CN208099131U - Mesh sheet separates transmission equipment - Google Patents
Mesh sheet separates transmission equipment Download PDFInfo
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- CN208099131U CN208099131U CN201721819152.XU CN201721819152U CN208099131U CN 208099131 U CN208099131 U CN 208099131U CN 201721819152 U CN201721819152 U CN 201721819152U CN 208099131 U CN208099131 U CN 208099131U
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- waste material
- major ingredient
- absorption
- mesh sheet
- removing mechanism
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Abstract
The utility model provides a kind of mesh sheet separation transmission equipment, including pedestal, is installed on pedestal side and translatable and liftable bascule, and the adsorbent equipment that is installed on bascule and can translate along bascule;Adsorbent equipment includes absorption ontology, major ingredient adsorption structure, major ingredient material removing mechanism, waste material adsorbing mechanism and waste material material removing mechanism;Major ingredient adsorption structure is installed on the position that absorption ontology bottom surface corresponds to major ingredient, for adsorbing major ingredient;Major ingredient material removing mechanism is installed on the position that absorption ontology bottom surface corresponds to major ingredient, for pushing the major ingredient being adsorbed to be detached from major ingredient adsorption structure;Waste material adsorbing mechanism is installed on the position that absorption ontology bottom surface corresponds to waste material, for adsorbing waste material;Waste material material removing mechanism is installed on the position that absorption ontology bottom surface corresponds to waste material, for pushing the waste material being adsorbed to be detached from waste material material removing mechanism.The portable high safety and production efficiency of production of this machinery, reduces labor intensity.
Description
Technical field
The utility model relates to the manufacturing and processing equipment of metal net shaped container, in particular to a kind of mesh sheet separation transmission is set
It is standby.
Background technique
In metal net shaped container production process, need to by mesh sheet to be processed punching hydraulic press on according to container moulding
It is cut off, then rejects waste part, the predeterminated position that molding mash welder is sent into part to be processed is subjected to machine-shaping.Mesh
Before, this process is that waste part is put into ash can by manpower, then is partially placed into be processed using manual operations
The predeterminated position of type mash welder carries out machine-shaping, and so operation is not safe enough, industrial accident easily occurs, manpower is broken and is disabled
Phenomenon, and large labor intensity, production efficiency are low.Therefore, it is urgent to provide a kind of mesh sheet to after cutting to carry out feeding and sub-material
Transmission device is automated to adapt to safe and efficient production.
Utility model content
The utility model provides a kind of mesh sheet separation transmission equipment.The manipulator is able to achieve safe and efficient production, reduces labor
Fatigue resistance.
The utility model relates to technical solution:
A kind of mesh sheet separates transmission equipment, including pedestal, is installed on pedestal side and translatable and liftable movable purlin
Frame, and the adsorbent equipment that is installed on bascule and can be translated along bascule;
Adsorbent equipment includes absorption ontology, major ingredient adsorption structure, major ingredient material removing mechanism, waste material adsorbing mechanism and waste material de- material
Mechanism;
Major ingredient adsorption structure is installed on the position that absorption ontology bottom surface corresponds to major ingredient, for adsorbing major ingredient;
Major ingredient material removing mechanism is installed on the position that absorption ontology bottom surface corresponds to major ingredient, for pushing the major ingredient being adsorbed to be detached from
In major ingredient adsorption structure;
Waste material adsorbing mechanism is installed on the position that absorption ontology bottom surface corresponds to waste material, for adsorbing waste material;
Waste material material removing mechanism is installed on the position that absorption ontology bottom surface corresponds to waste material, for pushing the waste material being adsorbed to be detached from
In waste material material removing mechanism.
Preferably, the major ingredient adsorption structure include be resiliently connected to absorption ontology bottom surface several major ingredient adsorption pieces with
And several pillars of absorption ontology bottom surface are convexedly stretched in, elastic component is arranged on pillar, major ingredient adsorption piece passes through elastic component flexibly
It is mounted on the bottom end of pillar.
Preferably, the major ingredient material removing mechanism includes push-rod frame and several push-rod frame actuators, and push-rod frame is pushed away by several
Bridge actuator is liftably mounted on the bottom of absorption ontology.
Preferably, the waste material adsorbing mechanism includes the waste material absorption actuator for being installed on absorption ontology bottom surface four corners,
It is installed on the waste material adsorption piece of universal joint with being installed on universal joint and the rotatable position of waste material absorption actuator lift side.
Preferably, the waste material material removing mechanism includes waste material pushing block and waste material pushing block actuator, waste material pushing block actuator peace
Loaded on absorption ontology bottom surface at waste material absorption actuator, waste material pushing block is fixed in the lift side of waste material pushing block actuator, gives up
One end of material pushing block offers through-hole, and universal joint is liftably arranged in through-hole.
Preferably, the waste material material removing mechanism further includes locating rod, and locating rod is installed on absorption ontology bottom surface, and lower end is opened
Equipped with guide hole, guide post has been protruded out on waste material pushing block and has been inserted in guide hole.
Preferably, the lower section of the adsorbent equipment is equipped with the ash can for collecting waste material.
Preferably, the absorption ontology bottom surface is equipped with for the inductor for whether having material to be incuded.
Preferably, the bascule includes the lifting carriage part that liftable slides on pedestal, is slideably positioned in lifting and slides
Horizontal sliders on moving part, horizontally slip and are set to the travelling arm of horizontal sliders, and adsorbent equipment can be arranged movably forward and backward
In on travelling arm.
The beneficial effects of the utility model:
Compared with prior art, manipulator provided by the utility model drives adsorbent equipment level to move by bascule
It moves to cut-off mesh sheet, bascule drives adsorbent equipment to decline pre-determined distance, and major ingredient adsorption structure adsorbs master
Material, waste material adsorbing mechanism adsorb waste material, and bascule drives adsorbent equipment to rise pre-determined distance, and is moved horizontally under waste material
Stopping when putting area, then waste material material removing mechanism, which pushes away downwards waste material, falls off, and bascule drives adsorbent equipment to continue major ingredient
It is moved horizontally to right above the molding die of molding spot-welding equipment, then major ingredient material removing mechanism, which pushes away downwards major ingredient, drops into
In the molding die of type spot-welding equipment, bascule drives adsorbent equipment to repeat above-mentioned action process by original route return.
Being automatically separated and transmitting for major ingredient and waste material is so just realized, the safety and production efficiency of production is improved, reduces labor
Fatigue resistance.
Detailed description of the invention
Fig. 1 is the mesh sheet schematic diagram that the utility model mesh sheet separates transmission equipment transmission;
Fig. 2 is the three-dimensional structure diagram that the utility model mesh sheet separates transmission equipment;
Fig. 3 is the top view that the utility model mesh sheet separates transmission equipment;
Fig. 4 is the side view that the utility model mesh sheet separates transmission equipment;
Fig. 5 is the perspective view for the adsorbent equipment that the utility model mesh sheet separates transmission equipment;
Fig. 6 is the enlarged drawing of part A in Fig. 5.
Specific embodiment
Below with reference to the attached drawing in the utility model embodiment, the technical scheme in the embodiment of the utility model is carried out clear
Chu is fully described by.It should be appreciated that specific embodiment described herein is only used to explain the utility model, it is not used to
Limit scope of protection of the utility model.
Please refer to Fig. 1, Fig. 2, the utility model provides a kind of mesh sheet separation transmission equipment 1, be set to blanking equipment 2 at
Between type spot-welding equipment 3, after mesh sheet 10 is cut off on blanking equipment 2 according to cut-crease lines 101, mesh sheet 10 is divided into major ingredient and position
In the waste material of major ingredient surrounding, waste material need to be rejected and major ingredient is sent into the molding preset Working position of spot-welding equipment 3 progress spot welding
Molding.
Mesh sheet separation transmission equipment 1 includes pedestal 11, is installed on 11 side of pedestal and translatable and liftable movable purlin
Frame 12, and the adsorbent equipment 13 that is installed on bascule 12 and can be translated along bascule 12;
Adsorbent equipment 13 includes absorption ontology 131, major ingredient adsorption structure 132, major ingredient material removing mechanism 133, waste material adsorption machine
Structure 134 and waste material material removing mechanism 135;
It (is absorption in the present embodiment that major ingredient adsorption structure 132, which is installed on absorption 131 bottom surface of ontology and corresponds to the position of major ingredient,
The medium position of 131 bottom surface of ontology), for adsorbing major ingredient;
Major ingredient material removing mechanism 133 is installed on the position that absorption 131 bottom surface of ontology corresponds to major ingredient, for pushing the master being adsorbed
Material is detached from major ingredient adsorption structure 132;
It (is absorption in the present embodiment that waste material adsorbing mechanism 134, which is installed on absorption 131 bottom surface of ontology and corresponds to the position of waste material,
The corner location of 131 bottom surface of ontology), for adsorbing waste material;
Waste material material removing mechanism 135 is installed on the position that absorption 131 bottom surface of ontology corresponds to waste material, for pushing what is be adsorbed to give up
Material is detached from waste material material removing mechanism 135.
Bascule 12 drives adsorbent equipment 13 to be moved horizontally to right above cut-off mesh sheet 10, and bascule 12 drives
Adsorbent equipment 13 declines pre-determined distance, and major ingredient adsorption structure 132 adsorbs major ingredient, and waste material adsorbing mechanism 134 adsorbs waste material, living
Dynamic truss 12 drives adsorbent equipment 13 to rise pre-determined distance, and is moved horizontally to stopping when waste material transfers area, then waste material de- material
Mechanism 135, which pushes away downwards waste material, to fall off, and bascule 12 drives adsorbent equipment 13 to continue major ingredient to be moved horizontally to single voxel
Right above the molding die of soldering equipment 4, then major ingredient material removing mechanism 133, which pushes away downwards major ingredient, drops to molding spot-welding equipment 4
Molding die in, bascule 12 drive adsorbent equipment 13 by original route return repeats above-mentioned action process.So just
Being automatically separated and transmitting for major ingredient and waste material is realized, the safety and production efficiency of production is improved, reduces labor intensity.
Preferably, Fig. 5, Fig. 6 are please referred to, major ingredient adsorption structure 132 includes being resiliently connected to absorption 131 bottom surface of ontology
Several major ingredient adsorption pieces 1321 and several pillars 1322 for convexedly stretching in absorption 131 bottom surface of ontology, are arranged with bullet on pillar 1322
Property part 1323, major ingredient adsorption piece 1321 is elastically mounted at the bottom end of pillar 1322 by elastic component 1323.
Preferably, Fig. 5, Fig. 6 are please referred to, major ingredient material removing mechanism 133 includes push-rod frame 1331 and several push-rod frame actuators
1332, push-rod frame 1331 is liftably mounted on the bottom of absorption ontology 131 by several push-rod frame actuators 1332.It is preferred that
Ground, push-rod frame 1331 are the " # " fonts to be linked together by four push rods.
Preferably, Fig. 5, Fig. 6 are please referred to, waste material adsorbing mechanism 134 includes being installed on absorption 131 bottom surface four corners of ontology
Waste material adsorbs actuator 1341, is installed on the universal joint 1342 and rotatable position of waste material absorption 1341 lift side of actuator
Ground is installed on the waste material adsorption piece 1343 of universal joint 1342.
Preferably, 1343 select magnet of the major ingredient adsorption piece 1321 in the present embodiment and waste material adsorption piece.
Preferably, push-rod frame actuator 1332, waste material absorption actuator 1341 and waste material pushing block actuator 1352 select gas
Cylinder.
Preferably, Fig. 5, Fig. 6 are please referred to, waste material material removing mechanism 135 includes waste material pushing block 1351 and waste material pushing block actuator
1352, waste material pushing block actuator 1352 is installed on absorption 131 bottom surface of ontology at waste material absorption actuator 1341, waste material pushing block
1351 are fixed in the lift side of waste material pushing block actuator 1352, and one end of waste material pushing block 1351 offers through-hole 1350, universal joint
1342 are liftably arranged in through-hole 1350.
Preferably, Fig. 5, Fig. 6 are please referred to, waste material material removing mechanism 135 further includes locating rod 1353, and locating rod 1353 is installed on
131 bottom surface of ontology is adsorbed, lower end offers guide hole, protruded out guide post on waste material pushing block 1351 and be inserted in guide hole.Locating rod
The 1353 direction positioning for waste material pushing block 1351 interferes with the waste material adsorption piece 1343 in through-hole 1350 so that it will not beat
Lifting.
Preferably, Fig. 2, Fig. 3 are please referred to, the lower section of adsorbent equipment 13 is equipped with the ash can 14 for collecting waste material.
Preferably, referring to Fig. 5, absorption 131 bottom surface of ontology is equipped with for the inductor 132 for whether having material to be incuded.
Preferably, please see Fig. 2 to Fig. 4, bascule 12 includes the lifting carriage part that liftable slides on pedestal 11
121, the horizontal sliders 122 being slideably positioned on lifting carriage part 121 horizontally slip and are set to the cunning of horizontal sliders 122
Swing arm 123, adsorbent equipment 13 can be set to movably forward and backward on travelling arm 123.
The action process of mesh sheet separation transmission equipment 1:
Fig. 2, Fig. 5 are please referred to, bascule 12 drives adsorbent equipment 13 to move horizontally to 2 direction of blanking equipment, inhales simultaneously
Adsorption device 13 also moves horizontally on bascule 12, when adsorbent equipment 13 is moved to cut-off 10 top of mesh sheet, absorption
Device 13 is moved to the surface of cut-off mesh sheet 10 along lever arm 123, and it is pre- that bascule 12 drives adsorbent equipment 13 to decline
If distance, waste material adsorbs actuator 1341 and waste material adsorption piece 1343 is driven to decline pre-determined distance, and waste material adsorption piece 1343 adsorbs simultaneously
Waste material is pushed down, adsorbent equipment 13 continues decline so that major ingredient adsorption piece 1321 adsorbs major ingredient, and then adsorbent equipment 13 rises, and gives up
Material adsorption piece 1343 still keeps down position, so that the major ingredient adsorbed is located at the above pre-determined distance of waste material adsorbed, so as to
In the separation of major ingredient and waste material, then bascule 12 drives adsorbent equipment 13 to rise, then flat to molding 4 direction of spot-welding equipment
Suspension when moving to 14 surface of ash can, at this point, waste material pushing block actuator 1352 drives waste material pushing block 1351 to push down on waste material,
Waste material is pushed away and is fallen in ash can 14, bascule 12 continues to drive adsorbent equipment 13 to molding 4 direction of spot-welding equipment
Translation, while also respective horizontal is mobile on bascule 12 for adsorbent equipment 13, when the shaping mould for being moved to molding spot-welding equipment 4
Stop movement when tool top, 1332 driving push rod frame 1331 of push-rod frame actuator pushes down on major ingredient, major ingredient is pushed away and fallen
To the molding die of molding spot-welding equipment 4, it is so automatically performed the feeding and sub-material of major ingredient and waste material.
The above description is only the embodiments of the present invention, and therefore it does not limit the scope of the patent of the utility model, all
Using equivalent structure or equivalent flow shift made by the utility model description, it is applied directly or indirectly in other phases
The technical field of pass, is also included in the patent protection scope of the utility model.
Claims (9)
1. a kind of mesh sheet (10) separates transmission equipment (1), it is characterised in that:Including pedestal (11), it is installed on pedestal (11) side
And translatable and liftable bascule (12), and be installed on bascule (12) and can along bascule (12) translate
Adsorbent equipment (13);
Adsorbent equipment (13) includes absorption ontology (131), major ingredient adsorption structure (132), major ingredient material removing mechanism (133), waste material suction
Random structure (134) and waste material material removing mechanism (135);
Major ingredient adsorption structure (132) is installed on the position that absorption ontology (131) bottom surface corresponds to major ingredient, for adsorbing major ingredient;
Major ingredient material removing mechanism (133) is installed on the position that absorption ontology (131) bottom surface corresponds to major ingredient, for pushing the master being adsorbed
Material is detached from major ingredient adsorption structure (132);
Waste material adsorbing mechanism (134) is installed on the position that absorption ontology (131) bottom surface corresponds to waste material, for adsorbing waste material;
Waste material material removing mechanism (135) is installed on the position that absorption ontology (131) bottom surface corresponds to waste material, for pushing what is be adsorbed to give up
Material is detached from waste material material removing mechanism (135).
2. mesh sheet (10) according to claim 1 separates transmission equipment (1), it is characterised in that:The major ingredient adsorption structure
It (132) include being resiliently connected to several major ingredient adsorption pieces (1321) of absorption ontology (131) bottom surface and convexedly stretching in absorption originally
Several pillars (1322) of body (131) bottom surface are arranged with elastic component (1323) on pillar (1322), and major ingredient adsorption piece (1321) is logical
Cross the bottom end that elastic component (1323) is elastically mounted at pillar (1322).
3. mesh sheet (10) according to claim 2 separates transmission equipment (1), it is characterised in that:The major ingredient material removing mechanism
It (133) include push-rod frame (1331) and several push-rod frame actuators (1332), push-rod frame (1331) is driven by several push-rod frames
Part (1332) is liftably mounted on the bottom of absorption ontology (131).
4. mesh sheet (10) according to claim 1 separates transmission equipment (1), it is characterised in that:The waste material adsorbing mechanism
(134) include waste material absorption actuator (1341) for being installed on absorption ontology (131) bottom surface four corners, be installed on waste material absorption and drive
The universal joint (1342) and rotatable position of moving part (1341) lift side it is installed on the waste material adsorption piece of universal joint (1342)
(1343)。
5. mesh sheet (10) according to claim 4 separates transmission equipment (1), it is characterised in that:The waste material material removing mechanism
It (135) include waste material pushing block (1351) and waste material pushing block actuator (1352), waste material pushing block actuator (1352) is installed on absorption
At waste material absorption actuator (1341), waste material pushing block (1351) is fixed in waste material pushing block actuator for ontology (131) bottom surface
(1352) lift side, one end of waste material pushing block (1351) offer through-hole (1350), and universal joint (1342) is liftably worn
In through-hole (1350).
6. mesh sheet (10) according to claim 5 separates transmission equipment (1), it is characterised in that:The waste material material removing mechanism
It (135) further include locating rod (1353), locating rod (1353) is installed on absorption ontology (131) bottom surface, and lower end offers guide hole,
Guide post is protruded out on waste material pushing block (1351) to be inserted in guide hole.
7. mesh sheet (10) according to claim 1 separates transmission equipment (1), it is characterised in that:The adsorbent equipment (13)
Lower section be equipped with ash can (14) for collecting waste material.
8. mesh sheet (10) according to claim 1 separates transmission equipment (1), it is characterised in that:The absorption ontology (131)
Bottom surface is equipped with for the inductor for whether having material to be incuded.
9. mesh sheet (10) according to claim 1 separates transmission equipment (1), it is characterised in that:The bascule (12)
The lifting carriage part (121) that pedestal (11) is slided on including liftable, the level being slideably positioned on lifting carriage part (121) are sliding
Moving part (122) horizontally slips and is set to the travelling arm (123) of horizontal sliders (122), and adsorbent equipment (13) can be movably forward and backward
It is set on travelling arm (123).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721819152.XU CN208099131U (en) | 2017-12-19 | 2017-12-19 | Mesh sheet separates transmission equipment |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721819152.XU CN208099131U (en) | 2017-12-19 | 2017-12-19 | Mesh sheet separates transmission equipment |
Publications (1)
Publication Number | Publication Date |
---|---|
CN208099131U true CN208099131U (en) | 2018-11-16 |
Family
ID=64131587
Family Applications (1)
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CN201721819152.XU Active CN208099131U (en) | 2017-12-19 | 2017-12-19 | Mesh sheet separates transmission equipment |
Country Status (1)
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CN (1) | CN208099131U (en) |
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2017
- 2017-12-19 CN CN201721819152.XU patent/CN208099131U/en active Active
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