CN205045599U - A automatic winding mechanism for desktop consumptive material testing machine - Google Patents

Abstract

The utility model relates to a an automatic winding mechanism for desktop consumptive material testing machine in automation equipment field, including riser, coiling motor and the rolling dish of vertical installation on desktop consumptive material testing machine surface, the side of riser is equipped with the synchronous transmission subassembly that is used for connecting coiling motor and rolling dish, and the winding displacement device is still transversely installed to the opposite side of riser, and this winding displacement device comprises horizontal support, winding displacement axle, winding displacement ware and winding displacement guide pulley, overall structure is simple, including coiling motor, rolling dish and winding displacement device, can directly carry out the even winding displacement of automation, and the winding displacement process is not only high -efficient stable, and the precision is high moreover, and in addition, overall structure is small and exquisite, only can drive all rollings and all the winding displacement work accomplished through a coiling motor, only needs operator of configuration can accomplish all operations moreover, consequently the utility model discloses a whole working process energy consumption of automatic winding mechanism is low, and output is low, and the configuration manpower resources are few, specially adapted desktop consumptive material testing machine.

Description

For the automatic winding mechanism of desktop consumptive material experimental engine

Technical field

The utility model relates to automation equipment field, is specifically related to rolling-up mechanism, particularly for the automatic winding mechanism of desktop consumptive material experimental engine.

Background technology

Have multiple for the manufacturing line making 3D printing consumables at present, and be all applied to large-tonnage manufacturer, traditional large-scale production line equipment overall structure is complicated, energy consumption is high, output is high, comprise extrusion equipment, the structure of cooling intallation and winding device is all comparatively complicated, and overall volume is larger, be an independently main equipment, need the whole workshop of separate configurations can hold this manufacturing line, integrated operation is simultaneously also very complicated, every platform equipment all needs configuration operator to carry out independent operation, a large amount of materials can be consumed when devoting oneself to work, the energy and human resources.

The winding device complex structure of conventional production lines, for carrying out rolling to large-tonnage plastic wire, therefore equipment has multiple stage winding motor, and need to carry out independent operation, in the process of devoting oneself to work, this structure can consume a large amount of energy and human resources.Along with the not section of the market demand changes, existing market there is the client needing little output, or there is the client needed for making new material formula, this client is not high to output demand, nor be ready to spend more cost, if directly use traditional winding device to carry out rolling, a large amount of wastings of resources can be caused, also can increase the cost of each side simultaneously, comprise the cost of purchase of equipment, Energy Consumption Cost and cost of human resources, therefore traditional large-scale production line can not be satisfied with the customer demand of this respect.

Utility model content

The purpose of this utility model solves above defect, is provided for the automatic winding mechanism of desktop consumptive material experimental engine, and its integral structure is simple, and cost of manufacture is low, and easy to operate.

The purpose of this utility model is achieved in the following ways:

For the automatic winding mechanism of desktop consumptive material experimental engine, comprise the riser, winding motor and the closed reel that are vertically arranged on desktop consumptive material experimental engine surface, winding motor is laterally arranged on the side of riser, and closed reel is laterally arranged on the opposite side of riser.The side of riser is provided with the synchrodrive assembly for connecting winding motor and closed reel, drives closed reel to carry out rotation rolling when winding motor rotates by synchrodrive assembly.

The opposite side of riser is also horizontally installed with bus cable device, this bus cable device is by horizontal support, traverse shaft, strand oscillator and cable guide pulley are formed, cable guide pulley is fixed with strand oscillator and is connected, and cable guide pulley extends to forward the top of closed reel, traverse shaft is arranged on horizontal support by bearing, one end of traverse shaft is connected with synchrodrive assembly, traverse shaft is through in strand oscillator, and strand oscillator can carry out horizontal slip along the surface of traverse shaft, traverse shaft is driven to rotate when winding motor rotates by synchrodrive assembly, while traverse shaft rotates, strand oscillator also slides along the surface uniform of traverse shaft and drives cable guide pulley to carry out winding displacement.

In above-mentioned explanation, as preferred scheme, the top of described strand oscillator is also provided with travel switch, horizontal support is also provided with two stroke front contacts corresponding with travel switch position, drive travel switch to contact with stroke front contact respectively in strand oscillator moving process simultaneously, move back and forth to realize left and right.

In above-mentioned explanation, as preferred scheme, two stroke front contacts all transversely can carry out transverse shifting adjustment by support, thus change the spacing of two stroke front contacts.

In above-mentioned explanation, as preferred scheme, described horizontal support is also provided with horizontal guide rod, the side of strand oscillator is provided with two guide rollers, two guide rollers lay respectively at the upper and lower side of horizontal guide rod and can the upper and lower side of transversely guide rod roll, have additional horizontal guide rod and guide roller, guide roller can transversely be rolled by guide rod, thus increase the stability of strand oscillator movement.

In above-mentioned explanation, as preferred scheme, described synchrodrive assembly comprises motor drum in-phase, winding synchronization wheel, winding displacement synchronizing wheel and Timing Belt, motor drum in-phase is arranged on the output revolving shaft of winding motor, winding synchronization wheel is connected with closed reel by Scroll, winding displacement synchronizing wheel is connected with traverse shaft, Timing Belt, for connecting motor drum in-phase, winding synchronization wheel and winding displacement synchronizing wheel, drives winding synchronization wheel to carry out synchronous axial system with winding displacement synchronizing wheel by Timing Belt when winding motor is rotated.

The beneficial effect that the utility model produces is: integral structure is simple, comprise winding motor, closed reel and bus cable device, directly can carry out automatic uniform winding displacement, winding displacement process not only efficient stable, and precision is high, in addition, integral structure is small and exquisite, only all rollings and all winding displacement work can be driven by a winding motor, and only need configuration operator to complete all operations, therefore automatic winding mechanism of the present utility model overall work process energy consumption is low, yields poorly, configuration human resources are few, are specially adapted to desktop consumptive material experimental engine.

Accompanying drawing explanation

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

Fig. 2 is the perspective view of another angle of the utility model embodiment;

In figure, 1 is riser, and 2 is winding motor, and 3 is closed reel, and 4 is horizontal support, 5 is traverse shaft, and 6 is strand oscillator, and 7 is cable guide pulley, and 8 is stroke front contact, and 9 is travel switch, 10 is motor drum in-phase, and 11 is winding synchronization wheel, and 12 is winding displacement synchronizing wheel, and 13 is Timing Belt.

Detailed description of the invention

Below in conjunction with accompanying drawing and detailed description of the invention, the utility model is described in further detail.

The present embodiment, see figures.1.and.2, its automatic winding mechanism specifically implemented comprises the riser 1, winding motor 2 and the closed reel 3 that are vertically arranged on desktop consumptive material experimental engine surface, riser 1 in figure is L shape structure, winding motor 2 is laterally arranged on the side of riser 1, and closed reel 3 is laterally arranged on the opposite side of riser 1.The side of riser 1 is provided with the synchrodrive assembly for connecting winding motor 2 and closed reel 3, being provided with the seal cover cap for covering synchrodrive assembly in Fig. 2 in the side of riser 1, when winding motor 2 rotates, driving closed reel 3 to carry out rotation rolling by synchrodrive assembly.

The opposite side of riser 1 is also horizontally installed with bus cable device, bus cable device is by horizontal support 4, traverse shaft 5, strand oscillator 6 and cable guide pulley 7 are formed, cable guide pulley 7 is fixed with strand oscillator 6 and is connected, drive cable guide pulley 7 to carry out synchronizing moving when strand oscillator 6 moves simultaneously, and cable guide pulley 7 extends to forward the top of closed reel 3, traverse shaft 5 is arranged on horizontal support 4 by bearing, one end of traverse shaft 5 is connected with synchrodrive assembly, traverse shaft 5 is through in strand oscillator 6, and strand oscillator 6 can carry out horizontal slip along the surface of traverse shaft 5, traverse shaft 5 is driven to rotate when winding motor 2 rotates by synchrodrive assembly, while traverse shaft 5 rotates, strand oscillator 6 also slides along the surface uniform of traverse shaft 5 and drives cable guide pulley 7 to carry out winding displacement.

Synchrodrive assembly comprises motor drum in-phase 10, winding synchronization wheel 11, winding displacement synchronizing wheel 12 and Timing Belt 13, motor drum in-phase 10 is arranged on the output revolving shaft of winding motor 2, winding synchronization wheel 11 is connected with closed reel 3 by Scroll, winding displacement synchronizing wheel 12 is connected with traverse shaft 5, Timing Belt 13, for connecting motor drum in-phase 10, winding synchronization wheel 11 and winding displacement synchronizing wheel 12, drives winding synchronization to take turns 11 by Timing Belt 13 when winding motor 2 is rotated and carries out synchronous axial system with winding displacement synchronizing wheel 12.

In addition, left and right can be realized in order to make strand oscillator 6 to move back and forth, travel switch 9 is also provided with at the top of strand oscillator 6, horizontal support 4 is also provided with two stroke front contacts 8 corresponding with travel switch 9 position, two stroke front contacts 8 lay respectively in the limit point of left and right, two stroke front contacts 8 all transversely can carry out transverse shifting adjustment by support 4, thus change the spacing of two stroke front contacts 8, strand oscillator 6 drives travel switch 9 to contact with stroke front contact 8 respectively in the process of movement simultaneously, thus can realize Stroke Control and turn to switching.

The automatic winding mechanism integral structure of the present embodiment is simple, comprise winding motor 2, closed reel 3 and bus cable device, directly can carry out automatic uniform winding displacement, winding displacement process not only efficient stable, and precision is high, in addition, integral structure is small and exquisite, only all rollings and all winding displacement work can be driven by a winding motor 2, and only need configuration operator to complete all operations, therefore automatic winding mechanism of the present utility model overall work process energy consumption is low, yields poorly, configuration human resources are few, are specially adapted to desktop consumptive material experimental engine.

Above content is in conjunction with concrete preferred embodiment further detailed description of the utility model, can not assert that concrete enforcement of the present utility model is confined to these explanations.For the utility model person of an ordinary skill in the technical field, without departing from the concept of the premise utility, some simple deduction or replace can also be made, all should be considered as protection domain of the present utility model.

Claims (5)

1. for the automatic winding mechanism of desktop consumptive material experimental engine, comprise the riser being vertically arranged on desktop consumptive material experimental engine surface, winding motor and closed reel, winding motor is laterally arranged on the side of riser, closed reel is laterally arranged on the opposite side of riser, the side of riser is provided with the synchrodrive assembly for connecting winding motor and closed reel, closed reel is driven to carry out rotation rolling by synchrodrive assembly when winding motor rotates, it is characterized in that: the opposite side of riser is also horizontally installed with bus cable device, this bus cable device is by horizontal support, traverse shaft, strand oscillator and cable guide pulley are formed, cable guide pulley is fixed with strand oscillator and is connected, and cable guide pulley extends to forward the top of closed reel, traverse shaft is arranged on horizontal support by bearing, one end of traverse shaft is connected with synchrodrive assembly, traverse shaft is through in strand oscillator, and strand oscillator can carry out horizontal slip along the surface of traverse shaft, traverse shaft is driven to rotate when winding motor rotates by synchrodrive assembly, while traverse shaft rotates, strand oscillator also slides along the surface uniform of traverse shaft and drives cable guide pulley to carry out winding displacement.

2. according to claim 1 for the automatic winding mechanism of desktop consumptive material experimental engine, it is characterized in that: the top of described strand oscillator is also provided with travel switch, horizontal support is also provided with two stroke front contacts corresponding with travel switch position, drive travel switch to contact with stroke front contact respectively in strand oscillator moving process simultaneously, move back and forth to realize left and right.

3. according to claim 2 for the automatic winding mechanism of desktop consumptive material experimental engine, it is characterized in that: two stroke front contacts all transversely can carry out transverse shifting adjustment by support, thus change the spacing of two stroke front contacts.

4. according to claim 3 for the automatic winding mechanism of desktop consumptive material experimental engine, it is characterized in that: described horizontal support is also provided with horizontal guide rod, the side of strand oscillator is provided with two guide rollers, and two guide rollers lay respectively at the upper and lower side of horizontal guide rod and can the upper and lower side of transversely guide rod roll.

5. according to Claims 1 to 4 any one for the automatic winding mechanism of desktop consumptive material experimental engine, it is characterized in that: described synchrodrive assembly comprises motor drum in-phase, winding synchronization is taken turns, winding displacement synchronizing wheel and Timing Belt, motor drum in-phase is arranged on the output revolving shaft of winding motor, winding synchronization wheel is connected with closed reel by Scroll, winding displacement synchronizing wheel is connected with traverse shaft, Timing Belt is for connecting motor drum in-phase, winding synchronization wheel and winding displacement synchronizing wheel, winding synchronization wheel is driven to carry out synchronous axial system with winding displacement synchronizing wheel by Timing Belt when winding motor is rotated.