CN212463791U - Self-adaptive silicon chain voltage regulating device - Google Patents

Abstract

The utility model relates to a self-adaptation silicon chain regulator, including bearing the base, bear the frame, the direction slide rail, the silicon controlled rectifier module, electronic switch circuit, drive relay, binding post, data communication terminal and drive circuit, bear the base up end and bear the frame and be connected, the direction slide rail inlays in bearing the frame, the silicon controlled rectifier module and through the direction slide rail with bear a sliding connection, electronic switch circuit and drive circuit all with bear the base up end and be connected, binding post, the data communication terminal inlays in bearing the base preceding terminal surface, drive relay inlays in bearing the base rear end face. This novel can effectual realization carry out nimble equipment overall arrangement to the pressure regulating module structure to the electric connection relation between each pressure regulating module carries out nimble adjustment, thereby when effectual realization pressure regulating steady voltage operation, very big improvement the flexibility and the precision of pressure regulating operation scope and pressure regulating operation.

Description

Self-adaptive silicon chain voltage regulating device

Technical Field

The utility model relates to a silicon chain pressure regulating device, in particular to a self-adaptive silicon chain pressure regulating device.

Background

The silicon chain voltage regulating device has wide application in a direct current power supply control system, such as equipment such as a manual/automatic silicon chain voltage regulating device with the patent application number of '201820691176X', and the like, although the silicon chain voltage regulating device can effectively meet the use requirement, the silicon chain voltage regulating device finds that the current silicon chain voltage regulating device has a relatively fixed and single equipment structure on one hand, cannot flexibly adjust the equipment structure according to the use requirement in operation, and simultaneously greatly limits the effective range of voltage regulating operation, thereby seriously affecting the use flexibility and universality; when the current silicon chain voltage regulating device of another party is in operation, the silicon chain voltage regulating device who uses at present all lacks effectual cooling measure to very easily cause equipment trouble because of high temperature, often also lack quick circuit connection relation adjustment ability simultaneously, thereby lead to current silicon chain voltage regulating device operation in-process, when the trouble takes place for individuality pressure regulating module, the operation of troubleshooting can not in time effectually be carried out, thereby the stability that leads to the pressure regulating steady voltage operation receives serious influence.

Therefore, in view of the current situation, it is urgently needed to develop an adaptive silicon chain voltage regulating device to meet the needs of practical use.

SUMMERY OF THE UTILITY MODEL

The not enough that exists on to prior art, the utility model provides a self-adaptation silicon chain regulator, this novel simple structure, it is nimble convenient to use, the commonality is good, can effectually realize carrying out nimble equipment overall arrangement to pressure regulating module structure, and carry out nimble adjustment to the electrical connection relation between each pressure regulating module, thereby in effectual realization pressure regulating steady voltage operation, very big improvement the flexibility and the precision of pressure regulating operation scope and pressure regulating operation, in the simultaneous operation, this novel good anti fault ability and the quick repair ability of trouble have, when effectively reducing high temperature and leading to the fact the influence to this novel operation, can realize in addition that it is real circuit system to restore fast when local pressure regulating spare part trouble, effectively ensure the stability and the reliability of pressure regulating steady voltage operation.

In order to achieve the above purpose, the present invention is realized by the following technical solution:

a self-adaptive silicon chain voltage regulator is composed of bearing base with Jiong-shaped transverse slot structure, bearing frame with at least two guide slide rails embedded in said bearing frame and parallel to the axis of bearing frame, locating cavities for said bearing frame, multiple SCR modules embedded in said locating cavities and slide connected to said bearing frame via guide slide rails, electronic switch circuit and driver circuit connected to said bearing base, and electronic switch circuit connected between said SCR modules, and the electronic switch circuit is electrically connected with the drive circuit, at least one of the wiring terminal and the data communication terminal is embedded in the front end face of the bearing base and is electrically connected with the drive circuit respectively, a plurality of drive relays are embedded in the rear end face of the bearing base, and the drive relays are mixed through the electronic switch circuit and are electrically connected with the drive circuit.

Furthermore, in the bearing frame, a partition plate is arranged between two adjacent positioning cavities, the partition plate and the upper end face of the bearing base are vertically distributed, positioning press plates are arranged at two ends of the corresponding bearing frame of the positioning cavities, and two ends of each positioning press plate respectively abut against and are coaxially distributed with the silicon controlled modules positioned at two ends in the positioning cavities.

Furthermore, the positioning pressing plate comprises at least two guide rods, a bearing spring and a guide pipe, wherein the guide rods are distributed in parallel with the axis of the bearing frame and are respectively connected with the two ends of the bearing frame through nuts, the two insulation pressing plates are distributed at the two ends of the bearing frame, the insulation pressing plates are wrapped outside the guide rods and are in sliding connection with the guide rods, the front end face of each insulation pressing plate abuts against the outer surface of the silicon controlled module, the rear end face of each insulation pressing plate abuts against the end face of the bearing frame through the bearing spring, a plurality of heat dissipation ports are additionally and uniformly distributed on the insulation pressing plates, the total area of the heat dissipation ports is 10% -60% of the area of each insulation pressing plate, the guide pipe is arranged on the rear end face of each insulation pressing plate, and the guide.

Further, bear the base under the terminal surface establish semiconductor refrigeration mechanism, bear the corresponding bearing base surface of bearing and establish temperature sensor, semiconductor refrigeration mechanism and temperature sensor all with drive circuit interconnect, just semiconductor refrigeration mechanism refrigeration cold junction and bear between the base through heat transfer board interconnect, the heat transfer board inlays in bearing the base, and the heat transfer board up end with bear base up end parallel and level and distribute, wherein lie in and bear a plurality of heat dissipation fin boards of heat transfer board up end equipartition that corresponds under the frame, the heat dissipation fin board is 30-90 contained angle with bear the frame axis.

Furthermore, the driving circuit is a circuit system based on an industrial single chip microcomputer, and the driving circuit is additionally provided with an overload protection sub-circuit and a data communication device, wherein the overload protection sub-circuit and the data communication device are respectively and electrically connected with the driving circuit, the overload protection sub-circuit is additionally and electrically connected with the electronic switch circuit, and the data communication device is additionally and electrically connected with the data communication terminal.

This novel simple structure, it is nimble convenient to use, the commonality is good, can effectually realize carrying out nimble equipment overall arrangement to pressure regulating module structure, and carry out nimble adjustment to the electrical connection relation between each pressure regulating module, thereby in effectual realization pressure regulating steady voltage operation, very big improvement the flexibility and the precision of pressure regulating operation scope and pressure regulating operation, in the simultaneous operation, this is novel to have good anti fault ability and the quick repair ability of trouble, when effectively reducing high temperature to this novel operation causes the influence, can realize in addition that it is real circuit system to restore when local pressure regulating spare part trouble is quick, effectively ensure the stability and the reliability of pressure regulating steady voltage operation.

Drawings

The present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

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

fig. 2 is a schematic diagram of the novel cross section partial structure.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention is further described below with reference to the following embodiments.

As shown in figures 1 and 2, a self-adaptive silicon chain voltage regulator comprises a bearing base 1, a bearing frame 2, a guide slide rail 3, a silicon controlled module 4, an electronic switch circuit, a driving relay 7, a connecting terminal 8, a data communication terminal 9 and a driving circuit 10, wherein the bearing base 1 is in a groove-shaped structure with a cross section of 'Jiong', the upper end surface of the bearing base is connected with the bearing frame 2 through a chute 11, the bearing frame 2 is in a frame structure with an axis parallel to the axis of the bearing base 1 and a rectangular cross section, at least two guide slide rails 3 are embedded in the bearing frame 2 and parallel to the axis of the bearing frame 2, the bearing frame 2 is equally divided into at least two positioning cavities 12 which are independently distributed by the guide slide rails 3, a plurality of silicon controlled modules 4 are respectively embedded in the positioning cavities 12 and are slidably connected with the bearing frame 2 through the guide slide rails 3, the electronic switch circuit 6 and the driving circuit 10 are, all through electronic switch circuit 6 series-parallel connection between each silicon controlled module 4, and electronic switch circuit 6 in addition with drive circuit 10 electrical connection, binding post 8, data communication terminal 9 are all at least one, inlay in bearing the preceding terminal surface of base 1 to respectively with drive circuit 10 electrical connection, drive relay 7 is a plurality of, inlay in bearing the rear end face of base 1, mix through electronic switch circuit 6 between each drive relay 7 and with drive circuit 10 electrical connection.

It is emphasized that, in the bearing frame 2, a partition plate 13 is arranged between two adjacent positioning cavities 12, the partition plate 13 is vertically distributed with the upper end surface of the bearing base 1, the positioning cavities 12 are provided with positioning press plates 14 corresponding to the two ends of the bearing frame 2, and the two ends of the positioning press plates 14 respectively abut against and are coaxially distributed with the silicon controlled modules 4 positioned at the two ends in the positioning cavities 12.

Wherein, the positioning pressing plate 14 comprises an insulating pressing plate 141, a guide rod 142, a pressure bearing spring 143 and a guide pipe 144, wherein, at least two guide rods 142 are distributed parallel to the axis of the bearing frame 2 and are respectively connected with the two ends of the bearing frame 2 through nuts 145, the two insulation pressing plates 141 are distributed at two ends of the bearing frame 2, the insulation pressing plates 141 are covered outside the guide rods 142 and are connected with the guide rods 142 in a sliding manner, the front end surface of the insulating press plate 141 is abutted against the outer surface of the silicon controlled module 4, the rear end surface is abutted against the end surface of the bearing frame 2 through a pressure bearing spring 143, a plurality of heat dissipation ports 146 are further uniformly distributed on the insulating press plate 141, the total area of the heat dissipation openings 146 is 10% -60% of the area of the insulating pressing plate 141, the rear end face of the insulating pressing plate 141 is provided with a flow guide pipe 144, the fluid guide pipe 144 is coaxially distributed with the insulating pressing plate 141 and is communicated with each heat radiation port 146.

It is worth noting, bear under the base 1 terminal surface establish semiconductor refrigeration mechanism 15, bear the base 1 surface that the frame 2 corresponds and establish temperature sensor 16, semiconductor refrigeration mechanism 15 and temperature sensor 16 all with drive circuit 10 interconnect, just the semiconductor refrigeration mechanism system 15 cold junctions passes through heat transfer plate 17 interconnect with bearing between the base 1, heat transfer plate 17 inlays in bearing the base 1, and heat transfer plate 17 up end and bear base 1 up end parallel and level and distribute, wherein lie in bearing a plurality of heat dissipation fins 6 of heat transfer plate 17 up end equipartition that corresponds under 2, heat dissipation fins 6 and bear 2 axes and be 30-90 contained angles.

In this embodiment, the driving circuit 10 is a circuit system based on an industrial single chip, and the driving circuit 10 is further provided with an overload protection sub-circuit and a data communication device, the overload protection sub-circuit and the data communication device are respectively electrically connected to the driving circuit 10, the overload protection sub-circuit is further electrically connected to the electronic switch circuit 6, and the data communication device is further electrically connected to the data communication terminal 9.

In the concrete implementation of the novel power distribution cabinet, firstly, a bearing base, a bearing frame, a guide sliding rail, a silicon controlled module, an electronic switch circuit, a driving relay, a wiring terminal, a data communication terminal and a driving circuit which form the novel power distribution cabinet are assembled, then, the assembled novel power distribution cabinet is installed at a designated working position of the power distribution cabinet through the bearing base, and finally, the assembled novel power distribution cabinet is electrically connected with an external power supply bus circuit through the wiring terminal and the driving relay; on the other hand, data connection is established between the data communication terminal and an external control system and a data feedback acquisition system, and the novel assembly of the split type can be completed.

In the assembly process, on one hand, the number of the silicon controlled modules is flexibly adjusted according to the requirement of the voltage regulation operation, and the silicon controlled modules are assembled through the guide slide rails, so that the working efficiency of the assembly and disassembly operation of the silicon controlled modules can be effectively improved; on the other hand, the series and parallel relations among the silicon controlled modules can be flexibly adjusted through the electronic switch circuit according to the requirement of voltage regulation, so that the aim of flexibly adjusting the voltage regulation operation range is fulfilled.

Simultaneously, this is novel in the concrete implementation, the temperature of accessible temperature sensor when to this novel operation, especially silicon controlled module all ring edge border ambient temperature carries out whole journey and detects to rise to appointed drive semiconductor refrigeration mechanism operation detecting the temperature, force to this novel processing of cooling down, prevent that silicon controlled module from breaking down because of high temperature, this is novel in service in addition, can directly cool down the silicon controlled module that insulating clamp plate and insulating clamp plate are connected through the honeycomb duct intercommunication with semiconductor refrigeration mechanism and positioning clamp plate, thereby reach the purpose that improves the cooling effect.

In addition, this is novel in service, when the silicon controlled rectifier module of individuation breaks down, through electronic switch disconnection trouble silicon controlled rectifier module and circuit system's electrical connection, then adjust through the electronic switch circuit to the electrical connection relation between each remaining silicon controlled rectifier module to make its output the voltage value satisfy the setting value can, thereby reach quick troubleshooting, ensure the stable purpose of system operation, and then can dismantle the change at equipment shut down in-process to the silicon controlled rectifier module of trouble.

In addition, this is novel in operation, when realizing installing the location fast to silicon controlled module through the direction slide rail, accessible positioning pressure plate forces the location to each silicon controlled module in addition, improves the stability of silicon controlled module location, simultaneously through the thermovent on the insulating pressure plate can effectual improvement this novel silicon controlled module radiating effect in service.

This novel simple structure, it is nimble convenient to use, the commonality is good, can effectually realize carrying out nimble equipment overall arrangement to pressure regulating module structure, and carry out nimble adjustment to the electrical connection relation between each pressure regulating module, thereby in effectual realization pressure regulating steady voltage operation, very big improvement the flexibility and the precision of pressure regulating operation scope and pressure regulating operation, in the simultaneous operation, this is novel to have good anti fault ability and the quick repair ability of trouble, when effectively reducing high temperature to this novel operation causes the influence, can realize in addition that it is real circuit system to restore when local pressure regulating spare part trouble is quick, effectively ensure the stability and the reliability of pressure regulating steady voltage operation.

Those skilled in the art should understand that the present invention is not limited by the above embodiments. The foregoing embodiments and description have been made only for the purpose of illustrating the principles of the invention. The present invention can be further modified and improved without departing from the spirit and scope of the present invention. Such changes and modifications are intended to be within the scope of the claimed invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (5)

1. The utility model provides a self-adaptation silicon chain regulator which characterized in that: the self-adaptive silicon chain voltage regulator comprises a bearing base, a bearing frame, a guide sliding rail, silicon controlled modules, an electronic switch circuit, a drive relay, a wiring terminal, a data communication terminal and a drive circuit, wherein the bearing base is in a structure with a cross section in the shape of Jiong font groove, the upper end surface of the bearing base is connected with the bearing frame through a sliding groove, the bearing frame is in a frame structure with an axis parallel to the axis of the bearing base and a rectangular cross section, at least two guide sliding rails are embedded in the bearing frame and parallel to the axis of the bearing frame, the guide sliding rails divide the bearing frame into at least two positioning cavities which are mutually independent, the silicon controlled modules are a plurality of and are respectively embedded in each positioning cavity and are in sliding connection with the bearing frame through the guide sliding rails, the electronic switch circuit and the drive circuit are both connected with the upper end surface of the bearing base, and the, and the electronic switch circuit is electrically connected with the drive circuit, at least one of the wiring terminal and the data communication terminal is embedded in the front end face of the bearing base and is electrically connected with the drive circuit respectively, a plurality of drive relays are embedded in the rear end face of the bearing base, and the drive relays are mixed through the electronic switch circuit and are electrically connected with the drive circuit.

2. The adaptive silicon chain voltage regulating device according to claim 1, wherein: the silicon controlled rectifier module bearing frame is characterized in that a partition plate is arranged between every two adjacent positioning cavities, the partition plate and the upper end face of the bearing base are vertically distributed, positioning press plates are arranged at two ends of the corresponding bearing frame of the positioning cavities, and two ends of each positioning press plate respectively abut against and are coaxially distributed with the silicon controlled rectifier modules located at two ends in the positioning cavities.

3. The adaptive silicon chain voltage regulating device according to claim 2, wherein: the positioning pressing plate comprises at least two guide rods, wherein the guide rods are distributed in parallel with the axis of the bearing frame and are respectively connected with the two ends of the bearing frame through nuts, the two insulation pressing plates are distributed at the two ends of the bearing frame, the insulation pressing plates are wrapped outside the guide rods and are in sliding connection with the guide rods, the front end face of each insulation pressing plate is abutted to the outer surface of the silicon controlled module, the rear end face of each insulation pressing plate is abutted to the end face of the bearing frame through the corresponding bearing spring, a plurality of heat dissipation ports are uniformly distributed on each insulation pressing plate, the total area of the heat dissipation ports is 10% -60% of the area of each insulation pressing plate, the flow guide pipes are arranged on the rear end face of each insulation pressing plate, and are coaxially distributed with the insulation pressing plates and communicated.

4. The adaptive silicon chain voltage regulating device according to claim 1, wherein: bear the base under the terminal surface establish semiconductor refrigeration mechanism, bear the corresponding base surface of bearing and establish temperature sensor, semiconductor refrigeration mechanism and temperature sensor all with drive circuit interconnect, just semiconductor refrigeration mechanism refrigeration end and bear between the base through heat transfer board interconnect, the heat transfer board inlays in bearing the base, and the heat transfer board up end with bear base up end parallel and level and distribute, wherein lie in and bear a plurality of heat dissipation fin boards of heat transfer board up end equipartition that corresponds under the frame, the heat dissipation fin board is 30-90 contained angles with bear the frame axis.

5. The adaptive silicon chain voltage regulating device according to claim 1, wherein: the drive circuit is a circuit system based on an industrial single chip microcomputer, an overload protection sub-circuit and a data communication device are additionally arranged on the drive circuit, the overload protection sub-circuit and the data communication device are respectively and electrically connected with the drive circuit, the overload protection sub-circuit is additionally and electrically connected with an electronic switch circuit, and the data communication device is additionally and electrically connected with a data communication terminal.

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