CN205271062U - Adopt metal material processingequipment of renewable energy power supply - Google Patents

Abstract

The utility model discloses an adopt metal material processingequipment of renewable energy power supply, include electrical power generating system and the electrode system that is connected with electrical power generating system, be provided with the controller in electrical power generating system, be connected with photoelectric conversion circuit and morning and evening tides supply circuit on the controller, be provided with the tidal power generation machine, reduction voltage circuit and the rectification filter circuit that connect gradually in the morning and evening tides supply circuit, rectification filter circuit links to each other with the controller, the electrode system includes electrode and matched with anchor clamps electrode with it, is provided with electrically conductive magnetic between anchor clamps electrode and last electrode, and anchor clamps electrode and last electrode are connected with two electrodes of the electrode power supply branch road of controller respectively, still being provided with directly over last electrode and utilizing operational system institute driven magnetic pole, the magnetic pole can be wantonly to the removal directly over last electrode, when carrying out secondary operation to filiform metal material, reduce non -renewable resources's loss as far as, the effectual renewable resource of utilization carries out the energy supply, reaches the purpose that the utilization is continuously changed to the resource.

Description

Adopt the metal material processing device of regenerative resource power supply

Technical field

The utility model relates to technical field of metal, specifically, is the metal material processing device adopting regenerative resource power supply.

Background technology

Metallic substance refers to metallic element or taking metallic element as the general designation of the material with metallic character of main formation. Comprise pure metal, alloy, metallic substance intermetallic compound and special metal material etc.

Metallic substance is divided into ferrous metal, non-ferrous metal and special metal material usually.

1. ferrous metal is also known as ferrous materials, comprises the technically pure iron of iron content more than 90%, containing the cast iron of carbon 2%��4%, is less than the carbon steel of 2% containing carbon, and the structure iron of various purposes, stainless steel, high temperature steel, superalloy, Precise Alloy etc. The ferrous metal of broad sense also comprises chromium, manganese and alloy thereof.

2. non-ferrous metal refers to all metals beyond deironing, chromium, manganese and alloy thereof, usually light metal, heavy metal, precious metal, semi-metal, rare metal and rare earth metal etc. it are divided into, the intensity of non-ferrous alloy and hardness are generally high than pure metal, and resistance is big, temperature coefficient of resistance is little.

3. special metal material comprises structural metallic material and the functional metal materials of different purposes. Wherein there is the amorphous metallic material obtained by rapid condensation technique, and accurate crystalline substance, crystallite, nano crystal metal material etc.; Specific function alloy and the metal-base composites etc. such as stealthy, resistant to hydrogen, superconduction, shape memory, wear-resisting, damping in addition.

And thread metallic substance is as the one in metallic substance, it is widely used in various occasion, but it is the use range of the thread metallic substance improving single material further, often need the thread metallic substance after shaping is carried out secondary processing, accordingly, a set of practicality and automatically controlling, many-sided can carry out modification or change the system of processing of structure thread metallic substance, real in needed for urgently.

Practical novel content

The purpose of this utility model is to provide the metal material processing device adopting regenerative resource power supply, when thread metallic substance is carried out secondary processing, the loss of Nonrenewable resources can be reduced as much as possible, and can effectively utilize renewable resources to carry out energy supply, the object of resource continuousization utilization is reached with this.

The utility model is achieved through the following technical solutions: the metal material processing device adopting regenerative resource power supply, the electrode system comprising power-supply system and be connected with power-supply system, it is provided with controller in described power-supply system, it is connected with photoelectric conversion circuit and tide feed circuit on the controller, being provided with the tide generator, step-down circuit and the current rectifying and wave filtering circuit that connect successively in described tide feed circuit, described current rectifying and wave filtering circuit is connected with controller; Described electrode system comprises top electrode and jigs electrode with matching, is provided with conductive magnetic powder between described jigs electrode and top electrode, described jigs electrode and top electrode respectively with two Electrode connection of the electrode power supply branch road of controller; Also be provided with the magnetic pole utilizing operational system to drive in the surface of described top electrode, described magnetic pole can arbitrarily to movement directly over top electrode; Also it is provided with the Controlling System being connected respectively with controller and operational system.

Further is realize the utility model better, magnetic pole can be made to move in the X-axis direction above top electrode, it is provided with following structure especially: in described operational system, be provided with X-axis operational system and the X-axis motor for driving X-axis operational system, described X-axis motor is connected with Controlling System, and described X-axis operational system is connected with magnetic pole.

Further is realize the utility model better, magnetic pole can be made to move along Y-axis direction above top electrode, it is provided with following structure especially: being also provided with Y-axis operational system and the y-axis motor for driving Y-axis operational system in described operational system, described y-axis motor is connected with Controlling System; Described Y-axis operational system is connected with magnetic pole.

Further is realize the utility model better, intelligentized operational system and video monitoring system can be controlled, it is provided with following structure especially: in described Controlling System, be provided with embedded processing device, man-machine exchange module, DA circuit, PLC circuit and video monitoring system, described embedded processing device is connected with controller, man-machine exchange module and DA circuit respectively, described DA circuit connects PLC circuit, and described PLC circuit connects video monitoring system, X-axis motor and y-axis motor respectively.

Further is realize the utility model better, it is possible to improves the handling property of embedded processing device, is provided with following structure especially: be also provided with in described Controlling System and the memory module that embedded processing device is connected.

Further is realize the utility model better, can be between electrode, supplement conductive magnetic powder, it is provided with following structure especially: also comprise for the magnetic supply system supplementing conductive magnetic powder between described jigs electrode and top electrode, described magnetic supply system is connected with PLC circuit.

Further is realize the utility model better, timely the machining state of interelectrode conductive magnetic powder recoverable amount and thread metallic substance can be carried out sight to look into, change to supplement in time, it is provided with following structure especially: described video monitoring system is arranged on described metal material processing system place process zone, and the shooting visual angle having at least a camera to arrange in video monitoring system is between described jigs electrode and top electrode.

Further for realize the utility model better, it is provided with following structure especially: in described photoelectric conversion circuit, be provided with the photovoltaic panel, boost-up circuit and the constant voltage circuit that connect successively, described constant voltage circuit is connected with controller.

The utility model compared with prior art, has the following advantages and useful effect:

The utility model is when carrying out secondary processing to thread metallic substance, it is possible to reduce the loss of Nonrenewable resources as much as possible, it is possible to effectively utilize renewable resources to carry out energy supply, reaches the object of resource continuousization utilization with this.

Thread metallic substance can be carried out secondary processing by the utility model, and the change of thread metal material surface or structure can be realized, and can automatization carry out thread metallic substance secondary processing, simultaneously when thread metallic substance is carried out secondary processing, for electrodischarge machining(E.D.M.) pattern, avoid occurring owing to failing electric discharge in time, and situation processing accident occur occurs; In the process of processing, it is possible to real-time monitors machining state, thus realize the object of processed safely.

The utility model utilizes embedded processing device to take up an area region as the reduction Controlling System that control core can be further, and has well the characteristic of placement flexibly.

Camera is had for the conductive magnetic powder between jigs electrode and top electrode and thread metallic substance being monitored in video monitoring system described in the utility model, it is thus possible to realize on-the-spot nobody also can know processing stage and the conductive magnetic powder recoverable amount of thread metallic substance, avoid that process quality issue occurs.

Accompanying drawing explanation

Fig. 1 is power supply system figure described in the utility model.

Fig. 2 is Controlling System figure described in the utility model.

Fig. 3 is the utility model structure iron.

Wherein, 1-magnetic supply system, 2-top electrode, 3-X axle operational system, the thread metallic substance of 4-, 5-jigs electrode, 6-magnetic pole, 7-Y axle operational system, 8-Y spindle motor, 9-X spindle motor, 10-power-supply system, 11-Controlling System.

Embodiment

Below in conjunction with embodiment, the utility model is described in further detail, but enforcement mode of the present utility model is not limited to this.

Embodiment 1:

Adopt the metal material processing device of regenerative resource power supply, as shown in Figure 1, Figure 2, Figure 3 shows, it is arranged to following structure especially: the electrode system comprising power-supply system 10 and being connected with power-supply system 10, it is provided with controller in described power-supply system, it is connected with photoelectric conversion circuit and tide feed circuit on the controller, being provided with the tide generator, step-down circuit and the current rectifying and wave filtering circuit that connect successively in described tide feed circuit, described current rectifying and wave filtering circuit is connected with controller; Described electrode system comprises top electrode 2 and jigs electrode with matching 5, is provided with conductive magnetic powder between described jigs electrode 5 and top electrode 2, described jigs electrode 5 and top electrode 2 respectively with two Electrode connection of the electrode power supply branch road of controller; Also be provided with the magnetic pole 6 utilizing operational system to drive in the surface of described top electrode 2, described magnetic pole 6 can arbitrarily to movement directly over top electrode 2; Also it is provided with the Controlling System 11 being connected respectively with controller and operational system.

Embodiment 2:

The present embodiment is the basic enterprising one-step optimization at above-described embodiment, further is realize the utility model better, magnetic pole can be made to move in the X-axis direction above top electrode, as shown in Figure 1, Figure 2, Figure 3 shows, it is provided with following structure especially: in described operational system, be provided with X-axis operational system 3 and the X-axis motor 9 for driving X-axis operational system 3, described X-axis motor 9 is connected with Controlling System 11, and described X-axis operational system 3 is connected with magnetic pole 6.

Embodiment 3:

The present embodiment is the basic enterprising one-step optimization in above-mentioned any embodiment, further is realize the utility model better, magnetic pole can be made to move along Y-axis direction above top electrode, as shown in Figure 1, Figure 2, Figure 3 shows, it is provided with following structure especially: being also provided with Y-axis operational system 7 and the y-axis motor 8 for driving Y-axis operational system 7 in described operational system, described y-axis motor 8 is connected with Controlling System 11; Described Y-axis operational system 7 is connected with magnetic pole 6.

Embodiment 4:

The present embodiment is the basic enterprising one-step optimization at above-described embodiment, further is realize the utility model better, intelligentized operational system and video monitoring system can be controlled, such as Fig. 1, Fig. 2, shown in Fig. 3, it is provided with following structure especially: in described Controlling System 11, be provided with embedded processing device, man-machine exchange module, DA circuit, PLC circuit and video monitoring system, described embedded processing device respectively with controller, man-machine exchange module and DA circuit connect, described DA circuit connects PLC circuit, described PLC circuit connects video monitoring system respectively, X-axis motor 9 and y-axis motor 8.

Embodiment 5:

The present embodiment is the basic enterprising one-step optimization at above-described embodiment, further is realize the utility model better, the handling property of embedded processing device can be improved, as shown in Figure 1, Figure 2, Figure 3 shows, following structure it is provided with especially: be also provided with in described Controlling System and the memory module that embedded processing device is connected.

Embodiment 6:

The present embodiment is the basic enterprising one-step optimization in embodiment 4 or 5, further is realize the utility model better, can be between electrode, supplement conductive magnetic powder, as shown in Figure 1, Figure 2, Figure 3 shows, it is provided with following structure especially: also comprise for the magnetic supply system 1 supplementing conductive magnetic powder between described jigs electrode 5 and top electrode 2, described magnetic supply system 1 is connected with PLC circuit.

Embodiment 7:

The present embodiment is the basic enterprising one-step optimization in embodiment 4 or 5 or 6, further is realize the utility model better, timely the machining state of interelectrode conductive magnetic powder recoverable amount and thread metallic substance can be carried out sight to look into, change to supplement in time, as shown in Figure 1, Figure 2, Figure 3 shows, it is provided with following structure especially: described video monitoring system is arranged on described metal material processing system place process zone, and the shooting visual angle having at least a camera to arrange in video monitoring system is between described jigs electrode 5 and top electrode 2.

Embodiment 8:

The present embodiment is the basic enterprising one-step optimization in above-mentioned any embodiment, further is realize the utility model better, as shown in Figure 1, Figure 2, Figure 3 shows, it is provided with following structure especially: being provided with the photovoltaic panel, boost-up circuit and the constant voltage circuit that connect successively in described photoelectric conversion circuit, described constant voltage circuit is connected with controller.

When designing use, the stacking of thread metallic substance 4 is fixed in the cavity of jigs electrode 5, and it is filled with conductive magnetic powder between jigs electrode 5 and top electrode 2, conductive magnetic powder will be coated on each layer thread metallic substance 4 to be processed around, the surface contact of thread metallic substance 4 abundant and to be processed automatically.

Jigs electrode 5 and top electrode 2 connect the positive and negative electrode of the electrode power supply branch road of controller respectively; Magnetic pole 6 carries out appointing intention movement by X-axis operational system 3 and Y-axis operational system 7 above top electrode 2, under the effect of the magnetic pole 6 in motion, the surface motion of conductive magnetic powder thread metallic substance 4 relatively to be processed, and in the process of motion, thread metallic substance 4 is carried out electrodischarge machining(E.D.M.), and consume owing to conductive magnetic powder exists, embedded processing device is then utilized to form the control strategy of injected volume and adopt this policy control magnetic supply system 1, make magnetic supply system 1 carry out supplementing of conductive magnetic powder according to the injected volume of setting, avoid that processing liability accident occurs.

In the course of processing, whole work flow and processing operation state will be monitored by the video monitoring system being arranged in the process zone of metal material processing system place, avoid processing accident occur.

Add man-hour, embedded processing device as Controlling System 11 core will carry out the issue of data processing and instruction, then by DA circuit, the signal of digitizing is converted to simulating signal, and utilize PLC circuit to video monitoring system, X-axis motor 9 and y-axis motor 8 control, wherein, X-axis motor 9 is for providing kinetic energy to X-axis operational system 3, y-axis motor 8 is for providing kinetic energy to Y-axis operational system 7, magnetic pole 6 can be done above top electrode 2 and appoint intention movement, and drive conductive magnetic powder to run on the surface of thread metallic substance 4, reach the surface to thread metallic substance 4 with this and carry out the process such as structure of modification or modification.

Control to use for convenience of staff, also it is provided with the man-machine exchange module for carrying out human and computer dialogue, facilitate staff to carry out the operations such as order input or optimum configurations with this.

Power supply system is embedded processing device and electrode system offer electric energy, in use, tide generator utilizes tide to generate electricity, first the electric energy then generated will utilize step-down circuit to carry out step-down, rectification and filtering is then carried out by current rectifying and wave filtering circuit, and export low dc voltage, after then carrying out voltage stabilizing by controller, powered to electrode system by the electrode power supply branch road (direct current) of controller, also powered by the Zhi Luxiang embedded processing device of powering of the Controlling System in controller simultaneously; For the further electric energy that luminous energy can be utilized to transform is powered, it is provided with photoelectric conversion circuit especially, wherein photovoltaic panel collects sunlight, and sunlight is converted to direct current, then by utilizing, boost-up circuit boosts this direct current, so that can supply control system and electrode system, the electric energy after boosting is carrying out voltage stabilizing by constant voltage circuit, then utilizes controller electrode system and embedded processing device to be powered respectively.

The above; it it is only better embodiment of the present utility model; not the utility model is done any restriction in form, every above embodiment is done according to technical spirit of the present utility model any simple modification, equivalent variations, all fall within protection domain of the present utility model.

Claims (8)

1. adopt the metal material processing device of regenerative resource power supply, it is characterized in that: the electrode system comprising power-supply system (10) and being connected with power-supply system (10), it is provided with controller in described power-supply system, it is connected with photoelectric conversion circuit and tide feed circuit on the controller, being provided with the tide generator, step-down circuit and the current rectifying and wave filtering circuit that connect successively in described tide feed circuit, described current rectifying and wave filtering circuit is connected with controller; Described electrode system comprises top electrode (2) and jigs electrode with matching (5), between described jigs electrode (5) and top electrode (2), be provided with conductive magnetic powder, described jigs electrode (5) and top electrode (2) respectively with two Electrode connection of the electrode power supply branch road of controller; Also be provided with the magnetic pole (6) utilizing operational system to drive in the surface of described top electrode (2), described magnetic pole (6) can arbitrarily to movement directly over top electrode (2); Also it is provided with the Controlling System (11) being connected respectively with controller and operational system.

2. the metal material processing device of employing regenerative resource power supply according to claim 1, it is characterized in that: in described operational system, be provided with X-axis operational system (3) and the X-axis motor (9) for driving X-axis operational system (3), described X-axis motor (9) is connected with Controlling System (11), and described X-axis operational system (3) is connected with magnetic pole (6).

3. the metal material processing device of employing regenerative resource power supply according to claim 2, it is characterized in that: being also provided with Y-axis operational system (7) and the y-axis motor (8) for driving Y-axis operational system (7) in described operational system, described y-axis motor (8) is connected with Controlling System (11); Described Y-axis operational system (7) is connected with magnetic pole (6).

4. the metal material processing device of employing regenerative resource power supply according to claim 3, it is characterized in that: in described Controlling System (11), be provided with embedded processing device, man-machine exchange module, DA circuit, PLC circuit and video monitoring system, described embedded processing device is connected with controller, man-machine exchange module and DA circuit respectively, described DA circuit connects PLC circuit, and described PLC circuit connects video monitoring system, X-axis motor (9) and y-axis motor (8) respectively.

5. the metal material processing device of employing regenerative resource power supply according to claim 4, it is characterised in that: also it is provided with in described Controlling System and the memory module that embedded processing device is connected.

6. the metal material processing device of employing regenerative resource power supply according to claim 5, it is characterized in that: also comprise for the magnetic supply system (1) supplementing conductive magnetic powder between described jigs electrode (5) and top electrode (2), described magnetic supply system (1) is connected with PLC circuit.

7. the metal material processing device of employing regenerative resource power supply according to claim 6, it is characterized in that: described video monitoring system is arranged on described metal material processing system place process zone, and the shooting visual angle having at least a camera to arrange in video monitoring system is between described jigs electrode (5) and top electrode (2).

8. the metal material processing device of employing regenerative resource power supply according to the arbitrary item of claim 1-7, it is characterized in that: being provided with the photovoltaic panel, boost-up circuit and the constant voltage circuit that connect successively in described photoelectric conversion circuit, described constant voltage circuit is connected with controller.