阅读说明：本技术 一种大电流动态电解电极器 (Large-current dynamic electrolysis electrode device ) 是由 晏安奔 陈云飞 杨光敏 潘佳 陈斌 于 2020-06-30 设计创作，主要内容包括：本发明提供的一种大电流动态电解电极器,包括支撑板、电极板、电极固定板、电极片、连接轴；所述两个连接轴分别固定在支撑板下端,两个电极固定板分别活动安装在两个连接轴下端,两个电极片分别固定在两个连接轴上,两个电极片分别通过两个电极线与电极板上的两个轴固定螺栓连接,电极板固定在支撑板的侧面上,所述支撑板两端通过高度调节装置与供电装置连接,所述两个,电极固定板之间安装有复位装置。本发明通过在电极与供电设备之间的连接装置之间设置高度调节装置调节电极和传送带之间的相对位置,并且在两个电机之间连接回位弹簧,使电极紧密与传输钢带接触。(The invention provides a high-current dynamic electrolysis electrode device which comprises a supporting plate, an electrode fixing plate, an electrode plate and a connecting shaft, wherein the electrode plate is arranged on the supporting plate; the two connecting shafts are respectively fixed at the lower end of the supporting plate, the two electrode fixing plates are respectively movably mounted at the lower ends of the two connecting shafts, the two electrode plates are respectively fixed on the two connecting shafts, the two electrode plates are respectively connected with two shaft fixing bolts on the electrode plates through two electrode wires, the electrode plates are fixed on the side faces of the supporting plate, the two ends of the supporting plate are connected with a power supply device through a height adjusting device, and a reset device is mounted between the two electrode fixing plates. The invention adjusts the relative position between the electrode and the conveyor belt by arranging the height adjusting device between the electrode and the connecting device of the power supply equipment, and connects the return spring between the two motors, so that the electrode is tightly contacted with the transmission steel belt.)

1. The utility model provides a heavy current developments electrolysis electrode ware, includes backup pad (1), plate electrode (3), electrode fixing plate (5), electrode slice (6), connecting axle (9), its characterized in that: the electrode plate fixing device is characterized in that the two connecting shafts (9) are fixed at the lower end of the supporting plate (1) respectively, the two electrode fixing plates (5) are movably mounted at the lower ends of the two connecting shafts (9) respectively, the two electrode plates (6) are fixed on the two connecting shafts (9) respectively, the two electrode plates (6) are connected with two shaft fixing bolts (92) on the electrode plates (3) through the two electrode wires (4), the electrode plates (3) are fixed on the side face of the supporting plate (1), the two ends of the supporting plate (1) are connected with a power supply device through a height adjusting device, and a resetting device is mounted between the two electrode fixing plates (5.

2. A high current dynamic electrolysis electrode according to claim 1 wherein: the height adjusting device comprises height adjusting plates (2), wherein the two height adjusting plates (2) are respectively and vertically fixedly connected to the two ends of the supporting plate (1), two strip-shaped grooves are vertically machined in the end faces of the height adjusting plates (2), and adjusting bolts (21) are installed in the strip-shaped grooves.

3. A high current dynamic electrolysis electrode according to claim 1 wherein: the resetting device comprises spring columns (7) and tension springs (8), wherein the two spring columns (7) are vertically and fixedly connected to the electrode fixing plate (5) respectively, and two ends of each tension spring (8) are fixedly connected to the two spring columns (7) respectively.

4. A high current dynamic electrolysis electrode according to claim/3 wherein: the spring columns (7) are arranged above the electrode plates (6), and chamfers are machined on the adjacent surfaces of the two electrode plates (6) and the positions adjacent to the spring columns (7).

5. A high current dynamic electrolysis electrode according to claim 1 wherein: threaded holes and bearing steps are respectively machined at two ends of the connecting shaft (9), one end with the threaded holes is in contact with the bottom of the supporting plate (1), a shaft fixing bolt (92) penetrates through the bottom of the supporting plate (1) to be matched with the threaded holes to fix the connecting shaft (9) at the lower end of the supporting plate (1), a bearing (91) is installed at one end with the bearing steps, and the bearing (91) is fixed in a bearing groove in the electrode fixing plate (5).

6. The high current dynamic electrolysis electrode according to claim 4, wherein: two bearings (91) are arranged on the connecting shaft (9) and are respectively fixed at the top and the bottom of a bearing groove in the electrode fixing plate (5).

7. The high current dynamic electrolysis electrode according to claim 5, wherein: the electrode fixing plate (5) is composed of two flat plates, a bearing groove is respectively processed on the two flat plates, and the two bearings (91) are respectively arranged in the bearing grooves of the two flat plates.

8. A high current dynamic electrolysis electrode according to claim 1 wherein: the electrode plates (6) are arranged between the two flat plates and are fixed through locking bolts (51) arranged on the two flat plates.

9. A high current dynamic electrolysis electrode according to claim 1 wherein: the electrode plate (3) is an anti-corrosion insulating plate.

Technical Field

The invention relates to a high-current dynamic electrolysis electrode device.

Background

In an electrolytic high-voltage flash removing equipment system, electrodes mainly have the functions that electrolytic current of a rectifier is transmitted to a moving steel product conveyor belt through a lead wire and an electrode device, and a plastic package device finishes burr softening by an electrochemical reaction of an electrode plate through an electrolytic solution tank, so that the aim of removing product flash by a high-voltage water gun is finally fulfilled.

However, due to the structural design defects of the existing electrode, the electrode plate is often insufficiently contacted with the transmission steel belt to cause the ignition of large current of nearly 200 amperes, and even the steel belt and the rectifier are directly burnt, so that the product quality, the equipment and the personal safety are seriously affected.

Disclosure of Invention

In order to solve the technical problem, the invention provides a high-current dynamic electrolysis electrode device.

The invention is realized by the following technical scheme.

The invention provides a high-current dynamic electrolysis electrode device which comprises a supporting plate, an electrode fixing plate, an electrode plate and a connecting shaft, wherein the electrode plate is arranged on the supporting plate; the two connecting shafts are respectively fixed at the lower end of the supporting plate, the two electrode fixing plates are respectively movably mounted at the lower ends of the two connecting shafts, the two electrode plates are respectively fixed on the two connecting shafts, the two electrode plates are respectively connected with two shaft fixing bolts on the electrode plates through two electrode wires, the electrode plates are fixed on the side faces of the supporting plate, the two ends of the supporting plate are connected with a power supply device through a height adjusting device, and a reset device is mounted between the two electrode fixing plates.

The height adjusting device comprises height adjusting plates, the two height adjusting plates are respectively and vertically fixedly connected to the two ends of the supporting plate, two strip-shaped grooves are vertically machined in the end faces of the height adjusting plates, and adjusting bolts are installed in the strip-shaped grooves.

The reset device comprises spring columns and tension springs, the two spring columns are respectively and vertically fixedly connected to the electrode fixing plate, and two ends of each tension spring are respectively and fixedly connected to the two spring columns.

The spring column is arranged above the electrode plates, and chamfers are machined on the adjacent surfaces of the two electrode plates and the adjacent positions of the two electrode plates and the spring column.

The two ends of the connecting shaft are respectively provided with a threaded hole and a bearing step, one end provided with the threaded hole is in contact with the bottom of the supporting plate, a shaft fixing bolt penetrates through the bottom of the supporting plate to be matched with the threaded hole to fix the connecting shaft at the lower end of the supporting plate, one end provided with the bearing step is provided with a bearing, and the bearing is fixed in a bearing groove in the electrode fixing plate.

Two bearings are arranged on the connecting shaft and are respectively fixed at the top and the bottom of a bearing groove in the electrode fixing plate.

The electrode fixing plate is composed of two flat plates, a bearing groove is respectively processed on the two flat plates, and the two bearings are respectively arranged in the bearing grooves of the two flat plates.

The electrode slice is arranged between the two flat plates and is fixed through locking bolts arranged on the two flat plates.

The electrode plate is an anti-corrosion insulating plate.

The invention has the beneficial effects that: the electrode is closely contacted with the transmission steel belt by arranging a height adjusting device between the electrode and a connecting device of the power supply equipment to adjust the relative position between the electrode and the conveyor belt and connecting a return spring between the two motors.

Drawings

FIG. 1 is a schematic structural view of the present invention;

in the figure: 1-support plate, 2-height adjusting plate, 21-adjusting bolt, 3-electrode plate, 4-electrode wire, 5-electrode fixing plate, 51-locking bolt, 6-electrode plate, 61-terminal A, 62-terminal B, 7-spring column, 8-tension spring, 9-connecting shaft, 91-bearing, 92-shaft fixing bolt and 10-electrode plate fixing bolt.

Detailed Description

The technical solution of the present invention is further described below, but the scope of the claimed invention is not limited to the described.

A high-current dynamic electrolysis electrode device comprises a supporting plate 1, an electrode plate 3, an electrode fixing plate 5, an electrode plate 6 and a connecting shaft 9; the two connecting shafts 9 are respectively fixed at the lower end of the supporting plate 1, the two electrode fixing plates 5 are respectively movably mounted at the lower ends of the two connecting shafts 9, the two electrode plates 6 are respectively fixed on the two connecting shafts 9, the two electrode plates 6 are respectively connected with the two shaft fixing bolts 92 on the electrode plate 3 through the two electrode wires 4, the electrode plate 3 is fixed on the side surface of the supporting plate 1, the two ends of the supporting plate 1 are connected with a power supply device through a height adjusting device, and a reset device is mounted between the two electrode fixing plates 5.

The electrode is closely contacted with the transmission steel belt by arranging a height adjusting device between the electrode and a connecting device of the power supply equipment to adjust the relative position between the electrode and the conveyor belt and connecting a return spring between the two motors.

Height adjusting device includes height adjusting plate 2, and two height adjusting plate 2 perpendicular rigid coupling respectively have two bar grooves at the both ends of backup pad 1 on height adjusting plate 2's the terminal surface vertical processing, and adjusting bolt 21 is installed to the bar inslot.

The resetting device comprises spring columns 7 and tension springs 8, the two spring columns 7 are vertically and fixedly connected to the electrode fixing plate 5 respectively, and two ends of each tension spring 8 are fixedly connected to the two spring columns 7 respectively.

The spring columns 7 are arranged above the electrode plates 6, and chamfers are machined on the adjacent surfaces of the two electrode plates 6 and the adjacent positions of the two electrode plates and the spring columns 7.

Threaded holes and bearing steps are respectively machined at two ends of the connecting shaft 9, one end with the threaded holes is in contact with the bottom of the supporting plate 1, a shaft fixing bolt 92 penetrates through the bottom of the supporting plate 1 to be matched with the threaded holes to fix the connecting shaft 9 at the lower end of the supporting plate 1, a bearing 91 is installed at one end with the bearing steps, and the bearing 91 is fixed in a bearing groove in the electrode fixing plate 5.

Two bearings 91 are arranged on the connecting shaft 9 and are respectively fixed at the top and the bottom of a bearing groove in the electrode fixing plate 5.

The electrode fixing plate 5 is composed of two flat plates, a bearing groove is respectively processed on the two flat plates, and the two bearings 91 are respectively arranged in the bearing grooves of the two flat plates.

The electrode plate 6 is installed between the two flat plates and fixed by locking bolts 51 installed on the two flat plates.

The electrode plate 3 is an anti-corrosion insulating plate.