CN211926471U - Automatic receive pay-off plasma gyration elevating furnace system - Google Patents

Abstract

The invention discloses an automatic feeding and discharging plasma rotary lifting furnace system which comprises a rotary furnace body part, a radio frequency power supply, a feeding part, a receiving part, a four-channel proton flowmeter control system, a notebook computer, a lifting mechanism and a vacuum constant pressure system. The invention provides a plasma enhanced rotary lifting furnace system capable of automatically feeding and receiving materials at high temperature in a vacuum state, which provides convenience for the research on the aspects of rapid and efficient powder heat treatment and surface coating deposition; meanwhile, compared with the traditional rotary furnace system, the rotary furnace system has the advantages of high temperature, convenient feeding and receiving, centralized operation and accurate control of all functions, is particularly suitable for the research on metal crystals by research institutes and colleges, adopts modularization for each control part, can be freely selected, and provides greater convenience for the research on powder heat treatment and surface coating deposition.

Description

Automatic receive pay-off plasma gyration elevating furnace system

Technical Field

The invention relates to the field of processing rotary furnaces, in particular to a plasma rotary lifting furnace system capable of automatically collecting and feeding materials.

Background

The rotary furnace, also known as hot air rotary furnace, is a device for heating a combustion chamber by using various different energy sources, feeding hot air into a hearth through a heat exchanger and a fan, and baking articles in the furnace. Rotary furnaces have been widely used in research institutes and experiments as a means necessary for the production of new materials. The rotary furnace in the prior art has single function and low efficiency. The multifunctional high-temperature high-efficiency powder heat treatment and surface coating are less involved.

Disclosure of Invention

In order to solve the defects mentioned in the background technology, the invention aims to provide an automatic feeding and receiving plasma rotary lifting furnace system, and the invention provides a plasma enhanced rotary lifting furnace system which can automatically feed and receive materials at a high temperature in a vacuum state, and provides convenience for realizing the research on the aspects of rapid and efficient powder heat treatment and surface coating deposition;

meanwhile, compared with the traditional rotary furnace system, the rotary furnace system has the advantages of high temperature, convenient feeding and receiving, centralized operation and accurate control of all functions, is particularly suitable for the research on metal crystals by research institutes and colleges, adopts modularization for each control part, can be freely selected, and provides greater convenience for the research on powder heat treatment and surface coating deposition.

The purpose of the invention can be realized by the following technical scheme:

the utility model provides an automatic receive pay-off plasma gyration elevating furnace system, includes the workstation, the side of workstation is installed radio frequency power supply.

The supporting plate is arranged above the workbench, the supporting legs and the rotating pairs are arranged between the supporting plate and the workbench respectively, and the supporting legs and the rotating pairs are arranged on two sides of the upper end of the workbench respectively.

A lifting mechanism is arranged between the workbench and the supporting plate, a rotary furnace body part is arranged at the upper end of the supporting plate, one end of the rotary furnace body part is connected with a feeding part, and the other end of the rotary furnace body part is connected with a receiving part.

The side of receiving the material part is connected with the body, and the one end of body is connected with vacuum constant voltage system, and vacuum constant voltage system sets up one side at the workstation.

And a four-channel proton flowmeter control system is arranged on the other side of the workbench, and a notebook computer is arranged above the four-channel proton flowmeter control system.

Further, the radio frequency power supply is a 500W radio frequency power supply and consists of a matching power supply, a radio frequency power supply and a silver-plated induction coil, and the highest matching use power is 500W.

Furthermore, the supporting legs play a role in supporting the supporting plate, and two sides of the revolute pair are respectively fixed at the bottom end of the supporting plate and the upper end of the workbench.

Furthermore, the lifting mechanism consists of an electric push rod, a control power supply and a controller.

Further, the rotary furnace body part is a 1500 ℃ three-temperature-zone rotary converter system which consists of a 1500 ℃ three-temperature-zone high-temperature furnace and a rotating mechanism, the maximum temperature is 1500 ℃, and the maximum rotating speed is 10 r/min.

Furthermore, the stainless steel chamber of the feeding part continuously conveys powder required by the experiment at a constant speed, and the stainless steel tank body of the receiving part is durable, so that the powder after the experiment can be conveniently and continuously collected.

Furthermore, the vacuum constant pressure system is composed of a vacuum pump, an electromagnetic valve and a touch screen.

Further, the four-channel proton flowmeter control system is composed of four independent proton flow controllers, a gas mixing tank and a touch screen.

Furthermore, the rotary furnace body part, the radio frequency power supply, the vacuum constant-pressure system and the four-channel proton flowmeter control system are electrically connected with a notebook computer.

The invention has the beneficial effects that:

1. the invention provides a plasma enhanced rotary lifting furnace system capable of automatically feeding and receiving materials at high temperature in a vacuum state, which provides convenience for the research on the aspects of rapid and efficient powder heat treatment and surface coating deposition;

2. compared with the traditional rotary furnace system, the rotary furnace system has the advantages of high temperature, convenient feeding and receiving, centralized operation and accurate control of all functions, is particularly suitable for the research of metal crystals in research institutes and colleges, adopts modularization for each control part, can be freely selected, and provides greater convenience for the research of powder heat treatment and surface coating deposition.

Drawings

The invention will be further described with reference to the accompanying drawings.

Fig. 1 is a schematic view of the overall structure of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "opening," "upper," "lower," "thickness," "top," "middle," "length," "inner," "peripheral," and the like are used in an orientation or positional relationship that is merely for convenience in describing and simplifying the description, and do not indicate or imply that the referenced component or element must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be considered as limiting the present invention.

An automatic material receiving and feeding plasma rotary lifting furnace system is shown in figure 1 and comprises a workbench 10, and a radio frequency power supply 2 is mounted at the side end of the workbench 10. The radio frequency power supply 2 is a 500W radio frequency power supply and consists of a matching power supply, a radio frequency power supply and a silver-plated induction coil, the highest matching use power is 500W, and the function of enhancing plasma so as to obviously reduce the surface temperature of experimental powder can be realized.

A supporting plate 20 is arranged above the workbench 10, supporting legs 30 and revolute pairs 40 are respectively arranged between the supporting plate 20 and the workbench 10, and the supporting legs 30 and the revolute pairs 40 are respectively arranged on two sides of the upper end of the workbench 10. Wherein, the supporting feet 30 support the supporting plate 20, and two sides of the rotating pair 40 are respectively fixed at the bottom end of the supporting plate 20 and the upper end of the working table 10.

A lifting mechanism 7 is arranged between the workbench 10 and the supporting plate 20, and the lifting mechanism 7 consists of an electric push rod, a control power supply and a controller. The feeding part 3 and the receiving part 4 can be lifted and inclined by rotating the whole body, so that feeding and receiving are facilitated during experiments.

The upper end of the supporting plate 20 is provided with a rotary furnace body part 1, the rotary furnace body part 1 is a 1500 ℃ three-temperature-zone rotary converter system, and consists of a 1500 ℃ three-temperature-zone high-temperature furnace and a rotary mechanism, the maximum temperature is 1500 ℃, the maximum rotary speed is 10 r/min, and a proper temperature area and a rotary environment capable of uniformly treating experimental materials can be provided.

One end of the rotary furnace body part 1 is connected with a feeding part 3, and the other end of the rotary furnace body part 1 is connected with a receiving part 4. The stainless steel chamber of the feeding part 3 can convey powder required by the experiment uninterruptedly at a constant speed, and a large amount of powder experiments can be carried out at one time. The stainless steel tank body of the material receiving part 4 is durable, can uninterruptedly collect powder after an experiment, and is convenient for carrying out experiments on a large amount of powder at one time.

The side of the material receiving part 4 is connected with a pipe body 41, one end of the pipe body 41 is connected with a vacuum constant pressure system 8, and the vacuum constant pressure system 8 is arranged on one side of the workbench 10. The vacuum constant pressure system 8 consists of a vacuum pump with excellent performance, an electromagnetic valve with reliable quality and a touch screen, and can enable a working chamber of experimental powder to achieve a relatively ideal vacuum environment.

A four-channel proton flow meter control system 5 is arranged on the other side of the workbench 10, and a notebook computer 6 is arranged above the four-channel proton flow meter control system 5. The four-channel proton flow meter control system 5 consists of four independent proton flow controllers, a gas mixing tank and a touch screen, can meet the experiment that the gas within four types is required at the same time, and can set different gas flow rates.

Meanwhile, the rotary furnace body part 1, the radio frequency power supply 2, the vacuum constant pressure system 8 and the four-channel proton flow meter control system 5 are electrically connected with the notebook computer 6, so that the operation is convenient.

When the furnace is in work, working powder is firstly placed into a cavity of the feeding part 3, then the notebook computer 6 controls the vacuum constant pressure system 8 to extract air in the furnace tube, then the four-channel proton flowmeter control system 5 is controlled to introduce gas required by work to form a gas environment required by work, the furnace tube is rotated and the rotary furnace is started to heat, the rotary furnace is lifted by the lifting mechanism 7 to incline, and when the rotary furnace reaches the temperature required by the experiment, the power of the radio frequency power supply 2 is set and the rotary furnace is started. And then opening a feeder switch to start feeding, opening a rotary button, and adjusting to a required rotating speed, so that the processes of uniform heat treatment of the experimental materials and uniform coating of the surface of the powder are realized, and then the experimental powder is collected by a material collecting tank.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed.

Claims (9)

1. An automatic material receiving and feeding plasma rotary lifting furnace system comprises a workbench (10), and is characterized in that a radio frequency power supply (2) is mounted at the side end of the workbench (10);

a supporting plate (20) is arranged above the workbench (10), supporting legs (30) and revolute pairs (40) are respectively arranged between the supporting plate (20) and the workbench (10), and the supporting legs (30) and the revolute pairs (40) are respectively arranged on two sides of the upper end of the workbench (10);

a lifting mechanism (7) is arranged between the workbench (10) and the supporting plate (20), the upper end of the supporting plate (20) is provided with a rotary furnace body part (1), one end of the rotary furnace body part (1) is connected with a feeding part (3), and the other end of the rotary furnace body part (1) is connected with a receiving part (4);

the side end of the material receiving part (4) is connected with a pipe body (41), one end of the pipe body (41) is connected with a vacuum constant pressure system (8), and the vacuum constant pressure system (8) is arranged on one side of the workbench (10);

a four-channel proton flow meter control system (5) is arranged on the other side of the workbench (10), and a notebook computer (6) is arranged above the four-channel proton flow meter control system (5).

2. The plasma rotary lifting furnace system capable of automatically feeding and discharging materials according to claim 1, wherein the radio frequency power supply (2) is a 500W radio frequency power supply and consists of a matching power supply, a radio frequency power supply and a silver-plated induction coil, and the highest matching power of 500W is used.

3. The automatic take-up and delivery plasma rotary lifting furnace system as claimed in claim 1, wherein the supporting feet (30) support the supporting plate (20), and two sides of the revolute pair (40) are respectively fixed at the bottom end of the supporting plate (20) and the upper end of the workbench (10).

4. The plasma rotary lifting furnace system capable of automatically collecting and feeding materials as claimed in claim 1, wherein the lifting mechanism (7) is composed of an electric push rod, a control power supply and a controller.

5. The rotary elevating furnace system for automatic reclaiming and feeding plasma as claimed in claim 1, wherein the rotary furnace body part (1) is a 1500 ℃ three temperature zone rotary converter system which consists of a 1500 ℃ three temperature zone high temperature furnace and a rotary mechanism, the maximum temperature is 1500 ℃ and the maximum rotation speed is 10 r/min.

6. The automatic material receiving and feeding plasma rotary lifting furnace system as claimed in claim 1, wherein the stainless steel chamber of the material feeding part (3) is used for conveying powder required by an experiment at a constant speed without interruption, and the stainless steel tank body of the material receiving part (4) is durable and is convenient for collecting powder after the experiment without interruption.

7. The plasma rotary lifting furnace system with automatic material receiving and feeding functions as claimed in claim 1, wherein the vacuum constant pressure system (8) is composed of a vacuum pump, an electromagnetic valve and a touch screen.

8. The automated pay-off and take-up plasma rotary elevator furnace system as claimed in claim 1, wherein the four-channel proton flow meter control system (5) is comprised of four separate proton flow controllers, gas mixing tank and touch screen.

9. The plasma rotary lifting furnace system capable of automatically collecting and feeding materials as claimed in claim 1, wherein the rotary furnace body part (1), the radio frequency power supply (2), the vacuum constant pressure system (8) and the four-channel proton flow meter control system (5) are electrically connected with a notebook computer (6).

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