CN216212406U - Soft double-deck strenghthened type electroplating device and heavy current equipment cable for connection - Google Patents

Abstract

The utility model discloses a flexible double-layer reinforced cable for connecting electroplating equipment and high-current equipment, which comprises a copper core flexible conductor, wherein an extrusion type white flame-retardant polyvinyl chloride inner insulating layer is fixedly arranged outside the copper core flexible conductor; the compression-resistant mechanism comprises a compression-resistant inner ring sleeve, a supporting reinforcing rib plate, a reinforcing rib plate and a compression-resistant outer ring sleeve. The utility model aims at solving the problems that the cable of the electroplating equipment or the heavy current equipment in the prior art is not provided with a compression-resistant structure generally, so that the strength of the cable is not enough, and the cable is damaged when being pressed by an external heavy object.

Description

Soft double-deck strenghthened type electroplating device and heavy current equipment cable for connection

Technical Field

The utility model relates to the technical field of cables, in particular to a flexible double-layer reinforced cable for connecting electroplating equipment and high-current equipment.

Background

The cable is an electric energy or signal transmission device, and usually consists of several or several groups of wires, and electroplating equipment and high-current equipment need to be transmitted through the cable when in operation.

In the prior art, the cable of electroplating equipment or heavy current equipment does not usually have a compression-resistant structure, so that the strength of the cable is not enough, and the cable is damaged when the cable is subjected to the pressure of an external heavy object.

Aiming at the technical problems, the utility model discloses a flexible double-layer reinforced cable for connecting electroplating equipment and high-current equipment, and the flexible double-layer reinforced cable has the advantages of higher strength, better compression resistance and the like.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects of the prior art, provides a flexible double-layer reinforced cable for connecting electroplating equipment and high-current equipment, and aims to solve the technical problems that the cable of the electroplating equipment or the high-current equipment in the prior art is not provided with a compression-resistant structure generally, so that the strength of the cable is not enough, the cable is damaged when being stressed by an external heavy object, and the like.

The utility model is realized by the following technical scheme: the utility model discloses a flexible double-layer reinforced cable for connecting electroplating equipment and high-current equipment, which comprises a copper core flexible conductor, wherein an extrusion type white flame-retardant polyvinyl chloride inner insulating layer is fixedly arranged outside the copper core flexible conductor, an orange flame-retardant butyronitrile outer sheath is fixedly arranged outside the extrusion type white flame-retardant polyvinyl chloride inner insulating layer, a compression-resistant mechanism is arranged outside the orange flame-retardant butyronitrile outer sheath, an outer insulating layer is arranged outside the compression-resistant mechanism, an outer sheath layer is fixedly arranged outside the outer insulating layer, and a reinforcing layer is fixedly arranged outside the outer sheath layer.

Furthermore, the inside of oversheath layer is fixed and is provided with the strengthening rib pole, and the strengthening rib pole is provided with a plurality ofly, and the strengthening rib pole encircles and sets up in the inside of oversheath layer.

Furthermore, the material of back up coat is aramid fiber.

Further, resistance to compression mechanism is including resistance to compression inner ring cover, support deep floor, deep floor and resistance to compression outer ring cover, resistance to compression inner ring cover is fixed to be set up in the outside of the fire-retardant butyronitrile oversheath of orange, resistance to compression inner ring cover's external fixation is provided with and supports deep floor, and it is provided with threely to support deep floor, it is fixed to be provided with deep floor to support between the deep floor, and deep floor is provided with threely, three deep floor is triangle-shaped, resistance to compression outer ring cover is located the outside that supports deep floor, and the other end that supports deep floor and the inner wall fixed connection of resistance to compression outer ring cover.

Furthermore, the included angle between the supporting reinforcing rib plates outside the compression-resistant inner ring sleeve is sixty degrees.

Furthermore, a filling layer is arranged between the compression-resistant outer ring sleeve and the compression-resistant inner ring sleeve.

The utility model has the following advantages:

(1) according to the utility model, the compression-resistant mechanism is arranged, so that when the cable is subjected to the pressure of an external heavy object, the three supporting reinforcing rib plates can play a role of triangular support in the cable, thereby preventing the cable from being deformed and damaged due to the pressure of the heavy object, and the three reinforcing rib plates are arranged, so that the three supporting reinforcing rib plates are reinforced and supported through the three reinforcing rib plates, and the supporting effect of the three supporting reinforcing rib plates is more stable.

(2) According to the cable, the reinforcing rib rods, the reinforcing layer and the outer sheath layer are arranged, the reinforcing layer is made of aramid fibers, so that the strength of the outer layer of the cable is higher through the reinforcing layer, the cable is prevented from being damaged when being subjected to external pressure, the strength of the outer sheath layer is increased through the plurality of reinforcing rib rods through the reinforcing rib rods, the outer sheath layer is prevented from being broken when being subjected to heavy object pressure, and the strength of the cable is higher.

Drawings

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

FIG. 2 is a schematic view of the construction of the support stiffeners and the stiffener of the present invention;

fig. 3 is a schematic structural diagram of the pressure-resistant mechanism of the present invention.

In the figure: 1. a copper core soft conductor; 2. an extrusion type white flame-retardant polyvinyl chloride inner insulating layer; 3. an orange flame-retardant butyronitrile outer sheath; 4. a compression resistance mechanism; 5. an outer insulating layer; 6. an outer jacket layer; 7. a reinforcement layer; 8. a reinforcing bar rod; 9. a filling layer; 401. a compression-resistant inner ring sleeve; 402. supporting the reinforcing rib plate; 403. reinforcing a rib plate; 404. the outer ring cover of resistance to compression.

Detailed Description

In the description of the present invention, words like "front", "rear", "left", "back", etc. indicating directions or positional relationships are only used for convenience of describing the present invention and simplifying the description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation and be operated, and thus, should not be construed as limiting the present invention.

Example 1

Embodiment 1 discloses a flexible double-layer reinforced cable for connecting electroplating equipment and high-current equipment, as shown in fig. 1, the cable comprises a copper core flexible conductor 1, wherein the copper core flexible conductor 1 is arranged, so that the electric conduction effect of the cable is better through the electric conductivity of copper, an extrusion type white flame-retardant polyvinyl chloride inner insulating layer 2 is fixedly arranged outside the copper core flexible conductor 1, the extrusion type white flame-retardant polyvinyl chloride inner insulating layer 2 is arranged, the extrusion type white flame-retardant polyvinyl chloride inner insulating layer 2 plays a flame-retardant function, so that the cable has the fireproof performance, an orange flame-retardant butyronitrile outer sheath 3 is fixedly arranged outside the extrusion type white flame-retardant polyvinyl chloride inner insulating layer 2, a compression mechanism 4 is arranged outside the orange flame-retardant butyronitrile outer sheath 3, an outer insulating layer 5 is arranged outside the compression mechanism 4, an outer sheath layer 6 is fixedly arranged outside the outer insulating layer 5, a reinforcing layer 7 is fixedly arranged outside the outer sheath layer 6; the reinforcing rib rods 8 are fixedly arranged inside the outer sheath layer 6, the plurality of reinforcing rib rods 8 are arranged, the reinforcing rib rods 8 are arranged inside the outer sheath layer 6 in a surrounding mode, specifically, the reinforcing rib rods 8 are made of iron wires, and the reinforcing rib rods 8 are arranged, so that the strength of the outer sheath layer 6 can be increased through the plurality of reinforcing rib rods 8, the outer sheath layer 6 can be prevented from being broken when being stressed by heavy objects, and the strength of the cable can be higher; the reinforcing layer 7 is made of aramid fibers, specifically, the reinforcing layer 7 is made of aramid fibers 1414, and the reinforcing layer 7 is made of the aramid fibers 1414, so that the strength of the outer layer of the cable is higher through the reinforcing layer 7, and the cable is prevented from being damaged when being subjected to external pressure; as shown in fig. 1-3, the compression-resistant mechanism 4 includes a compression-resistant inner ring sleeve 401, three supporting reinforcing rib plates 402, three reinforcing rib plates 403 and a compression-resistant outer ring sleeve 404, the compression-resistant inner ring sleeve 401 is fixedly disposed outside the orange flame-retardant butyronitrile outer sheath 3, the supporting reinforcing rib plates 402 are fixedly disposed outside the compression-resistant inner ring sleeve 401, and the three supporting reinforcing rib plates 402 are disposed, specifically, the three supporting reinforcing rib plates 402 have the same length, and the three supporting reinforcing rib plates 402 are disposed in three, so that the three supporting reinforcing rib plates 402 can function as triangular supports inside the cable, thereby preventing the cable from being deformed and damaged when being subjected to heavy load pressure, the reinforcing rib plates 403 are fixedly disposed between the supporting reinforcing rib plates 402, and the three reinforcing rib plates 403 are disposed, the three reinforcing rib plates 403 are triangular, and by disposing the three reinforcing rib plates 403, the three reinforcing rib plates 403 can reinforce and support the three supporting rib plates 402, the supporting effect of the three supporting reinforcing rib plates 402 is more stable, and the three reinforcing rib plates 403 are triangular, so that the reinforcing effect of the three reinforcing rib plates 403 is more effective, the compression-resistant outer ring sleeve 404 is positioned outside the supporting reinforcing rib plates 402, and the other end of the supporting reinforcing rib plates 402 is fixedly connected with the inner wall of the compression-resistant outer ring sleeve 404; the included angle between the supporting reinforcing rib plates 402 outside the compression-resistant inner ring sleeve 401 is sixty degrees; a filling layer 9 is arranged between the compression-resistant outer ring sleeve 404 and the compression-resistant inner ring sleeve 401, and the specific filling layer 9 is filled with tensile wires.

The principle of the utility model is as follows: when the cable is stressed by external heavy objects, the three supporting reinforcing rib plates 402 can play a role of triangular support in the cable, thereby avoiding the cable from deforming and damaging under the pressure of heavy objects, and by arranging three reinforcing rib plates 403, so that the three support reinforcing rib plates 402 are subjected to reinforcing support by the three reinforcing rib plates 403, the supporting effect of the three supporting reinforcing rib plates 402 is more stable, and by arranging the reinforcing layer 7 as aramid fibers, because the aramid fiber has the characteristic of high strength, the outer layer of the cable can have higher strength through the reinforcing layer 7, the cable is prevented from being damaged when being subjected to external pressure, and through the arrangement of the reinforcing rib rod 8, thereby can increase the intensity of oversheath layer 6 through a plurality of strengthening rib poles 8, fracture takes place when can avoiding oversheath layer 6 to receive heavy object pressure to can make the intensity of this cable higher.

Claims (6)

1. The utility model provides a soft double-deck strenghthened type is electroplated equipment and heavy current equipment and is connected and use cable, a serial communication port, including copper core soft conductor (1), the external fixation of copper core soft conductor (1) is provided with extrusion formula white fire-retardant polyvinyl chloride inner insulating layer (2), the external fixation of extrusion formula white fire-retardant polyvinyl chloride inner insulating layer (2) sets up fire-retardant butyronitrile oversheath (3) of orange, the outside of fire-retardant butyronitrile oversheath (3) of orange is provided with resistance to compression mechanism (4), the outside of resistance to compression mechanism (4) is provided with outer insulating layer (5), the external fixation of outer insulating layer (5) is provided with oversheath layer (6), the external fixation of oversheath layer (6) is provided with back up coat (7).

2. The cable for connecting the flexible double-layer reinforced electroplating equipment and the high-current equipment as claimed in claim 1, wherein a plurality of reinforcing rib rods (8) are fixedly arranged inside the outer sheath layer (6), and the reinforcing rib rods (8) are arranged around the inner portion of the outer sheath layer (6).

3. The cable for connecting the flexible double-layer reinforced electroplating equipment and the high-current equipment as claimed in claim 1, wherein the reinforcing layer (7) is made of aramid fibers.

4. The flexible double reinforced plating equipment and high current equipment connection cable according to claim 1, it is characterized in that the compression-resistant mechanism (4) comprises a compression-resistant inner ring sleeve (401), a supporting reinforcing rib plate (402), a reinforcing rib plate (403) and a compression-resistant outer ring sleeve (404), the inner compression-resistant ring sleeve (401) is fixedly arranged outside the orange flame-retardant butyronitrile outer sheath (3), a supporting reinforcing rib plate (402) is fixedly arranged outside the compression-resistant inner ring sleeve (401), three supporting reinforcing rib plates (402) are arranged, reinforcing rib plates (403) are fixedly arranged among the supporting reinforcing rib plates (402), three reinforcing rib plates (403) are arranged, the three reinforcing rib plates (403) are triangular, the pressure-resistant outer ring sleeves (404) are positioned outside the support reinforcing rib plates (402), and the other end of the supporting reinforcing rib plate (402) is fixedly connected with the inner wall of the pressure-resistant outer ring sleeve (404).

5. The cable for connecting the flexible double-layer reinforced electroplating equipment and the high-current equipment according to claim 4, wherein an included angle between the supporting reinforcing rib plates (402) outside the pressure-resistant inner ring sleeve (401) is sixty degrees.

6. The flexible double reinforced cable for connection of electroplating equipment and high-current equipment according to claim 4, wherein a filling layer (9) is disposed between the outer pressure-resistant annular sleeve (404) and the inner pressure-resistant annular sleeve (401).

Images