CN216820177U - Plasma high-voltage isolation output device - Google Patents

Abstract

The utility model relates to a plasma high-voltage isolation output device, which comprises a conductive rod, a mounting seat, a hollow mounting column and a mounting cover, wherein the mounting seat, the hollow mounting column and the mounting cover are sequentially detachably connected from bottom to top; the plasma nozzle assembly can be quickly disassembled and replaced, does not have a wire harness with the whole set of plasma nozzle assembly, and is convenient for troubleshooting.

Description

Plasma high-voltage isolation output device

Technical Field

The utility model relates to the technical field of low-temperature plasma, in particular to a plasma high-voltage isolation output device.

Background

The low-temperature plasma surface treatment equipment is equipment for improving the surface adhesive force by performing certain physical and chemical modification on a film, a coating, a UV coating or a plastic sheet on the surface of a packaging box by using an ion surface treatment technology; the low-temperature plasma surface treatment equipment needs to lead out a high-voltage insulated wire of an ultrahigh-voltage transformer in the equipment to be electrically connected with a plasma sprayer, the high-voltage insulated wire is generally led out by screwing a DPJ hose connector on an equipment mainframe box in the current market, and the whole set of sprayer assembly wire harness cannot be quickly detached and replaced with the mainframe box, so that the workload of troubleshooting is increased.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that the whole set of spray head assembly wire harness cannot be quickly disassembled and replaced with a main case, and provides a plasma high-voltage isolation output device aiming at the defects in the prior art.

The technical scheme adopted by the utility model for solving the technical problems is as follows:

a plasma high-voltage isolation output device is constructed, which comprises a conducting rod, a mounting seat, a hollow mounting column and a mounting cover which are detachably connected in sequence from bottom to top, the mounting seat is detachably mounted on the inner wall of the mainframe box, the mainframe box is provided with a mounting through hole for detachably connecting the mounting seat with the hollow mounting column, the mounting seat and the hollow mounting column are respectively provided with a first mounting through hole and a second mounting through hole which correspond to each other, the conducting rod penetrates through the first mounting through hole and the second mounting through hole simultaneously, a first mounting component for detachably mounting a first high-voltage insulating wire is arranged at one end of the conducting rod in the mainframe box, one end of the conducting rod, which is positioned on the hollow mounting column, is provided with a second mounting assembly for detachably mounting a second high-voltage insulating wire, and one side of the hollow mounting column is provided with a wire outlet.

Preferably, the bottom of mount pad is provided with a plurality of first screw thread through-holes, the mainframe box be provided with a plurality ofly with the second screw thread through-hole of first screw thread through-hole looks adaptation, the bottom of mount pad is provided with a plurality of third screw thread through-holes, the surface of cavity erection column bottom be provided with a plurality ofly with the screw hole that third screw thread through-hole corresponds, the bottom of installation lid is provided with external screw thread pipe, the shaping have in the cavity erection column with the internal thread of external screw thread pipe looks adaptation.

Preferably, the outer surface of the conductive rod is formed with a thread.

Preferably, the first mounting assembly includes a first connection terminal electrically connecting the first high voltage insulated wire and the conductive rod, and the second mounting assembly includes a second connection terminal electrically connecting the second high voltage insulated wire and the conductive rod.

Preferably, first installation component includes that two settings are in first nut on the conducting rod, two first nut divide into nut and lower nut, the nut with be provided with between the lower nut first binding post, the lower nut with be provided with flat pad between the first binding post, second installation component is including setting up cap and second nut are closed to insulating screw on the conducting rod, second binding post sets up the screw close the cap with between the second nut, the screw close the cap with also be provided with between the second binding post flat pad.

Preferably, the first mounting through hole is a countersunk through hole for upwards limiting the upper nut, and the second mounting through hole is a countersunk through hole for downwards limiting the second nut.

Preferably, the first threaded through hole and the third threaded through hole are both countersunk threaded through holes.

Preferably, the mounting seat, the hollow mounting post and the mounting cover are all made of teflon.

The utility model has the beneficial effects that: when a high-voltage insulating wire of the ultrahigh-voltage transformer needs to be led out of the mainframe box, the mounting seat can be detachably mounted on the inner wall of the mainframe box, the mounting seat, the hollow mounting column and the mounting cover are sequentially detachably connected from bottom to top, then the conducting rod penetrates through the first mounting hole and the second mounting hole simultaneously, the first high-voltage insulating wire and one end, located in the mainframe box, of the conducting rod are detachably connected through the first mounting assembly, the second high-voltage insulating wire and one end, located in the hollow mounting column, of the conducting rod are detachably connected through the second mounting assembly, and the second high-voltage insulating wire penetrates out of the wire outlet; the plasma nozzle assembly can be quickly disassembled and replaced, does not have a wire harness with the whole set of plasma nozzle assembly, and is convenient for troubleshooting.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the present invention will be further described with reference to the accompanying drawings and embodiments, wherein the drawings in the following description are only part of the embodiments of the present invention, and for those skilled in the art, other drawings can be obtained without inventive efforts according to the accompanying drawings:

fig. 1 is an overall schematic diagram of a plasma high-voltage isolation output device according to a preferred embodiment of the utility model.

Fig. 2 is an exploded view of a plasma high voltage isolation output device in a main chassis according to a preferred embodiment of the present invention.

Fig. 3 is an exploded view of a plasma high-voltage isolation output device according to a preferred embodiment of the utility model.

Fig. 4 is a disassembled schematic view of a plasma high-voltage isolation output device according to a preferred embodiment of the utility model.

The reference signs are: 1. installing a cover; 2. an externally threaded tube; 3. closing the cap by threads; 4. flattening the cushion; 5. a second connection terminal; 6. a second nut; 7. an internal thread; 8. a hollow mounting post; 9. an outlet; 10. a conductive rod; 11. mounting a through hole; 12. a second threaded through hole; 13. a first threaded through hole; 14 a third threaded through hole; 15. a mounting base; 16. screwing a nut; 17. a first connection terminal; 18. a lower nut; 20. a main chassis.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the following will clearly and completely describe the technical solutions in the embodiments of the present invention, and it is obvious that the described embodiments are some embodiments of the present invention, but not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present invention without inventive step, are within the scope of the present invention.

A plasma high-voltage isolation output device according to a preferred embodiment of the present invention is shown in fig. 1-4, and comprises a conductive rod 10, and an installation seat 15, a hollow installation column 8 and an installation cover 1 which are detachably connected from bottom to top, wherein the installation seat 15 is detachably installed on an inner wall of a main cabinet 20, the main cabinet 20 is provided with an installation through hole 11 for detachably connecting the installation seat 15 and the hollow installation column 8, the installation seat 15 and the hollow installation column 8 are respectively provided with a corresponding first installation through hole 21 and a corresponding second installation through hole 22, the conductive rod 10 is simultaneously inserted into the first installation through hole 21 and the second installation through hole 22, one end of the conductive rod 10 in the main cabinet 20 is provided with a first installation component for detachably installing a first high-voltage insulated wire, one end of the conductive rod 10 in the hollow installation column 8 is provided with a second installation component for detachably installing a second high-voltage insulated wire, a wire outlet 9 is formed in one side of the hollow mounting column 8;

when a high-voltage insulating wire of the ultra-high voltage transformer needs to be led out of the main case 20, the mounting seat 15 can be detachably mounted on the inner wall of the main case 20, the mounting seat 15, the hollow mounting column 8 and the mounting cover 1 are sequentially detachably connected from bottom to top, then the conducting rod 10 penetrates through the first mounting hole 21 and the second mounting hole 22 simultaneously, the first high-voltage insulating wire and one end, located in the main case 20, of the conducting rod 10 are detachably connected through the first mounting assembly, the second high-voltage insulating wire and one end, located in the hollow mounting column 8, of the conducting rod 10 are detachably connected through the second mounting assembly, and the second high-voltage insulating wire penetrates out of the wire outlet 9; the utility model can be quickly disassembled and replaced, and is not convenient to troubleshoot faults with the whole set of plasma spray head assembly wiring harness.

As shown in fig. 2, a plurality of first threaded through holes 13 are formed in the bottom of the mounting seat 15, a plurality of second threaded through holes 12 matched with the first threaded through holes 13 are formed in the main cabinet 20, a plurality of third threaded through holes 14 are formed in the bottom of the mounting seat 15, a plurality of threaded holes 23 corresponding to the third threaded through holes 14 are formed in the outer surface of the bottom of the hollow mounting post 8, an external threaded pipe 2 is formed in the bottom of the mounting cover 1, and an internal thread 7 matched with the external threaded pipe 2 is formed in the hollow mounting post 8;

during assembly, the mounting seat 15 is detachably mounted on the inner wall of the main case 20 through the mutual matching of the screws and the first threaded through hole 13 and the second threaded through hole 12, the mounting seat 15 is detachably connected with the hollow mounting column 8 through the mutual matching of the screws and the third threaded through hole 14 and the threaded hole 23, and the mounting cover 1 is detachably connected with the hollow mounting column 8 through the matching of the external threaded pipe 2 and the internal threads 7.

As shown in fig. 2 to 4, the outer surface of the conductive rod 10 is formed with threads;

during assembly, the outer surface of the conducting rod 10 is formed with threads, so that the first high-voltage insulated wire and the second high-voltage insulated wire can be conveniently installed.

As shown in fig. 2 to 4, the first mounting assembly includes a first connection terminal 17 electrically connecting the first high voltage insulated wire with the conductive rod 10, and the second mounting assembly includes a second connection terminal 5 electrically connecting the second high voltage insulated wire with the conductive rod 10;

during assembly, the first high-voltage insulated wire is connected with one end of the conducting rod 10 in the mainframe box 20 through the first wiring terminal 17, and the second high-voltage insulated wire is connected with one end of the conducting rod 10 in the hollow mounting column 8 through the second wiring terminal 5.

As shown in fig. 2 to 4, the first mounting assembly includes two first nuts disposed on the conductive rod 10, the two first nuts are divided into an upper nut 16 and a lower nut 18, a first connection terminal 17 is disposed between the upper nut 16 and the lower nut 18, a flat pad 4 is disposed between the lower nut 18 and the first connection terminal 17, the second mounting assembly includes an insulated threaded closing cap 3 and a second nut 6 disposed on the conductive rod 10, a second connection terminal 5 is disposed between the threaded closing cap 3 and the second nut 6, and a flat pad 4 is also disposed between the threaded closing cap 3 and the second connection terminal 5;

during the assembly, first binding post 17 is fixed in the one end that conducting rod 10 is located mainframe box 20 through the cooperation detachable of upper nut 16 and lower nut 18, still be provided with the flat pad 4 that increases the area of contact between first binding post 17 and the lower nut 18 on the conducting rod 10, second binding post 5 closes the one end that the cap 3 is in the cavity erection column 8 with the cooperation detachable of second nut 6 through the screw thread and fixes in conducting rod 10, still be provided with the flat pad 4 that increases the area of contact between second binding post 5 and the second nut 6 on the conducting rod 10.

As shown in fig. 4, the first mounting through hole 13 is a countersunk through hole for limiting the upper nut 16 upwards, and the second mounting through hole 12 is a countersunk through hole for limiting the second nut 6 downwards;

during assembly, the first mounting through hole 21 is a countersunk through hole for limiting the upper nut 16 upwards, and the second mounting through hole 22 is a countersunk through hole for limiting the second nut 6 downwards, so that the conductive rod 10 can be limited to move upwards or downwards.

As shown in fig. 4, the first threaded through hole 13 and the third threaded through hole 14 are both countersunk threaded through holes;

when assembled, the first threaded through hole 13 and the third threaded through hole 14 are both countersunk threaded through holes, and the heads of the screws can be embedded into the first threaded through hole 13 and the third threaded through hole 14.

As shown in fig. 2-4, the mounting base 15, the hollow mounting post 8 and the mounting cover 1 are all made of teflon;

the iron Buddha dragon is an insulating high-temperature-resistant material, and the installation seat 15, the hollow installation column 8 and the installation cover 1 are all composed of the iron Buddha dragon, so that the high-temperature resistance and the insulativity of the installation seat 15, the hollow installation column 8 and the installation cover 1 can be guaranteed.

It will be understood that modifications and variations can be made by persons skilled in the art in light of the above teachings and all such modifications and variations are intended to be included within the scope of the utility model as defined in the appended claims.

Claims (8)

1. A plasma high-voltage isolation output device is characterized by comprising a conducting rod, a mounting seat, a hollow mounting column and a mounting cover which are detachably connected in sequence from bottom to top, the mounting seat is detachably mounted on the inner wall of the mainframe box, the mainframe box is provided with a mounting through hole for detachably connecting the mounting seat with the hollow mounting column, the mounting seat and the hollow mounting column are respectively provided with a first mounting through hole and a second mounting through hole which correspond to each other, the conducting rod penetrates through the first mounting through hole and the second mounting through hole simultaneously, a first mounting component for detachably mounting a first high-voltage insulating wire is arranged at one end of the conducting rod in the mainframe box, one end of the conducting rod, which is positioned in the hollow mounting column, is provided with a second mounting assembly for detachably mounting a second high-voltage insulating wire, and one side of the hollow mounting column is provided with a wire outlet.

2. The plasma high-pressure isolating output device as claimed in claim 1, wherein the bottom of the mounting seat is provided with a plurality of first threaded through holes, the main cabinet is provided with a plurality of second threaded through holes matched with the first threaded through holes, the bottom of the mounting seat is provided with a plurality of third threaded through holes, the outer surface of the bottom of the hollow mounting column is provided with a plurality of threaded holes corresponding to the third threaded through holes, the bottom of the mounting cover is provided with an external threaded pipe, and the hollow mounting column is internally molded with an internal thread matched with the external threaded pipe.

3. The plasma high-voltage isolation output device as claimed in claim 1, wherein the outer surface of the conducting rod is formed with threads.

4. The isolated high voltage output device of claim 3, wherein the first mounting assembly comprises a first terminal electrically connecting the first high voltage insulated wire to the conductive rod, and the second mounting assembly comprises a second terminal electrically connecting the second high voltage insulated wire to the threaded conductive rod.

5. The plasma high-voltage isolation output device as claimed in claim 4, wherein the first mounting assembly comprises two first nuts disposed on the conductive rod, the two first nuts are divided into an upper nut and a lower nut, the first connecting terminal is disposed between the upper nut and the lower nut, a flat pad is disposed between the lower nut and the first connecting terminal, the second mounting assembly comprises an insulating threaded closing cap and a second nut disposed on the conductive rod, the second connecting terminal is disposed between the threaded closing cap and the second nut, and the flat pad is also disposed between the threaded closing cap and the second connecting terminal.

6. The plasma high-voltage isolation output device as claimed in claim 5, wherein the first mounting through hole is a countersunk through hole for limiting the upper nut upwards, and the second mounting through hole is a countersunk through hole for limiting the second nut downwards.

7. The plasma high-voltage isolation output device as claimed in claim 2, wherein the first threaded through hole and the third threaded through hole are both countersunk threaded through holes.

8. The isolated high voltage plasma output device as claimed in claim 1, wherein the mounting base, the hollow mounting post and the mounting cover are all made of Teflon.

Images