CN205205207U - Rotation anode furnace system - Google Patents

Abstract

The utility model provides a rotation anode furnace system. This rotation anode furnace system includes: the anode furnace is including the furnace body, the motor is connected with the anode furnace electricity for the control furnace body rotates, detection module is connected with the anode furnace electricity for detect rotation anode furnace system's trouble, acquire the trouble information of anode furnace, the controller is connected with detection module and motor electricity respectively for change the furnace body to safe position according to received trouble information control motor. Because detection module can detect and obtain the trouble information of anode furnace to rotation anode furnace system, and the controller can be after receiving trouble information the control motor in order to change the furnace body to safe position to can warn in time and the troubleshoot through changeing the furnace body to safe position when the anode furnace breaks down, and then avoid resulting in because the rotation anode furnace breaks down the circumstances about damaging effectively.

Description

Rotary Anode Furnace system

Technical field

The utility model relates to metallurgical manufacture and design field, in particular to a kind of Rotary Anode Furnace system.

Background technology

Rotary Anode Furnace is the main equipment of pyrorefining, can realize the adjustment to copper outlet height by rotating furnace, and the speed that copper water is flowed out and casting rate match, and Rotary Anode Furnace has very large nominal capacity.

Rotary Anode Furnace needs periodic job, by process physical chemical transformation feature and schedule of operation whole cycle by feeding in raw material, redox, the stage such as casting form.Because each discontinuous running time is longer, need operative employee to keep a close eye on body of heater operating mode, therefore very easily cause the fatigue of operative employee, if at this moment once fault occurs, gently then cause body of heater and peripheral equipment damage, the heavy then irremediable loss such as to cause casualties.

Therefore, need that a set of level of automation is high, safety coefficient is high at present badly, ageing good Rotary Anode Furnace system to optimize Rotary Anode Furnace production operation, to reduce the probability that Rotary Anode Furnace and peripheral equipment thereof damage.

Utility model content

Main purpose of the present utility model is to provide a kind of Rotary Anode Furnace system, and the problem of damaging easily occurs with the body of heater and peripheral equipment that solve Rotary Anode Furnace in prior art.

To achieve these goals, according to an aspect of the present utility model, provide a kind of Rotary Anode Furnace system, comprising: anode furnace, comprise body of heater; Motor, is electrically connected with anode furnace, rotates for controlling body of heater; Detection module, is electrically connected with anode furnace, for detecting the fault of Rotary Anode Furnace system, obtains the failure message of anode furnace; Controller, is electrically connected with detection module and motor respectively, for controlling motor according to the failure message received, body of heater is gone to secure location.

Further, anode furnace also comprises the copper outlet be arranged on body of heater, and detection module comprises: angle detection unit, is electrically connected with the rotating shaft of anode furnace, for detecting the angle value that vert of body of heater towards redox position or copper outlet side, and by judging angle value determination detection signal; Fault detection unit, is electrically connected respectively with angle detection unit, anode furnace and controller, for detecting according to the fault of detection signal to Rotary Anode Furnace system received, to obtain failure message.

Further, angle detection unit is also electrically connected with controller, the angle value that body of heater verts towards redox position is the first tilt angle, Rotary Anode Furnace system has the first angular range, this Time Controller is used for when the first tilt angle exceeds the first angular range, control motor and the first tilt angle is gone to the first angular range, and send detection signal after the first tilt angle is gone to the first angular range; It is the second tilt angle that body of heater rolls towards copper outlet the angle value turned, Rotary Anode Furnace system has the second angular range, this Time Controller is used for when the second tilt angle exceeds the second angular range, control motor and the second tilt angle is gone to the second angular range, and send detection signal after the second tilt angle is gone to the second angular range.

Further, the first angular range is 19 ° ~ 45 °; Second angular range is-10 ° ~-65 °.

Further, angle detection unit comprises discrete angular detector and/or continuous angle detector, and when angle detection unit comprises discrete angular detector and continuous angle detector, discrete angular detector and continuous angle detector are arranged in parallel.

Further, fault detection unit comprises: pressure detecting instrument, is electrically connected with body of heater, for detecting the pressure of oxidizing gas or reducing gas in body of heater, and by judging that pressure sends failure message.

Further, fault detection unit is also electrically connected with the electric power incoming line of motor, and fault detection unit comprises: Voltage detector, is electrically connected with electric power incoming line, for detecting the voltage at electric power incoming line place, and by judging that voltage sends failure message.

Further, anode furnace also comprises the gas permeable brick be arranged on body of heater, and now pressure detecting instrument is also for detecting the pressure of gas in gas permeable brick, and by judging that pressure sends failure message.

Further, Rotary Anode Furnace system also comprises the step-down gear of jointed anode stove and motor.

Application the technical solution of the utility model, the utility model provides one and comprises anode furnace, motor, the Rotary Anode Furnace system of detection module and controller, can detect Rotary Anode Furnace system due to detection module and obtain the failure message of anode furnace, and controller can control motor so that body of heater is gone to secure location after receiving failure message, thus can warn in time and eliminate fault by body of heater be gone to secure location when anode furnace breaks down, and then efficiently avoid the situation causing because Rotary Anode Furnace breaks down damaging.

Except object described above, feature and advantage, the utility model also has other object, feature and advantage.Below with reference to figure, the utility model is described in further detail.

Accompanying drawing explanation

The Figure of description forming a part of the present utility model is used to provide further understanding of the present utility model, and schematic description and description of the present utility model, for explaining the utility model, is not formed improper restriction of the present utility model.In the accompanying drawings:

Fig. 1 shows the structural representation of the Rotary Anode Furnace system that the utility model embodiment provides; And

Fig. 2 shows the schematic flow sheet of the control method of the Rotary Anode Furnace system that the utility model embodiment provides.

Embodiment

It should be noted that, when not conflicting, the embodiment in the utility model and the feature in embodiment can combine mutually.Below with reference to the accompanying drawings and describe the utility model in detail in conjunction with the embodiments.

The utility model scheme is understood better in order to make those skilled in the art person, below in conjunction with the accompanying drawing in the utility model embodiment, technical scheme in the utility model embodiment is clearly and completely described, obviously, described embodiment is only the embodiment of the utility model part, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all should belong to the scope of the utility model protection.

It should be noted that, term " first ", " second " etc. in specification sheets of the present utility model and claims and above-mentioned accompanying drawing are for distinguishing similar object, and need not be used for describing specific order or precedence.Should be appreciated that the data used like this can be exchanged, in the appropriate case so that embodiment of the present utility model described herein.In addition, term " comprises " and " having " and their any distortion, intention is to cover not exclusive comprising, such as, contain those steps or unit that the process of series of steps or unit, method, system, product or equipment is not necessarily limited to clearly list, but can comprise clearly do not list or for intrinsic other step of these processes, method, product or equipment or unit.

As what introduce in background technology, in prior art when light source comprises blueness, the blue light that light guiding plate side spills can have an impact to the brightness of backlight module and evenness degree.The utility model is studied for the problems referred to above, proposes a kind of Rotary Anode Furnace system, as shown in Figure 1, comprising: anode furnace 10, comprises body of heater; Motor 20, is electrically connected with anode furnace 10, rotates for controlling body of heater; Detection module 30, is electrically connected with anode furnace 10, for detecting the fault of Rotary Anode Furnace system, obtains the failure message of anode furnace 10; Controller 40, is electrically connected with detection module 30 and motor 20 respectively, for controlling motor 20 according to the failure message received, body of heater is gone to secure location.

Because detection module can detect Rotary Anode Furnace system and obtain the failure message of anode furnace in above-mentioned Rotary Anode Furnace system, and controller can control motor so that body of heater is gone to secure location after receiving failure message, thus can warn in time and eliminate fault by body of heater be gone to secure location when anode furnace breaks down, and then efficiently avoid the situation causing because Rotary Anode Furnace breaks down damaging.

In above-mentioned Rotary Anode Furnace system of the present utility model, position when namely secure location refers to that Rotary Anode Furnace rotational angle is 0 °.Anode furnace 10 also comprises the copper outlet be arranged on body of heater, now detection module 30 can comprise: angle detection unit 310, be electrically connected with the rotating shaft of anode furnace 10, for detecting the angle value that vert of body of heater towards redox position (namely anode furnace carrying out the position of oxide treatment and reduction treatment to copper scap) or copper outlet side, and by judging angle value determination detection signal; Fault detection unit 320, is electrically connected respectively with angle detection unit 310, anode furnace 10 and controller 40, for detecting according to the fault of detection signal to Rotary Anode Furnace system received, to obtain failure message.

Because above-mentioned Rotary Anode Furnace system comprises angle detection unit 310 and fault detection unit 320, thus can first utilize the rotational angle of angle detection unit 310 pairs of bodies of heater to judge, by detecting whether body of heater goes in angular range needed for failure testing, effectively judge to utilize fault detection unit 320 to carry out detecting and the failure message that obtains whether mistake.

More preferably, angle detection unit 310 is also electrically connected with controller 40.In the oxidation operation of anode furnace 10, the angle value that body of heater verts towards redox position is the first tilt angle, Rotary Anode Furnace system has the first angular range, this Time Controller 40 is for when the first tilt angle exceeds the first angular range, control motor 20 and first tilt angle is gone to the first angular range, and send detection signal after the first tilt angle is gone to the first angular range.

In the reduction operation of anode furnace 10, it is the second tilt angle that body of heater rolls towards copper outlet the angle value turned, Rotary Anode Furnace system has the second angular range, this Time Controller 40 is for when the second tilt angle exceeds the second angular range, control motor 20 and second tilt angle is gone to the second angular range, and send detection signal after the second tilt angle is gone to the second angular range.In the angular range utilizing above-mentioned angle detection unit 310 body of heater can be gone back to needed for failure testing, and then efficiently avoid and carry out failure testing when body of heater does not turn to the angular range needed for detection and the failure message that causes obtains mistake, ensure that the accuracy of failure testing.

Angular range needed for above-mentioned failure testing changes according to the position difference detected.When body of heater goes to redox position, the angle value that body of heater verts towards redox position is the first tilt angle, and preferably, the first angular range is 19 ° ~ 45 °; When body of heater goes to copper outlet side, it is the second tilt angle that body of heater rolls towards copper outlet the angle value turned, and preferably, the second angular range is-10 ° ~-65 °.Above-mentioned preferred first angular range and the second angular range can ensure that body of heater correctly goes to redox position and copper outlet side effectively, thus efficiently avoid and carry out failure testing when body of heater does not turn to redox position or copper outlet side and the failure message that causes obtains mistake, and then ensure that the tolerance range of failure testing.

Angle detection unit 310 can comprise discrete angular detector and/or continuous angle detector, and when angle detection unit 310 comprises discrete angular detector and continuous angle detector, discrete angular detector and continuous angle detector are arranged in parallel.Now, discrete angular detector is installed on described rotating shaft, in order to detect the rotational angle of Rotary Anode Furnace body of heater discretely; Continuous angle detector is installed on discrete angular detector projecting shaft, in order to detect the rotational angle of Rotary Anode Furnace body of heater continuously.When angle detection unit 310 comprises the discrete angular detector and continuous angle detector that are arranged in parallel, can more accurately detect the angle value that vert of body of heater towards redox position or copper outlet side by the acting in conjunction of discrete angular detector and continuous angle detector.

In the Rotary Anode Furnace system comprising angle detection unit 310 and fault detection unit 320, fault detection unit 320 can be electrically connected with the electric power incoming line of motor 20, electric power incoming line to be used for electricity to be delivered in motor with starter motor and to keep the continuous service of motor, now, fault detection unit 320 can comprise: pressure detecting instrument, be electrically connected with body of heater, for detecting the pressure of oxidizing gas or reducing gas in body of heater, and by judging that pressure sends failure message; Voltage detector, is electrically connected with electric power incoming line, for detecting the voltage at electric power incoming line place, and by judging that voltage sends failure message.

Because above-mentioned fault detection unit 320 comprises pressure detecting instrument and Voltage detector, on the one hand, when body of heater goes to redox position, above-mentioned pressure detecting instrument can detect effectively to the pressure of oxidizing gas in body of heater or reducing gas, if pressure values exceeds the safety range of regulation, judge that oxidation source gas and reduction source of the gas break down, and send failure message to controller 40, controller 40 controls motor 20 and body of heater is gone to secure location after receiving failure message, thus warn in time by body of heater being gone to secure location and eliminate fault, and then efficiently avoid the situation causing because Rotary Anode Furnace breaks down damaging.

On the other hand, when body of heater goes to copper outlet side, above-mentioned Voltage detector can detect effectively to the voltage in power transfer conduit, if magnitude of voltage exceeds the safety range of regulation, judge the AC mains failure of power transfer conduit, and send failure message to controller 40, controller 40 controls motor 20 and body of heater is gone to secure location after receiving failure message, thus also can warn in time by body of heater being gone to secure location and eliminate fault, and then efficiently avoid the situation causing because Rotary Anode Furnace breaks down damaging.

Comprise in the fault detection unit 320 of pressure detecting instrument and Voltage detector above-mentioned, anode furnace 10 also comprises the gas permeable brick be arranged on body of heater, now pressure detecting instrument can also be used for the pressure detecting gas in gas permeable brick, and by judging that pressure sends failure message.Namely above-mentioned Voltage detector is utilized effectively can to detect the pressure of gas in gas permeable brick, if pressure values exceeds the safety range of regulation, judge gas permeable brick system jam, and send failure message to controller 40, controller 40 controls motor 20 and body of heater is gone to secure location after receiving failure message, thus also can warn in time by body of heater being gone to secure location and eliminate fault, and then efficiently avoid the situation causing because Rotary Anode Furnace breaks down damaging.

In Rotary Anode Furnace system of the present utility model, Rotary Anode Furnace system can also comprise the step-down gear 50 of jointed anode stove 10 and motor 20.Above-mentioned step-down gear 50 can reduce the rotating speed that body of heater is gone to secure location by control motor 20, thus further increases the accuracy that body of heater goes to secure location.

The Rotary Anode Furnace system that the utility model provides comprises the anode furnace, detection module, controller and the motor that connect successively, motor is connected with anode furnace, and anode furnace comprises body of heater, the control method of Rotary Anode Furnace system comprises the following steps: utilize detection module to detect a fault for Rotary Anode Furnace system, obtain the failure message of anode furnace; Utilize controller to receive failure message, and according to the failure message control motor received, body of heater is gone to secure location.

Owing to utilizing detection module in above-mentioned control method Rotary Anode Furnace system detected and obtain the failure message of anode furnace, and utilize controller to receive failure message, then motor is controlled so that body of heater is gone to secure location, thus can warn in time and eliminate fault by body of heater be gone to secure location when anode furnace breaks down, and then efficiently avoid the situation causing because Rotary Anode Furnace breaks down damaging.

When anode furnace also comprises the copper outlet be arranged on body of heater, when detection module comprises angle detection unit and fault detection unit, utilize detection module can comprise the step that Rotary Anode Furnace system detects: to be rotated towards redox position or copper outlet side by body of heater; Angle detection unit is utilized to detect the angle value that vert of body of heater towards redox position or copper outlet side, and by judging angle value determination detection signal; Detect according to the fault of detection signal to Rotary Anode Furnace system that fault detection unit receives, to obtain failure message.

In above-mentioned control method, judge owing to first make use of the rotational angle of angle detection unit to body of heater, thus can detect whether body of heater goes in angular range needed for failure testing, effectively judge to utilize fault detection unit to carry out detecting and the failure message that obtains whether mistake, and then avoid the waste of operation.

In a kind of preferred embodiment, a kind of control method of Rotary Anode Furnace system as shown in Figure 2, comprises the steps:

Step S1: utilize the discrete angular detector that is arranged in parallel and continuous angle detector to detect the angle value that vert of body of heater towards redox position or copper outlet side, discrete angular detector adopts mechanical cam controller, continuously angle detector to adopt multi-turn type absolute value encoder;

Step S2: whether Rotary Anode Furnace and relevant utility appliance break down to utilize pressure detecting instrument and Voltage detector to judge, if there is any one of following situation, then judge that Rotary Anode Furnace and relevant utility appliance break down: 1) during Rotary Anode Furnace copper, AC power failure; 2), during Rotary Anode Furnace oxidation, compress wind source of the gas is abnormal; 3), during Rotary Anode Furnace reduction, natural air-air source is abnormal; 4) rare oxygen burning utility appliance fault; 5) the gas permeable brick system fault;

Step S3: after fault being detected, utilizes controller to judge the kind of now fault, and sends operating command, to make the body of heater of Rotary Anode Furnace to secure location forward or reverse,

Step S4: whether the body of heater of Rotary Anode Furnace arrives secure location to utilize controller to judge;

Step S5: after the body of heater arrival secure location of Rotary Anode Furnace, utilize controller to provide and cease and desist order, stop motor, make the body of heater of Rotary Anode Furnace stop operating to be parked in secure location.

From above description, can find out, the utility model the above embodiments achieve following technique effect: the utility model provides one and comprises anode furnace, motor, the Rotary Anode Furnace system of detection module and controller, can detect Rotary Anode Furnace system due to detection module and obtain the failure message of anode furnace, and controller can control motor so that body of heater is gone to secure location after receiving failure message, thus can warn in time and eliminate fault by body of heater be gone to secure location when anode furnace breaks down, and then efficiently avoid the situation causing because Rotary Anode Furnace breaks down damaging.

The foregoing is only preferred embodiment of the present utility model, be not limited to the utility model, for a person skilled in the art, the utility model can have various modifications and variations.All within spirit of the present utility model and principle, any amendment done, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.

Claims (9)

1. a Rotary Anode Furnace system, is characterized in that, comprising:

Anode furnace (10), comprises body of heater;

Motor (20), is electrically connected with described anode furnace (10), rotates for controlling described body of heater;

Detection module (30), is electrically connected with described anode furnace (10), for detecting the fault of described Rotary Anode Furnace system, obtains the failure message of described anode furnace (10);

Controller (40), is electrically connected with described detection module (30) and described motor (20) respectively, for controlling described motor (20) according to the described failure message received, described body of heater is gone to secure location.

2. Rotary Anode Furnace system according to claim 1, is characterized in that, described anode furnace (10) also comprises the copper outlet be arranged on described body of heater, and described detection module (30) comprising:

Angle detection unit (310), is electrically connected with the rotating shaft of described anode furnace (10), for detecting the angle value that vert of described body of heater towards redox position or described copper outlet side, and by judging described angle value determination detection signal;

Fault detection unit (320), be electrically connected respectively with described angle detection unit (310), described anode furnace (10) and described controller (40), for detecting according to the fault of described detection signal to described Rotary Anode Furnace system received, to obtain described failure message.

3. Rotary Anode Furnace system according to claim 2, is characterized in that, described angle detection unit (310) is also electrically connected with described controller (40),

Described body of heater is the first tilt angle towards the angle value verted in described redox position, described Rotary Anode Furnace system has the first angular range, now described controller (40) is for when described first tilt angle exceeds described first angular range, control described motor (20) and described first tilt angle is gone to described first angular range, and send described detection signal after described first tilt angle is gone to described first angular range;

It is the second tilt angle that described body of heater rolls towards described copper outlet the angle value turned, described Rotary Anode Furnace system has the second angular range, now described controller (40) is for when described second tilt angle exceeds described second angular range, control described motor (20) and described second tilt angle is gone to described second angular range, and send described detection signal after described second tilt angle is gone to described second angular range.

4. Rotary Anode Furnace system according to claim 3, is characterized in that,

Described first angular range is 19 ° ~ 45 °;

Described second angular range is-10 ° ~-65 °.

5. Rotary Anode Furnace system according to claim 2, it is characterized in that, described angle detection unit (310) comprises discrete angular detector and/or continuous angle detector, and when described angle detection unit (310) comprises discrete angular detector and continuous angle detector, described discrete angular detector and described continuous angle detector are arranged in parallel.

6. Rotary Anode Furnace system according to claim 2, is characterized in that, described fault detection unit (320) comprising:

Pressure detecting instrument, is electrically connected with described body of heater, for detecting the pressure of oxidizing gas or reducing gas in described body of heater, and by judging that described pressure sends described failure message.

7. Rotary Anode Furnace system according to claim 2, is characterized in that, described fault detection unit (320) is also electrically connected with the electric power incoming line of described motor (20), and described fault detection unit (320) comprising:

Voltage detector, is electrically connected with described electric power incoming line, for detecting the voltage at described electric power incoming line place, and by judging that described voltage sends described failure message.

8. Rotary Anode Furnace system according to claim 6, it is characterized in that, described anode furnace (10) also comprises the gas permeable brick be arranged on described body of heater, now described pressure detecting instrument is also for detecting the pressure of gas in described gas permeable brick, and by judging that described pressure sends described failure message.

9. Rotary Anode Furnace system according to claim 1, is characterized in that, described Rotary Anode Furnace system also comprises the step-down gear (50) connecting described anode furnace (10) and described motor (20).