CN202022581U - Material taking and emptying device - Google Patents

Abstract

The utility model relates to and provides a material taking and emptying device which has small volume, wide adaption occasions and low cost, is driven by a motor to guarantee the precision and can solve the problem of price of a high-end product as well as the technical problem of a low-end product. The material taking and emptying device consists of a U-shaped rack, a sliding rail mechanism, a suction head module, a drive module and a linkage mechanism, wherein the sliding rail mechanism, the suction head module, the drive module and the linkage mechanism are sequentially arranged in the U-shaped rack, the suction head module is connected with the sliding rail mechanism and can penetrate through the U-shaped rack up and down, the drive module is arranged at the side of the suction head module, and the suction head module is driven by the drive module to link the linkage mechanism.

Description

Pick and place materials device

Technical field

The utility model relates to a kind of materials device that picks and places, be used for the automatic absorption of various slight small item bodies and the function of arbitrarily angled adjustment of material and automatic discharging, as: the automation of various paster electronic components mounts, burning, detection, sorting etc., can be used for also that medicine, biological automation load, classification.Especially in electron trade, replace under the artificial megatrend, more press for the suction means that a kind of volume is little, cost is low, reliable, practical, satisfy the demand of various automation equipments with automation.

Background technology

The existing materials device that picks and places is of a great variety at present, but is tending towards polarising, one class is the product of higher-end, this series products is generally targeted, is a kind of or certain device design only, such as the materials device that picks and places of automation chip mounter, this series products volume is bigger, the inner structure complexity, drawing material and material hand of rotation all is that manufacturing cost is very high with higher stepping motor or the driven by servomotor of precision, for some miniaturizations, it is just impracticable to be worth lower automation equipment.Second class belongs to low-end product, though structure is simple, cost is lower, generally adopts the pneumatic up-and-down movement of realizing, motor is realized rotatablely moving, can not in motion process, realize acceleration and deceleration motion owing to pneumatic, cause inertia big, error rate is very high, and is just impracticable for the occasion of some no high-pressure air source, bulk velocity is slow in addition, and efficient is low.

So now market just need a kind of volume little, adapt to that occasion is wide, cost is low and all guarantee the materials device that picks and places of precision with step motor drive, can solve the price problem of high-end product, can solve the middle practical product of the technical matters of low-end product again.

Summary of the invention

The purpose of this utility model is to overcome above-mentioned the deficiencies in the prior art part, provide a kind of volume little, adapt to that occasion is wide, cost is low and all guarantee the materials device that picks and places of precision with motor-driven, solved the price problem of high-end product effectively, can solve again low-end product technical matters pick and place materials device.

Technical solution of the present utility model is the described materials device that picks and places, and its special character is: by ㄈ type frame, successively be installed in sliding track mechanism in the ㄈ type frame, be connected with sliding track mechanism and can upper and lower suction nozzle module through this ㄈ type frame, the driving module installed of suction nozzle module side and form by driving the interlinked mechanism that module drives the interlock of suction nozzle module.

As preferably:

Described suction nozzle module is by run through ㄈ type frame in-to-in air inlet sleeve pipe from ㄈ type frame top stay bearing plate, rotating machine, the rotating machine arbor of suit is shaped to the quill shaft that is used for air communication channel in the air inlet sleeve pipe, install between air inlet sleeve pipe and the rotating machine arbor and be used to guarantee rotating machine, vapor tight vaccum seal ring when following motion or rotation, sheathed spring between rotating machine and the air inlet sleeve pipe, rotating machine connection stay bearing plate at the bottom of ㄈ type frame runs through the exterior gas circuit connection pipe of ㄈ type frame, gas circuit connection pipe bonded assembly suction nozzle is formed.

As preferably:

Described suction nozzle module by between the quill shaft that runs through suit in ㄈ type frame in-to-in air inlet sleeve pipe, the air inlet sleeve pipe from ㄈ type frame top stay bearing plate, quill shaft bonded assembly hollow holders, air inlet sleeve pipe and the hollow holders quill shaft on suit spring, be connected with hollow holders that stay bearing plate runs through the exterior gas circuit connection pipe of ㄈ type frame at the bottom of ㄈ type frame, gas circuit connection pipe bonded assembly suction nozzle is formed.

As preferably:

Described suction nozzle module is shaped to the quill shaft that is used for air communication channel, rotating machine, rotating machine by the rotating machine arbor that runs through suit in ㄈ type frame in-to-in air inlet sleeve pipe, the air inlet sleeve pipe from ㄈ type frame top stay bearing plate and connects that stay bearing plate runs through the exterior gas circuit connection pipe of ㄈ type frame at the bottom of ㄈ type frame, gas circuit connection pipe bonded assembly suction nozzle is formed.

As preferably:

Described driving module connects coupler in the ㄈ type frame, is sleeved at the bottom of the ㄈ type frame S. A. in location bearing, suit coupler and the location bearing axis hole in the stay bearing plate perforation and forms by being installed in the drive motor on the stay bearing plate of ㄈ type frame top, the drive motor arbor that wears ㄈ type frame top stay bearing plate, drive motor arbor.

As preferably:

The L type suction nozzle frame that described interlinked mechanism is installed in the L type suction nozzle frame that is used for mounting rotary electric machine on ㄈ type rack rail slide block and the suction nozzle link plate by the spring of suit on the S. A. between swivel bearing, the rotating cam that axially wears, suction nozzle link plate, suction nozzle link plate and the location bearing installed on the bearing pin that radially wears on the S. A. of suit successively in coupler and the location bearing axle center hole, the bearing pin, is respectively formed.

As preferably: described rotating cam is by the end face that is positioned at stay bearing plate one side at the bottom of the ㄈ type frame, and the skew surface cam of this end face bottom moulding is formed.

As preferably:

Described interlinked mechanism is driven on the axle of module the swivel bearing that the rotating cam, rotating cam top of suit successively install and forms on bearing pin that the suction nozzle joint pin connects the L type suction nozzle frame that is installed in the L type suction nozzle frame that is used for mounting rotary electric machine on ㄈ type rack rail slide block and the suction nozzle link plate with the suction nozzle link plate of rotating cam concentric, respectively, wears the S. A. that extended behind the rotating cam axle center, radially wears on this S. A., bearing pin by ㄈ type frame; The skew surface of described rotating cam and the plane of revolution of swivel bearing match; After drive motor started, the planar circumferential conversion of motion of drive motor was the perpendicular movement of rotating cam; The perpendicular movement of rotating cam drives the motion of suction nozzle module.

As preferably:

Described rotating cam is by the end face that is positioned at coupler one side, and the skew surface cam of this end face bottom moulding is formed.

As preferably:

Described sliding track mechanism is by vertically being covered in guide rail on the ㄈ type frame longeron inwall, being nested on this guide rail and can forming along the slide block of its slip.

Compared with prior art, the utility model has the advantages that:

⑴ this device adopts small one and large one two stepping motors, guarantees the smoothness in precision and the motion,

Compact conformation is succinct, can realize picking and placeing material and amount to 0.3 second, the anglec of rotation 360 degree/0.5 second, but and synchronized operation get material and rotation, efficient height.

⑵ this device has been made into modularization, changes easy for installationly, can many suction nozzles be installed simultaneously under very little space, makes each displacement can draw more material.

⑶ each suction module is independent separately not to be concerned mutually.

⑷ this device is widely applicable, can be widely used in the automatic suction device of various slight small item bodies, as: the automation of various paster electronic components mounts, burning, detection, sorting etc., can be used for also that medicine, biological automation load, classification.Especially in electron trade, replace under the artificial megatrend, more press for the suction means that a kind of volume is little, cost is low, reliable, practical, satisfy the demand of various automation equipments with automation.

Description of drawings

Fig. 1 is the STRUCTURE DECOMPOSITION scheme drawing that the utility model picks and places materials device first embodiment.

Fig. 2 is the front view that the utility model picks and places materials device first embodiment.

Fig. 3 is the right elevation that the utility model picks and places materials device first embodiment.

Fig. 4 is the left view that the utility model picks and places materials device first embodiment.

Fig. 5～Fig. 7 is that the utility model picks and places the materials device first embodiment operating state decomposing schematic representation.

Fig. 8 is the front view that the utility model picks and places the materials device first embodiment suction nozzle module.

Fig. 9 is the left view that the utility model picks and places the materials device first embodiment suction nozzle module.

Figure 10 is the A-A cross section view of Fig. 9.

Figure 11 is the structural representation that the utility model picks and places materials device second embodiment.

Figure 12 is the B-B cross section view of Figure 11.

Figure 13 is the structural representation that the utility model picks and places materials device the 3rd embodiment.

The primary clustering nomenclature:

Frame 1 longeron 11 topmast faggings 12 end gripper shoe 13 sliding track mechanisms 2 guide rails 21 slide blocks 22 suction nozzle modules 3 air inlet sleeve pipes 31 electric rotating machines 32 quill shafts 321 hollow holders 322 vaccum seal rings 33 springs 34 gas circuit connecting pipes 35 suction nozzles 36 suction nozzle joint pins 361 drive module 4 drive motors 41 motor crankshafts 411 shaft couplings 42 location bearings 43 rotating shafts 44 interlinked mechanisms 5 rotating cams 51 suction nozzle link plates 52 L-type suction nozzle framves 53 bearing pins 54 swivel bearings 55.

The specific embodiment

The utility model is described in further detail below in conjunction with accompanying drawing:

Fig. 1 to Figure 10 shows first embodiment of the present utility model.

See also Fig. 1, shown in Figure 2, in the present embodiment, described pick and place materials device by ㄈ type frame 1, successively be installed in sliding track mechanism 2 in the ㄈ type frame 1, is connected with sliding track mechanism 2 and can upper and lower suction nozzle module 3 through this ㄈ type frame, the driving module 4 installed of suction nozzle module 3 sides and form by driving the interlinked mechanism 5 that module 4 drive suction nozzle modules 3 link.

See also Fig. 8～shown in Figure 10, described suction nozzle module 3 is by running through ㄈ type frame 1 in-to-in air inlet sleeve pipe 31 from ㄈ type frame top stay bearing plate 12, rotating machine 32, the rotating machine arbor 321 of suit is shaped to the quill shaft that is used for air communication channel in the air inlet sleeve pipe 31, install between air inlet sleeve pipe 31 and the rotating machine arbor 321 and be used to guarantee rotating machine 32, vapor tight vaccum seal ring 33 when following motion or rotation, sheathed spring 34 between rotating machine 32 and the air inlet sleeve pipe 31, rotating machine 32 connects and runs through ㄈ type frame 1 exterior gas circuit connection pipe 35 from ㄈ type frame 1 end stay bearing plate 13, gas circuit connection pipe 35 bonded assembly suction nozzles 36 are formed.

See also Fig. 5～shown in Figure 7, described driving module 4 connects coupler 42 in the ㄈ type frames 1, is sleeved at the bottom of the ㄈ type frame location bearing 43, the suit coupler 42 in stay bearing plate 13 perforation and forms with the S. A. 44 in location bearing 43 axis holes by being installed in the drive motor 41 on the ㄈ type frame top stay bearing plate 12, the drive motor arbor 411 that wears ㄈ type frame top stay bearing plate 12, drive motor arbor 411.

See also Fig. 1, Fig. 5～shown in Figure 7, described interlinked mechanism 5 drives on the module S. A. 44 swivel bearing 55 that the rotating cam 51 of suit successively, rotating cam 51 tops install by ㄈ type frame and forms on bearing pin 54 that suction nozzle joint pin 361 connects with the suction nozzle link plate 52 of rotating cam 51 concentrics, is installed in the L type suction nozzle frame 53 that is used for the L type suction nozzle frame of mounting rotary electric machine 32 on ㄈ type rack rail slide block 22 and the suction nozzle link plate 52 respectively, wears the S. A. 44 that extended behind rotating cam 51 axle center, radially wears on this S. A. 44, bearing pin 54; The plane of revolution of the skew surface of described rotating cam 51 and swivel bearing 55 matches; After drive motor 41 started, the planar circumferential conversion of motion of drive motor 41 was the perpendicular movement of rotating cam 51; The perpendicular movement of rotating cam 51 drives the motion of suction nozzle module 3.

See also shown in Figure 1ly, described sliding track mechanism 2 is by vertically being covered in guide rail 21 on ㄈ type frame 1 longeron 11 inwalls, being nested on this guide rail 21 and can forming along the slide block 22 of its slip.

Principle of work:

After starting drive motor 41, S. A. 44 rotates thereupon, be positioned at the bearing pin 54 that vertically wears on the S. A. 44, the plane of revolution of swivel bearing 55 directly acts on the skew surface of rotating cam 51, like this, the planar circumferential of drive motor 41 motion then is converted into the perpendicular movement of rotating cam 51; Because 51 bonded assembly suction nozzles of rotating cam link plate 52 also is connected in L type suction nozzle frame 53, the perpendicular movement of rotating cam 51 has driven the upper and lower motion of suction nozzle module 3 again.At this moment, start rotating machine 32, drive suction nozzle 36 rotated the control that realizes the orientation angle of material together after rotating machine 32 was drawn onto material B, because the arbor 411 of rotating machine 32 is a hollow, so rotating machine 32 has not only been realized the function of material hand of rotation and has also played the effect of conducting gas circuit that this is the less key reason of whole device volume.In addition, this picks and places materials device and has to the adaptive function of height of materials, as Fig. 5, Fig. 6, shown in Figure 7, because the material A height is higher, suction nozzle 36 has withstood material A during suction, and rotating cam 51 is thrown off naturally with swivel bearing 55, hard collision can not take place, blowing is as a same reason.When drawing material B, when the angle that drive motor 41 stops was zero, drive motor 41 driven rotary axles 44 turnbacks just had been drawn to vertex to material, the state of similar material C.41 of drive motor otherwise the rotation that stops, the upper and lower motion that rotating cam 51 will not stop by controlling and driving motor 41 rotating speeds, makes the upper and lower mobile realization acceleration and deceleration motion of rotating cam 51, has avoided the inertia problems of too.

Figure 11, Figure 12 show second embodiment of the present utility model.

See also shown in Figure 11, in the present embodiment, when drawing that material does not need to be rotated or angular movement when adjusting, described pick and place materials device by ㄈ type frame 1, successively be installed in sliding track mechanism 2 in the ㄈ type frame 1, is connected with sliding track mechanism 2 and can upper and lower suction nozzle module 3 through this ㄈ type frame, the driving module 4 installed of suction nozzle module 3 sides and form by driving the interlinked mechanism 5 that module 4 drive suction nozzle modules 3 link.

See also shown in Figure 12ly, described suction nozzle module 3 is connected by the spring 34 of suit on the quill shaft 321 between the quill shaft 321 that runs through suit in ㄈ type frame 1 in-to-in air inlet sleeve pipe 31, the air inlet sleeve pipe 31 from ㄈ type frame 1 top stay bearing plate 12, quill shaft 321 bonded assembly hollow holders 322, air inlet sleeve pipe 31 and the hollow holders 322, with hollow holders 322 that stay bearing plate 13 runs through ㄈ type frame 1 exterior gas circuit connection pipe 35 at the bottom of ㄈ type frame, gas circuit connection pipe 35 bonded assembly suction nozzles 36 are formed.

See also shown in Figure 11ly, described driving module 4 connects coupler 42 in the ㄈ type frames 1, is sleeved at the bottom of the ㄈ type frame location bearing 43, the suit coupler 42 in stay bearing plate 13 perforation and forms with the S. A. 44 in location bearing 43 axis holes by being installed in the drive motor 41 on the ㄈ type frame top stay bearing plate 12, the drive motor arbor 411 that wears ㄈ type frame top stay bearing plate 12, drive motor arbor 411.

See also shown in Figure 11ly, described interlinked mechanism 5 drives on the module S. A. 44 rotating cam 51 of suit successively, rotating cam 51 tops by ㄈ type frame and forms through the bearing pin 54 that suction nozzle joint pin 361 is installed in L type suction nozzle frame 53 on ㄈ type rack rail slide block 22 and the suction nozzle link plate 52 respectively, wears the S. A. 44 that extended behind rotating cam 51 axle center, radially wears on this S. A. 44; Bearing pin 54 matches with the plane of revolution of swivel bearing 55; After drive motor 41 started, the planar circumferential conversion of motion of drive motor 41 was the perpendicular movement of rotating cam 51; The perpendicular movement of rotating cam 51 drives the motion of suction nozzle module 3.

See also shown in Figure 11ly, described sliding track mechanism 2 is by vertically being covered in guide rail 21 on ㄈ type frame longeron 11 inwalls, being nested on this guide rail 21 and can forming along the slide block 22 of its slip.

Principle of work:

After starting drive motor 41, S. A. 44 rotates thereupon, a because bearing pin of vertical fixing (not shown) on the S. A. 44,55 of swivel bearings on the bearing pin center on S. A. 44 and move in a circle, the plane of action of swivel bearing 55 matches with rotating cam 51, so when S. A. 44 rotates, the skew surface of rotating cam 51 will be subjected to an application force of swivel bearing 55, because rotating cam 51 bonded assembly suction nozzle link plates 52 also are connected in L type suction nozzle frame 53, L type suction nozzle frame 53 be fixed on again can only the slide block 22 of perpendicular movement on, this does the time spent with regard to having determined skew surface when rotating cam 51 to be subjected to external force, can only go up, following motion, and the motion of drive suction nozzle module 3.

Suction nozzle module 3 from top to bottom, earlier by the fixing air inlet pipe box 31 in a upper end, be enclosed within the gas circuit connection pipe 35 of air course in the band, gas circuit connection pipe 35 can be free to slide in air inlet pipe box 31, to keep sealing in order sliding, a vaccum seal ring (seeing shown in Figure 12 cutaway view) to be installed between air inlet pipe box 31 and the gas circuit connection pipe 35.Gas circuit connection pipe 35 is fixed in the hollow holders 322 above the L type suction nozzle frame 53, on the L type suction nozzle frame 53, following motion then drives the up-and-down movement of gas circuit connection pipe 35 and suction nozzle 36, between L type suction nozzle frame 53 and top stay bearing plate 12, placed a spring 34, the effect of spring 34 is 53 1 the downward power of L type suction nozzle frame of giving all the time, keep the swivel bearing 55 and the inclined-plane of rotating cam 51 to closely cooperate, drive motor 41 starts, on the suction nozzle module 3, following motion, the acceleration and deceleration of motion can be subjected to drive motor 41 controls, avoided habitual problems of too, another characteristics are that when allowing suction nozzle module 3 descend, suction nozzle 36 is run into material and withstood, at this moment, swivel bearing 55 is thrown off with the skew surface of rotating cam 51, loses efficacy between application force that drive motor 41 rotates and the suction nozzle module 3, has avoided hard collision, and the height of material had certain adaptive ability, its diagram principle and Fig. 5 shown in Figure 6 similar.

It is the same with embodiment with the principle of blowing to get material, as Fig. 5, Fig. 6, shown in Figure 7, has just replaced rotating machine 32 with fixed L type suction nozzle frame 53, has not so just had the controllable function to the material angle, and this is the difference with embodiment one unique function.

Figure 13 shows the 3rd embodiment of the present utility model.

See also shown in Figure 13, in the present embodiment, described pick and place materials device by ㄈ type frame 1, successively be installed in sliding track mechanism 2 in the ㄈ type frame 1, is connected with sliding track mechanism 2 and can upper and lower suction nozzle module 3 through this ㄈ type frame, the driving module 4 installed of suction nozzle module 3 sides and form by driving the interlinked mechanism 5 that module 4 drive suction nozzle modules 3 link.

Described suction nozzle module 3 is shaped to the quill shaft 321, rotating machine 32, the rotating machine 32 that are used for air communication channel by the rotating machine arbor of suit in ㄈ type frame top stay bearing plate 12 runs through ㄈ type frame 1 in-to-in air inlet sleeve pipe 31, air inlet sleeve pipe 31 and connects that stay bearing plate 13 runs through ㄈ type frame 1 exterior gas circuit connection pipe 35 at the bottom of ㄈ type frame, gas circuit connection pipe 35 bonded assembly suction nozzles 36 are formed.

Described driving module 4 connects coupler 42 in the ㄈ type frames 1, is sleeved at the bottom of the ㄈ type frame location bearing 43, the suit coupler 42 in stay bearing plate 13 perforation and forms with the S. A. 44 in location bearing 43 axis holes by being installed in the drive motor 41 on the ㄈ type frame top stay bearing plate 12, the drive motor arbor 411 that wears ㄈ type frame top stay bearing plate 12, drive motor arbor 411.

Described interlinked mechanism 5 by the spring 34 of suit on the S. A. 44 between swivel bearing 55, the rotating cam 51 that axially wears, suction nozzle link plate 52, suction nozzle link plate 52 and the location bearing 43 installed on the bearing pin 54 that radially wears on the S. A. 44 of suit, the bearing pin 54 successively in coupler 42 and location bearing 43 axle center holes, be installed in the L type suction nozzle frame 53 that is used for the L type suction nozzle frame of mounting rotary electric machine 32 on ㄈ type rack rail slide block 22 and the suction nozzle link plate 52 respectively and form.The plane of revolution of the skew surface of described rotating cam 51 and swivel bearing 55 matches; After drive motor 41 started, the planar circumferential conversion of motion of drive motor 41 was the perpendicular movement of rotating cam 51; The perpendicular movement of rotating cam 51 drives the motion of suction nozzle module 3.Described rotating cam 51 is by the end face that is positioned at stay bearing plate 13 1 sides at the bottom of the ㄈ type frame, and the skew surface cam of this end face bottom moulding is formed.

Described sliding track mechanism 2 is by vertically being covered in guide rail 21 on ㄈ type frame longeron 11 inwalls, being nested on this guide rail 21 and can forming along the slide block 22 of its slip.

Principle of work:

On the basis of embodiment 1, with rotating cam 51 flip verticals 180 ⁰Install, the skew surface of rotating cam 51 is made progress, simultaneously with S. A. 44 also flip vertical 180 ⁰Swivel bearing 55 on the S. A. 44 is matched with the skew surface of rotating cam 51; at this moment, spring 34 is installed between rotating cam 51 and the end stay bearing plate 13, makes suction nozzle 36 can keep an elastic force that makes progress; when drive motor 41 driven rotary axles 44 rotate; rotating cam 51 will rotatablely move and become the upper and lower motion of suction nozzle 36, reach the process that picks and places material, and the advantage of this mode is under stopped status; the starting point of suction nozzle 36 is highest points, and is good to suction nozzle 36 protectiveness.After starting drive motor 41, S. A. 44 rotates thereupon, be positioned at the bearing pin 54 that vertically wears on the S. A. 44, the plane of revolution of swivel bearing 55 directly acts on the skew surface of rotating cam 51, like this, the planar circumferential of drive motor 41 motion then is converted into the perpendicular movement of rotating cam 51; Because 51 bonded assembly suction nozzles of rotating cam link plate 52 also is connected in L type suction nozzle frame 53, the perpendicular movement of rotating cam 51 has driven the upper and lower motion of suction nozzle module 3 again.At this moment, start rotating machine 32, drive suction nozzle 36 rotated the control that realizes the orientation angle of material together after rotating machine 32 was drawn onto material B, because the arbor 411 of rotating machine 32 is a hollow, so rotating machine 32 has not only been realized the function of material hand of rotation and has also played the effect of conducting gas circuit that this is the less key reason of whole device volume.In addition, in the present embodiment, as Fig. 5, Fig. 6, shown in Figure 7, suction nozzle 36 is that certain elastomeric suction nozzle is arranged, because when drive motor 41 startups allow suction nozzle module 3 move downward, because certain material is higher, suction nozzle withstands material, but motor still rotates, and swivel bearing 55 can not be thrown off with the skew surface of rotating cam 51, hard collision will take place, for fear of the generation of this phenomenon, suction nozzle 36 just has certain retractility or elasticity, but scope is limited, Here it is and the unique feature difference of embodiment, and just the adaptive ability to height of materials does not have embodiment the last one.When drawing material B, when the angle that drive motor 41 stops was zero, drive motor 41 driven rotary axles 44 continued rotation, and S. A. 44 turnbacks just have been drawn to vertex to material, the state of similar material C.41 of drive motor otherwise the rotation that stops, the upper and lower motion that rotating cam 51 will not stop by controlling and driving motor 41 rotating speeds, makes the upper and lower mobile realization acceleration and deceleration motion of rotating cam 51, has avoided the inertia problems of too.

The above only is preferred embodiment of the present utility model, and all equalizations of being done according to the utility model claim scope change and modify, and all should belong to the covering scope of the utility model claim.

Claims (10)

1. one kind picks and places materials device, it is characterized in that: by ㄈ type frame, successively be installed in sliding track mechanism in the ㄈ type frame, be connected with sliding track mechanism and can upper and lower suction nozzle module through this ㄈ type frame, the driving module installed of suction nozzle module side and form by driving the interlinked mechanism that module drives the interlock of suction nozzle module.

2. state according to claim 1 and pick and place materials device, it is characterized in that: described suction nozzle module is by run through ㄈ type frame in-to-in air inlet sleeve pipe from ㄈ type frame top stay bearing plate, rotating machine, the rotating machine arbor of suit is shaped to the quill shaft that is used for air communication channel in the air inlet sleeve pipe, install between air inlet sleeve pipe and the rotating machine arbor and be used to guarantee rotating machine, vapor tight vaccum seal ring when following motion or rotation, sheathed spring between rotating machine and the air inlet sleeve pipe, rotating machine connection stay bearing plate at the bottom of ㄈ type frame runs through the exterior gas circuit connection pipe of ㄈ type frame, gas circuit connection pipe bonded assembly suction nozzle is formed.

3. state according to claim 1 and pick and place materials device, it is characterized in that: described suction nozzle module by between the quill shaft that runs through suit in ㄈ type frame in-to-in air inlet sleeve pipe, the air inlet sleeve pipe from ㄈ type frame top stay bearing plate, quill shaft bonded assembly hollow holders, air inlet sleeve pipe and the hollow holders quill shaft on suit spring, be connected with hollow holders that stay bearing plate runs through the exterior gas circuit connection pipe of ㄈ type frame at the bottom of ㄈ type frame, gas circuit connection pipe bonded assembly suction nozzle is formed.

4. state according to claim 1 and pick and place materials device, it is characterized in that: described suction nozzle module is shaped to the quill shaft that is used for air communication channel, rotating machine, rotating machine by the rotating machine arbor that runs through suit in ㄈ type frame in-to-in air inlet sleeve pipe, the air inlet sleeve pipe from ㄈ type frame top stay bearing plate and connects that stay bearing plate runs through the exterior gas circuit connection pipe of ㄈ type frame at the bottom of ㄈ type frame, gas circuit connection pipe bonded assembly suction nozzle is formed.

5. according to the described materials device that picks and places of claim 1, it is characterized in that: described driving module connects coupler in the ㄈ type frame, is sleeved at the bottom of the ㄈ type frame S. A. in location bearing, suit coupler and the location bearing axis hole in the stay bearing plate perforation and forms by being installed in the drive motor on the stay bearing plate of ㄈ type frame top, the drive motor arbor that wears ㄈ type frame top stay bearing plate, drive motor arbor.

6. according to the described materials device that picks and places of claim 5, it is characterized in that: described interlinked mechanism by the spring of suit on the S. A. between swivel bearing, the rotating cam that axially wears, suction nozzle link plate, suction nozzle link plate and the location bearing installed on the bearing pin that radially wears on the S. A. of suit successively in coupler and the location bearing axle center hole, the bearing pin, be installed in the L type suction nozzle frame that is used for mounting rotary electric machine on ㄈ type rack rail slide block and the suction nozzle link plate respectively and form.

7. according to the described materials device that picks and places of claim 6, it is characterized in that: described rotating cam is by the end face that is positioned at stay bearing plate one side at the bottom of the ㄈ type frame, and the skew surface cam of this end face bottom moulding is formed.

8. according to the described materials device that picks and places of claim 1, it is characterized in that: described interlinked mechanism is driven on the axle of module the swivel bearing that the rotating cam, rotating cam top of suit successively install and forms on bearing pin that the suction nozzle joint pin connects the L type suction nozzle frame that is installed in the L type suction nozzle frame that is used for mounting rotary electric machine on ㄈ type rack rail slide block and the suction nozzle link plate with the suction nozzle link plate of rotating cam concentric, respectively, wears the S. A. that extended behind the rotating cam axle center, radially wears on this S. A., bearing pin by ㄈ type frame; The skew surface of described rotating cam and the plane of revolution of swivel bearing match; After drive motor started, the planar circumferential conversion of motion of drive motor was the perpendicular movement of rotating cam; The perpendicular movement of rotating cam drives the motion of suction nozzle module.

9. the described according to Claim 8 materials device that picks and places is characterized in that: described rotating cam is by the end face that is positioned at coupler one side, and the skew surface cam of this end face bottom moulding is formed.

10. according to the described materials device that picks and places of claim 1, it is characterized in that: described sliding track mechanism is by vertically being covered in guide rail on the ㄈ type frame longeron inwall, being nested on this guide rail and can forming along the slide block of its slip.

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