CN216385063U - Beryllium copper is with high-efficient smelting furnace - Google Patents

Abstract

The utility model discloses a beryllium copper efficient smelting furnace which comprises an outer furnace body, a heating electromagnetic ring, a telescopic driving mechanism and a heating wire ring group, wherein a vacuum reaction mechanism is installed at the top of the outer part of the outer furnace body, a first feeding pipe is connected to one end of the top of the outer furnace body, a second feeding pipe is connected to the other end of the top of the outer furnace body, a control panel is installed on the front surface of the outer part of the outer furnace body, and a first discharging pipe is connected to one side of the bottom of the outer furnace body. According to the utility model, the heating electromagnetic ring is wrapped on the outer layer of the heating pot body through accessories such as the heating pot body, the heating electromagnetic ring and the supporting plate, the heating electromagnetic ring is connected with the vacuum reaction mechanism to realize high-temperature heating of the heating pot body to start refining work on the internal solution, the whole heating pot body is stably fixed into the outer furnace body through the matching of the supporting plate and the fixing screw piece, the smelting speed is improved, and the high-efficiency and stable performances are achieved.

Description

Beryllium copper is with high-efficient smelting furnace

Technical Field

The utility model relates to the technical field of beryllium copper processing, in particular to a high-efficiency smelting furnace for beryllium copper.

Background

The beryllium copper strip has high strength, hardness, elastic limit and fatigue limit after solution aging treatment, small elastic hysteresis, corrosion resistance and processability, and the beryllium copper alloy is an irreplaceable material for the submarine cable repeater structure. Wear resistance, low temperature resistance, no magnetism, high conductivity, impact, no spark and the like. Meanwhile, the coating has better fluidity and the capability of reproducing fine patterns. Due to the excellent properties of beryllium-copper alloy, the beryllium-copper alloy has been widely used in manufacturing industry. Strong conductivity, wear resistance, low temperature resistance, no magnetism, high conductivity, impact and no spark. Meanwhile, the coating has better fluidity and the capability of reproducing fine patterns. Due to the excellent properties of beryllium-copper alloy, the beryllium-copper alloy has been widely used in manufacturing industry. The product has complete specification, favorable price, complete package, pure copper, good straightness and large inventory, and can provide material quality certification and SGS report.

The existing smelting furnace has low heating efficiency, and the problems of temperature reduction and the like can occur when the solution is discharged.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a high-efficiency smelting furnace for beryllium copper, which solves the problems that the existing smelting furnace proposed in the background art is low in heating efficiency, and the temperature is reduced when the solution is discharged.

In order to achieve the purpose, the utility model provides the following technical scheme: the utility model provides a beryllium copper is with high-efficient smelting furnace, includes outer furnace body, heating electromagnetic ring, flexible actuating mechanism and heating wire circle group, vacuum reaction mechanism is installed at the outside top of outer furnace body, the one end at outer furnace body top is connected and is provided with first filling tube, the other end at outer furnace body top is connected and is provided with the second filling tube, control panel is installed in the outside front of outer furnace body, one side connection of outer furnace body bottom is provided with first discharging pipe, the opposite side connection of outer furnace body bottom is provided with the second discharging pipe.

Preferably, the inside of outer furnace body is provided with the heating pot body, the externally mounted of the heating pot body has the heating electromagnetic ring, the both ends of heating pot body bottom all are provided with the backup pad.

Preferably, one end of the first discharge pipe and one end of the second discharge pipe are both connected with valves.

Preferably, the first discharge pipe and the second discharge pipe are provided with heating coil groups on the outer portions.

Preferably, the bottom of the heating pot body is connected with a first material passing pipe, and one side of the bottom of the first material passing pipe is provided with a telescopic driving mechanism.

Preferably, one side of the supporting plate is connected with a fixing screw piece, and the supporting plate is fixed at two sides of the inner part of the outer furnace body through the fixing screw piece.

Preferably, the bottom of one end of the supporting plate is connected with a fixed loop bar, and the telescopic driving mechanism is fixed inside the fixed loop bar.

Preferably, the internal connection of the bottom of the first material passing pipe is provided with a through groove, and the through groove and the inside of the first material passing pipe are provided with a stop block.

Preferably, one end of the stop block is connected with a heat insulation block, and the heat insulation block is fixedly connected with the telescopic driving mechanism.

Compared with the prior art, the utility model has the beneficial effects that:

(1) according to the efficient smelting furnace for beryllium copper, the heating electromagnetic ring is wrapped on the outer layer of the heating pot body through accessories such as the heating pot body, the heating electromagnetic ring and the supporting plate, the heating electromagnetic ring is connected with the vacuum reaction mechanism to heat the heating pot body at high temperature, so that the refining work of an internal solution can be started, the whole heating pot body is stably fixed into an outer furnace body through the matching of the supporting plate and a fixing screw piece, the smelting speed is improved, and the efficient and stable performances are achieved;

(2) according to the efficient smelting furnace for beryllium copper, the telescopic driving mechanism is started to drive the stop block to be separated from the range inside the through groove through accessories such as the first material passing pipe, the second material passing pipe and the stop block, and the stop block is moved to the left side position outside the first material passing pipe, so that a solution passing through the first material passing pipe can be smoothly discharged through the first material passing pipe or the second material passing pipe, the telescopic driving mechanism and the stop block are effectively isolated by the heat insulation block, and the problem that the telescopic driving mechanism is damaged due to the fact that the telescopic driving mechanism is contacted with the telescopic driving mechanism at high temperature is avoided;

(3) this kind of beryllium copper is with high-efficient smelting furnace, through at heating wire circle group accessory, heating wire circle group parcel is outside at first discharging pipe and second discharging pipe, can carry out the constant temperature heating to the solution that inside passes through during the heating, guarantees that the temperature is in there is the temperature, and the temperature falls to unable user state when effectively avoiding solution to discharge.

Drawings

FIG. 1 is a front view of the external structure of the present invention;

FIG. 2 is a front view of the external structure of the present invention;

FIG. 3 is an enlarged view of the structure at A in FIG. 2 according to the present invention;

FIG. 4 is a schematic view of the connection between the heating pot body and the heating electromagnetic ring in a top view;

FIG. 5 is a schematic view of the connection structure of the first discharge pipe and the second discharge pipe with the heating coil assembly according to the present invention.

In the figure: 1. an outer furnace body; 2. a vacuum reaction mechanism; 3. a first feed tube; 4. a second feed tube; 5. a control panel; 6. a first discharge pipe; 7. a second discharge pipe; 701. a valve; 8. heating the pan body; 9. heating the electromagnetic coil; 10. a support plate; 1001. fixing a screw member; 11. a first material passing pipe; 1101. a through groove; 12. a telescopic driving mechanism; 13. fixing the loop bar; 14. a stopper; 15. a heat insulation block; 16. and heating the wire coil group.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. 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.

Referring to fig. 1-5, an embodiment of the present invention is shown: a beryllium copper is with high-efficient smelting furnace, including outer furnace body 1, heating electromagnetic ring 9, flexible actuating mechanism 12 and heating wire circle group 16, the top outside outer furnace body 1 is fitted with the vacuum reaction mechanism 2, one end connection of the top of outer furnace body 1 has the first feed pipe 3, another end connection of the top of outer furnace body 1 has the second feed pipe 4, the dual-purpose feed position, can improve the speed of blanking;

a control panel 5 is arranged on the front surface of the outer part of the outer furnace body 1, a first discharge pipe 6 is connected to one side of the bottom of the outer furnace body 1, and a second discharge pipe 7 is connected to the other side of the bottom of the outer furnace body 1;

a heating pot body 8 is arranged in the outer furnace body 1, a first material passing pipe 11 is connected to the bottom of the heating pot body 8, and a telescopic driving mechanism 12 is arranged on one side of the bottom of the first material passing pipe 11;

a heating electromagnetic ring 9 is arranged outside the heating pot body 8, supporting plates 10 are arranged at two ends of the bottom of the heating pot body 8, and the supporting plates 10 play a role in supporting the heating pot body 8;

one end of the first discharging pipe 6 and one end of the second discharging pipe 7 are both connected with a valve 701;

the heating wire coil groups 16 are arranged outside the first discharge pipe 6 and the second discharge pipe 7, and the heating wire coil groups 16 heat the interiors of the first discharge pipe 6 and the second discharge pipe 7;

one side of the supporting plate 10 is connected with a fixing screw member 1001, and the supporting plate 10 is fixed at two side positions inside the outer furnace body 1 through the fixing screw member 1001;

the bottom of one end of the supporting plate 10 is connected with a fixed loop bar 13, and the telescopic driving mechanism 12 is fixed inside the fixed loop bar 13;

a through groove 1101 is connected to the inside of the bottom of the first material passing pipe 11, a stopper 14 is arranged inside the through groove 1101 and the first material passing pipe 11, and the stopper 14 can isolate the solution passing through the inside of the first material passing pipe 11;

one end of the block 14 is connected with a heat insulation block 15, and the heat insulation block 15 is fixedly connected with the telescopic driving mechanism 12.

When the embodiment of the application is used: metal objects such as beryllium copper are put into the heating pot body 8 through the first feeding pipe 3 and the second feeding pipe 4, the heating electromagnetic ring 9 is connected with the vacuum reaction mechanism 2 to realize that high-temperature heating can be carried out on the heating pot body 8 to start refining work on the internal solution, the solution utilizes the telescopic driving mechanism 12 to stretch out and draw back the stop dog 14 when passing through the first material pipe 11, and then the solution can be smoothly discharged from the first material pipe 6 and the second material pipe 7 through the first material pipe 11.

Claims (9)

1. The utility model provides a beryllium copper is with high-efficient smelting furnace, its characterized in that, includes outer furnace body (1), heating electromagnetic ring (9), flexible actuating mechanism (12) and heating wire circle group (16), vacuum reaction mechanism (2) are installed at the outside top of outer furnace body (1), the one end at outer furnace body (1) top is connected and is provided with first filling tube (3), the other end at outer furnace body (1) top is connected and is provided with second filling tube (4), control panel (5) are installed in the outside front of outer furnace body (1), one side of outer furnace body (1) bottom is connected and is provided with first discharging pipe (6), the opposite side of outer furnace body (1) bottom is connected and is provided with second discharging pipe (7).

2. The efficient smelting furnace for beryllium copper according to claim 1, characterized in that: the heating device is characterized in that a heating pot body (8) is arranged inside the outer furnace body (1), a heating electromagnetic ring (9) is arranged outside the heating pot body (8), and supporting plates (10) are arranged at two ends of the bottom of the heating pot body (8).

3. The efficient smelting furnace for beryllium copper according to claim 1, characterized in that: one end of the first discharging pipe (6) and one end of the second discharging pipe (7) are both connected with a valve (701).

4. The efficient smelting furnace for beryllium copper according to claim 3, characterized in that: the first discharge pipe (6) and the second discharge pipe (7) are both provided with heating coil groups (16) on the outside.

5. The efficient smelting furnace for beryllium copper according to claim 2, characterized in that: the bottom of the heating pot body (8) is connected with a first material passing pipe (11), and one side of the bottom of the first material passing pipe (11) is provided with a telescopic driving mechanism (12).

6. The efficient smelting furnace for beryllium copper according to claim 2, characterized in that: one side of the supporting plate (10) is connected with a fixing screw piece (1001), and the supporting plate (10) is fixed at the two sides inside the outer furnace body (1) through the fixing screw piece (1001).

7. The efficient smelting furnace for beryllium copper according to claim 6, characterized in that: the bottom of one end of the supporting plate (10) is connected with a fixed loop bar (13), and the telescopic driving mechanism (12) is fixed inside the fixed loop bar (13).

8. The efficient smelting furnace for beryllium copper according to claim 5, characterized in that: the internal connection of first logical pipe (11) bottom is provided with logical groove (1101), the inside of logical groove (1101) and first logical pipe (11) is provided with dog (14).

9. The efficient smelting furnace for beryllium copper according to claim 8, characterized in that: one end of the stop block (14) is connected with a heat insulation block (15), and the heat insulation block (15) is fixedly connected with the telescopic driving mechanism (12).

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