CN108092033B - Electrode flange, manufacturing method thereof and vacuum furnace adopting electrode flange - Google Patents

Abstract

The invention relates to an electrode flange, a manufacturing method thereof and a vacuum furnace adopting the electrode flange, wherein the electrode flange comprises a disc-shaped substrate, at least two groups of conducting rods are fixedly arranged on the substrate, the at least two groups of conducting rods are respectively matched with corresponding connectors, each conducting rod penetrates through the substrate to form a plug-in part on two sides of the substrate, and a high-temperature resistant insulating layer is arranged between each conducting rod and the wall of a mounting hole of the conducting rod. The method comprises the steps of preparing the substrate and the conducting rod, and fixing the conducting rod on the substrate through a glass sintering process to form the high-temperature-resistant insulating layer. The vacuum furnace is provided with the electrode flange. The electrode flange is integrated with a plurality of groups of conducting rods, and a plurality of same or different connectors can be adapted, so that the electrode flange is very convenient and flexible to use. Can be applied to high temperature equipment.

Description

Electrode flange, manufacturing method thereof and vacuum furnace adopting electrode flange

Technical Field

The present invention relates to a connector, and more particularly, to an electrode flange, a method of manufacturing the electrode flange, and a vacuum furnace using the electrode flange.

Background

When using a vacuum oven (vacuum furnace) for various tests, the necessary power and data lines need to be quickly introduced into the box, conventionally through standard aviation plugs. Each plug has a single function, is connected with a data wire or a power wire, and is replaced by a special blind plate once the plug is used up, so that the plug is very inconvenient to use. In particular, some small vacuum furnaces, because of limited volume, are difficult to install multiple aviation plugs, which can cause significant inconvenience to production and use.

Disclosure of Invention

The invention aims to provide an electrode flange, a manufacturing method thereof and a vacuum furnace adopting the electrode flange, so as to solve the problems existing in the internal and external wiring of the vacuum furnace.

In order to achieve the above purpose, the technical scheme adopted by the invention is as follows:

the utility model provides an electrode flange, its includes the base plate of disc, the base plate has set firmly two at least groups conducting rod, two at least groups conducting rod adapt corresponding connector respectively, each the conducting rod all runs through the base plate is in the both sides of base plate form grafting portion respectively, every the conducting rod is provided with high temperature resistant insulating layer with the pore wall of its mounting hole between.

In the above electrode flange, preferably, at least one of the at least two sets of conductive rods is a power conductive rod, and at least one set of conductive rods is a signal conductive rod.

In the above electrode flange, preferably, the high temperature resistant insulating layer is a glass layer.

In the above electrode flange, preferably, the high temperature resistant insulating layer is a ceramic layer.

In the above electrode flange, preferably, the at least two sets of conductive rods are different in the number of conductive rods, the diameter of the conductive rods, the pitch of the conductive rods, and/or the pattern in which the conductive rods are arranged.

A method of manufacturing an electrode flange, the method comprising:

preparing a disc-shaped substrate, and forming a conductive rod mounting hole on the substrate;

preparing a conductive rod; and

the conducting rod is fixed in the corresponding conducting rod mounting hole through a glass sintering process, and a high-temperature resistant insulating layer is formed between the conducting rod and the hole wall of the mounting hole.

A vacuum furnace comprising a furnace body provided with an electrode flange as claimed in any one of the preceding claims.

Compared with the prior art, the invention has at least the following beneficial effects:

the electrode flanges are integrated with a plurality of groups of conductive rods, a plurality of identical or different connectors can be adapted, each device (such as a vacuum furnace) only needs to be provided with one electrode flange, and when the electrode flange is used, the connection between the inside and the outside of the device can be realized by only plugging the connectors corresponding to the inside and the outside of the device with plug-in parts on the front side and the back side of the electrode flange, so that the electrode flange is very convenient and flexible to use. In addition, a high-temperature resistant insulating layer is arranged between the substrate and the conducting rod, so that the high-temperature resistant insulating layer can be suitable for high-temperature equipment.

Drawings

FIG. 1 is a schematic view of some embodiments of electrode flanges;

fig. 2 is a front perspective view thereof, further showing a mating connector;

fig. 3 is a rear perspective view thereof, further showing a mating connector.

Detailed Description

The invention is further described below with reference to the drawings and examples.

Referring to fig. 1 to 3, an electrode flange 100 of some embodiments includes a disc-shaped substrate 10, two groups of conductive rods 20 are fixedly arranged on the substrate 10, the two groups of conductive rods 20 are respectively adapted to corresponding connectors 200, each conductive rod 20 penetrates through the substrate 10 to form a plugging portion on two sides of the substrate 10, and a high-temperature-resistant insulating layer 30 is arranged between each conductive rod 20 and a wall of a mounting hole 11 thereof.

When in use, the wires on two sides can be conveniently connected by plugging the corresponding connector, such as one connector 200 in the figure, with the plugging parts of the conductive rods on the front and the back of the substrate 10.

Further, one group of conductive rods with larger rod diameter among the two groups of conductive rods 20 is a power conductive rod, and the other group of conductive rods with smaller rod diameter is a signal conductive rod.

In one embodiment, the high temperature resistant insulating layer 30 is a glass layer. In another embodiment, the refractory insulating layer 30 is a ceramic layer.

It will be appreciated that more sets of conductive rods 20 may also be provided on the substrate 10 to connect more connectors 200. In addition, in order to facilitate distinguishing and identifying different signals, the at least two groups of conductive rods are different in the number of the conductive rods, the diameter of the conductive rods, the distance between the conductive rods and/or the pattern formed by arranging the conductive rods, so that the connector cannot be connected in error, and the use is more convenient.

The manufacturing method of the electrode flange comprises the following steps:

preparing a disc-shaped substrate 10, and forming a conductive rod mounting hole 11 on the substrate 10;

preparing a conductive rod 20; and

the conductive rods 20 are fixed in the corresponding conductive rod mounting holes 11 by a glass sintering process to form a high temperature resistant insulating layer 30 between the conductive rods 20 and the walls of the mounting holes 11 thereof.

The electrode flange 100 can be applied to a vacuum furnace, and is particularly suitable for the vacuum furnace with a plurality of mounting holes difficult to open or with a small box body with a plurality of mounting holes difficult to open.

The foregoing detailed description of the invention has been provided by way of example only to assist those skilled in the art in understanding the invention and is not to be construed as limiting the scope of the invention. Various modifications, equivalent changes, etc. which are made by those skilled in the art to the above-described embodiments under the inventive concept should be included in the scope of the present invention.

Claims (3)

1. An electrode flange comprising a disc-shaped substrate, characterized in that: the substrate is fixedly provided with at least two groups of conductive rods, the at least two groups of conductive rods are respectively matched with corresponding connectors, each conductive rod penetrates through the substrate to form a plug-in part on two sides of the substrate, and a high-temperature-resistant insulating layer is arranged between each conductive rod and the wall of each mounting hole;

at least one group of conducting rods in the at least two groups of conducting rods are power conducting rods, and at least one group of conducting rods are signal conducting rods;

the high-temperature resistant insulating layer is a ceramic layer;

the at least two sets of conductive rods differ in the number of conductive rods, the diameter of the conductive rods, the spacing between the conductive rods, and/or the pattern in which the conductive rods are arranged.

2. The electrode flange according to claim 1, wherein: the high-temperature resistant insulating layer is a glass layer.

3. The utility model provides a vacuum furnace, includes furnace body, its characterized in that: the furnace body is provided with an electrode flange according to any one of claims 1 to 2.