shaping mould 55 and cut pin mould 56 lay respectively at the 4th feed collet mechanism 604, the 3rd feed collet mechanism 603 and the second feed collet mechanism 602 under.Its process of transporting is: the first feed collet mechanism 601 is transported to photodiode and corrects mould 54 and carry out preliminary forming processes from the right-hand member of oscillation feed gear 3, by the second feed collet mechanism 602 photodiode is transported to shaping mould 55 from rectification mould 54 again and carries out the post forming processing, by the 3rd feed collet mechanism 603 photodiode is transported to from shaping mould 55 again and cuts pin mould 56 and cut pin and handle, by the 4th feed collet mechanism 604 photodiode is transported to next step processing unit (plant) or carries out collection and treatment by material box from cutting pin mould 56 at last.

What need supplementary notes is: the concrete shape of correcting mould 54, shaping mould 55 and cutting pin mould 56 can change according to the installation or the shaping demand of reality, assemble needed shape so that photodiode is processed into next step, and then accelerate the assembling working (machining) efficiency of photodiode.

Described first driving mechanism 7 of present embodiment comprises that first electric motor 71, first leading screw 72 that is connected with electric motor 68 that is arranged at slide track seat 41 and first feed screw nut, 73, the first leading screws 72 that are arranged at slide block 43 are threaded with first feed screw nut 73.Under the control of pilot circuit, first electric motor 71 drives first leading screw 72 and rotates, and is moved laterally by first leading screw, 72 drivings, first feed screw nut 73, and then drive slide block 43 laterally slides.

Described second driving mechanism 8 of present embodiment comprises the camshaft 81 that is articulated in frame 1, the cam 82 that is arranged at camshaft 81, the follow-up pulley 83 that is arranged at camshaft 81 and has second electric motor 88 of motion-work wheel 85 that described motion-work wheel 85 is in transmission connection with follow-up pulley 83; Described die matrix 53 is provided with return spring 86, and frame 1 is provided with spring reference column 87, and an end of this return spring 86 is connected with die matrix 53, and the other end of this return spring 86 is connected with spring reference column 87.Concrete described motion-work wheel 85 is geartransmission with being in transmission connection of follow-up pulley 83.Under the control of pilot circuit, second electric motor 88 drives motion-work wheel 85 and rotates, and drive follow-up pulley 83 rotates, and then drive cam shaft 81 and cam 82 rotations, cam 82 promotes die matrix 53 and vertically moves, rotational angle by adjusting cam 82 so realize two die matrix 53 draw close action mutually, after cam 82 pushing actions are finished, the impellent that cam 82 promotes die matrix 53 disappears, die matrix 53 is finished backhaul action under the effect of return spring 86, so realize two die matrix 53 mutually away from action.

Certainly, described motion-work wheel 85 can also equally also can reach above-mentioned technique effect for band transmission or chain drive synchronously with being in transmission connection of follow-up pulley 83.

The described frame 1 of present embodiment is provided with electrical equipment control assembly 9, this electrical equipment control assembly 9 comprise the feeding speed that is used to control feed vibrating disk 2 the first speed regulator knob 91, be used to control oscillation feed gear 3 feeding speed the second speed regulator knob 92, control first electric motor 71 or second electric motor 88 rotating speed the 3rd speed regulator knob 93 and control manual or automatic system selector switch 94; The described first speed regulator knob 91, the second speed regulator knob 92, the 3rd speed regulator knob 93 and system selector switch 94 all are electrically connected with pilot circuit.By the automation system of pilot circuit and the combination of electric motor 68, first electric motor 71 and second electric motor 88; make described photodiode automatic molder in bulk automatical and efficiently after start finish moulding, cut pin processing; electrical equipment control assembly 9 can be easily adjusted the running status and the travelling speed of each mechanism of described photodiode automatic molder in bulk; with the moulding that guarantees described photodiode automatic molder in bulk, cut moving normally and efficiently of pin processing, the back shutdown of reporting to the police is automatically finished in work.The utility model is safe and reliable, the production efficiency height, and product quality is excellent.

The described frame 1 of present embodiment is provided with safty shield 10, and material toggling mechanism 4 and moulding module 5 all are positioned at the inside of safty shield 10; But described safty shield 10 is provided with the translucent cover door of opening and closing, and this translucent cover door is provided with handle 11.Safty shield 10 is used to guarantee described photodiode automatic molder operation in bulk and the safety when stopping, avoid operator to run into processing component and injured, simultaneously prevent that also external object from entering described photodiode automatic molder in bulk and influencing its works better, the translucent cover door is used for the running condition that the operator observes described photodiode automatic molder in bulk, when installing or overhaul, can open the translucent cover door easily by handle 11, do not influence and install or service work, practical.

Be the embodiment two of photodiode automatic molder in bulk described in the utility model as shown in figure 10, be with the difference of the foregoing description one: described first driving mechanism 7 comprises that the driving stem of the first bidirection press cylinder, 74, the first bidirection press cylinders 74 that are arranged at slide track seat 41 is connected with slide block 43; The described first bidirection press cylinder 74 is first two-way hydraulic cylinder, realizes the moving of driving stem of the first bidirection press cylinder 74 by hydrostatic control, does transverse movement to drive slide block 43, and is simple in structure, is convenient to assembling and maintenance, reduces cost.Certainly, the described first bidirection press cylinder 74 can also be the first two-way pneumatic cylinder, controls moving of the driving stem of realizing the first bidirection press cylinder 74 by air pressure, does transverse movement to drive slide block 43, can realize the technique effect of first driving mechanism 7 equally.

What need supplementary notes is: oscillation feed gear 3 comprises translational vibration track 31 and drives the vibrator coil 32 of translational vibration track 31 vibrations, this vibrator coil 32 is electrically connected with pilot circuit, these translational vibration track 31 tops are provided with binder bar 33, produce excessive displacement when preventing that the part amplitude is excessive and influence the normal process of described photodiode automatic molder in bulk.

The foregoing description is two kinds in the preferable implementation of the utility model; in addition; the utility model can also realize by alternate manner that any conspicuous replacement is all within protection domain of the present utility model under the prerequisite that does not break away from the present utility model design.

Claims

1. photodiode automatic molder in bulk, comprise frame (1), feed vibrating disk (2) and oscillation feed gear (3), the element output terminal of feed vibrating disk (2) is connected with the element inlet of oscillation feed gear (3), frame (1) is provided with pilot circuit, it is characterized in that: described frame (1) is provided with material toggling mechanism (4) and moulding module (5), and moulding module (5) is arranged at the below of material toggling mechanism (4); Described material toggling mechanism (4) comprises slide track seat (41) that is arranged at frame (1) and the cross slide way (42) that is arranged at slide track seat (41), this cross slide way (42) is provided with the slide block (43) that can laterally slide, this slide block (43) but be provided with the feed collet mechanism (6) of folding; Slide track seat (41) is provided with and is used to drive first driving mechanism (7) that slide block (43) laterally slides; Described moulding module (5) comprises mould bases (51) and is arranged at the longitudinal rail (52) of mould bases (51), this longitudinal rail (52) but be provided with the die matrix (53) of two wiping actions, the side that two die matrix (53) are relative is provided with forming mould; Described frame (1) be provided be used to drive two die matrix (53) mutually away from or second driving mechanism (8) drawn close mutually.

2. photodiode automatic molder in bulk according to claim 1, it is characterized in that: described feed collet mechanism (6) comprises rotatable the be arranged at linkage gear (61) of slide block (43), movable first line of a couplet carry-over bar (62) and the movable second line of a couplet carry-over bar (63) that is arranged at slide block (43) that is arranged at slide block (43), first line of a couplet carry-over bar (62) and second line of a couplet carry-over bar (63) positioned opposite, first line of a couplet carry-over bar (62) and second line of a couplet carry-over bar (63) all are connected with a joggle with linkage gear (61); The leading section of the leading section of first line of a couplet carry-over bar (62) and second line of a couplet carry-over bar (63) is provided with feed collet bull (64) and feed collet parent part (65) respectively, and the lower end of feed collet bull (64) and feed collet parent part (65) is provided with the clamp (66) of projection; The rearward end of described first line of a couplet carry-over bar (62) is connected with feed screw nut (67), and described slide block (43) is provided with electric motor (68), and electric motor (68) is connected with leading screw, and this leading screw is threaded with feed screw nut (67).

3. photodiode automatic molder in bulk according to claim 2, it is characterized in that: described feed collet mechanism (6) has four groups, is respectively the first feed collet mechanism (601), the second feed collet mechanism (602), the 3rd feed collet mechanism (603) and the 4th feed collet mechanism (604); The rearward end of the first line of a couplet carry-over bar (62) of four groups of feed collet mechanisms (6) all is threaded with feed screw nut (67).

4. photodiode automatic molder in bulk according to claim 3, it is characterized in that: described shaping mould has three groups, be respectively and correct mould (54), shaping mould (55) and cut pin mould (56), when slide block (43) moves to the left part of cross slide way (42), correct mould (54), shaping mould (55) and cut pin mould (56) lay respectively at the 4th feed collet mechanism (604), the 3rd feed collet mechanism (603) and the second feed collet mechanism (602) under.

5. photodiode automatic molder in bulk according to claim 1, it is characterized in that: described first driving mechanism (7) comprises first electric motor (71) that is arranged at slide track seat (41), first leading screw (72) that is connected with first electric motor (71) and first feed screw nut (73) that is arranged at slide block (43), and first leading screw (72) is threaded with first feed screw nut (73).

6. photodiode automatic molder in bulk according to claim 1, it is characterized in that: described first driving mechanism (7) comprises the first bidirection press cylinder (74) that is arranged at slide track seat (41), and the driving stem of the first bidirection press cylinder (74) is connected with slide block (43); The described first bidirection press cylinder (74) is the first two-way pneumatic cylinder or first two-way hydraulic cylinder.

7. photodiode automatic molder in bulk according to claim 1, it is characterized in that: described second driving mechanism (8) comprises the camshaft (81) that is articulated in frame (1), the cam (82) that is arranged at camshaft (81), the follow-up pulley (83) that is arranged at camshaft (81) and second electric motor (88) that has motion-work wheel (85), and described motion-work wheel (85) is in transmission connection with follow-up pulley (83); Described die matrix (53) is provided with return spring (86), frame (1) is provided with spring reference column (87), one end of this return spring (86) is connected with die matrix (53), and the other end of this return spring (86) is connected with spring reference column (87).

8. photodiode automatic molder in bulk according to claim 7 is characterized in that: described motion-work wheel (85) is in transmission connection to geartransmission is connected, band is in transmission connection or the chain drive connection synchronously with follow-up pulley (83).

9. photodiode automatic molder in bulk according to claim 1, it is characterized in that: described frame (1) is provided with electrical equipment control assembly (9), this electrical equipment control assembly (9) comprise the feeding speed that is used to control feed vibrating disk (2) the first speed regulator knob (91), be used to control oscillation feed gear (3) feeding speed the second speed regulator knob (92), control first electric motor (71) or second electric motor (88) rotating speed the 3rd speed regulator knob (93) and control manual or automatic system selector switch (94); The described first speed regulator knob (91), the second speed regulator knob (92), the 3rd speed regulator knob (93) and system selector switch (94) all are electrically connected with pilot circuit.

10. photodiode automatic molder in bulk according to claim 1 is characterized in that: described frame (1) is provided with safty shield (10), and material toggling mechanism (4) and moulding module (5) all are positioned at the inside of safty shield (10); Described safty shield (10) but be provided with the translucent cover door of opening and closing, this translucent cover door is provided with handle (11).