CN205043450U - Full automatic watch hat equipment - Google Patents

Abstract

The utility model discloses a full automatic watch hat equipment, including the frame, carry that module, meson get that blowing module, O type circle get blowing module, crust get blowing module, punching press module and finished product unloading module, be equipped with positioning jig on carrying the module, carry the module to drive positioning jig along direction of delivery activity, the meson is got blowing module, O type circle and is got blowing module, punching press module and the finished product unloading module of blowing module, crust and arrange along the direction of delivery who carries the module. Carry the module through cooperation utilization, the blowing module is got to the meson, the blowing module is got to O type circle, the crust get the blowing module, punching press module and finished product unloading module, with the automatic meson material loading of accomplishing, the O type circles the material, the material loading of crust, actions such as punching press and finished product unloading, table hat equipment overall process need not artifical the participation, it consumes to reduce the manpower, and the labor cost is reduced, avoid the emergence of operation incident, and automatic operating efficiency is high, effectively improve the productivity, and the equipment quality of assurance product, and is worthy of popularization and use.

Description

Full automatic watch hat mounting equipment

Technical field

The utility model relates to clock and watch mounting equipment art, refers in particular to a kind of full automatic watch hat mounting equipment.

Background technology

Table hat is that between a vitals on wrist-watch, it is for realizing setting and the adjustment of wrist-watch, and the primary structure of table hat generally includes meson, O type circle and bar, and meson and O type circle are assembled in bar.

In prior art, the assembling of table hat uses automanual mode to carry out, during assembling usually, operator needs to use both hands and feet, that is: a hand is put on gum cover and is stained with oil, then meson and O type circle is sticked up to put on tool successively and locates, and then another hand is put on tool by what cling to, then, floor push makes linkage carry out punching press to what cling to again, completes the assembling of table hat, finally with this, manually the table assembled hat is taken out from tool, the assembling of next table hat can be carried out.

Although above-mentioned semi-automatic mode can realize the assembling showing hat, but aforesaid way is labor intensive not only, inefficiency, is unfavorable for that production capacity improves, and increases cost of labor, in addition, assembling quality can not be guaranteed, and also can easily occur job safety accident.

Utility model content

In view of this, the utility model is for the disappearance of prior art existence, its main purpose is to provide a kind of full automatic watch hat mounting equipment, and it effectively can solve existing employing semiautomatic fashion assembling table hat and there is the problems such as labor intensive, inefficiency, cost of labor height.

For achieving the above object, the utility model adopts following technical scheme:

One full automatic watch hat mounting equipment, includes frame, conveying module, meson picks and places material module, O type circle picks and places material module, picking and placeing of bar expects module, punching press module and finished product blanking module; This conveying module, meson pick and place material module, O type circle picks and places material module, pick and place material module, punching press module and the finished product blanking module of bar are all arranged in frame, this conveying module is provided with localization tool, and conveying module drives localization tool movable along throughput direction; This meson picks and places material module, O type circle picks and places material module, the throughput direction arrangement picking and placeing material module, punching press module and finished product blanking module edge conveying module of bar.

As a kind of preferred version, described conveying module includes rotating disk and driving mechanism, this driving mechanism drives dial rotation, this localization tool is fixed on the surperficial lateral margin of rotating disk with rotating disk synchronous axial system, and this meson picks and places material module, O type circle picks and places material module, picking and placeing of bar expects that module, punching press module and finished product blanking module are positioned at the periphery side of rotating disk.

As a kind of preferred version, described localization tool includes die shoe, locating core son, actuating rod and spring; Be provided with an accommodating cavity in this die shoe, the top end face of die shoe is arranged with locating hole, and the both sides of die shoe are provided with locating slot, and this locating hole is all communicated with accommodating cavity with two locating slots; This locating core son can be arranged in accommodating cavity up and downly, and the top of locating core son has a location division, and the top end face of die shoe is exposed through locating hole in this location division, and locating core son is provided with fixing hole; This actuating rod is through fixing hole and aforementioned locating slot, and the both sides of die shoe are stretched out at the two ends of actuating rod respectively; This spring is positioned at accommodating cavity and is butted on the bottom of locating core son.

As a kind of preferred version, the two ends of described actuating rod are provided with runner, this frame is also provided with scavenge unit, this scavenge unit picks and places between material module at finished product blanking module and meson, and this scavenge unit includes fixed block and is arranged at the hairbrush on fixed block, and fixed block is suspended at above the lateral margin of rotating disk, this fixed block has two curved portions, two curved portions are conflicted with corresponding runner, are formed with storage tank between two curved portions, and this hairbrush is arranged in storage tank.

As a kind of preferred version, described rotating disk is arranged at intervals with and organizes localization tool more, often organize localization tool and all have two localization tool compositions at least.

As a kind of preferred version, described meson picks and places material module and includes meson automatic feeding and meson fetching device, this meson fetching device is between the delivery outlet and conveying module of meson pay-off, meson fetching device includes slide, meson suction nozzle, the first driving mechanism and the second driving mechanism, this meson suction nozzle and the first driving mechanism are all arranged on slide, this first driving mechanism drives meson suction nozzle up and down, and this second driving mechanism drives slide level movable back and forth.

As a kind of preferred version, described O type circle picks and places material module and includes O type circle automatic feeding, O type circle fetching device and vision inspection apparatus, this O type circle fetching device is between the delivery outlet and conveying module of O type circle pay-off, O type circle fetching device includes slide, feeding bar, deviate from block, first driving mechanism, second driving mechanism and the 3rd driving mechanism, this feeding bar and the first driving mechanism are all arranged on slide, the bottom of this feeding bar is tapered portion, and the lower end side convex of feeding bar is provided with protuberance, this first driving mechanism drives feeding bar up and down, this is deviate from block and can be sheathed on outside feeding bar up and downly, the relative feeding bar of this second driving mechanism is fixed, second driving mechanism drives block up and down relative to feeding bar, 3rd driving mechanism drives slide level movable back and forth, this vision inspection apparatus is fixed in frame also just to the bottom of feeding bar.

As a kind of preferred version, the material module that picks and places of described bar includes the automatic feeding of bar and the fetching device of bar, the fetching device of this bar is between the delivery outlet and conveying module of the pay-off of bar, the fetching device of bar includes slide, the suction nozzle of bar, the first driving mechanism and the second driving mechanism, suction nozzle and first driving mechanism of this bar are all arranged on slide, this first driving mechanism drives the suction nozzle of bar up and down, and this second driving mechanism drives slide level movable back and forth.

As a kind of preferred version, described punching press module includes drift and driving mechanism, and this driving mechanism drives drift up and down.

As a kind of preferred version, described finished product blanking module includes slide, sliding seat, push rod, finished product suction nozzle, the first driving mechanism and the second driving mechanism, this push rod and finished product suction nozzle are all arranged in sliding seat, this sliding seat and the first driving mechanism are all arranged on slide, this the first driving motivation structure drives sliding seat up and down, and this second driving mechanism drives slide level movable back and forth.

The utility model compared with prior art has obvious advantage and beneficial effect, specifically, as shown from the above technical solution:

Utilize conveying module by cooperation, meson picks and places material module, O type circle picks and places material module, picking and placeing of bar expects module, punching press module and finished product blanking module, automatically to complete meson material loading, O type circle material loading, the material loading of bar, the action such as punching press and finished product blanking, table hat assembling overall process is without the need to artificial participation, thus decrease manpower and expend, reduce cost of labor, avoid the generation of job safety accident, and automated job efficiency is high, effectively improve production capacity, and ensure that the assembling quality of product, be worth of widely use.

For more clearly setting forth architectural feature of the present utility model and effect, below in conjunction with accompanying drawing and specific embodiment, the utility model is described in detail.

Accompanying drawing explanation

Fig. 1 is the assembling schematic perspective view of the preferred embodiment of the utility model;

Fig. 2 is the close-up schematic view of the preferred embodiment of the utility model;

Fig. 3 is the enlarged diagram carrying module in the preferred embodiment of the utility model;

Fig. 4 is the enlarged diagram carrying another angle of module in the preferred embodiment of the utility model;

Fig. 5 is the enlarged diagram of localization tool in the preferred embodiment of the utility model;

Fig. 6 is the exploded view of localization tool in the preferred embodiment of the utility model;

Fig. 7 is the sectional view of localization tool in the preferred embodiment of the utility model;

Fig. 8 is the enlarged diagram that the preferred embodiment neutretto of the utility model picks and places material module;

Fig. 9 is the enlarged diagram that in the preferred embodiment of the utility model, O type circle picks and places material module;

Figure 10 is the enlarged diagram of O type circle fetching device in the preferred embodiment of the utility model;

Figure 11 is the enlarged diagram of A position in Figure 10;

Figure 12 is the enlarged diagram in the preferred embodiment of the utility model after O type circle fetching device crawl O type circle;

Figure 13 is the enlarged diagram of B position in Figure 12;

Figure 14 is the enlarged diagram picking and placeing material module of the preferred embodiment mini-bus of the utility model;

Figure 15 is the enlarged diagram of punching press module in the preferred embodiment of the utility model;

Figure 16 is the enlarged diagram of finished product blanking module in the preferred embodiment of the utility model.

Accompanying drawing identifier declaration:

10, frame 20, conveying module

21, rotating disk 22, driving mechanism

30, meson picks and places material module 31, meson automatic feeding

32, meson fetching device 321, slide

322, meson suction nozzle 323, first driving mechanism

324, the second driving mechanism 40, O type circle pick and place material module

41, O type circle automatic feeding 42, O type circle fetching device

421, slide 422, feeding bar

4221, tapered portion 4222, protuberance

423, block 424, first driving mechanism is deviate from

425, the second driving mechanism 426, the 3rd driving mechanism

43, vision inspection apparatus 50, bar pick and place material module

51, the automatic feeding 52 of bar, the fetching device of bar

521, the suction nozzle of slide 522, bar

523, the first driving mechanism 524, second driving mechanism

60, punching press module 61, drift

62, driving mechanism 70, finished product blanking module

71, slide 72, sliding seat

73, push rod 74, finished product suction nozzle

75, the first driving mechanism 76 second driving mechanism

80, localization tool 81, die shoe

811, main part 812, fixed part

813, positioning part 82, locating core son

821, location division 83, actuating rod

84, spring 85, runner

801, accommodating cavity 802, locating hole

803, locating slot 804, fixing hole

90, scavenge unit 91, fixed block

911, curved portions 912, storage tank

101, meson 102, O type circle

103, cling to.

Detailed description of the invention

Please refer to shown in Fig. 1 to Figure 16, that show the concrete structure of the preferred embodiment of the utility model, include frame 10, conveying module 20, meson picks and places material module 30, O type circle picks and places material module 40, picking and placeing of bar expects module 50, punching press module 60 and finished product blanking module 70.

This conveying module 20, meson pick and place material module 30, O type circle picks and places material module 40, pick and place material module 50, punching press module 60 and the finished product blanking module 70 of bar are all arranged in frame 10, this conveying module 20 is provided with localization tool 80, and conveying module 20 drives localization tool 80 movable along throughput direction; This meson picks and places material module 30, O type circle picks and places material module 40, picking and placeing of bar expects the throughput direction arrangement along conveying module 20 of module 50, punching press module 60 and finished product blanking module 70.

Specifically, as shown in Figure 3 and Figure 4, described conveying module 20 includes rotating disk 21 and driving mechanism 22, and this driving mechanism 22 drives rotating disk 21 to rotate, and in the present embodiment, this driving mechanism 22 is motor; This localization tool 80 is fixed on the surperficial lateral margin of rotating disk 21 with rotating disk 21 synchronous axial system, and this meson picks and places material module 30, O type circle picks and places material module 40, picking and placeing of bar expects that module 50, punching press module 60 and finished product blanking module 70 are positioned at the periphery side of rotating disk 21.Described rotating disk 21 is arranged at intervals with many group localization tools 80, often organize localization tool 80 and all have at least two localization tools 80 to form, in the present embodiment, localization tool 80 is seven groups, often organizes localization tool 80 and has two spaced localization tools 80.

Specifically, as shown in Figures 5 to 7, each localization tool 80 includes die shoe 81, locating core son 82, actuating rod 83 and spring 84, this die shoe 81 includes main part 811, fixed part 812 and positioning part 813, this main part 811 is in frustum structure, fixed part 812 is cylindrical structure, fixed part 812 extends downwards in the bottom of main part 811, fixed part 812 inserts in rotating disk 21 and locates, the bottom surface of main part 811 is butted on the surface of rotating disk 21, this positioning part 813 extends upward in the top end face of main part 811, an accommodating cavity 801 is provided with in this die shoe 81, the top end face of the positioning part 813 of die shoe 81 is arranged with locating hole 802, the both sides of the main part 811 of die shoe 81 are provided with locating slot 803, this locating hole 802 is all communicated with accommodating cavity 801 with two locating slots 803, this locating core son 82 can be arranged in accommodating cavity 801 up and downly, and the top of locating core son 82 has a location division 821, and the top end face of the positioning part 813 of die shoe 81 is exposed in this location division 821 through locating hole 802, locating core son 82 is provided with fixing hole 804, this actuating rod 83 is through fixing hole 804 and aforementioned locating slot 803, and the both sides of die shoe 81 are stretched out at the two ends of actuating rod 83 respectively, this spring 84 is positioned at accommodating cavity 801 and is butted on the bottom of locating core son 82, and this spring 84 impels locating core son 82 to keep up the trend of activity.

And, the two ends of described actuating rod 83 are provided with runner 85, in the present embodiment, runner 85 is rolling bearing, and be grooved antifriction bearing, this frame 10 is also provided with scavenge unit 90, this scavenge unit 90 picks and places between material module 30 at finished product blanking module 70 and meson, this scavenge unit 90 includes fixed block 91 and is arranged at the hairbrush (not shown) on fixed block 81, fixed block 91 is suspended at above the lateral margin of rotating disk 21, this fixed block 91 has two curved portions 911, two curved portions 911 are conflicted with corresponding runner 85, storage tank 912 is formed between two curved portions 911, this hairbrush is arranged in storage tank 912.When localization tool 80 rotates through scavenge unit 90 with rotating disk 21, two curved portions 911 are butted on two runners 85 respectively, make locating core young 82 movable retraction downwards, location division 821 bounces back under the top end face of positioning part 813, to ensure on location division 821 without material, meanwhile, the top end face of hairbrush to positioning part 813 cleans, and avoids the top end face of positioning part 813 to leave over material or other foreign material.

As shown in Figure 8, this meson picks and places material module 30 and includes meson automatic feeding 31 and meson fetching device 32, this meson automatic feeding 31 is vibrating disk, this meson fetching device 32 is between the delivery outlet and conveying module 20 of meson pay-off 31, meson fetching device 32 includes slide 321, meson suction nozzle 322, first driving mechanism 323 and the second driving mechanism 324, this meson suction nozzle 322 is valve, it adopts gas to hold meson 101, this meson suction nozzle 322 and the first driving mechanism 323 are all arranged on slide 321, this first driving mechanism 323 drives meson suction nozzle 322 up and down, this second driving mechanism 324 drives slide 321 level movable back and forth, in the present embodiment, this first driving mechanism 323 and the second driving mechanism 324 are cylinder.Further, in the present embodiment, meson suction nozzle 322 is two, can carry out material loading to two mesons 101 simultaneously.

As shown in Fig. 9 to Figure 13, this O type circle picks and places material module 40 and includes O type circle automatic feeding 41, O type circle fetching device 42 and vision inspection apparatus 43, this O type circle automatic feeding 41 is vibrating disk, this O type circle fetching device 42 is between the delivery outlet and conveying module 20 of O type circle pay-off 41, O type circle fetching device 42 includes slide 421, feeding bar 422, deviate from block 423, first driving mechanism 424, second driving mechanism 425 and the 3rd driving mechanism 426, this feeding bar 422 and the first driving mechanism 424 are all arranged on slide 421, the bottom of this feeding bar 422 is tapered portion 4221, be inserted in facilitate O type circle 102, and the lower end side convex of feeding bar 422 is provided with protuberance 4222, this protuberance 4222 is annular, it is for blocking O type circle 102, O type circle 102 is avoided automatically to drop, this first driving mechanism 424 drives feeding bar 422 up and down, this second driving mechanism 425 relatively feeding bar 422 is fixed, second driving mechanism 425 drives block 423, and feeding bar 422 is up and down relatively, so that O type circle 102 is deviate from from feeding bar 422, 3rd driving mechanism 426 drives slide 421 level movable back and forth, in the present embodiment, this first driving mechanism 424, second driving mechanism 425 and the 3rd driving mechanism 426 are cylinder, this vision inspection apparatus 43 is fixed in frame 10 also just to the bottom of feeding bar 422, this vision inspection apparatus 43 is for detecting meson 101 and whether O type circle 102 has been placed on localization tool 80, in the present embodiment, this vision inspection apparatus 43 is positioned on the centre of surface position of rotating disk 21.Further, in the present embodiment, feeding bar 422 is two, and each feeding bar 422 corresponding is provided with one and deviates from block 423 and one second driving mechanism 425, so can carry out material loading to two O type circles 102 simultaneously.

As shown in figure 14, the material module 50 that picks and places of this bar includes the automatic feeding 51 of bar and the fetching device 52 of bar; The automatic feeding 51 of this bar is vibrating disk; The fetching device 52 of this bar is between the delivery outlet and conveying module 20 of the pay-off 51 of bar, the fetching device 52 of bar includes slide 521, suction nozzle 522, first driving mechanism 523 clung to and the second driving mechanism 524, the suction nozzle 522 of this bar is valve, it adopts gas to hold 103 of bar, the suction nozzle 522 of this bar and the first driving mechanism 523 are all arranged on slide 521, this first driving mechanism 523 drives the suction nozzle 522 of bar up and down, and this second driving mechanism 524 drives slide 521 level movable back and forth; In the present embodiment, this first driving mechanism 523 and the second driving mechanism 524 are cylinder, and the suction nozzle 522 of bar is two, can realize carrying out material loading to 103 of two bar simultaneously.

As shown in figure 15, this punching press module 60 includes drift 61 and driving mechanism 62, and this driving mechanism 62 drives drift 61 up and down, and in the present embodiment, this drift 61 is two, to realize carrying out punching press to 103 of two bar simultaneously.

As shown in figure 16, this finished product blanking module 70 includes slide 71, sliding seat 72, push rod 73, finished product suction nozzle 74, first driving mechanism 75 and the second driving mechanism 76, this push rod 73 and finished product suction nozzle 74 are all arranged in sliding seat 72, push rod 73 is two, finished product suction nozzle 74 is between two push rods 73, this two push rod 73 is respectively used to be butted on aforementioned two runners 85, deviate from from the location division 821 of locating core son 82 to make finished product, this finished product suction nozzle 74 is valve, it adopts gas to be picked up by finished product, this sliding seat 72 and the first driving mechanism 75 are all arranged on slide 71, this the first driving motivation 75 structure drives sliding seat 72 up and down, this second driving mechanism 76 drives slide 71 level movable back and forth.In the present embodiment, this first driving mechanism 75 and the second driving mechanism 76 are cylinder.In the present embodiment, finished product suction nozzle 74 is two, and each finished product suction nozzle 74 corresponding is all configured with two push rods 73, can carry out blanking to two finished products simultaneously.

The course of work that the present embodiment is described in detail in detail is as follows:

During work, after localization tool 80 is often transferred a position by this conveying module 20, this meson picks and places material module 30, O type circle picks and places material module 40, pick and place material module 50, punching press module 60 and the finished product blanking module 70 of bar complete corresponding action simultaneously:

This meson picks and places material module 30 and completes and carry out material loading to meson 101, specifically, meson 101 exports by this meson automatic feeding 31 according to the order of sequence, first, this first driving mechanism 323 drives meson suction nozzle 322 activity downwards to put in place, meson suction nozzle 322 is made to hold a meson 101 exported from meson automatic feeding 31, then, this first driving mechanism 323 drives meson suction nozzle 322 upwards to reset, and drive slide 321 to move horizontally by the second driving mechanism 324, make directly over meson 101 activity to localization tool 80, then, this first driving mechanism 323 drives meson suction nozzle 322 activity downwards to put in place, and make meson suction nozzle 322 unclamp meson 101, meson 101 drops and is placed on the location division 821 of locating core son 82, so, complete the material loading of meson 101, after material loading completes, each mechanism resets, wait for meson material loading next time.

This O type circle picks and places material module 40 and completes and carry out material loading to O type circle 102, specifically, O type circle 102 exports by this O type circle automatic feeding 41 according to the order of sequence, first, this first driving mechanism 424 drives feeding bar 422, deviate from the activity downwards of block 423 and the second driving mechanism 425 to put in place, the tapered portion 4221 of feeding bar 422 is made to be inserted in an O type circle 102 exported from O type circle automatic feeding 41, utilize the effect of protuberance 4222 simultaneously, O type circle 102 is made firmly to be enclosed within feeding bar 422, then, first driving mechanism 424 drives feeding bar 422, deviate from block 423 and the second driving mechanism 425 upwards resets, and drive slide 421 to move horizontally by the 3rd driving mechanism 426, make directly over the activity to localization tool 80 of O type circle 102, then, this first driving mechanism 424 drives feeding bar 422 activity downwards to put in place, and drive block 423 movable downwards by the second driving mechanism 425, make O type circle 102 deviate from feeding bar 422 and drop and be placed on the location division 821 of locating core son 82, now, O type circle 102 is folded on the meson 101 completing material loading in advance, so, complete the material loading of O type circle 102, after material loading completes, each mechanism resets, wait for O type circle material loading next time.

The material module 50 that picks and places of this bar completes and 103 carries out material loading to bar, specifically, the automatic feeding 51 of this bar exports according to the order of sequence by 103 of bar, first, this first driving mechanism 523 drives the activity downwards of the suction nozzle 522 of bar to put in place, the suction nozzle 522 clung to is made to hold 103 of the bar that an automatic feeding 51 from bar exports, then, this first driving mechanism 523 drives the suction nozzle 522 of bar upwards to reset, and drive slide 521 to move horizontally by the second driving mechanism 524, make 103 activities of clinging to localization tool 80, then, this first driving mechanism 523 drives the activity downwards of the suction nozzle 522 of bar to put in place, and make the suction nozzle 522 of bar unclamp 103 of bar, 103 of bar drops and is placed on the location division 821 of locating core son 82, 103 of bar is folded on the O type circle 102 completing material loading in advance and meson 101, so, complete the material loading of 103 of bar, after material loading completes, each mechanism resets, wait for the material loading of bar next time.

This punching press module 60 completes and carries out punching press to 103 of bar, and specifically, this driving mechanism 62 drives drift 61 movable downwards, makes drift 61 carry out punching press to 103 of bar, thus O type circle 102 and meson 101 assembling are fixed in 103 of bar.

This finished product blanking module 70 completes and carries out blanking to assembled watch hat, specifically, this first driving motivation 75 structure drives sliding seat 72 movable downwards, and two push rods 73 are respectively used to be butted on two runners 85, deviate from from the location division 821 of locating core son 82 to make finished product, then, finished product picks up by this finished product suction nozzle 74, then, this second driving mechanism 76 drives slide 71 horizontal anomalous movement to shift out, after shifting out, finished product suction nozzle 74 unclamps finished product, and finished product falls in the collection container that is placed in frame 10 automatically.

Design focal point of the present utility model is: utilize conveying module by cooperation, meson picks and places material module, O type circle picks and places material module, picking and placeing of bar expects module, punching press module and finished product blanking module, automatically to complete meson material loading, O type circle material loading, the material loading of bar, the action such as punching press and finished product blanking, table hat assembling overall process is without the need to artificial participation, thus decrease manpower and expend, reduce cost of labor, avoid the generation of job safety accident, and automated job efficiency is high, effectively improve production capacity, and ensure that the assembling quality of product, be worth of widely use.

The above, it is only preferred embodiment of the present utility model, not technical scope of the present utility model is imposed any restrictions, therefore every above embodiment is done according to technical spirit of the present utility model any trickle amendment, equivalent variations and modification, all still belong in the scope of technical solutions of the utility model.

Claims (10)

1. a full automatic watch hat mounting equipment, is characterized in that: include frame, conveying module, meson picks and places material module, O type circle picks and places material module, picking and placeing of bar expects module, punching press module and finished product blanking module; This conveying module, meson pick and place material module, O type circle picks and places material module, pick and place material module, punching press module and the finished product blanking module of bar are all arranged in frame, this conveying module is provided with localization tool, and conveying module drives localization tool movable along throughput direction; This meson picks and places material module, O type circle picks and places material module, the throughput direction arrangement picking and placeing material module, punching press module and finished product blanking module edge conveying module of bar.

2. full automatic watch hat mounting equipment according to claim 1, it is characterized in that: described conveying module includes rotating disk and driving mechanism, this driving mechanism drives dial rotation, this localization tool is fixed on the surperficial lateral margin of rotating disk with rotating disk synchronous axial system, and this meson picks and places material module, O type circle picks and places material module, picking and placeing of bar expects that module, punching press module and finished product blanking module are positioned at the periphery side of rotating disk.

3. full automatic watch hat mounting equipment according to claim 2, is characterized in that: described localization tool includes die shoe, locating core son, actuating rod and spring; Be provided with an accommodating cavity in this die shoe, the top end face of die shoe is arranged with locating hole, and the both sides of die shoe are provided with locating slot, and this locating hole is all communicated with accommodating cavity with two locating slots; This locating core son can be arranged in accommodating cavity up and downly, and the top of locating core son has a location division, and the top end face of die shoe is exposed through locating hole in this location division, and locating core son is provided with fixing hole; This actuating rod is through fixing hole and aforementioned locating slot, and the both sides of die shoe are stretched out at the two ends of actuating rod respectively; This spring is positioned at accommodating cavity and is butted on the bottom of locating core son.

4. full automatic watch hat mounting equipment according to claim 3, it is characterized in that: the two ends of described actuating rod are provided with runner, this frame is also provided with scavenge unit, this scavenge unit picks and places between material module at finished product blanking module and meson, this scavenge unit includes fixed block and is arranged at the hairbrush on fixed block, fixed block is suspended at above the lateral margin of rotating disk, this fixed block has two curved portions, two curved portions are conflicted with corresponding runner, be formed with storage tank between two curved portions, this hairbrush is arranged in storage tank.

5. full automatic watch hat mounting equipment according to claim 2, is characterized in that: described rotating disk is arranged at intervals with and organizes localization tool more, often organizes localization tool and all has two localization tool compositions at least.

6. full automatic watch hat mounting equipment according to claim 1, it is characterized in that: described meson picks and places material module and includes meson automatic feeding and meson fetching device, this meson fetching device is between the delivery outlet and conveying module of meson pay-off, meson fetching device includes slide, meson suction nozzle, the first driving mechanism and the second driving mechanism, this meson suction nozzle and the first driving mechanism are all arranged on slide, this first driving mechanism drives meson suction nozzle up and down, and this second driving mechanism drives slide level movable back and forth.

7. full automatic watch hat mounting equipment according to claim 1, is characterized in that: described O type circle picks and places material module and includes O type circle automatic feeding, O type circle fetching device and vision inspection apparatus, this O type circle fetching device is between the delivery outlet and conveying module of O type circle pay-off, O type circle fetching device includes slide, feeding bar, deviate from block, first driving mechanism, second driving mechanism and the 3rd driving mechanism, this feeding bar and the first driving mechanism are all arranged on slide, the bottom of this feeding bar is tapered portion, and the lower end side convex of feeding bar is provided with protuberance, this first driving mechanism drives feeding bar up and down, this is deviate from block and can be sheathed on outside feeding bar up and downly, the relative feeding bar of this second driving mechanism is fixed, second driving mechanism drives block up and down relative to feeding bar, 3rd driving mechanism drives slide level movable back and forth, this vision inspection apparatus is fixed in frame also just to the bottom of feeding bar.

8. full automatic watch hat mounting equipment according to claim 1, it is characterized in that: the material module that picks and places of described bar includes the automatic feeding of bar and the fetching device of bar, the fetching device of this bar is between the delivery outlet and conveying module of the pay-off of bar, the fetching device of bar includes slide, the suction nozzle of bar, the first driving mechanism and the second driving mechanism, suction nozzle and first driving mechanism of this bar are all arranged on slide, this first driving mechanism drives the suction nozzle of bar up and down, and this second driving mechanism drives slide level movable back and forth.

9. full automatic watch hat mounting equipment according to claim 1, it is characterized in that: described punching press module includes drift and driving mechanism, this driving mechanism drives drift up and down.

10. full automatic watch hat mounting equipment according to claim 1, it is characterized in that: described finished product blanking module includes slide, sliding seat, push rod, finished product suction nozzle, the first driving mechanism and the second driving mechanism, this push rod and finished product suction nozzle are all arranged in sliding seat, this sliding seat and the first driving mechanism are all arranged on slide, this the first driving motivation structure drives sliding seat up and down, and this second driving mechanism drives slide level movable back and forth.