CN105811128A - Power source structure - Google Patents

Abstract

The invention relates to a power source structure which comprises an accommodating shell, a screw-free wiring terminal and a cover plate which is positioned outside the accommodating shell, wherein the accommodating shell has an opening, one end of the screw-free wiring terminal is accommodated inside the accommodating shell while the other end is exposed at the opening, the cover plate has a first end which is connected with the accommodating shell in a rotating manner and a second end positioned opposite to the first end, the second end is connected with the accommodating shell in a detachable manner, the opening is at least partially cover when the cover plate rotates toward the opening, and therefore the second end and the accommodating shell cooperate with each other to form a line-shaped opening; a wire connection hole of the screw-free wiring terminal is exposed at the line-shaped opening. An input/output wire is connected onto the screw-free wiring terminal, and no screw installation process is needed. After the input/output wire is connected onto the screw-free wiring terminal, the cover plate is enabled to cover the opening, the input/output wire can be led out via the line-shaped opening, the second end is enabled to be connected with the accommodating shell, and therefore the input/output wire can be fixed; no screw installation process is needed, and the power source structure can be conveniently assembled by a user.

Description

Power supply architecture

Technical field

The present invention relates to electronic and electrical equipment technical field, particularly relate to a kind of power supply architecture.

Background technology

The power supply of tape input/lead-out terminal is when connecting input/output line, the mode screwed generally is adopted to connect input/output line on input/output terminal, then adopting the mode screwed that input/output line is fixed again, this assembly operation is very inconvenient, wasting manpower and material resources.

Summary of the invention

Based on this, it is necessary to provide the power supply architecture of a kind of ease of assembly.

A kind of power supply architecture, including:

Putting part, has opening；

Screwless connection terminal, one end is placed in described putting part, and the other end exposes in described opening part；And

Cover plate, is positioned at outside described putting part, described cover plate has with described putting part is rotationally connected the first end and the second relative end, and described second end can removably connect with described putting part；

Wherein, when described cover plate rotates towards described opening, covering described opening at least partly, make described second end and described putting part cooperatively form line mouth, the wiring hole of described screwless connection terminal exposes in described line mouth place.

In above-mentioned power supply architecture, when cover plate is in open mode, it is possible to connect input/output line in screwless connection terminal, it is not necessary to screw this operation.After connecting input/output line in screwless connection terminal so that cover plate covers opening, and connecing input/output line can draw from line mouth, then the second end is made to be connected with putting part, so that input/output line is fixed, it is not necessary to screw this operation, very convenient user assembles.

Wherein in an embodiment, described putting part includes clamshell and base plate, and described opening is located on described clamshell, and described base plate is positioned at the open end of described clamshell, and removably connects with described clamshell.

Wherein in an embodiment, described power supply architecture also include the following features at least one:

The sidewall of described base plate is provided with the first draw-in groove, and the inwall of described clamshell is provided with the first buckle block, and described first buckle block is arranged in described first draw-in groove；And

Described power supply architecture also includes circuit board, and described circuit board is placed in described putting part, and is located on described base plate, and described screwless connection terminal is located on described circuit board；Described putting part also includes limiting plate and keeper, described limiting plate is placed in described putting part, and is located on described base plate, and is positioned at the periphery of described circuit board, the sidewall of described circuit board caves in formation breach, and described breach and described limiting plate cooperatively form locating slot；Described keeper is placed in described putting part, and described keeper one end is fixed on described clamshell, and the other end inserts in described locating slot.

Wherein in an embodiment, described power supply architecture also includes circuit board, and described circuit board is placed in described putting part, and is located on described base plate, and described screwless connection terminal is located on described circuit board；

Described putting part also includes limiting plate and keeper, described limiting plate is placed in described putting part, and is located on described base plate, and is positioned at the periphery of described circuit board, the sidewall of described circuit board caves in formation breach, and described breach and described limiting plate cooperatively form locating slot；Described keeper is placed in described putting part, and described keeper one end is fixed on described clamshell, and the other end inserts in described locating slot；

Described limiting plate is provided with limiting stand near the side of described circuit board, and described circuit board is taken on described limiting stand.

Wherein in an embodiment, described power supply architecture also include the following features at least one:

Described cover plate includes the first relative lug and the second lug, described first lug is provided with the first rotating shaft near the side of described second lug, described second lug is provided with the second rotating shaft near the side of described first lug, described putting part is provided with two installing holes, described first rotating shaft and described second rotating shaft and is inserted in respectively in said two installing hole；

The inwall of described cover plate is provided with lock dog, and described putting part is provided with locked groove, and after described cover plate covers described opening, described lock dog can be stuck in described locked groove；And

The number of described opening is two, respectively the first opening and the second opening, and described first opening and described second opening lay respectively at the two ends of the same side of described putting part；The number of described screwless connection terminal is two, respectively the first screwless connection terminal and the second screwless connection terminal, described first screwless connection terminal and described second screwless connection terminal are exposed respectively at described first opening and described second opening part；The number of described cover plate is two pieces, respectively the first cover plate and the second cover plate, described first cover plate is rotatably connected with described putting part near one end of described second cover plate, described second cover plate is rotatably connected with described putting part near one end of described first cover plate, and described first cover plate and described second cover plate can cover described first opening and described second opening respectively；The number of described line mouth is two, respectively First Line mouth and the second line mouth, and the wiring hole of described first screwless connection terminal and the wiring hole of described second screwless connection terminal expose respectively at described First Line mouth and described second line mouth place.

Wherein in an embodiment, described power supply architecture also includes wire clamp, described wire clamp is positioned at described line mouth place, described wire clamp includes cell body and counterpart, described counterpart is half frame-shaped, described counterpart and the socket of described cell body, and between described counterpart and described cell body, there is gap, described cell body is provided with multiple the first wire casing being intervally arranged near one end of described counterpart, described counterpart is provided with multiple the second wire casing being intervally arranged, and described second wire casing and described First Line slot fit are used for pinning input/output line；

Wherein, described gap is just right with described line mouth, and described counterpart is near described opening, and described cell body and described putting part removably connect.

Wherein in an embodiment, described putting part is provided with the second draw-in groove, and described cell body is provided with the second buckle block near the side of described putting part, and described second buckle block is arranged in described second draw-in groove.

Wherein in an embodiment, described putting part is provided with two bucket portions, said two barrel section is not positioned at the both sides of described second draw-in groove, wherein, the opening in described bucket portion is near the opening of described putting part, described bucket portion is provided with otch near the side of described wire clamp, and the described otch opening from described bucket portion extends towards the blind end in described bucket portion；

Described cell body is two fasteners on the side of described putting part, said two fastener lays respectively at the both sides of described second buckle block, described fastener includes the card be located on described wire clamp and is located at described card away from the card column on the side of described wire clamp, described card column is placed in described bucket portion, and described card is arranged in described otch.

Wherein in an embodiment, described counterpart includes transverse slat, be located on described transverse slat two pieces of risers and be located at two blocks of plates between described two pieces of risers, described riser and described plate are positioned at the same side of described transverse slat, and the described plate that described two pieces of risers are adjacent to respectively forms clip, the wall contacts of the riser in described clip and described cell body one end, the plate in described clip inserts in described cell body.

Wherein in an embodiment, the riser in described clip is provided with the first latch near the side of described plate, and the outer wall of described cell body is provided with the second latch, and described first latch engages with described second latch.

Accompanying drawing explanation

Fig. 1 is the structural representation of the power supply architecture of an embodiment；

Fig. 2 is the schematic diagram that the cover plate in the power supply architecture in Fig. 1 is in open mode；

Fig. 3 is the exploded view of the power supply architecture in Fig. 1；

Fig. 4 is the structural representation of clamshell；

Fig. 5 is the structural representation of the power supply architecture after removing wire clamp；

Fig. 6 is the exploded view of wire clamp；

Fig. 7 is the structural representation of the cell body in wire clamp；

Fig. 8 is the structural representation of the counterpart in wire clamp.

Detailed description of the invention

Below in conjunction with drawings and the specific embodiments, power supply architecture is described further.

As Figure 1-3, the power supply architecture 10 of an embodiment includes putting part 100, circuit board 200, screwless connection terminal 300, cover plate 400 and wire clamp 500.

As shown in Figures 3 and 4, putting part 100 has opening 110.In the present embodiment, putting part 100 includes clamshell 120 and base plate 130.Opening 110 is located on clamshell 120.Base plate 130 is positioned at the open end of clamshell 120, and removably connects with clamshell 120.

Further, in the present embodiment, the sidewall of base plate 130 is provided with the first draw-in groove 132, and the inwall of clamshell 120 is provided with the first buckle block 122, and the first buckle block 122 is arranged in the first draw-in groove 132.In traditional power supply architecture, base plate and clamshell generally adopt mode that is gluing or that screw to realize assembling, the gluing step needing coating adhesive, and wait that adhesive curing is also required to the regular hour, and screw and be also required for this operation that screws.And in the present embodiment, clamshell 120 and base plate 130 adopt the mode of back-off can realize assembling, very convenient, packaging efficiency can be effectively improved, and the user that is more convenient for assembles.

Circuit board 200 is placed in putting part 100, and is located on base plate 130.

Further, in the present embodiment, putting part 100 also includes limiting plate 140 and keeper 150.Limiting plate 140 is placed in putting part 100, and is located on base plate 130, and is positioned at the periphery of circuit board 200.The sidewall of circuit board 200 caves in and forms breach 210, and breach 210 and limiting plate 140 cooperatively form locating slot (figure does not mark).Keeper 150 is placed in putting part 100, and keeper 150 one end is fixed on clamshell 120, and the other end inserts in locating slot.The setting of limiting plate 140 and keeper 150 makes the assembling of above-mentioned power supply architecture 10 have higher accuracy.

Further, in the present embodiment, limiting plate 140 is provided with limiting stand 142 near the side of circuit board 200, and circuit board 200 is taken on limiting stand 142.Limiting stand 142 makes there is air layer between circuit board 200 and base plate 130, operationally dispels the heat thus being more conducive to above-mentioned power supply architecture 10.

As shown in Fig. 2, Fig. 3 and Fig. 5, screwless connection terminal 300 one end is placed in putting part 100, and the other end exposes in opening 110 place.In the present embodiment, screwless connection terminal 300 is located on circuit board 200.Screwless connection terminal 300 is when being connected with input/output line, it is only necessary to inserted by input/output line in the wiring hole 310 of screwless connection terminal 300, it is not necessary to screw, and very convenient user assembles.

Cover plate 400 is positioned at outside putting part 100, and is rotatably connected with putting part 100.Wherein, when cover plate 400 moves towards opening 110, opening 110 can be covered.One end that cover plate 400 and putting part 100 are rotatably connected is the first end 410, and the other end is the second end 420, and the second end 420 cooperatively forms line mouth 430 with putting part 100, and the wiring hole 310 of screwless connection terminal 300 exposes in line mouth 430 place.After cover plate 400 covers opening 110, the second end 420 can removably connect with putting part 100.

In traditional power supply architecture, on binding post after wiring, it is necessary to adopt the mode screwed that cover plate is fixed, with fixing input/output line, it is desirable to have screw this operation.And in the present embodiment, when cover plate 400 is in open mode, it is possible to wiring in screwless connection terminal 300.After connecting input/output line in screwless connection terminal 300, cover plate 400 is made to cover opening 110, connect input/output line to draw from line mouth 430, then the second end 420 is made to be connected with putting part 100, so that input/output line is fixed, without the need for this operation that screws, very convenient user assembles.

Further, in the present embodiment, cover plate 400 includes the first relative lug 440 and the second lug 450, and the first lug 440 is provided with the first rotating shaft 442 near the side of the second lug 450, and the second lug 450 is provided with the second rotating shaft (not shown) near the side of the first lug 440.Clamshell 120 is provided with two installing holes 124.First rotating shaft 442 and the second rotating shaft are inserted in two installing holes 124 respectively.Thus cover plate 400 is rotatable relative to putting part 100.

Further, in the present embodiment, the inwall of cover plate 400 is provided with lock dog 460, and clamshell 120 is provided with locked groove (not shown), and after cover plate 400 covers opening 110, lock dog 460 can be stuck in locked groove.So that the second end 420 removably connects with putting part 100.

As shown in Fig. 1 and Fig. 6-8, wire clamp 500 is positioned at line mouth 430 place.Wire clamp 500 includes cell body 510 and counterpart 520.Counterpart 520 is in half frame-shaped, and counterpart 520 and cell body 510 are socketed, and has gap (figure does not mark) between counterpart 520 and cell body 510.Cell body 510 is provided with multiple the first wire casing 512 being intervally arranged near one end of counterpart 520, and counterpart 520 is provided with multiple the second wire casing 522 being intervally arranged, and the second wire casing 522 coordinates with the first wire casing 512 and is used for pinning input/output line.Wherein, gap is just right with line mouth 430, and counterpart 520 is near opening 110, and cell body 510 and clamshell 120 removably connect.

In traditional power supply architecture, in order to meet independently installed safety requirement, the mode screwed is adopted to fix wire clamp, in order to wire clamp 500 pins input/output line, it is desirable to have screw this operation.And in the present embodiment, the assembling of wire clamp 500 and clamshell 120 is without the need for screwing this operation, very convenient user assembles.When above-mentioned power supply architecture 10 is assembled in device to be powered, being built-in type power supply, now wire clamp 500 can as accessory, it is possible to save material cost.

In the present embodiment, clamshell 120 is provided with the second draw-in groove 126, and cell body 510 is provided with the second buckle block 530 near the side of clamshell 120, and the second buckle block 530 is arranged in the second draw-in groove 126.

Further, in the present embodiment, clamshell 120 is provided with two bucket portions 128, and two bucket portions 128 lay respectively at the both sides of the second draw-in groove 126.Wherein, the opening in bucket portion 128 is near the opening 110 of clamshell 120, and bucket portion 128 is provided with otch 129 near the side of wire clamp 500, and the otch 129 opening from bucket portion 128 extends towards the blind end in bucket portion 128.

Cell body 510 is two fasteners 540 on the side of clamshell 120, and two fasteners 540 lay respectively at the both sides of the second buckle block 530.Card 542 that fastener 540 includes being located on wire clamp 500 and be located at card 542 away from the card column 544 on the side of wire clamp 500, card column 544 is placed in barrel portion 128, and card 542 is arranged in otch 129.Bucket portion 128 coordinates so that the connection between wire clamp 500 and clamshell 120 is more firm with fastener 540.

Further, as shown in figs 6-8, in the present embodiment, counterpart 520 includes transverse slat 524, be located on transverse slat 524 two pieces of risers 526 and the two blocks of plates 528 being located between two pieces of risers 526, wherein, riser 526 and plate 528 are positioned at the same side of transverse slat 524, and the plate 528 that two pieces of risers 526 are adjacent to respectively forms clip.The wall contacts of riser in clip 526 and cell body 510 one end, the plate 528 in clip inserts in cell body 510.

Further, in the present embodiment, cell body 510 caves near the middle part of one end of transverse slat 524 and forms recess 514, and recess 514 is used for constituting gap.First wire casing 512 is located on the bottom of recess 514.

Further, in the present embodiment, the riser 526 in clip is provided with the first latch 5262 near the side of plate 528, and the outer wall of cell body 510 is provided with the second latch 516, and the first latch 5262 engages with the second latch 516.

Further, in the present embodiment, the number of screwless connection terminal 300 is two, respectively the first screwless connection terminal and the second screwless connection terminal.First screwless connection terminal and the second screwless connection terminal lay respectively at the two ends place of circuit board 200, are respectively used to connect input line and output lead.

The number being appreciated that opening 110 is two, and respectively the first opening and the second opening, the first opening and the second opening lay respectively at the two ends of the same side of clamshell 120.First screwless connection terminal and the second screwless connection terminal are exposed respectively at the first opening and the second opening part.

Further, in the present embodiment, the number of cover plate 400 is two pieces, respectively the first cover plate and the second cover plate.First cover plate is rotatably connected with clamshell 120 near one end of the second cover plate, and the second cover plate is rotatably connected with clamshell 120 near one end of the first cover plate, and the first cover plate and the second cover plate can cover the first opening and the second opening respectively.The number being appreciated that line mouth 430 is two, and respectively First Line mouth and the second line mouth, the wiring hole of the first screwless connection terminal and the wiring hole of the second screwless connection terminal expose respectively at First Line mouth and the second line mouth place.

Further, as shown in Figures 4 and 5, in the present embodiment, clamshell 120 caves in and forms escape groove 120a, the direction that escape groove 120a is directed away from base plate 130 from the opening of clamshell 120 extends, and the place of caving in of clamshell 120 is provided with installing plate 120b, and installing plate 120b is provided with mounting groove 120c.When by above-mentioned power supply architecture 10 and device to be powered with the use of time, it is possible to by screwing in mounting groove 120c, so that above-mentioned power supply architecture 10 is fixed on device to be powered.

Each technical characteristic of embodiment described above can combine arbitrarily, for making description succinct, the all possible combination of each technical characteristic in above-described embodiment is not all described, but, as long as the combination of these technical characteristics is absent from contradiction, all it is considered to be the scope that this specification is recorded.

Embodiment described above only have expressed the several embodiments of the present invention, and it describes comparatively concrete and detailed, but can not therefore be construed as limiting the scope of the patent.It should be pointed out that, for the person of ordinary skill of the art, without departing from the inventive concept of the premise, it is also possible to making some deformation and improvement, these broadly fall into protection scope of the present invention.Therefore, the protection domain of patent of the present invention should be as the criterion with claims.

Claims (10)

1. a power supply architecture, it is characterised in that including:

Putting part, has opening；

Screwless connection terminal, one end is placed in described putting part, and the other end exposes in described opening part；And

Cover plate, is positioned at outside described putting part, described cover plate has with described putting part is rotationally connected the first end and the second relative end, and described second end can removably connect with described putting part；

Wherein, when described cover plate rotates towards described opening, covering described opening at least partly, make described second end and described putting part cooperatively form line mouth, the wiring hole of described screwless connection terminal exposes in described line mouth place.

2. power supply architecture according to claim 1, it is characterised in that described putting part includes clamshell and base plate, described opening is located on described clamshell, and described base plate is positioned at the open end of described clamshell, and removably connects with described clamshell.

3. power supply architecture according to claim 2, it is characterised in that described power supply architecture also include the following features at least one:

The sidewall of described base plate is provided with the first draw-in groove, and the inwall of described clamshell is provided with the first buckle block, and described first buckle block is arranged in described first draw-in groove；And

Described power supply architecture also includes circuit board, and described circuit board is placed in described putting part, and is located on described base plate, and described screwless connection terminal is located on described circuit board；Described putting part also includes limiting plate and keeper, described limiting plate is placed in described putting part, and is located on described base plate, and is positioned at the periphery of described circuit board, the sidewall of described circuit board caves in formation breach, and described breach and described limiting plate cooperatively form locating slot；Described keeper is placed in described putting part, and described keeper one end is fixed on described clamshell, and the other end inserts in described locating slot.

4. power supply architecture according to claim 2, it is characterised in that described power supply architecture also includes circuit board, and described circuit board is placed in described putting part, and it is located on described base plate, described screwless connection terminal is located on described circuit board；

Described putting part also includes limiting plate and keeper, described limiting plate is placed in described putting part, and is located on described base plate, and is positioned at the periphery of described circuit board, the sidewall of described circuit board caves in formation breach, and described breach and described limiting plate cooperatively form locating slot；Described keeper is placed in described putting part, and described keeper one end is fixed on described clamshell, and the other end inserts in described locating slot；

Described limiting plate is provided with limiting stand near the side of described circuit board, and described circuit board is taken on described limiting stand.

5. power supply architecture according to claim 1, it is characterised in that described power supply architecture also include the following features at least one:

Described cover plate includes the first relative lug and the second lug, described first lug is provided with the first rotating shaft near the side of described second lug, described second lug is provided with the second rotating shaft near the side of described first lug, described putting part is provided with two installing holes, described first rotating shaft and described second rotating shaft and is inserted in respectively in said two installing hole；

The inwall of described cover plate is provided with lock dog, and described putting part is provided with locked groove, and after described cover plate covers described opening, described lock dog can be stuck in described locked groove；And

The number of described opening is two, respectively the first opening and the second opening, and described first opening and described second opening lay respectively at the two ends of the same side of described putting part；The number of described screwless connection terminal is two, respectively the first screwless connection terminal and the second screwless connection terminal, described first screwless connection terminal and described second screwless connection terminal are exposed respectively at described first opening and described second opening part；The number of described cover plate is two pieces, respectively the first cover plate and the second cover plate, described first cover plate is rotatably connected with described putting part near one end of described second cover plate, described second cover plate is rotatably connected with described putting part near one end of described first cover plate, and described first cover plate and described second cover plate can cover described first opening and described second opening respectively；The number of described line mouth is two, respectively First Line mouth and the second line mouth, and the wiring hole of described first screwless connection terminal and the wiring hole of described second screwless connection terminal expose respectively at described First Line mouth and described second line mouth place.

6. power supply architecture according to claim 1, it is characterized in that, described power supply architecture also includes wire clamp, described wire clamp is positioned at described line mouth place, described wire clamp includes cell body and counterpart, described counterpart is half frame-shaped, described counterpart and the socket of described cell body, and between described counterpart and described cell body, there is gap, described cell body is provided with multiple the first wire casing being intervally arranged near one end of described counterpart, described counterpart is provided with multiple the second wire casing being intervally arranged, and described second wire casing and described First Line slot fit are used for pinning input/output line；

Wherein, described gap is just right with described line mouth, and described counterpart is near described opening, and described cell body and described putting part removably connect.

7. power supply architecture according to claim 6, it is characterised in that described putting part is provided with the second draw-in groove, described cell body is provided with the second buckle block near the side of described putting part, and described second buckle block is arranged in described second draw-in groove.

8. power supply architecture according to claim 7, it is characterized in that, described putting part is provided with two bucket portions, said two barrel section is not positioned at the both sides of described second draw-in groove, wherein, the opening in described bucket portion is near the opening of described putting part, and described bucket portion is provided with otch near the side of described wire clamp, and the described otch opening from described bucket portion extends towards the blind end in described bucket portion；

Described cell body is two fasteners on the side of described putting part, said two fastener lays respectively at the both sides of described second buckle block, described fastener includes the card be located on described wire clamp and is located at described card away from the card column on the side of described wire clamp, described card column is placed in described bucket portion, and described card is arranged in described otch.

9. power supply architecture according to claim 6, it is characterized in that, described counterpart includes transverse slat, be located on described transverse slat two pieces of risers and be located at two blocks of plates between described two pieces of risers, described riser and described plate are positioned at the same side of described transverse slat, and the described plate that described two pieces of risers are adjacent to respectively forms clip, the wall contacts of the riser in described clip and described cell body one end, the plate in described clip inserts in described cell body.

10. power supply architecture according to claim 9, it is characterised in that the riser in described clip is provided with the first latch near the side of described plate, the outer wall of described cell body is provided with the second latch, and described first latch engages with described second latch.