CN215497567U - Intelligent module power distribution device framework - Google Patents

Abstract

The utility model relates to an intelligent object distribution device framework relates to distribution device's field, and it includes the main circuit module and gets the electricity output module with installing a plurality of on the main circuit module, is provided with a plurality of female arranging in the main circuit module, and female arranging adopts electrically conductive material to make, gets to be provided with electrical connection structure between electricity module and female arranging, and female outside cladding of arranging has an insulating shell. This application has the inside cleaner and tidier of messenger's main circuit module, also avoids producing the effect of interference between the wire.

Description

Intelligent module power distribution device framework

Technical Field

The present application relates to the field of power distribution devices, and more particularly, to an intelligent module power distribution device architecture.

Background

Modular power distribution units, i.e., power distribution units, are commonly used in power distribution outlets for cabinets, which are designed to provide power distribution to cabinet-mounted electrical equipment.

The current module power distribution device framework comprises a main circuit module and a plurality of power taking modules arranged on the main circuit module, wherein each power taking module is provided with a plurality of power taking holes, power taking elastic pieces are arranged in the power taking holes, and wires are connected to the power taking elastic pieces.

Aiming at the related technology, the length of the module power distribution device is long, and the number of the power taking modules is large, so that the number of the wires in the main circuit module is large, the length of the wires is long, a large number of wires are easily wound together, the wires in the main circuit module are disordered, and the wires are easily interfered.

SUMMERY OF THE UTILITY MODEL

In order to make the main circuit module inside more clean and tidy, increase distribution device's current-carrying capacity avoids producing the interference between the wire simultaneously, this application provides an intelligent object distribution device framework.

The application provides an intelligent module power distribution device framework adopts following technical scheme:

the utility model provides an intelligent object distribution device framework, includes main circuit module and installs a plurality of on main circuit module and gets the electric module, is provided with a plurality of female arranging in the main circuit module, and female arranging adopts the rigidity to electrically conduct the material and makes, gets to be provided with electrical connection structure between electric module and the female arranging, and female outside cladding of arranging has insulating shell.

By adopting the technical scheme, the bus bar is arranged in the main circuit module to replace the previous wire connection, and a plurality of wires cannot exist in the main circuit module, so that on one hand, the interior of the main circuit module is cleaner, the space for accommodating the plurality of wires is saved, and the overall structure size of the power distribution device is effectively reduced; on the other hand, the installation space of equipment can be effectively saved, the main circuit current passing through the power distribution device is improved under the main circuit module with the same size, and the current-carrying capacity of the power distribution device is increased. The insulating shell is coated on the busbar, so that a good insulating effect can be achieved on the busbar, and interference between the busbars is avoided.

Optionally, the insulating casing includes the epitheca and the inferior valve of mutual lock, forms a plurality of between epitheca and the inferior valve and is used for placing female arranging and the holding chamber that each other does not communicate.

Through adopting above-mentioned technical scheme, set up epitheca and inferior valve respectively in female both sides of arranging, epitheca and inferior valve cover the parcel respectively in female both sides of arranging to the mutual lock of epitheca and inferior valve has not only promoted female insulating properties who arranges, is convenient for also to arrange female arranging and is holding the intracavity.

Optionally, the electric connection structure includes an elastic plug-in component and an insertion sheet, the elastic plug-in component is fixedly arranged on the busbar, the insertion sheet is fixedly arranged on the power taking module, the elastic plug-in component is of an elastic deformable structure, and the elastic plug-in component is in contact with the insertion sheet under the action of elasticity.

By adopting the technical scheme, when the electricity taking module is installed on the main circuit module, the elastic plug-in component on the busbar can contact with the plug-in sheet on the electricity taking module under the action of self elasticity, so that the busbar is electrically connected with the plug-in sheet through the elastic plug-in component, and the contact electricity taking of the plug-in sheet on the electricity taking module and the elastic plug-in component on the busbar is realized.

Optionally, the electrical connection structure further comprises a weak current socket and a weak current connector, the weak current socket is fixedly arranged in the main circuit module, the weak current connector is fixedly arranged on the power taking module, and when the insertion piece is in contact with the elastic insertion part, the weak current connector is in contact with the weak current socket.

By adopting the technical scheme, when the electricity taking module is arranged on the main circuit module, the inserting sheet on the electricity taking module is contacted with the elastic inserting component on the busbar, so that strong electricity is contacted and taken; at the moment, a weak current connector on the power taking module is just in contact with a weak current socket in the main circuit module, so that contact power taking of a weak current signal is realized, strong current and weak current are simultaneously conducted in the installation process of the power taking module, and the power taking process of the power taking module is quicker and more convenient.

Optionally, the weak current socket is connected with a weak current lead, and the insulating sleeve is provided with a weak current slot for penetrating the weak current lead.

Through adopting above-mentioned technical scheme, because can be connected with the light current wire on the light current socket, set up the light current wire casing on the insulating boot after, can make the light current wire wear to establish in the light current wire casing, not only avoid the light current wire in disorder in the main circuit module, make the inside cleaner and tidier of main circuit module, also can play to shield and guard action the light current wire.

Optionally, the upper shell includes a plurality of mount pad and visor that arrange along female length direction crisscross setting, sets up a plurality of on the mount pad and hold the chamber one-to-one get the electric hole that communicates, and elasticity plug part is located and gets the electric hole.

Through adopting above-mentioned technical scheme, will get the electric structure setting between mount pad and getting the electric module to set up elasticity insertion parts in getting the electric hole, can play to cover and guard action elasticity insertion parts, improve the outside insulating effect of elasticity insertion parts. When electricity is got, the inserting piece is inserted into the electricity getting hole and is contacted with the elastic plugging component, so that the mounting seat can cover and protect the contact part of the inserting piece and the elastic plugging component, and the contact part of the inserting piece and the elastic plugging component is prevented from being exposed outside.

Optionally, the upper casing and the lower casing are both fixedly connected with the main circuit module, a plurality of parallel cards are fixedly connected to the lower casing, a plurality of clamping grooves corresponding to the cards one to one are formed in the upper casing, the cards are inserted into the clamping grooves, and a gap is reserved between the lower casing and the upper casing between adjacent cards to form a containing cavity.

Through adopting above-mentioned technical scheme, during the installation, fix the inferior valve in main circuit module earlier, then will arrange to place between the adjacent card on the inferior valve, then detain the epitheca on the inferior valve to make the card insert one by one and establish in the draw-in groove that corresponds, not only make the lock process of epitheca and inferior valve more convenient, also can play limiting displacement between epitheca and the inferior valve.

Optionally, two sides in the main circuit module are provided with limiting grooves, and two sides of the upper shell are respectively clamped in the two limiting grooves.

By adopting the technical scheme, during installation, the two sides of the upper shell are respectively clamped into the limiting grooves on the two sides in the main circuit module, so that the upper shell can be limited, the position of the insulating shell in the main circuit module is limited, and the position of the insulating shell in the main circuit module is prevented from deviating.

Optionally, the elastic insertion part comprises a fixing piece and fins symmetrically arranged on two sides of the fixing piece, the fixing piece is fixedly connected with the busbar, the fins on two sides of the fixing piece are close to each other and then far away from each other along the direction far away from the fixing piece, and the inserting pieces are inserted between the fins on two sides of the fixing piece.

Through adopting above-mentioned technical scheme, when getting the electricity, insert the inserted sheet between the fin of stationary blade both sides from the one end of keeping away from the stationary blade, the fin of stationary blade both sides can be extruded to the inserted sheet this moment, make the fin of stationary blade both sides keep away from each other, after the inserted sheet squeezes into between the fin of stationary blade both sides, under the effect of fin self elastic recovery power, the fin of stationary blade both sides can have the trend towards the direction removal that is close to each other, the fin of stationary blade both sides can hug closely in the both sides of inserted sheet this moment, realize that the contact of elasticity plug parts and inserted sheet is got the electricity. The fins on the two sides of the fixing piece are firstly close to each other and then are far away from each other along the direction far away from the fixing piece, so that the fins can be ensured to have good elastic force, and the inserting pieces can be conveniently inserted between the fins on the two sides of the fixing piece.

Optionally, the busbar is flat.

Through adopting above-mentioned technical scheme, setting up female arranging into the platykurtic, can effectively reducing female height of arranging on female arranging bears high current strength's basis, reduce female height that occupies of arranging in main circuit module, make distribution device's overall structure smaller and more exquisite.

In summary, the present application includes at least one of the following beneficial technical effects:

1. through arranging the bus bars, the former wire connection is replaced, and a plurality of wires cannot exist in the main circuit module, so that the interior of the main circuit module is cleaner and tidier, and the current-carrying capacity of the power distribution device is increased;

2. the insulating shell is coated on the bus bars, so that interference among the bus bars can be avoided;

3. by arranging the upper shell and the lower shell, the insulating property and the insulating service life of the busbar are improved, and the busbar is convenient to place in the accommodating cavity;

4. when the inserting sheet contacts with the elastic inserting part, the weak current connector contacts with the weak current socket, so that strong current and weak current are simultaneously switched on in the installation process of the power taking module, and the power taking process of the power taking module is quicker and more convenient.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of the present application;

FIG. 2 is a schematic diagram of an internal structure of a main circuit module according to an embodiment of the present disclosure;

FIG. 3 is a cross-sectional view intended to show a card;

FIG. 4 is an exploded schematic view intended to show a tab;

fig. 5 is an exploded view intended to show the elastic plug part;

fig. 6 is an exploded schematic view intended to show the location of the electrical connection structure.

Description of reference numerals: 1. a main circuit module; 11. a limiting sheet; 12. a limiting groove; 2. a busbar; 3. an insulating case; 31. an upper shell; 311. a mounting seat; 3111. a power taking hole; 312. a protective cover; 3121. a weak current slot; 3122. a card slot; 32. a lower case; 321. a card; 322. an accommodating chamber; 4. a power taking module; 5. an electrical connection structure; 51. an elastic insertion member; 511. a fixing sheet; 512. a fin; 52. inserting sheets; 53. a weak current socket; 531. a weak current lead; 54. and a weak current connector.

Detailed Description

The present application is described in further detail below with reference to figures 1-6.

The embodiment of the application discloses an intelligent module power distribution device architecture. Referring to fig. 1 and 2, an intelligent module power distribution device framework includes rectangular form main circuit module 1, main circuit module 1 top surface is the opening form, the opening part of main circuit module 1 top surface is installed a plurality of along its length direction and is got electric module 4, main circuit module 1 is inside to be fixed to be provided with a plurality of parallel arrangement's female arranging 2, female arranging 2 outside cladding has insulating shell 3, insulating shell 3 is fixed to be set up in main circuit module 1, female arranging 2 and getting to be provided with electric connection structure 5 between the electric module 4.

Adopt female 2 of arranging to conduct in main circuit module 1, replaced the wire to connect, make main circuit module 1 inside more clean and tidy, effectively reduced distribution device's overall structure size to effectively increased distribution device's current-carrying capacity under the same size condition. The insulating shell 3 on the busbar 2 can play a good insulating effect on the busbar 2, and the interference between the busbars 2 is avoided.

Referring to fig. 2 and 3, the length direction of the insulating case 3 is the same as the length direction of the main circuit module 1, the insulating case 3 includes an upper case 31 and a lower case 32 which are fastened to each other, the lower case 32 is horizontally disposed below the upper case 31 and fixedly connected to the main circuit module 1, both sides of the length direction of the lower case 32 are spaced from the inner side of the main circuit module 1, a plurality of cards 321 are fixedly connected to the lower case 32 along the width direction, the length of the card 321 is the same as the length direction of the lower case 32, and the length of the card 321 is the same as the length direction of the lower case 32; the bottom surface of the upper shell 31 is provided with a clamping groove 3122 matched with the card 321 for use, the top end of the card 321 is inserted into the clamping groove 3122, a distance is reserved between the bottom surface of the upper shell 31 and the top surface of the upper shell 31, and a plurality of accommodating cavities 322 for accommodating the busbar 2 are formed between the adjacent cards 321 and between the upper shell 31 and the lower shell 32. Through the both sides at female row 2 respectively cladding epitheca 31 and inferior valve 32, can play good insulating effect to female row 2, also be convenient for install female arranging 2 in the holding tank.

For reducing female height of arranging 2, and then reduce distribution device's overall height, generally arrange 2 with female row and set up to the platykurtic, female row 2 adopts the rigidity electrically conductive material to make, female row 2 is provided with a plurality of, and is located the difference respectively and holds the chamber 322 in, female bottom surface and the inferior valve 32 fixed connection who arranges 2, the both sides of female row 2 respectively with two adjacent card 321 butts.

Referring to fig. 2 and 3, the upper case 31 includes a plurality of mounting seats 311 and protective covers 312, the mounting seats 311 and the protective covers 312 are disposed in a staggered manner along a length direction of the upper case 31 and abut against each other, and both the mounting seats 311 and the protective covers 312 are fixedly connected to the main circuit module 1. Horizontal limiting pieces 11 are fixedly arranged on two sides of the inner wall of the main circuit module 1, the length of each limiting piece 11 is the same as that of the main circuit module 1, and a limiting groove 12 is formed between the lower portion of each limiting piece 11 and the main circuit module 1. The mounting seat 311 is located between the two limiting pieces 11, two sides of the protection cover 312 vertically extend downward to the bottom surface of the main circuit module 1 and then extend toward the inside of the limiting groove 12, and two sides of the protection cover 312 are respectively clamped in the limiting grooves 12 on two sides of the main circuit module 1. The two sides of the protection cover 312 are clamped in the limiting grooves 12, so as to further limit the protection cover 312, ensure the relative fixation of the insulation case 3 and the main circuit module 1, and further ensure the relative fixation of the positions of the busbar 2 and the main circuit module 1.

Referring to fig. 4 and 5, an electrical connection structure 5 is arranged between the power-taking module 4 and the mounting seat 311, the electrical connection structure 5 includes an elastic plug-in component 51, an insertion sheet 52, a weak current socket 53 and a weak current connector 54, the insertion sheet 52 and the weak current connector 54 are both fixedly arranged at the bottom of the power-taking module 4, the weak current socket 53 is fixedly arranged on the mounting seat 311, the elastic plug-in component 51 is fixedly arranged on the busbar 2, the elastic plug-in component 51 is of an elastic deformable structure and is in contact with the insertion sheet 52 under the action of elastic force, and when the insertion sheet 52 is in contact with the elastic plug-in component 51, the weak current connector 54 is in contact with the weak current socket 53.

When power is taken, the power taking module 4 is installed on the main circuit module 1, the inserting piece 52 is in contact with the elastic inserting component 51 under the elastic action of the elastic inserting component 51, strong current connection is achieved, meanwhile, the signal plug can be in contact with the weak current socket 53, weak current connection is achieved, and therefore strong current and weak current are simultaneously conducted in the power taking process of the power taking module 4, and the power taking process of the power taking module 4 is quicker and more convenient.

Referring to fig. 5 and 6, a plurality of power-taking holes 3111 are formed in the mounting seat 311 and communicated with the accommodating cavity 322 in a one-to-one correspondence manner, and the elastic plugging member 51 is located in the power-taking holes 3111. The elastic plug part 51 comprises a fixing piece 511 and a fin 512, the fixing piece 511 is horizontally fixed on the top surface of the busbar 2, and the length direction of the fixing piece 511 is the same as that of the busbar 2; the number of the fins 512 is two, the fins are symmetrically arranged on two sides of the length direction of the fixing plate 511, the bottom ends of the fins 512 are fixedly connected with the fixing plate 511, the top ends of the two fins 512 are close to each other and then far away from each other along the direction far away from the fixing plate 511, and the inserting pieces 52 are inserted between the two fins 512.

When power is taken, the power taking module 4 is vertically inserted downwards, the inserting sheet 52 is inserted into the power taking hole 3111, after the inserting sheet 52 is contacted with one side of the two fins 512 close to each other, the two fins 512 are extruded, the two fins 512 are far away from each other, then the inserting sheet 52 is continuously inserted vertically downwards, so that the inserting sheet 52 is extruded between the two fins 512, at the moment, under the action of the elastic restoring force of the two fins 512, the inserting sheet 52 is tightly contacted with the fins 512, and the power taking process of strong electricity is realized.

Referring to fig. 3, a weak current wire 531 is connected to the weak current socket 53, a weak current wire groove 3121 for penetrating the weak current wire 531 is formed in one side of the protective cover 312 in the length direction, the weak current wire groove 3121 can accommodate and protect the weak current wire 531, the weak current wire 531 is prevented from being scattered in the main circuit module 1, and the inside of the main circuit module 1 is tidier.

The implementation principle of the intelligent module power distribution device architecture in the embodiment of the application is as follows: adopt the female 2 of arranging of platykurtic to replace the wire in main circuit module 1 to set up the weak current wire casing 3121 that is used for accomodating weak current wire 531, make main circuit module 1 inside cleaner and tidier, and saved 1 inner space of main circuit module, effectively reduced power distribution unit's overall structure size. Insulating casing 3 can all play good insulating effect to female 2, the weak current wire 531 of arranging, avoids appearing disturbing between the circuit.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides an intelligent object distribution device framework, includes main circuit module (1) and installs a plurality of on main circuit module (1) and gets electric module (4), its characterized in that: the bus-bar power supply device is characterized in that a plurality of bus bars (2) are arranged in the main circuit module (1), the bus bars (2) are made of conductive materials, an electric connection structure (5) is arranged between the power supply module (4) and the bus bars (2), and an insulating shell (3) is wrapped outside the bus bars (2).

2. The smart module power distribution device architecture of claim 1, wherein: insulating casing (3) are including epitheca (31) and inferior valve (32) of mutual lock, form a plurality of between epitheca (31) and inferior valve (32) and are used for placing female arranging (2) and each other not communicated hold chamber (322).

3. A smart module power distribution device architecture according to claim 2, wherein: the electric connection structure (5) comprises an elastic plug-in component (51) and an insertion sheet (52), the elastic plug-in component (51) is fixedly arranged on the busbar (2), the insertion sheet (52) is fixedly arranged on the power taking module (4), the elastic plug-in component (51) is of an elastic deformable structure, and the elastic plug-in component (51) is in contact with the insertion sheet (52) under the action of elasticity.

4. A smart module power distribution device architecture according to claim 3, wherein: the electric connection structure (5) further comprises a weak current socket (53) and a weak current connector (54), the weak current socket (53) is fixedly arranged in the main circuit module (1), the weak current connector (54) is fixedly arranged on the power taking module (4), and when the inserting piece (52) is in contact with the elastic inserting part (51), the weak current connector (54) is in contact with the weak current socket (53).

5. An intelligent module power distribution apparatus architecture according to claim 4, wherein: the weak current socket (53) is connected with a weak current lead (531), and the insulating sleeve is provided with a weak current slot (3121) for the weak current lead (531) to penetrate through.

6. A smart module power distribution device architecture according to claim 3, wherein: epitheca (31) include mount pad (311) and visor (312) that a plurality of was arranged along female arranging (2) length direction crisscross setting, offer on mount pad (311) a plurality of and hold chamber (322) one-to-one get electric hole (3111), elasticity plug parts (51) are located and get electric hole (3111).

7. A smart module power distribution device architecture according to claim 2, wherein: card (321) that fixedly connected with a plurality of is parallel on inferior valve (32), seted up card slot (3122) of a plurality of and card (321) one-to-one on superior casing (31), card (321) are inserted and are established in card slot (3122), leave the clearance and form between inferior valve (32) between the adjacent card (321) and superior casing (31) and hold chamber (322).

8. A smart module power distribution device architecture according to claim 2, wherein: both sides in the main circuit module (1) are provided with limiting grooves (12), and both sides of the upper shell (31) are respectively clamped in the two limiting grooves (12).

9. A smart module power distribution device architecture according to claim 3, wherein: the elastic inserting part (51) comprises a fixing piece (511) and fins (512) symmetrically arranged on two sides of the fixing piece (511), the fixing piece (511) is fixedly connected with the busbar (2), the fins (512) on two sides of the fixing piece (511) are close to each other and then far away from each other along the direction far away from the fixing piece (511) to form an elastic structure, and the inserting pieces (52) are inserted between the fins (512) on two sides of the fixing piece (511).

10. The smart module power distribution device architecture of claim 1, wherein: the busbar (2) is flat.

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