CN213845769U - Electric cabinet power supply network integrated interface - Google Patents

Abstract

The utility model discloses a regulator cubicle power supply network integration interface, including regulator cubicle and universal wheel, the universal wheel is located regulator cubicle bottom still includes cooling component, first circuit module and second circuit module, second circuit module includes commercial power supply interface, unit power supply interface, signal unit start signal interface, generator controller interface, second ground wire interface. The utility model discloses utilize the copper pipe support to wrap up the outside of first circuit module and second circuit module, utilize the copper pipe support to pass through the semiconductor cooling fin transmission with the heat that first circuit module and second circuit module produced simultaneously to the heat dissipation grid tray, and the effect through cooling fan and heat dissipation grid tray comes the heat effluvium, utilize first circuit module and second circuit module to expand the rack inner space, the switching efficiency between the rack has been made things convenient for, maneuverability is improved, the major incident because of the wiring switching problem causes has been avoided.

Description

Electric cabinet power supply network integrated interface

Technical Field

The utility model relates to an regulator cubicle production field especially relates to regulator cubicle power supply network integration interface.

Background

In the integrated connection control of the combined electrical cabinet at the present stage, the switching mode of the cabinet is usually the butt joint between the cabinet bottom surface outlet and the electrical equipment controller switch, and the problems of inconvenient wiring, difficult line interface searching, easy error, complex equipment maintenance and installation, high operability difficulty and the like can occur when the switching between the cabinet bottom surface outlet and other equipment is completed in the cabinet with complex lines due to limited space. After the product is delivered to a customer, the customer is difficult to connect, install and debug even if the product has a specification, short circuit caused by a wrong wiring mode in serious conditions can bring inestimable safety accidents, and meanwhile, the connecting position of the lead can generate heat when high current passes through, so that the connecting component is burnt out, fire disasters are caused, and the danger is very high. In order to solve the phenomenon, an electrical cabinet power supply network integrated interface module and a cooling assembly are designed on the original basis.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an integrated interface of regulator cubicle power network just in order to solve above-mentioned problem.

The utility model discloses a following technical scheme realizes above-mentioned purpose:

the electrical cabinet power supply network integrated interface comprises an electrical cabinet and a universal wheel, wherein the universal wheel is positioned at the bottom of the electrical cabinet, the electrical cabinet power supply network integrated interface also comprises a cooling assembly, a first circuit module and a second circuit module, the second circuit module comprises a commercial power supply interface, a unit power supply interface, a signal unit starting signal interface, a generator controller interface and a second ground interface, the signal unit starting signal interface, the generator controller interface and the second ground interface are all positioned on the front side of the second circuit module, the signal unit starting signal interface is positioned above the generator controller interface, the second ground interface is positioned below the generator controller interface, the mains supply interface and the unit power supply interface are positioned at the rear side of the second circuit module, and the unit power supply interface is positioned above the mains supply interface; the first circuit module comprises a first load, a second load, a third load, a spare interface, a first ground wire interface and an integrated network interface, wherein the integrated network interface is positioned at the front side of the first circuit module, the first load, the second load, the third load, the spare interface and the first ground wire interface are positioned at the rear side of the first circuit module, the first load is positioned above the second load, the second load is positioned above the third load, the third load is positioned above the spare interface, and the spare interface is positioned above the first ground wire interface; the cooling assembly comprises a cooling fan, a cooling grid plate, semiconductor cooling fins and a copper pipe frame, wherein the second circuit module is installed at one end of the front side of the copper pipe frame, the first circuit module is installed at the other end of the front side of the copper pipe frame, the rear end of the copper pipe frame is installed at the position, close to the bottom, of the rear end of the electric cabinet, the cooling grid plate is located at the rear side of the copper pipe frame, the semiconductor cooling fins are located between the cooling grid plate and the copper pipe frame, and the cooling fan is installed at the rear end of the cooling grid plate.

Preferably: the second circuit module with the position of the contact of copper pipe support has paintd cooling silicone grease, first circuit module with insulation treatment's heat dissipation aluminum sheet is all installed in the outside of second circuit module.

According to the arrangement, the heat generated by the first circuit module and the second circuit module is transferred to the copper pipe frame by using the insulating aluminum sheets outside the first circuit module and the second circuit module, so that the first circuit module and the second circuit module are prevented from being overheated.

Preferably: the copper pipe support is nested on the electric cabinet, the heat dissipation grid plate is connected with the copper pipe support through bolts, and a sealed cavity structure is arranged inside the copper pipe support.

According to the arrangement, the copper pipe frame is used for absorbing heat, and the heat dissipation grid plate is used for dissipating the heat.

Preferably: and heat dissipation silicone grease is smeared between the semiconductor radiating fin and the heat dissipation grid plate, heat dissipation silicone grease is smeared between the semiconductor radiating fin and the copper pipe frame, and the heat dissipation fan is connected with the heat dissipation grid plate through bolts.

According to the arrangement, the semiconductor cooling fins are utilized to transfer the heat at the upper end of the copper pipe frame to the heat dissipation grid plate, and the heat is quickly dissipated through the heat dissipation fan on the heat dissipation grid plate.

Preferably: the lifting hook is installed at the top of the electrical cabinet, and the universal wheel is connected with the bottom of the electrical cabinet through a bolt.

According to the arrangement, the electrical cabinet is convenient to mount by using the hoisting hook at the top of the electrical cabinet, and the universal wheel is convenient to move.

Compared with the prior art, the beneficial effects of the utility model are as follows:

1. the outer sides of the first circuit module and the second circuit module are wrapped by the copper pipe frame, meanwhile, the heat generated by the first circuit module and the second circuit module is transmitted to the heat dissipation grid plate by the copper pipe frame through the semiconductor cooling fins, and the heat is dissipated by the action of the heat dissipation fan and the heat dissipation grid plate;

2. utilize first circuit module and second circuit module to expand the rack inner space, made things convenient for the switching efficiency between the rack, improved maneuverability, avoided the major incident because of the switching problem of working a telephone switchboard causes.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

Fig. 1 is a schematic structural diagram of an electrical cabinet power supply network integrated interface according to the present invention;

fig. 2 is a schematic structural view of a semiconductor heat sink of the electrical cabinet power supply network integrated interface of the present invention;

fig. 3 is a partial part diagram of a copper pipe frame of the electrical cabinet power supply network integrated interface of the present invention;

fig. 4 is a partial cross-sectional view of a cooling assembly of the electrical cabinet power supply network integrated interface of the present invention;

fig. 5 is a partial part diagram of a second circuit module of the electrical cabinet power supply network integrated interface according to the present invention;

fig. 6 is a partial part diagram of a first circuit module of the electrical cabinet power supply network integrated interface of the present invention.

The reference numerals are explained below:

1. a cooling assembly; 2. an electrical cabinet; 3. a universal wheel; 4. a first circuit module; 5. a second circuit module; 11. a heat radiation fan; 12. a heat dissipation grid plate; 13. a semiconductor heat sink; 14. a copper pipe frame; 41. loading a first load; 42. a second load; 43. loading a third load; 44. a standby interface; 45. a first ground wire interface; 46. an integrated network interface; 51. a mains supply interface; 52. a unit power supply interface; 53. starting a signal interface by a signal unit; 54. a generator controller interface; 55. a second ground interface.

Detailed Description

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are used merely for convenience of description and for simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention. Furthermore, the terms "first", "second", etc. are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first," "second," etc. may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art through specific situations.

The present invention will be further explained with reference to the accompanying drawings:

example 1

As shown in fig. 1, 2, 3, 4, 5, and 6, the electrical cabinet power supply network integrated interface includes an electrical cabinet 2 and a universal wheel 3, the universal wheel 3 is located at the bottom of the electrical cabinet 2, and further includes a cooling assembly 1, the first circuit module 4 and the second circuit module 5, the second circuit module 5 includes a commercial power supply interface 51, a machine set power supply interface 52, a signal machine set starting signal interface 53, a generator controller interface 54, and a second ground interface 55, the signal machine set starting signal interface 53, the generator controller interface 54, and the second ground interface 55 are all located on the front side of the second circuit module 5, the signal machine set starting signal interface 53 is located above the generator controller interface 54, the second ground interface 55 is located below the generator controller interface 54, the commercial power supply interface 51 and the machine set power supply interface 52 are located on the rear side of the second circuit module 5, and the machine set power supply interface 52 is located above the commercial power supply interface 51; the first circuit module 4 comprises a first load 41, a second load 42, a third load 43, a spare interface 44, a first ground interface 45 and an integrated network interface 46, wherein the integrated network interface 46 is positioned on the front side of the first circuit module 4, the first load 41, the second load 42, the third load 43, the spare interface 44 and the first ground interface 45 are positioned on the rear side of the first circuit module 4, the first load 41 is positioned above the second load 42, the second load 42 is positioned above the third load 43, the third load 43 is positioned above the spare interface 44, and the spare interface 44 is positioned above the first ground interface 45; cooling assembly 1 includes cooling fan 11, heat dissipation grid plate 12, semiconductor fin 13, copper pipe support 14, second circuit module 5 is installed in 14 front side one ends of copper pipe support, first circuit module 4 is installed at 14 front side other ends of copper pipe support, the 14 rear ends of copper pipe support are installed and are being close to the bottom position at 2 rear ends of regulator cubicle, heat dissipation grid plate 12 is located 14 rear sides of copper pipe support, semiconductor fin 13 is located between heat dissipation grid plate 12 and the copper pipe support 14, cooling fan 11 is installed in heat dissipation grid plate 12 rear end. The copper pipe frame 14 is embedded on the electrical cabinet 2, the heat dissipation grid plate 12 is connected with the copper pipe frame 14 through bolts, a sealed cavity structure is arranged inside the copper pipe frame 14, the copper pipe frame 14 is used for absorbing heat, and meanwhile, the heat dissipation grid plate 12 is used for dissipating the heat; heat dissipation silicone grease is smeared between the semiconductor radiating fins 13 and the heat dissipation grid plate 12, heat dissipation silicone grease is smeared between the semiconductor radiating fins 13 and the copper pipe frame 14, the heat dissipation fan 11 is connected with the heat dissipation grid plate 12 through bolts, heat at the upper end of the copper pipe frame 14 is transferred to the heat dissipation grid plate 12 through the semiconductor radiating fins 13, and the heat is quickly dissipated through the heat dissipation fan 11 on the heat dissipation grid plate 12; the hoisting hook is installed at the top of the electrical cabinet 2, the universal wheel 3 is connected with the bottom of the electrical cabinet 2 through a bolt, the hoisting hook at the top of the electrical cabinet 2 is used for facilitating installation of the electrical cabinet 2, and meanwhile the universal wheel 3 is used for facilitating movement of the electrical cabinet 2.

The working principle is as follows: when the power supply device is used, the first load 41, the second load 42 and the third load 43 on the first circuit module 4 are used for respectively supplying power to the three loads, meanwhile, the first ground wire interface 45 on the first circuit module 4 is used for connecting corresponding ground wires, then, the signal unit starting signal interface 53 is used for transmitting a starting signal, and meanwhile, the generator controller interface 54 is used for connecting a generator controller; when the first circuit module 4 and the second circuit module 5 are used, certain heat is generated, meanwhile, the insulating aluminum plates on the outer sides of the first circuit module 4 and the second circuit module 5 are used for transferring the heat to the front side of the copper pipe frame 14, meanwhile, the copper pipe frame 14 is used for transferring the heat of the first circuit module 4 and the second circuit module 5 to the semiconductor cooling fins 13 on the rear side, the semiconductor cooling fins 13 are used for transferring the heat to the front side of the heat dissipation grid plate 12, the heat dissipation grid plate 12 is rapidly heated, meanwhile, the heat dissipation grid plate 12 is swept by the cooling fan 11, and therefore the temperature of the heat dissipation grid plate 12 after being raised is reduced.

Example 2

The difference between embodiment 2 and embodiment 1 is that the position of the contact between the second circuit module 5 and the copper pipe frame 14 is coated with cooling silicone grease, the position of the contact between the first circuit module 4 and the copper pipe frame 14 is coated with cooling silicone grease, the outer sides of the first circuit module 4 and the second circuit module 5 are both provided with heat dissipation aluminum sheets which are subjected to insulation treatment, and the heat generated by the first circuit module 4 and the second circuit module 5 is transferred to the copper pipe frame 14 by utilizing the insulation aluminum sheets on the outer sides of the first circuit module 4 and the second circuit module 5, so that the first circuit module 4 and the second circuit module 5 are prevented from overheating.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention.

Claims (5)

1. Regulator cubicle power supply network integration interface, including regulator cubicle (2) and universal wheel (3), universal wheel (3) are located regulator cubicle (2) bottom, its characterized in that: still include cooling component (1), first circuit module (4) and second circuit module (5), second circuit module (5) includes commercial power supply interface (51), unit power supply interface (52), signal unit start signal interface (53), generator controller interface (54), second ground interface (55), signal unit start signal interface (53), generator controller interface (54) and second ground interface (55) all are located the front side of second circuit module (5), signal unit start signal interface (53) are located generator controller interface (54) top, second ground interface (55) are located generator controller interface (54) below, commercial power supply interface (51) and unit power supply interface (52) are located the rear side of second circuit module (5), the unit power supply interface (52) is positioned above the commercial power supply interface (51); the first circuit module (4) comprises a first load (41), a second load (42), a third load (43), a standby interface (44), a first ground interface (45) and an integrated network interface (46), wherein the integrated network interface (46) is positioned at the front side of the first circuit module (4), the first load (41), the second load (42), the third load (43), the standby interface (44) and the first ground interface (45) are positioned at the rear side of the first circuit module (4), the first load (41) is positioned above the second load (42), the second load (42) is positioned above the third load (43), the third load (43) is positioned above the standby interface (44), and the standby interface (44) is positioned above the first ground interface (45); cooling subassembly (1) is including cooling fan (11), heat dissipation grid tray (12), semiconductor fin (13), copper pipe rack (14), second circuit module (5) are installed copper pipe rack (14) front side one end, first circuit module (4) are installed the copper pipe rack (14) front side other end, copper pipe rack (14) rear end is installed regulator cubicle (2) rear end is close to the bottom position, heat dissipation grid tray (12) are located copper pipe rack (14) rear side, semiconductor fin (13) are located heat dissipation grid tray (12) with between copper pipe rack (14), cooling fan (11) are installed heat dissipation grid tray (12) rear end.

2. The electrical cabinet power supply network integrated interface of claim 1, wherein: second circuit module (5) with cooling silicone grease has been paintd to the position of the contact of copper pipe support (14), first circuit module (4) with insulation treatment's heat dissipation aluminum sheet is all installed in the outside of second circuit module (5).

3. The electrical cabinet power supply network integrated interface of claim 1, wherein: the copper pipe support (14) is nested on the electrical cabinet (2), the heat dissipation grid plate (12) is connected with the copper pipe support (14) through bolts, and a sealed cavity structure is arranged inside the copper pipe support (14).

4. The electrical cabinet power supply network integrated interface of claim 1, wherein: radiating silicone grease is smeared between the semiconductor radiating fins (13) and the radiating grid plate (12), radiating silicone grease is smeared between the semiconductor radiating fins (13) and the copper pipe frame (14), and the radiating fan (11) is connected with the radiating grid plate (12) through bolts.

5. The electrical cabinet power supply network integrated interface of claim 1, wherein: the lifting hook is installed at the top of the electrical cabinet (2), and the universal wheel (3) is connected with the bottom of the electrical cabinet (2) through a bolt.

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