CN117206905A

CN117206905A - Terminal multi-operation intelligent synchronous processing equipment

Info

Publication number: CN117206905A
Application number: CN202311069278.XA
Authority: CN
Inventors: 廖敏笙; 李金明; 魏东新; 钟建; 廖文川; 钟广锋
Original assignee: Guangzhou Naide Industrial Co ltd
Current assignee: Guangzhou Naide Industrial Co ltd
Priority date: 2023-08-24
Filing date: 2023-08-24
Publication date: 2023-12-12

Abstract

The invention discloses multi-station intelligent synchronous processing equipment for binding posts, which comprises a workbench, wherein a material guide frame is arranged on one side of the top end of the workbench. This terminal multiplex operation intelligence synchronous processing equipment, this terminal multiplex operation intelligence synchronous processing equipment is when processing the aluminium terminal, can place many aluminium alloy on the guide frame, afterwards through the control cooperation between drilling tapping mechanism, feeding mechanism and the cutting mechanism, thereby accomplish the drilling tapping and the cutting integrated processing to aluminium alloy terminal that forms one section, with this effect that reaches simultaneously carries out one shot forming operation to many aluminium alloy, holistic machining efficiency has been improved greatly, make this drilling, tapping, cutting all-in-one machine guarantee product quality precision in so weak in a product centre-to-centre spacing, 360 drilling and 360 tapping can be accomplished to this drilling, tapping, cutting all-in-one machine every minute, 180 finished products can be produced.

Description

Terminal multi-operation intelligent synchronous processing equipment

Technical Field

The invention relates to the technical field of wiring terminal processing equipment, in particular to wiring terminal multi-process intelligent synchronous processing equipment.

Background

The connection terminal is an accessory product for realizing electrical connection, and is industrially divided into the category of connectors. As the degree of industrial automation becomes higher and the industrial control requirements become more stringent and precise, the amount of the terminal blocks used is gradually increased. With the development of the electronic industry, the use range of the wiring terminal is more and more, and the variety is also more and more. Besides the PCB terminals, hardware terminals, nut terminals, spring terminals and the like are widely used at present, and after the aluminum alloy is extruded, the mechanical strength and the thermal stability of the aluminum alloy are improved, so that the aluminum alloy is a novel process for serving as a novel material for terminal conduction.

The semi-finished product of the aluminum terminal is extruded aluminum profile, and the aluminum terminal is processed by the following steps: the aluminum alloy column is firstly cut, drilled, tapped and the like in a plurality of working procedures, however, the existing processing device is not integrally arranged, raw materials are required to be transferred to different equipment for processing for a plurality of times when being processed in a plurality of working procedures, meanwhile, only one product can be processed at a time, the overall processing efficiency is required to be improved, the one-step processing and forming operation of the aluminum terminal can not be carried out on the whole, and the whole device has certain limitation in practical use.

Disclosure of Invention

The invention aims to provide intelligent synchronous processing equipment for multiple working procedures of binding posts, which aims to solve the problems that the semi-finished product of an aluminum terminal provided in the background technology is an extruded aluminum profile and the processing of the aluminum terminal is as follows: the aluminum alloy column is firstly cut, drilled, tapped and the like in a plurality of working procedures, however, the existing processing device is not integrally arranged, raw materials are required to be transferred to different equipment for processing for a plurality of times when being processed in a plurality of working procedures, meanwhile, only one product can be processed at a time, the overall processing efficiency is required to be improved, the one-step processing and forming operation of an aluminum terminal can not be carried out on the whole, and the problem that the whole device has certain limitation in actual use is solved.

In order to achieve the above purpose, the present invention provides the following technical solutions: the intelligent synchronous processing equipment comprises a workbench, wherein a material guide frame is arranged on one side of the top end of the workbench, a control box is arranged on one side of the bottom end of the workbench, aluminum profiles are placed in a material guide groove at the top end of the material guide frame at equal intervals, and a supporting frame is fixed on one side of the top end of the workbench; the drilling and tapping mechanism is arranged at one side of the bottom end of the supporting frame, and the supporting frame has the function of synchronously processing the drilling and tapping of the aluminum profiles which are placed at the top end of the material guide frame at equal intervals in a self-switching manner; the feeding mechanism is arranged outside the top end of one side of the workbench, which is close to the aluminum profile discharge end, and is used for stably conveying the punched and tapped aluminum profile; the cutting mechanism is arranged outside one side of the workbench, which is far away from the top end of the drilling and tapping mechanism, of the feeding mechanism, and the cutting mechanism is used for orderly and sectionally cutting the aluminum profile.

Preferably, the drilling and tapping mechanism comprises a mounting frame, a hanging frame, an electric telescopic rod I, a mounting plate, a rotating shaft, a tapping drill bit, a drilling drill bit, a positioning gear, a connecting shaft, a driving motor, a positioning worm wheel, a rotating rod, an auxiliary worm wheel, a ratchet wheel disc, a gear ring, guide rods and teeth, wherein the electric telescopic rod I is symmetrically arranged at two sides of the bottom end of the supporting frame, the hanging frame is fixedly arranged outside the output end of the bottom end of the electric telescopic rod I, the hanging frame is in an inverted C-shaped arrangement, meanwhile, the rotating rods are fixed at the middle positions of the two sides of the mounting frame, and the two ends of the rotating rods are rotatably and penetratingly arranged outside the middle position of one side of the bottom end of the hanging frame;

by adopting the technical scheme, when the whole mounting rack is used, the whole mounting rack can be overturned, so that the positions of the tapping drill bits and the drilling drill bits on two sides are automatically overturned and switched, and the subsequent tapping operation can be synchronously carried out by turning the mechanism after drilling, so that the whole mounting rack is freely switched.

Preferably, the mounting plate is installed in the symmetrical sliding clamping manner in the mounting frame, the rotating shaft is installed in the mounting plate in a penetrating manner in a rotating manner at equal intervals, the tapping drill bit and the drilling drill bit are installed at two ends of the rotating shaft through the drill bit mounting seat respectively, so that the tapping drill bit and the drilling drill bit can be switched for use through the rotation of the mounting frame, the positioning gears are fixedly penetrated through the outer portion of one side of the rotating shaft, the connecting gears are rotatably installed on the outer surface of one side of the mounting plate between 2 positioning gears, and two sides of the connecting gears are respectively connected with one sides of the positioning gears on two sides in a meshed manner;

By adopting the technical scheme, the whole rotary shaft can rotate simultaneously when being used, so that a plurality of tapping drills and drilling drills can rotate simultaneously.

Preferably, a connecting shaft is rotatably installed between inner walls at two sides of one end of the mounting frame, a driving motor is installed at one end, close to the connecting shaft, of the mounting frame, the output end of the driving motor is fixedly installed at one end of the connecting shaft, a positioning worm is rotatably installed at one side, close to the top end of the connecting shaft, of the mounting frame through a rotating seat, a positioning worm wheel is fixedly penetrated at the outer part of a rotating shaft, close to one side of the positioning worm, one side of the positioning worm wheel is meshed with one side of the positioning worm, and one side of the positioning worm wheel is rotatably installed at the outer part of one side of the connecting shaft, so that the connecting shaft rotates to drive the two sides of the positioning worm wheels to rotate simultaneously so as to drive all the rotating shafts to rotate simultaneously;

adopt above-mentioned technical scheme to make wholly when using for rotate through the connecting rod and can drive both sides location worm and location worm wheel and rotate simultaneously, thereby a plurality of pivots can drive through a driving motor output shaft and rotate.

Preferably, an auxiliary worm wheel is fixed at the rotation penetrating end of 1 rotating rod, an auxiliary worm is meshed and rotated at one side of the hanging frame close to the auxiliary worm wheel, a ratchet plate is mounted at one side of the auxiliary worm, a gear ring is sleeved and fixed at the outer part of the ratchet plate, a guide rod is longitudinally fixed at one side of an outer rod of an electric telescopic rod at one side close to the gear ring, teeth are arranged at equal intervals at one outer part of the guide rod at one side close to the gear ring, so that the gear ring and the teeth are meshed when the electric telescopic rod drives the hanging frame to ascend, the automatic ascending rotation of the mounting frame is switched, and meanwhile, the electric telescopic rod drives the hanging frame to descend, and the mounting frame does not rotate;

Adopt above-mentioned technical scheme to make wholly when using, through the setting of ratchet dish for tapping drill bit and drilling drill bit lifting rotate and can not rotate when descending again and switch the reset after switching, guarantee the stability of whole switching, whole excellent in use effect.

Preferably, the mounting frame is provided with a distance adjusting mechanism outside one side close to the positioning worm, the distance adjusting mechanism comprises a bidirectional threaded rod, a first stepping motor, a limiting chute, a positioning block, a mounting ring, limiting convex strips and limiting grooves, the distance adjusting mechanism is used for adjusting the distance between the mounting plates on two sides, the outer surface of the connecting shaft is fixed with the limiting convex strips at equal intervals, the positioning worm penetrates through the inner wall of the connecting shaft and is provided with the limiting grooves at equal intervals in an embedded mode, and the inner wall of the limiting grooves is in sliding fit with the outer surface of the limiting convex strips, so that the positioning worm can drive one side of the mounting plate to slide inside the mounting frame, and meanwhile, the connecting shaft can drive the positioning worm which is moved to different positions to rotate;

adopt above-mentioned technical scheme to make wholly when using, through the inner wall of spacing recess and the surface slip laminating setting of spacing sand grip for the location worm removes after the outside optional position of connecting axle, and the connecting axle still can drive the worm and rotate this moment, guarantees overall operation stability.

Preferably, the bidirectional threaded rod is rotatably installed outside one side of the installation frame, a first stepping motor is installed outside one side of the installation frame, which is close to the bidirectional threaded rod, an output end of the first stepping motor is fixedly installed at one end of the bidirectional threaded rod, positioning blocks symmetrically penetrate through the two outer sides of the bidirectional threaded rod, one side of the installation frame, which is close to the positioning blocks, is provided with a limiting chute in a penetrating and conducting manner, one end of the positioning block penetrates through the inside of the limiting chute in a sliding manner, the penetrating end of the positioning block is fixedly provided with a mounting ring, and one end of the mounting ring penetrates through and is rotatably clamped outside one side of the corresponding side positioning worm, so that the positioning block moves to drive the positioning worm and the mounting plate to move simultaneously;

by adopting the technical scheme, when the device is used wholly, the positioning blocks on two sides and the positioning worms on two sides of the mounting ring are driven to move outside the connecting shaft through the rotation of the bidirectional threaded rod, so that the distance between rotating shafts inside the mounting plates on two sides is changed, and the drilling distances on two sides of the connecting terminals of the device can be adjusted as required.

Preferably, the feeding mechanism comprises a first screw rod, a second stepping motor, a moving block, an auxiliary rod, a fixed plate, a collision block, a limiting plate, a compression spring, a fixed frame, a bolt displacement block, a first proximity sensor and a second proximity sensor, wherein one screw rod is rotatably arranged outside one side of the workbench, the stepping motor is arranged outside one end of the workbench, the output end of the second stepping motor is arranged at one end of the screw rod, the auxiliary rod is arranged outside the top end of the workbench, which is far away from the first screw rod, the moving block is arranged outside the first screw rod in a penetrating manner, one side of the top end of the moving block is fixedly provided with the fixed plate, one end of the fixed plate penetrates through the outside of one side of the auxiliary rod, the bottom end of the fixed plate is rotatably provided with the collision block at equal intervals, the whole body is obliquely arranged, the inclined bottom end of the collision block faces one side of the cutting mechanism, the compression spring is fixedly connected between the outside one side of the top end of the collision block and the outside of the bottom end of the fixed plate, and the outside of the side of the fixed plate, which is far away from the cutting mechanism, is fixedly provided with the limiting plate, so that the collision block can only rotate towards one side of the compression spring;

Adopt above-mentioned technical scheme to make wholly when using for the movable block can drive fixed plate and a plurality of conflict piece of bottom and remove simultaneously, cooperation compression spring's setting simultaneously, make conflict piece bottom one side can stabilize laminating aluminium alloy surface and remove, when the fixed plate moves to drilling tapping mechanism one side, conflict piece can rotate this moment with aluminium alloy surface hole site, compression spring can the atress compression simultaneously, make conflict piece can not conflict the block with the hole site on aluminium alloy surface, make whole smooth and easy retreating, when the fixed plate moves to cutting machine main part one side, conflict piece one end can conflict and advance the inside of 1 hole site wherein this moment, then the cooperation limiting plate is contradicted, make conflict piece can drive the aluminium alloy after punching and carry out the simultaneous movement.

Preferably, a fixing frame is fixed on the outer part of one side of the workbench, which is close to the screw rod, a bolt shifting block is symmetrically arranged on the outer part of one side of the fixing frame in a penetrating and sliding clamping manner, a first proximity sensor and a second proximity sensor are respectively arranged on the outer part of one side of the bolt shifting block, and the first proximity sensor and the second proximity sensor are in control connection with the second stepping motor;

Adopt above-mentioned technical scheme to make whole when using, the inside proximity sensor of accessible one side feeding mechanism is first and proximity sensor second's position change to this makes holistic movable range of fixed plate can be adjusted simultaneously along with the interval adjustment between the pivot, makes feeding mechanism can carry the removal with drilling aluminium alloy after the interval of adjusting.

Preferably, the cutting machine main body comprises a cutting machine main body, a movable frame, an electric telescopic rod II and a screw rod II, wherein the movable frame is installed outside one side of the top end of a workbench in a sliding clamping manner, the electric telescopic rod II is symmetrically installed outside two sides of the top end of the movable frame, the cutting machine main body is installed between the outside two tops of the 2 electric telescopic rods, the screw rod II is rotatably installed outside one side of the top end of the workbench, and the inside of one side of the bottom end of the movable frame is installed outside one side of the screw rod II in a penetrating manner, so that the position of the cutting machine main body can be changed by rotating the screw rod II;

adopt above-mentioned technical scheme to make wholly when using, through the rotation of the inside lead screw of cutting machine main part two to can change the position of cutting machine main part simultaneously along with the interval adjustment between the pivot, with this order of guaranteeing whole drilling, tapping, pay-off and cutting, make wholly can adapt to the binding post of different length specifications and carry out drilling tapping processing.

Compared with the prior art, the invention has the beneficial effects that: this terminal multitime operation intelligence synchronous processing equipment:

1. when the multi-procedure intelligent synchronous processing equipment for the binding posts processes the aluminum terminal, a plurality of aluminum profiles can be placed on the material guide frame, and then the drilling and tapping mechanism, the feeding mechanism and the cutting mechanism are matched through control, so that the aluminum profile binding posts with one section are formed by integrally processing the drilling, tapping and cutting of the aluminum profiles, the effect of simultaneously carrying out one-time processing and forming operation on the plurality of aluminum profiles is achieved, the overall processing efficiency is greatly improved, the working pressure of operators is reduced, the aluminum profiles are not required to be placed on a plurality of processing equipment for processing operation, and the overall operation convenience is high;

2. this synchronous processing equipment of terminal multisprocedure intelligence is when processing the aluminium terminal, through the inside mounting bracket of drilling tapping mechanism, a mounting plate, the pivot, the tapping drill bit, the drilling drill bit, positioning gear, connecting gear, the connecting axle, driving motor, the cooperation of positioning worm and positioning worm wheel, make whole can control simultaneously and drive a plurality of connecting axles and rotate, make tapping drill bit and the drilling drill bit of connecting axle both sides rotate simultaneously, thereby be convenient for process many aluminium alloy, overall efficiency improves greatly, the lifting of electric telescopic handle one is cooperated simultaneously, and the mounted frame, the dwang, auxiliary worm wheel, auxiliary worm, the ratchet disc, the gear ring, guide arm and tooth set up, thereby make electric telescopic handle one drive mounting bracket and mounted frame after a certain distance ascend, at this moment the whole automatic upset of mounting bracket, thereby carry out automatic upset switching to the position of tapping drill bit and drilling drill bit of both sides, thereby make after drilling can carry out the mechanism upset and carry out follow-up tapping operation in step, whole switching freely, whole result of use is good, simultaneously through setting up of ratchet disc, make tapping drill bit and drilling drill bit rotate and can not guarantee when descending and switch again when descending and reset and switch, whole stability is good use effect;

3. When the wiring terminal multi-procedure intelligent synchronous processing equipment processes an aluminum terminal, through the installation cooperation of a bidirectional threaded rod, a first stepping motor, a limiting sliding groove, a positioning block, a mounting ring, a limiting raised strip and a limiting groove in the distance adjusting mechanism, the whole body can move outside a connecting shaft through the rotation of the bidirectional threaded rod, so that the distance between rotating shafts in the mounting plates on two sides is changed, the drilling distance on two sides of the wiring terminal of the mechanism can be adjusted according to the requirement, meanwhile, the positions of a first proximity sensor and a second proximity sensor in the feeding mechanism on one side can be changed, the whole moving range of a fixed plate can be adjusted simultaneously along with the distance adjustment between the rotating shafts, and the position of the cutting machine body can be changed along with the distance adjustment between the rotating shafts, so that the whole body can be drilled, tapped, fed and cut orderly, and the whole body can adapt to the processing of the wiring terminal of aluminum profiles with different length specifications;

4. this synchronous processing equipment of terminal multisprocedure intelligence is when processing the aluminium terminal, through feeding mechanism inside lead screw one, step motor two, the movable block, the auxiliary rod, the fixed plate, the conflict piece, limiting plate, compression spring and mount's installation cooperation, make the movable block can drive the fixed plate and a plurality of conflict pieces of bottom remove simultaneously, cooperate compression spring's setting simultaneously, make conflict piece bottom one side can stably laminate aluminium alloy surface and remove, when the fixed plate moves to drilling tapping mechanism one side, conflict piece and aluminium alloy surface hole site contact, conflict piece can rotate this moment, compression spring can the atress compression simultaneously, make conflict piece can not contradict the block with the hole site on aluminium alloy surface, make whole smooth and easy back, when the fixed plate moves to cutting machine main part one side, conflict piece one end can conflict into the inside of 1 hole site wherein, afterwards cooperate the limiting plate conflict, make conflict piece can drive aluminium alloy after punching and remove simultaneously, operate with this, thereby realize feeding mechanism's intermittent type pay-off to many aluminium alloy, overall structure is simple, excellent in use effect.

Drawings

FIG. 1 is a schematic view of the overall three-dimensional structure of the present invention;

FIG. 2 is a schematic view of the mounting structure of the support frame and the drilling and tapping mechanism of the present invention;

FIG. 3 is a schematic view of the installation structure of the rotating shaft and the positioning gear of the present invention;

FIG. 4 is an enlarged schematic view of the structure of FIG. 2A according to the present invention;

FIG. 5 is a schematic view of the mounting structure of the distance adjusting mechanism and the connecting shaft of the present invention;

FIG. 6 is an enlarged schematic view of the structure of FIG. 5B according to the present invention;

FIG. 7 is a schematic view of a mounting structure of a feeding mechanism and a workbench according to the invention;

FIG. 8 is a schematic view of an installation perspective of a compression spring and a contact block according to the present invention;

FIG. 9 is a schematic view of the mounting structure of the fixing frame and the bolt shifting block of the present invention;

FIG. 10 is a schematic view of the mounting top view of the mounting bracket and mounting plate of the present invention;

FIG. 11 is a schematic view of a cutting mechanism and table mounting structure according to the present invention.

In the figure: 1. a work table; 2. a material guiding frame; 3. an aluminum profile; 4. a control box; 5. a support frame; 6. drilling and tapping mechanisms; 601. a mounting frame; 602. a hanging frame; 603. an electric telescopic rod I; 604. a mounting plate; 605. a rotating shaft; 606. tapping drill bits; 607. a drill bit; 608. positioning gears; 609. a connecting gear; 6010. a connecting shaft; 6011. a driving motor; 6012. positioning a worm; 6013. positioning a worm wheel; 6014. a rotating lever; 6015. an auxiliary worm wheel; 6016. an auxiliary worm; 6017. a ratchet plate; 6018. a gear ring; 6019. a guide rod; 6020. teeth; 7. a distance adjusting mechanism; 701. a two-way threaded rod; 702. a first stepping motor; 703. limiting sliding grooves; 704. a positioning block; 705. a mounting ring; 706. limit raised strips; 707. a limit groove; 8. a feeding mechanism; 801. a first screw rod; 802. a step motor II; 803. a moving block; 804. an auxiliary lever; 805. a fixing plate; 806. a collision block; 807. a limiting plate; 808. a compression spring; 809. a fixing frame; 8010. a bolt displacement block; 8011. a first proximity sensor; 8012. a second proximity sensor; 9. a cutting mechanism; 901. a cutter body; 902. a moving rack; 903. an electric telescopic rod II; 904. and a screw rod II.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-11, the present invention provides a technical solution: the utility model provides a synchronous processing equipment of terminal multiplex operation intelligence, includes workstation 1, and guide frame 2 is installed to workstation 1's top one side, and control box 4 is installed to workstation 1 bottom one side, and guide frame 2 top baffle box inside equidistant aluminium alloy 3 of having placed, and workstation 1 top one side is fixed with support frame 5; the drilling and tapping mechanism 6 is arranged at one side of the bottom end of the supporting frame 5, and the supporting frame 5 has the function of synchronously performing drilling and tapping self-switching on the aluminum profile 3 placed at equal intervals at the top end of the material guide frame 2; the feeding mechanism 8 is arranged outside the top end of one side of the workbench 1, which is close to the discharge end of the aluminum profile 3, and the feeding mechanism 8 is used for stably conveying the punched and tapped aluminum profile 3; the cutting mechanism 9 is arranged outside the top end side of the workbench 1, which is far away from the drilling and tapping mechanism 6, of the feeding mechanism 8, and the cutting mechanism 9 is used for orderly and sectionally cutting the aluminum profile 3.

The synchronous processing equipment of terminal multi-process intelligence in this embodiment mainly includes workstation 1, guide frame 2, drilling tapping mechanism 6, feeding mechanism 8 and cutting mechanism 9, the synchronous processing equipment of terminal multi-process intelligence that this scheme provided is when processing into aluminium terminal to aluminium alloy 3, at first through the free switching of drilling tapping mechanism 6, thereby carry out equidistant punching and tapping to aluminium alloy 3 surface, afterwards carry out intermittent type pay-off to aluminium alloy 3 through feeding mechanism 8, finally carry out equidistant cutting to aluminium alloy 3 through cutting mechanism 9, thereby make this device can accomplish drilling tapping and cutting integrated processing to aluminium alloy 3, thereby reach and carry out the effect of one shot forming operation simultaneously to many aluminium alloy 3, holistic machining efficiency has been improved greatly, operating personnel's working pressure is reduced, need not to place aluminium alloy 3 and carry out the processing operation on a plurality of processing equipment, whole simple operation nature is high.

In some embodiments, the drilling and tapping mechanism 6 includes a mounting frame 601, a hanging frame 602, an electric telescopic rod one 603, a mounting plate 604, a rotating shaft 605, a tapping drill 606, a drilling drill 607, a positioning gear 608, a connecting gear 609, a connecting shaft 6010, a driving motor 6011, a positioning worm 6012, a positioning worm wheel 6013, a rotating rod 6014, an auxiliary worm wheel 6015, an auxiliary worm 6016, a ratchet disk 6017, a gear ring 6018, a guide rod 6019 and teeth 6020, the electric telescopic rod one 603 is symmetrically mounted at both sides of the bottom end of the supporting frame 5, the hanging frame 602 is fixedly mounted at the outside of the bottom end output end of the electric telescopic rod one 603, and the hanging frame 602 is in an inverted-C shape, meanwhile, both middle positions of the two sides of the mounting frame 601 are fixedly provided with the rotating rod 6014, and both ends of the rotating rod 6014 are rotatably mounted at the outside of the middle position at one side of the bottom end of the hanging frame 602; the installation plate 604 is installed in the inside symmetrical sliding clamping of the installation frame 601, the rotating shaft 605 is installed in the installation plate 604 in a penetrating and clamping mode in an inner equal-space rotating mode, the tapping drill bit 606 and the drilling drill bit 607 are installed at two ends of the rotating shaft 605 through drill bit installation seats respectively, so that the tapping drill bit 606 and the drilling drill bit 607 can be switched for use through the rotation of the installation frame 601, the positioning gears 608 are fixedly penetrated through the outer portion of one side of the rotating shaft 605, the connecting gears 609 are installed on the outer surface of one side, located between the 2 positioning gears 608, of the installation plate 604 in a rotating mode, and two sides of the connecting gears 609 are connected with one sides of the positioning gears 608 in a meshed mode respectively; connecting shaft 6010 is rotatably installed between the inner walls of two sides of one end of installation frame 601, driving motor 6011 is installed to one end of installation frame 601 close to connecting shaft 6010, and driving motor 6011's output and one end installation of connecting shaft 6010 are fixed, positioning worm 6012 is installed to one side of the top of installation frame 601 close to connecting shaft 6010 through rotating the seat rotation, the pivot 605 outside that is close to one side of positioning worm 6012 runs through and is fixed with positioning worm wheel 6013, and one side of positioning worm wheel 6013 meshes with one side of positioning worm 6012, positioning worm 6012 runs through and installs outside one side of connecting shaft 6010, thereby make connecting shaft 6010 rotate and drive both sides positioning worm wheel 6013 and rotate simultaneously and drive all pivots 605 simultaneously.

When the device is used, as shown in combination with fig. 1, 2 and 3, a plurality of aluminum profiles 3 needing to be processed are firstly placed inside the material guide frame 2 in sequence, and then one ends of the aluminum profiles 3 are aligned and placed at the bottom end of the drilling and tapping mechanism 6.

After the raw materials are placed, afterwards, through the rotation of the driving motor 6011 at one side of the starting shaft, the driving motor 6011 at one side of the starting shaft is driven to rotate simultaneously, at this time, the installation cooperation of the limiting raised strips 706 and the limiting grooves 707 is matched, so that the two positioning worms 6012 at one side of the starting shaft rotate simultaneously, the positioning worm wheels 6013 meshed at two sides are driven to rotate simultaneously, the positioning worm wheels 6013 rotate and the positioning gears 608 and the connecting gears 609 are meshed, so that the rotating shafts 605 rotate simultaneously, the tapping drill bit 606 at the top end and the tapping drill bit 607 at the bottom end rotate simultaneously, then the electric telescopic rod one 603 at one side of the starting shaft is started to stretch out, so that the rotating drilling drill bit 607 is driven to descend, and a plurality of aluminum profiles 3 on the material guide frame 2 are perforated, and the integral efficiency is improved.

In some embodiments, an auxiliary worm wheel 6015 is fixed at the rotation penetrating end of the 1 rotating rod 6014, an auxiliary worm 6016 is installed on one side of the suspension bracket 602 close to the auxiliary worm wheel 6015 in an externally meshed and rotated manner, a ratchet plate 6017 is installed on one side of the auxiliary worm 6016, a gear ring 6018 is sleeved and fixed on the outer side of the ratchet plate 6017, a guide rod 6019 is longitudinally fixed on one side of an outer rod of the electric telescopic rod 603 close to the gear ring 6018, teeth 6020 are arranged on the outer side of the guide rod 6019 close to the gear ring 6018 at equal intervals, so that when the electric telescopic rod 603 drives the suspension bracket 602 to ascend, the gear ring 6018 is meshed with the teeth 6020 to enable the mounting bracket 601 to automatically ascend and rotate to switch, and meanwhile, when the electric telescopic rod 603 drives the suspension bracket 602 to descend, the mounting bracket 601 cannot rotate.

After the drilling of the plurality of aluminum profiles 3 on the material guiding frame 2 is completed through the rotation of the drilling bit 607, the suspension frame 602 and the bottom end mounting frame 601 are driven to ascend by controlling the electric telescopic rod one 603 as shown in fig. 1, 2 and 4.

After wholly rising a certain distance, the gear ring 6018 on one side and the tooth 6020 on the guide bar 6019 on one side mesh this moment, along with holistic continuation rising, thereby make gear ring 6018 wholly rotate, drive one side auxiliary worm 6016 simultaneously and rotate, rotate through auxiliary worm 6016, thereby drive the auxiliary worm wheel 6015 of bottom meshing and rotate, the installation cooperation of cooperation dwang 6014 and mounting bracket 601, thereby make the whole lifting of mounting bracket 601 overturn automatically after a take altitude, thereby overturn the drill bit 607 of bottom to the top, overturn the tap bit 606 of top to the bottom, thereby accomplish the switching to tap bit 606 and drill bit 607 automatically, after the switching finishes, start electric telescopic handle one 603 again and drive tap bit 606 decline after switching this moment, thereby carry out tapping operation to the downthehole wall on aluminium alloy 3 surface, whole excellent in use effect, and easy to use improves holistic machining efficiency.

Meanwhile, through the installation setting of the gear ring 6018 and the ratchet plate 6017, when the electric telescopic rod one 603 drives the switched tapping drill bit 606 to descend, the gear ring 6018 on one side is meshed with the gear 6020 to rotate, the auxiliary worm 6016 on one side cannot be driven to rotate, so that the operation stability in descending after integral switching is ensured, the condition of secondary overturning, switching and resetting cannot occur, and the integral use effect is good.

In some embodiments, the feeding mechanism 8 includes a first screw 801, a second stepper motor 802, a moving block 803, an auxiliary rod 804, a fixed plate 805, a supporting block 806, a limiting plate 807, a compression spring 808, a fixing frame 809, a bolt shifting block 8010, a first proximity sensor 8011 and a second proximity sensor 8012, the first screw 801 is rotatably mounted outside one side of the workbench 1, the second stepper motor 802 is mounted outside one end of the workbench 1 close to the first screw 801, an output end of the second stepper motor 802 is mounted with one end of the first screw 801, the auxiliary rod 804 is mounted outside one side of the workbench 1 far from the first screw 801, the moving block 803 is mounted outside the first screw 801 in a penetrating manner, one side of the top end of the moving block 803 is fixed with the fixed plate 805, one end of the fixed plate 805 is mounted outside one side of the auxiliary rod 804 in a penetrating manner, the bottom end of the fixed plate 805 is mounted with the supporting block 806 in an equidistant rotation manner, the whole of the supporting block 806 is in an inclined manner, the inclined bottom end of the supporting block 806 faces one side of the cutting mechanism 9, the top end of the supporting block 806 is fixedly connected with the compression spring 808 between the outside one side of the top side of the supporting block 806 and the outside one side of the bottom side of the fixed plate 805, and the outside one side of the other side of the supporting block 805 is mounted with the compression spring 808, and the side of the fixed plate 808 is mounted close to the outside one side of the supporting block 805.

After the aluminum profile 3 is drilled and tapped through the drilling and tapping mechanism 6, at this time, as shown in fig. 1, 7 and 8, first, through the step motor two 802 on one side of starting, the output shaft of the step motor two 802 rotates, so that the screw rod one 801 rotates simultaneously, the step motor two 802 stops running through the rotation of the screw rod one 801 and the guiding of the auxiliary rod 804 on one side, so that the moving block 803 drives the fixed plate 805 and the bottom multiple abutting blocks 806 to move towards one side of the bottom of the drilling and tapping mechanism 6 simultaneously, the compression springs 808 on the top ends of the abutting blocks 806 are matched at this time, so that one side of the bottom of the abutting blocks 806 can always be attached to the surface of the aluminum profile 3, after a certain position is moved, when one side of the moving block 803 is close to one side of the proximity sensor two 8012, at this time, the bottom side of the abutting blocks 806 is indicated to be moved onto the top hole site on one side of the aluminum profile 3 close to the cutting mechanism 9, at this time, the step motor two 802 is controlled to stop running, and the inside of the hole site corresponding to the top ends of the abutting blocks 806 can be ensured.

Then through starting step motor two 802 again, control step motor two 802 output shaft and the reverse rotation of original direction, thereby make the rotation of lead screw one 801, can make movable block 803 drive fixed plate 805 to be close to the one side of cutting mechanism 9 and remove, cooperation one side limiting plate 807 is to the spacing of touching one side of block 806 this moment, make the one side rotation of pressing block 806 only to being provided with compression spring 808, make fixed plate 805 be moving to the one side that is close to cutting mechanism 9, at this moment can be through the conflict block 806 of bottom and the conflict block in aluminium alloy 3 top hole site, thereby drive many aluminium alloy 3 simultaneously to cutting mechanism 9 one side remove, thereby with drilling and tapping good aluminium alloy 3 one end whole transport to the bottom of cutting mechanism 9, after the movable block 803 drives many aluminium alloy 3 of fixed plate 805 and bottom and simultaneously remove to the bottom of cutting mechanism 9, this moment one side is close to sensor one 8011, control step motor two 802 of one side stops the operation this moment, thereby accomplish intermittent type section pay-off, afterwards, drive cutting machine main part 901 through the inside electric telescopic link two drive 903 and start down, thereby carry out the terminal to cut with aluminium alloy 3, make the whole processing step down, thereby make the processing step is good to the aluminium alloy with the aluminium alloy 3, make the processing step is finished according to the aluminium alloy, the processing step is convenient for the processing step is finished, and the aluminium alloy is more than the whole is finished, and the processing step is finished, and has been processed to the processing step is more than has been finished.

In some embodiments, a distance adjusting mechanism 7 is arranged outside one side of the mounting frame 601, which is close to the positioning worm 6012, the distance adjusting mechanism 7 comprises a bidirectional threaded rod 701, a first stepping motor 702, a limiting sliding chute 703, a positioning block 704, a mounting ring 705, a limiting raised line 706 and a limiting groove 707, the distance adjusting mechanism 7 is used for adjusting the distance between two side mounting plates 604, the limiting raised line 706 is fixed on the outer surface of the connecting shaft 6010 at equal intervals, the positioning worm 6012 penetrates through the inner wall of the connecting shaft 6010 and is provided with the limiting groove 707 at equal intervals in an embedded manner, and the inner wall of the limiting groove 707 is in sliding fit with the outer surface of the limiting raised line 706, so that the positioning worm 6012 can drive one side mounting plate 604 to slide inside the mounting frame 601, and meanwhile the connecting shaft 6010 can drive the positioning worm 6012 which is moved to different positions to rotate; the bidirectional threaded rod 701 is rotatably mounted outside one side of the mounting frame 601, a first stepping motor 702 is mounted outside one side of the mounting frame 601 close to the bidirectional threaded rod 701, an output end of the first stepping motor 702 is fixedly mounted on one end of the bidirectional threaded rod 701, positioning blocks 704 symmetrically penetrate through two outer sides of the bidirectional threaded rod 701, one side of the mounting frame 601 close to the positioning blocks 704 is provided with limiting sliding grooves 703 in a penetrating and sliding manner, one end of each positioning block 704 penetrates through the inside of each limiting sliding groove 703, a mounting ring 705 is fixedly mounted at the penetrating end of each positioning block 704, and one end of each mounting ring 705 penetrates through the outside one side of the corresponding side positioning worm 6012 in a rotating and clamping manner, so that the positioning blocks 704 move to drive the positioning worm 6012 and the mounting plate 604 to move simultaneously; a fixing frame 809 is fixed outside one side of the workbench 1 close to the first screw rod 801, a bolt shifting block 8010 is symmetrically arranged outside one side of the fixing frame 809 in a penetrating and sliding clamping manner, a first proximity sensor 8011 and a second proximity sensor 8012 are respectively arranged outside one side of the bolt shifting block 8010, and meanwhile, the first proximity sensor 8011 and the second proximity sensor 8012 are in control connection with the second stepping motor 802; the cutting mechanism 9 includes a cutter body 901, a movable frame 902, a second electric telescopic rod 903 and a second screw rod 904, the movable frame 902 is slidably engaged with and mounted on the outside of the top end side of the table 1, the second electric telescopic rod 903 is symmetrically mounted on the outside of the two sides of the top end of the movable frame 902, the cutter body 901 is mounted between the outside of the tops of the 2 second electric telescopic rods 903, the second screw rod 904 is rotatably mounted on the outside of the top end side of the table 1, and the inside of the bottom end side of the movable frame 902 is penetratingly mounted on the outside of the side of the second screw rod 904, so that the position of the cutter body 901 can be changed by rotating the second screw rod 904.

When the device is used, when the cutting length of a plurality of aluminum profiles 3 is required to be changed, the length specification of the machined aluminum terminal is adjusted, the distance between the rotating shafts 605 inside two mounting plates 604 is required to be adjusted as shown in combination with fig. 1, 5, 6 and 10, so that the punching and tapping operation of aluminum terminals with different lengths is adapted, the accuracy of punching and tapping is ensured, firstly, one side stepping motor 702 is started to be controlled, the output shaft of the stepping motor 702 is controlled to rotate, one side bidirectional threaded rod 701 is driven to rotate, the mounting blocks 704 penetrating through the mounting holes on two sides drive the mounting rings 705 and the mounting plates 604 penetrating through the rotating mounting holes on one side to move towards the middle or expand to the two sides simultaneously in the mounting frame 601, the rotation direction of the output shaft of the stepping motor 702 is controlled, and the distance between the rotating shafts 605 on two sides is adjusted, so that the distance between two hole positions of the drilling and tapping mechanism 6 is changed when the aluminum profiles 3 are punched, the whole device is wide in application range, and the whole device is convenient to adjust.

Simultaneously when carrying out interval adjustment, spacing sand grip 706 and the spacing recess 707 setting that equidistant embedded set up on the location worm 6012 runs through the inner wall outside through connecting axle 6010, thereby make location worm 6012 can drive mounting panel 604 and carry out simultaneously at the inside removal of mounting bracket 601 when connecting axle 6010 outside steadily removes, with this change interval, when guaranteeing simultaneously that location worm 6012 removes the outside optional position of connecting axle 6010, connecting axle 6010 still can drive location worm 6012 and rotate this moment, thereby guarantee to change the position after, can guarantee that pivot 605 still can stably drive tapping drill bit 606 and drill bit 607 and move, guarantee whole operational stability.

After the adjustment of the distance between the rotating shafts 605 on both sides is finished, as shown in fig. 1, 7 and 9, at this time, the bolt shifting blocks 8010 on both sides outside the fixing frame 809 can be loosened, and then the bolt shifting blocks 8010 on both sides are moved and adjusted along the fixing frame 809, so that the positions of the first proximity sensor 8011 and the second proximity sensor 8012 are changed, the range between the first proximity sensor 8011 and the second proximity sensor 8012 is changed, and accordingly the fixing plate 805 and the abutting block 806 can be ensured to accurately move to the punching position on the top end of the aluminum profile 3 after the punching distance is changed, the condition that the whole is free from falling materials during feeding is ensured, and the whole operation stability is ensured.

Meanwhile, after the distance between the rotating shafts 605 on two sides and the positions of the first proximity sensor 8011 and the second proximity sensor 8012 are adjusted, the second screw rod 904 on one side can be rotated as shown in fig. 1 and 11, so that the cutter main body 901 at the top end driven by the movable frame 902 can change positions at the same time, accurate segmentation cutting of the aluminum profile 3 conveyed after the distance adjustment can be ensured, the material utilization rate is ensured, and the waste is reduced.

Standard parts used in the invention can be purchased from the market, special-shaped parts can be customized according to description of the specification and the drawings, specific connection modes of the parts adopt conventional means such as mature bolts, rivets and welding in the prior art, machines, parts and equipment adopt conventional models in the prior art, circuit connection and PLC control technology adopt conventional connection modes and control programs in the prior art, and details which are not described in detail in the specification belong to the prior art known to the person skilled in the art.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a synchronous processing equipment of terminal multitime procedure intelligence, includes workstation (1), its characterized in that: a material guide frame (2) is arranged on one side of the top end of the workbench (1), a control box (4) is arranged on one side of the bottom end of the workbench (1), aluminum profiles (3) are uniformly placed in a material guide groove at the top end of the material guide frame (2) at equal intervals, and a supporting frame (5) is fixed on one side of the top end of the workbench (1);

the drilling and tapping mechanism (6) is arranged on one side of the bottom end of the supporting frame (5), and the supporting frame (5) is used for synchronously processing the drilling and tapping of the aluminum profiles (3) which are placed at equal intervals on the top end of the material guiding frame (2);

the feeding mechanism (8) is arranged outside the top end of one side of the workbench (1) close to the discharge end of the aluminum profile (3), and the feeding mechanism (8) is used for stably conveying the punched and tapped aluminum profile (3);

The cutting mechanism (9), cutting mechanism (9) are located workstation (1) are located feeding mechanism (8) keep away from the top one side outside of drilling tapping mechanism (6), the effect of cutting mechanism (9) is to carry out orderly segmentation cutting with aluminium alloy (3).

2. The terminal multi-station intelligent synchronous processing device according to claim 1, wherein: drilling tapping mechanism (6) include mounting bracket (601), mounted frame (602), first electric telescopic handle (603), mounting panel (604), pivot (605), tapping drill bit (606), drilling drill bit (607), positioning gear (608), connecting gear (609), connecting axle (6010), driving motor (6011), positioning worm (6012), positioning worm wheel (6013), dwang (6014), auxiliary worm wheel (6015), auxiliary worm (6016), ratchet dish (6017), gear ring (6018), guide bar (6019) and tooth (6020), first electric telescopic handle (603) symmetry is installed in support frame (5) bottom both sides, and mounted frame (602) fixed mounting is outside electric telescopic handle (603) bottom output to mounted frame (602) are the C form setting that falls, and both sides intermediate position of mounting bracket (601) all is fixed with dwang (6014) simultaneously, and the both ends of dwang (6014) all rotate and run through and install outside in bottom one side intermediate position of mounted frame (602).

3. The terminal multi-station intelligent synchronous processing device according to claim 2, wherein: mounting panel (604) are installed to inside symmetry slip block of mounting bracket (601), pivot (605) are installed to inside equidistant rotation running through the block of mounting panel (604), tapping drill bit (606) and drilling drill bit (607) are installed through the drill bit mount pad respectively at the both ends of pivot (605), so that through mounting bracket (601) rotation can switch and use tapping drill bit (606) and drilling drill bit (607), one side outside of pivot (605) all runs through and is fixed with positioning gear (608), connecting gear (609) are all installed in the rotation of one side surface that mounting panel (604) is located between 2 positioning gear (608), and the both sides of connecting gear (609) are connected with one side meshing of both sides positioning gear (608) respectively.

4. A terminal multi-station intelligent synchronous processing device according to claim 3, characterized in that: connecting axle (6010) is installed in rotation between the one end both sides inner wall of mounting bracket (601), driving motor (6011) is installed to one end that mounting bracket (601) is close to connecting axle (6010), and driving motor (6011)'s output and one end installation of connecting axle (6010) are fixed, all install locating worm (6012) through rotating the seat rotation on one side of the top that mounting bracket (601) is close to connecting axle (6010), is close to locating worm (6012) one side pivot (605) outside run through and are fixed with locating worm wheel (6013), and locating worm wheel (6013) one side and locating worm (6012) one side meshing, locating worm (6012) one side run through and install outside connecting axle (6010) one side, so that connecting axle (6010) rotate and drive both sides locating worm wheel (6013) rotate simultaneously thereby drive all pivot (605) rotate simultaneously.

5. The terminal multi-station intelligent synchronous processing device according to claim 2, wherein: wherein 1 rotation through end of dwang (6014) is fixed with auxiliary worm wheel (6015), and one side outside meshing rotation that mounted frame (602) is close to auxiliary worm wheel (6015) is installed auxiliary worm (6016), ratchet dish (6017) are installed to one side of auxiliary worm (6016), and the outside cover of ratchet dish (6017) is established and is fixed with gear ring (6018), is close to outer pole one side of gear ring (6018) one side electric telescopic handle (603) is vertically fixed with guide arm (6019), and guide arm (6019) are close to one side outside equidistant of gear ring (6018) and are equipped with tooth (6020), so that electric telescopic handle one (603) drive one side gear ring (6018) and tooth (6020) meshing make when mounted frame (602) rise automatically rise and rotate the switching, simultaneously electric telescopic handle one (603) drives one side when mounted frame (602) descends can not rotate.

6. The terminal multi-station intelligent synchronous processing device according to claim 4, wherein: one side outside that mounting bracket (601) is close to setting up location worm (6012) is provided with spacing mechanism (7), spacing mechanism (7) are including two-way threaded rod (701), step motor one (702), spacing spout (703), locating piece (704), collar (705), spacing sand grip (706), spacing recess (707), the effect of spacing mechanism (7) is to both sides the interval of mounting panel (604) is adjusted, the surface equidistant spacing sand grip (706) that is fixed with of connecting axle (6010), equidistant embedded spacing recess (707) that is provided with on the inner wall of locating worm (6012) through connecting axle (6010), and the inner wall of spacing recess (707) is laminated with the surface slip of spacing sand grip (706), so that locating worm (6012) can drive one side mounting panel (604) are in inside the slip of mounting bracket (601), simultaneously connecting axle (6010) can drive location worm (6012) that moves to different positions and rotate.

7. The terminal multi-station intelligent synchronous processing device according to claim 6, wherein: the utility model discloses a motor is installed in mounting bracket (601) one side outside, one side externally mounted step motor (702) that mounting bracket (601) is close to two-way threaded rod (701), and the output of step motor (702) is fixed with two-way threaded rod (701) one end installation to two-way threaded rod (701) both sides outside symmetry run through have locating piece (704), one side that mounting bracket (601) is close to locating piece (704) all runs through and switches on and be provided with spacing spout (703), and the one end of locating piece (704) runs through slidable mounting in the inside of spacing spout (703), and the penetrating end of locating piece (704) all is fixed with collar (705), and the one end of collar (705) is all run through rotation block simultaneously and is installed in one side outside of corresponding side location worm (6012), so that locating piece (704) remove and drive location worm (6012) with mounting panel (604) remove simultaneously.

8. The terminal multi-station intelligent synchronous processing device according to claim 1, wherein: the feeding mechanism (8) comprises a first screw rod (801), a second stepping motor (802), a moving block (803), an auxiliary rod (804), a fixed plate (805), a collision block (806), a limiting plate (807), a compression spring (808), a fixing frame (809), a bolt moving block (8010), a first proximity sensor (8011) and a second proximity sensor (8012), wherein the first screw rod (801) is rotatably arranged outside one side of the workbench (1), the second stepping motor (802) is arranged outside one end of the workbench (1) close to the first screw rod (801), the output end of the second stepping motor (802) is arranged at one end of the first screw rod (801), the auxiliary rod (804) is arranged outside one side of the workbench (1) far away from the first screw rod (801), the moving block (803) is arranged in a penetrating manner outside the first screw rod (801), one side of the top of the moving block (803) is fixedly provided with the fixed plate (805), one end of the fixed plate (805) penetrates through the outside one side of the auxiliary rod (804), the bottom end of the fixed plate (805) is rotatably arranged at equal intervals, the collision block (806) is arranged at the bottom end of the fixed plate (805) and is inclined towards the whole cutting mechanism (9), compression springs (808) are fixedly connected between the outer parts of the top end side of the abutting block (806) and the outer parts of the bottom end side of the fixing plate (805), and limiting plates (807) are fixedly installed on the outer parts of the sides, away from the cutting mechanism (9), of the fixing plate (805), so that the abutting block (806) can only rotate towards the side provided with the compression springs (808).

9. The terminal multi-station intelligent synchronous processing device according to claim 8, wherein: a fixing frame (809) is fixed outside one side of the workbench (1) close to the first screw rod (801), a bolt shifting block (8010) is symmetrically arranged outside one side of the fixing frame (809) in a penetrating sliding clamping mode, a first proximity sensor (8011) and a second proximity sensor (8012) are respectively arranged outside one side of the bolt shifting block (8010), and meanwhile the first proximity sensor (8011) and the second proximity sensor (8012) are connected with the second stepping motor (802) in a control mode.

10. The terminal multi-station intelligent synchronous processing device according to claim 1, wherein: cutting mechanism (9) are including cutting machine main part (901), remove frame (902), electric telescopic handle two (903) and lead screw two (904), remove frame (902) slip block and install outside workstation (1) top one side, and electric telescopic handle two (903) symmetry are installed outside removing frame (902) top both sides to cutting machine main part (901) are installed between 2 electric telescopic handle two (903) top outsides, workstation (1) top one side outside rotation is installed lead screw two (904), and remove frame (902) bottom one side inside run through and install outside lead screw two (904) one side, so that rotate lead screw two (904) can change the position of cutting machine main part (901).