阅读说明：本技术 一种高压开关成套设备 (High-voltage switch complete equipment ) 是由 张陈花 张致华 梁文发 张荣建 徐溦 张锋美 于 2021-07-25 设计创作，主要内容包括：本发明公开了一种高压开关成套设备,其结构包括数控台、柜门、高压开关柜,数控台安装于高压开关柜的前端位置,高压开关柜安装于柜门的后端位置,当电线插头短路被人工向外拔出,通过电线插头对变形丝产生的挤压,能够使变形丝变形弯曲与外框架的内壁相贴合,故而使电线插头拔出够能够带动外伸架沿着卡块向外滑动伸出,再通过散热块的铝材质外框架能够快速对外伸架上的热量进行散热,通过外伸架被向外拉出产生的惯性力,能够使摆动块沿着内框向上摆动,再通过反弹条对摆动块产生的推力,能够使摆动块沿着内框向下快速摆动复位,从而使产生的振动能够将摆动块底部的电线绝缘皮融化层振落。(The invention discloses a high-voltage switch complete equipment, which structurally comprises a numerical control platform, a cabinet door and a high-voltage switch cabinet, wherein the numerical control platform is arranged at the front end position of the high-voltage switch cabinet, the high-voltage switch cabinet is arranged at the rear end position of the cabinet door, when the short circuit of the wire plug is manually pulled out, the wire plug extrudes the deformation wire to enable the deformation wire to be deformed and bent to be attached to the inner wall of the outer frame, so that the wire plug can be pulled out to drive the outrigger to slide outwards along the fixture block and then the heat on the outrigger can be rapidly dissipated through the aluminum outer frame of the heat dissipation block, the swing block can swing upwards along the inner frame through the inertia force generated by pulling the outer extending frame outwards, and then can swing and reset downwards along the inner frame quickly through the thrust generated by the rebounding strip to the swing block, so that the generated vibration can shake and fall the wire insulation skin melting layer at the bottom of the swing block.)

1. The utility model provides a high tension switchgear complete sets, its structure includes numerical control platform (1), cabinet door (2), high tension switchgear (3), install in the front end position of high tension switchgear (3) numerical control platform (1), its characterized in that: the high-voltage switch cabinet (3) is arranged at the rear end position of the cabinet door (2);

high tension switchgear (3) includes frame (31), wiring mechanism (32), support frame (33), control switch (34), wiring mechanism (32) are fixed in the inside position of support frame (33), the inside position in frame (31) is installed in support frame (33), control switch (34) are fixed in the inside of support frame (33) and lean on the upper end position.

2. A high voltage switchgear assembly as claimed in claim 1, the arrangement comprising: the wiring mechanism (32) comprises a cross bar (a1), a rail (a2) and a wiring board (a3), wherein the rail (a2) and the cross bar (a1) are of an integrated structure, and the rear end of the wiring board (a3) is movably clamped with the inner wall of the rail (a 2).

3. A high voltage switchgear assembly as claimed in claim 2, the arrangement comprising: the wiring board (a3) comprises an outrigger (a31), a terminal (a32), a board surface (a33) and a clamping block (a34), wherein the outrigger (a31) is movably clamped with the inside of the terminal (a32), the terminal (a32) is embedded in the inside of the board surface (a33), and the front end of the clamping block (a34) is connected with the rear end of the board surface (a 33).

4. A high voltage switchgear assembly as claimed in claim 3, the arrangement comprising: the outrigger (a31) is including subtracting the inside position that touches groove (b1), ventilative chamber (b2), morphed wire (b3), outer frame (b4), subtract and touch groove (b1) embedding in outer frame (b4), ventilative chamber (b2) runs through the inside position in outer frame (b4), morphed wire (b3) are installed and are subtracted the inboard position that touches groove (b 1).

5. A high voltage switch assembly according to claim 4, the construction comprising: the ventilating cavity (b2) comprises a rebound strip (b21), a swinging block (b22) and an inner frame (b23), the rebound strip (b21) is installed between the upper end of the swinging block (b22) and the inner wall of the inner frame (b23), and the swinging block (b22) is hinged with the right side of the inner wall of the inner frame (b 23).

Technical Field

The invention relates to the field of high-voltage switches, in particular to a high-voltage switch complete device.

Background

KYN28-12 type high-voltage switch complete cabinet is mainly used for receiving and distributing electric energy and participating in circuit control, protection and monitoring, KYN28-12 type high-voltage switch complete cabinet is suitable for a three-phase alternating-current 50Hz power system, a control switch in KYN28-12 type high-voltage switch complete cabinet can control, protect and monitor a circuit by inserting a wire plug into a connector end of the KYN28-12 type high-voltage switch complete cabinet, terminals of the KYN28-12 type high-voltage switch complete cabinet are independent lines, so that wires can be directly pulled out for replacement after the wires are in the lines, other circuit operation cannot be influenced, but in the prior art, if the wire plug inserted into the terminals of the KYN28-12 type high-voltage switch complete cabinet is short-circuited, the internal temperature of the terminals of the KYN28-12 type high-voltage switch complete cabinet can be rapidly increased, if the terminal is not damaged and the wire is pulled out for a short time to insert a new wire, high temperature inside the terminal may affect the current transmission stability of the new wire.

Disclosure of Invention

In order to solve the problems, the invention provides a high-voltage switch complete equipment.

In order to achieve the purpose, the invention is realized by the following technical scheme: a high-voltage switch complete equipment structurally comprises a numerical control platform, a cabinet door and a high-voltage switch cabinet, wherein the numerical control platform is installed at the front end position of the high-voltage switch cabinet, and the high-voltage switch cabinet is installed at the rear end position of the cabinet door; the high-voltage switch cabinet comprises an outer frame, a wiring mechanism, a support frame and a control switch, wherein the wiring mechanism is fixed in the inner position of the support frame, the support frame is installed in the inner position of the outer frame, and the control switch is fixed in the inner part of the support frame and leans against the upper end position.

As a further improvement of the invention, the wiring mechanism comprises cross rods, rails and wiring boards, wherein the rails and the cross rods are of an integrated structure, the rear ends of the wiring boards are movably clamped with the inner walls of the rails, and the number of the wiring boards is three, and the wiring boards are uniformly distributed in parallel at the front ends of the two cross rods.

As a further improvement of the invention, the wiring board comprises three outriggers, wiring terminals, a board surface and clamping blocks, wherein the outriggers are movably clamped with the inside of the wiring terminals, the wiring terminals are embedded in the inside of the board surface, the front ends of the clamping blocks are connected with the rear ends of the board surface, and the inside of the even board surface is distributed in parallel.

As a further improvement of the invention, the outrigger comprises a contact reducing groove, an air permeable cavity, a deformation wire and an outer frame, the contact reducing groove is embedded in the inner position of the outer frame, the air permeable cavity penetrates through the inner position of the outer frame, the deformation wire is arranged in the inner side position of the contact reducing groove, and the deformation wire is of a wire-shaped structure made of spring steel with strong elasticity.

As a further improvement of the invention, the ventilation cavity comprises a rebound strip, a swinging block and an inner frame, the rebound strip is arranged between the upper end of the swinging block and the inner wall of the inner frame, the swinging block is hinged with the right side of the inner wall of the inner frame, and the swinging block can swing upwards along the inner frame by the inertia force generated by pulling out the mechanism.

As a further improvement of the invention, the swinging block comprises a bearing plate, a weight increasing block, a separation groove and an extension mechanism, wherein the weight increasing block is fixed at the inner position of the bearing plate, the separation groove and the bearing plate are of an integrated structure, the right side of the extension mechanism is connected with the left side of the bearing plate, and the separation groove is of a concave structure.

As a further improvement of the present invention, the extension mechanism includes a sliding plate, a striking plate and an elastic bar, the striking plate is mounted between the inner wall of the sliding plate and the elastic bar, the elastic bar is movably engaged with the upper surface of the sliding plate, and the elastic bar can be extended in a sliding manner to the lower left direction along the sliding plate by a swing force generated by the swing return of the mechanism.

The invention has the following beneficial effects:

1. when the short circuit of the wire plug is outwards extracted by the manual work, the extrusion produced to the deformation silk through the wire plug, can make the deformation silk warp the bending and laminate mutually with the inner wall of outer frame, thereby make the deformation silk can fill up the clearance between ventilative intracavity wall and the wire plug, so make the wire plug extract can drive the outrigger and stretch out along the outside slip of fixture block, the aluminium material outer frame of rethread radiating block can dispel the heat to the outrigger on fast, thereby when making the inside of new wire plug insert the wiring end, the too high condition can not appear in inside temperature.

2. Through the inertia force that the outrigger was outwards pulled out and is produced, can make swing piece along the inside casing up-swing, the thrust that rethread bounce strip produced the swing piece can make swing piece along the inside casing quick swing reset downwards to the vibration that makes the production can shake the electric wire insulating skin melting layer of swing piece bottom and fall, and the effectual electric wire plug of having avoided is simple and easy electric wire connection conducting strip and makes, then can lead to the electric wire insulating skin to be heated to melt the condition that is difficult to clear away by the front end attached to the inner wall of outrigger.

Drawings

Fig. 1 is a schematic structural view of a high-voltage switchgear assembly according to the invention.

Fig. 2 is a schematic structural diagram of a front half section of the high-voltage switch cabinet of the invention.

FIG. 3 is a schematic structural view in elevation of a wiring mechanism of the present invention.

Figure 4 is a side view cross-sectional structural schematic of the patch panel of the present invention.

FIG. 5 is a schematic side view of the outrigger of the present invention.

FIG. 6 is a schematic side view of a semi-section of the venting chamber of the present invention.

FIG. 7 is a side view of the swing block of the present invention.

FIG. 8 is a side view of the extension mechanism of the present invention.

In the figure: the high-voltage switch cabinet comprises a numerical control table-1, a cabinet door-2, a high-voltage switch cabinet-3, an outer frame-31, a wiring mechanism-32, a support frame-33, a control switch-34, a cross bar-a 1, a rail-a 2, a wiring board-a 3, an outer bracket-a 31, a terminal-a 32, a board surface-a 33, a clamping block-a 34, a contact reduction groove-b 1, a ventilation cavity-b 2, a deformation wire-b 3, an outer frame-b 4, a rebound strip-b 21, a swing block-b 22, an inner frame-b 23, a bearing plate-c 1, a weight increase block-c 2, a separation groove-c 3, an extension mechanism-c 4, a sliding plate-c 41, a bottom plate-c 42 and a rebound strip-c 43.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. 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.

Example 1

As shown in fig. 1 to 5:

the invention provides a high-voltage switch complete equipment which structurally comprises a numerical control platform 1, a cabinet door 2 and a high-voltage switch cabinet 3, wherein the numerical control platform 1 is installed at the front end position of the high-voltage switch cabinet 3, and the high-voltage switch cabinet 3 is installed at the rear end position of the cabinet door 2; the high-voltage switch cabinet 3 comprises an outer frame 31, a wiring mechanism 32, a support frame 33 and a control switch 34, wherein the wiring mechanism 32 is fixed at the inner position of the support frame 33, the support frame 33 is installed at the inner position of the outer frame 31, and the control switch 34 is fixed inside the support frame 33 and close to the upper end position.

The wiring mechanism 32 comprises a cross bar a1, a rail a2 and a wiring board a3, the rail a2 and the cross bar a1 are of an integrated structure, the rear end of the wiring board a3 is movably clamped with the inner wall of the rail a2, the number of the wiring boards a3 is three, the front ends of the two cross bars a1 are uniformly distributed in parallel, and the wiring board a3 can freely translate on the cross bar a1, so that the situation that wires cannot reach the wiring board a3 due to insufficient length can be avoided.

The wiring board a3 comprises an outrigger a31, a terminal a32, a plate surface a33 and a clamping block a34, wherein the outrigger a31 is movably clamped with the inside of the terminal a32, the terminal a32 is embedded in the plate surface a33, the front end of the clamping block a34 is connected with the rear end of the plate surface a33, the three outriggers a31 are arranged, the even plate surfaces a33 are distributed in parallel, and the outriggers a31 can be pushed into the inside of the terminal a32 when an electric wire plug is inserted into the terminal a 32.

Wherein, outrigger a31 is including subtracting touch groove b1, ventilative chamber b2, deformation silk b3, outer frame b4, subtract touch groove b1 and imbed in the inside position of outer frame b4, ventilative chamber b2 runs through the inside position in outer frame b4, deformation silk b3 is installed and is subtracted the inside position of touch groove b1, the filiform structure that deformation silk b3 adopted the stronger spring steel material of elasticity to make, through the thrust of electric wire plug pair production, can make deformation silk b3 warp crooked and outer frame b 4's inner wall and laminate mutually to make deformation silk b3 can fill up the clearance between outer frame b4 inner wall and the electric wire plug, and make outer frame b4 can follow the electric wire plug and be outwards extracted.

The detailed use method and action of the embodiment are as follows:

in the invention, by inserting the wire plug into the wiring mechanism 32 in the high-voltage switch cabinet 3, when the wire plug is inserted, the outer bracket a31 on the wiring board a3 can be squeezed into the wiring terminal a32, so that the wire plug can normally contact the inner side of the wiring terminal a32 for connection, and the clamping block a34 on the wiring board a3 is clamped into the track a2 to be capable of translating along the cross bar a1, so that the situation that the wire needs to be replaced by a new wire because the wire cannot reach the wiring terminal a32 by a small length can be avoided, when the wire plug is short-circuited, the wire plug can be manually pulled out, the deformed wire b3 can be deformed and bent to be attached to the inner wall of the outer frame b4 by squeezing the wire plug to generate the deformation wire b3, so that the deformation wire b3 can fill the gap between the inner wall of the air permeable cavity b2 and the wire plug, and the wire plug can be pulled out to drive the outer bracket a31 to slide outwards along the clamping block a34 to extend, the heat on the outer frame a31 can be quickly dissipated through the aluminum outer frame b4 of the heat dissipation block, the contact area between the outer frame b4 and the outside can be increased through the ventilation cavity b2, the heat dissipation speed of the outer frame a31 can be further increased, and therefore when a new wire plug is inserted into the wiring terminal a32, the temperature inside c32 cannot be too high.

Example 2

As shown in fig. 6-8:

the ventilating cavity b2 comprises a rebound strip b21, a swinging block b22 and an inner frame b23, the rebound strip b21 is installed between the upper end of the swinging block b22 and the inner wall of the inner frame b23, the swinging block b22 is hinged with the right side of the inner wall of the inner frame b23, the swinging block b22 can swing upwards along the inner frame b23 through the inertia force generated by pulling out a mechanism outwards, and the rebound strip b21 pushes the swinging block b22 to reset so as to generate vibration to shake down the wire insulation melting layer at the bottom of the swinging block b 22.

The swinging block b22 comprises a bearing plate c1, a weight increasing block c2, a separating groove c3 and an extending mechanism c4, wherein the weight increasing block c2 is fixed at the inner position of the bearing plate c1, the separating groove c3 and the bearing plate c1 are in an integrated structure, the right side of the extending mechanism c4 is connected with the left side of the bearing plate c1, the separating groove c3 is in a concave structure, and the contact area between the wire insulation skin melting layer and the bottom of the bearing plate c1 can be reduced through the separating groove c 3.

The extension mechanism c4 includes a sliding plate c41, a bottom plate c42 and an elastic bar c43, the bottom plate c42 is installed between the inner wall of the sliding plate c41 and the elastic bar c43, the elastic bar c43 is movably engaged with the upper surface of the sliding plate c41, and the elastic bar c43 can slide and extend along the sliding plate c41 to the left and the bottom by the swinging force generated by the mechanism swinging and resetting, so that the elastic bar c43 pushes down the residual wire insulation skin melting layer at the bottom of the object.

The detailed use method and action of the embodiment are as follows:

in the present invention, if the wire plug is made of a simple wire connection conductive sheet, the insulation cover of the wire is adhered to the inner wall of the outrigger a31, and if such a wire plug is short-circuited, the wire insulation cover is melted by heat and adhered to the inner wall of the outrigger a31 and is difficult to be removed near the front end, and the swinging block b22 can be swung upward along the inner frame b23 by the inertial force generated by pulling the outrigger a31 outward, and the swinging block b22 can be swung downward and reset along the inner frame b23 by the thrust generated by the rebounding strip b21 to the swinging block b22, so that the generated vibration can shake down the wire insulation cover melted layer at the bottom of the swinging block b22, and the contact area between the receiving plate c1 and the wire insulation cover melted layer can be reduced by the separation groove c3, and the weight of the receiving plate c1 can be increased by the weight c2, so that the swinging speed of the swinging block b22 downward is increased, therefore, the wire insulation sheath melting layer at the bottom of the swing block b22 can be more easily vibrated down, and the elastic strip c43 can slide and extend along the left lower part of the sliding plate c41 by the inertia force generated by the downward swing reset of the swing block b22, so that the elastic strip c43 pushes down the residual wire insulation sheath melting layer at the bottom of the inner frame b23, and the situation that the wire insulation sheath is melted by heat and attached to the front end of the inner wall of the outer bracket a31 and is difficult to clean due to the fact that the wire plug is made of a simple wire connection conducting strip is effectively avoided.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.