CN211919654U - Mooring integrated box - Google Patents

Abstract

The utility model discloses a mooring integrated box, which comprises a box body and a box cover, wherein the box body comprises a vertically arranged take-up installation part and a horizontally arranged power installation part, the take-up installation part and the power installation part form an L-shaped box body, and an unmanned placing platform is formed on the power installation part; the case lid is articulated to be connected in power installation department's edge, and the case lid includes roof and three curb plate, and roof and three curb plate enclose into a cavity that is used for accomodating unmanned aerial vehicle, detain through the duckbilled between the both sides wall of the double-phase opposite side board of case lid and power installation department and be connected. Form the box structural design of L shape, so, can prevent unmanned aerial vehicle in power installation department's top, rethread case lid closes the back with duckbilled buckle connect can, so, can together carry unmanned aerial vehicle and electrical power unit, and can play the effect of protection to unmanned aerial vehicle.

Description

Mooring integrated box

Technical Field

The utility model relates to an unmanned aerial vehicle power supply unit's technical field, in particular to stay integrative case.

Background

Chinese patent with publication number CN209161233U discloses a staying unmanned aerial vehicle's circuit bearing structure, including the frame, be provided with the extensible member that can change the height in the frame, be connected with the extensible member and be used for driving the telescopic actuating mechanism of extensible member, the power transmission line is walked around the extensible member. The utility model discloses a actuating mechanism drives the extensible member and changes the height to raise the height of power transmission line, increased the power transmission line leave the frame when with the distance on ground, thereby greatly reduced the probability that the people stumbled by the electric wire, improve the stability of unmanned aerial vehicle flight.

The attached drawings of the prior art in the above-mentioned provide a frame construction of unmanned aerial vehicle power supply unit, and because its own is bulky, in addition there is an unmanned aerial vehicle (the shape of unmanned aerial vehicle is referred to the rescue unmanned aerial vehicle with lighting apparatus that the bulletin number of authorizing is disclosed for CN 208216985U), lead to the structure among the above-mentioned prior art not easily to carry, consequently, need design a more reasonable structure.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model aims at providing a staying integrative case, its inner structure is reasonable, has the advantage that unmanned aerial vehicle power supply unit and unmanned aerial vehicle of being convenient for carried.

The above technical purpose of the present invention can be achieved by the following technical solutions:

a mooring integrated box comprises a box body and a box cover, wherein the box body comprises a vertically arranged wire collecting installation part and a horizontally arranged power installation part, the wire collecting installation part and the power installation part form an L-shaped box body, and an unmanned placing platform is formed on the power installation part;

the case lid is articulated to be connected in power installation department's edge, just the case lid includes roof and three curb plate, roof and three curb plate enclose into a cavity that is used for accomodating unmanned aerial vehicle, connect through duckbilled buckle between two relative curb plates of case lid and power installation department's both sides wall.

So set up, because unmanned aerial vehicle power supply unit need set up take-up and power, and take-up is great to the requirement of height, consequently, can install it with other spare parts together at take-up, form highly great receipts line installation department to form the box structural design of L shape. So, can prevent unmanned aerial vehicle in power installation department's top, rethread case lid closes the back with the duckbilled buckle connect can, so, can carry unmanned aerial vehicle and electrical power unit together, and can play the effect of protection to unmanned aerial vehicle.

More preferably: the box body is connected with the box cover through a disassembly hinge, the disassembly hinge comprises a first hinge installed on the box body and a second hinge installed on the box cover, and the first hinge and the second hinge are detachably connected; four containing sleeves with the length less than or equal to the height of the side plate are installed in the cavity, a supporting leg with the length less than or equal to the height of the side plate is inserted into each containing sleeve, and a positioning structure used for keeping the supporting leg extending out of each containing sleeve is arranged between each supporting leg and each containing sleeve.

So set up, the case lid can be dismantled, and accomodate the setting of cover and can be used for accomodating the supporting legs, and cooperation location structure sets up, can fix when pulling out the supporting legs to can supply the user to be practical as the chair. Then the box cover can be used as a chair by pulling out the supporting legs.

More preferably: first hinge includes the first page or leaf fan of being connected with the box, fixes first axle sleeve on first page or leaf fan and installs the pivot parallel with first page or leaf fan on the axle sleeve, the second hinge includes the second page or leaf fan of being connected with the case lid and fixes the second axle sleeve on second page or leaf fan, be provided with one on the second axle sleeve and supply the pivot to insert the shaft hole of establishing.

So set up, along the pivot axial displacement can realize the connection of hinge to it is very simple, convenient to dismantle and install.

More preferably: one side that first page fan installed first axle sleeve, and the one end terminal surface that deviates from the box is provided with one and supplies second page fan to support the spacing arch of establishing.

So set up, spacing arch can inject the turned angle of case lid, avoids taking place the striking between case lid and box.

More preferably: the positioning structure comprises a spring pin arranged on the supporting leg and a jack arranged on the containing sleeve.

So set up, location structure's structure is comparatively simple.

More preferably: the spring pin comprises a sleeve, and a bolt and a compression spring which are inserted into the sleeve, the supporting leg is provided with a mounting hole for the sleeve to be inserted, and the end faces of the two ends of the sleeve are respectively flush with the end faces of the supporting leg, which are provided with the insertion holes.

So set up, the installation between spring catch and the supporting legs is very simple, with the spring catch directly insert establish on the supporting legs can.

More preferably: one end of the plug pin, which is far away from the compression spring, is provided with a pin head, and the diameter of the pin head is the same as that of the jack and is smaller than that of the plug pin.

So set up, the condition that the bolt stretches out from the jack is avoided appearing.

More preferably: the top of the wire take-up mounting portion is provided with a display screen and a storage groove, the top of the wire take-up mounting portion is hinged to a protective cover, the protective cover is hinged to one side, away from the power supply mounting portion, of the wire take-up mounting portion, and the box cover is hinged to one side, away from the wire take-up mounting portion, of the power supply mounting portion; the protective cover is characterized in that a limiting pin is arranged on the end face, away from the hinged point, of one end of the protective cover, a blank pressing capable of being abutted against the limiting pin is arranged on the end face, away from the hinged point, of one end of the box cover, and when the protective cover and the box cover are in a closed state, the limiting pin extends into the side wall, on one side of the opening of the box cover, and the blank pressing is abutted against.

So set up, the display screen can show unmanned aerial vehicle and power supply unit's operating mode isoparametric, and accomodate the groove and can supply the unmanned aerial vehicle remote controller to place, set up the visor again and protect the display and accomodate the remote controller. And finally, through the arrangement of the limiting pin, after the protective cover is covered, the cover is covered and fixed, and the protective cover can be locked to be in a covering state, so that a lock catch structure is not required to be arranged.

More preferably: receive line installation department and power installation department's junction and be provided with a receiver, the receiver is formed with an opening on power installation department's up end, the opening part articulates there is an apron.

So set up, place unmanned aerial vehicle on the power installation department, and the unmanned aerial vehicle of part use occasion needs certain extension because great reason, so, can design into the receiver to this part to effectual utilization space.

To sum up, the utility model discloses following beneficial effect has:

1. the unmanned aerial vehicle remote control box is convenient to carry and can well protect the unmanned aerial vehicle by adopting an L-shaped box structure arrangement and designing the box cover and the protective cover;

2. the design of cover and supporting legs is accomodate in the adoption, forms four supporting legs that can stretch out and draw back to adopt with the box with detachable design, thereby can dismantle the case lid and get off as the chair and use.

Drawings

FIG. 1 is a first schematic structural view of the first embodiment, showing a state when the supporting legs are stored;

FIG. 2 is a second structural schematic view of the first embodiment, showing the state when the supporting legs are pulled out;

FIG. 3 is a schematic structural view of a storage sleeve and a supporting foot according to the first embodiment;

FIG. 4 is a schematic structural view of the second embodiment;

FIG. 5 is a schematic structural view of an extension frame and a telescopic rod according to a second embodiment;

FIG. 6 is a schematic front view of an extension frame according to a second embodiment;

FIG. 7 is a schematic view showing a rear structure of an extension frame according to a second embodiment;

FIG. 8 is a schematic view of the structure of the extension bracket and the locking assembly of the second embodiment;

FIG. 9 is a schematic view showing the internal structure of the third embodiment;

fig. 10 is a schematic structural diagram of a heat dissipation plate and a power module in the third embodiment;

fig. 11 is an exploded view of the heat sink and the power module according to the third embodiment;

FIG. 12 is a schematic view showing a connection structure of the heat dissipating plate and the case in the third embodiment;

FIG. 13 is a schematic view showing the structure of a radiator, a storm fan, and a radiator fan in the third embodiment;

FIG. 14 is a first schematic structural view of the third embodiment, showing an air inlet;

FIG. 15 is a schematic structural view II of the third embodiment, showing the air outlet;

FIG. 16 is a first schematic structural view of the fourth embodiment, showing a state where the cover and the protective cover are closed;

FIG. 17 is a second structural view of the fourth embodiment, showing a state where the cover and the protective cover are opened;

FIG. 18 is a schematic structural view of a detachment hinge according to a fourth embodiment.

In the figure, 100, a box body; 110. a power supply mounting part; 111. an air inlet; 112. an air outlet; 113. placing a platform; 120. a wire take-up mounting part; 200. a box cover; 210. a top plate; 220. a side plate; 230. a storage sleeve; 231. a connecting plate; 232. a jack; 240. supporting legs; 241. mounting holes; 250. a spring pin; 251. a sleeve; 252. a bolt; 253. a compression spring; 254. a pin head; 260. pressing edges; 261. a bayonet; 300. a support bar; 310. a telescopic rod; 311. a telescopic pipe; 312. a connecting shaft; 320. an extension frame; 321. an upper panel; 322. a side panel; 323. a limiting port; 324. a notch; 325. a limiting channel; 326. a neck opening; 330. a bearing; 340. a roller; 350. a latch assembly; 351. a housing; 352. a latch bolt; 353. a reset member; 354. a shifting sheet; 355. a chute; 410. a heat dissipation plate; 411. a heat dissipation base plate; 412. a heat dissipation side plate; 413. a heat dissipating fin; 414. a slot; 415. pressing a plate; 420. a power supply module; 421. a PCB board; 422. a heat conducting block; 430. a storm fan; 440. a heat radiation fan; 500. a storage box; 600. a cover plate; 700. a protective cover; 710. a spacing pin; 800. a duckbill buckle; 900. disassembling the hinge; 910. a first hinge; 911. a first fan; 912. a first bushing; 913. a rotating shaft; 914. a limiting bulge; 920. a second hinge; 921. a second fan; 922. and a second shaft sleeve.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

In the description of the present invention, it should be understood that the terms "upper", "lower", "left", "right", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention.

Example 1:

a case lid of staying integrative case, as shown in fig. 1, includes roof 210 and three curb plate 220, and roof 210 and three curb plate 220 enclose into a cavity that is used for accomodating unmanned aerial vehicle.

Four containing sleeves 230 with the length smaller than the height of the side plates 220 are installed in the cavity, connecting plates 231 are arranged on two sides of each containing sleeve 230 and fixed on the side plates 220 through the connecting plates 231, the containing sleeves 230 can be made of plastic materials and can also be formed by integrally bending metal plates, and each two containing sleeves 230 are respectively fixedly installed on the two opposite side plates 220 in a group.

As shown in fig. 1 and 2, a supporting leg 240 having a length less than or equal to the height of the side plate 220 is inserted into the receiving sleeve 230, wherein the length of the supporting leg 240 is greater than the length of the receiving sleeve 230, and a positioning structure for keeping the supporting leg 240 extending out of the receiving sleeve 230 is disposed between the supporting leg 240 and the receiving sleeve 230.

Referring to fig. 3, the positioning structure includes a spring pin 250 mounted on the supporting leg 240, and an insertion hole 232 provided on the receiving sleeve 230. The insertion hole 232 is opened on the side plate 220 at one end of the receiving sleeve 230 far away from the top plate 210, a mounting hole 241 is opened on the side wall of one end of the supporting leg 240 facing the top plate 210 in the thickness direction, and the spring pin 250 is inserted into the mounting hole 241.

The spring pin 250 includes a sleeve 251, a plug 252 and a compression spring 253, the length of the sleeve 251 is the same as the thickness of the support leg 240, and the plug 252 and the compression spring 253 are inserted into the mounting hole 241. The outer diameter of the bolt 252 is larger than the diameter of the insertion hole 232, a pin head 254 with the same diameter as the insertion hole 232 is arranged at one end of the bolt 252 away from the compression spring 253, and the end of the pin head 254 is arranged in a circular arc chamfer.

The working principle is as follows:

when the chair is required to be used, the four support legs 240 are pulled out until the pin head 254 is inserted into the insertion hole 232 of the receiving sleeve 230 by the elastic force of the compression spring 253.

Example 2:

a supporting rod for tying an integral box is shown in fig. 4 and comprises a telescopic rod 310 and an extension frame 320, wherein the telescopic rod 310 comprises a plurality of telescopic pipes 311, two ends of the same telescopic pipe 311 are respectively arranged in a large-down mode and a small-up mode, and the telescopic pipes 311 are sequentially sleeved and arranged.

Referring to fig. 4 and 5, one end of the extension frame 320 is rotatably connected to the top of the innermost telescopic tube 311, a connecting shaft 312 is disposed at the top of the telescopic tube 311, the extension frame 320 is sleeved on the connecting shaft 312, and a bearing 330 is disposed between the connecting shaft 312 and the extension frame 320.

As shown in fig. 6 and 7, the extension frame 320 is made of plastic and includes an upper panel 321 and two side panels 322. A limiting port 323, a notch 324 and a limiting channel 325 are arranged on the upper panel 321 of the extending frame 320 in a penetrating manner, the limiting port 323 is arranged in a rectangular structure, the notch 324 extends along the width direction of the extending frame 320 and extends out of the extending frame 320 and penetrates through a side panel 322 of the extending frame 320, one end of the limiting channel 325 is communicated with the end part of the inner side of the notch 324, the other end of the limiting channel is inclined towards the opening direction of the notch 324 and is communicated with the side edge of the limiting port 323, and one end of the limiting channel 325 communicated with the limiting port 323 is arranged in a gradually-reduced.

A roller 340 is rotatably connected between the two side panels 322, the roller 340 is located at one side of the limiting opening 323 away from the limiting channel 325, and a part of the top of the roller 340 extends out of the limiting opening 323.

As shown in fig. 7 and 8, the extension frame 320 is provided with a latch assembly 350 for controlling the opening and closing of the notch 324, the latch assembly 350 includes a housing 351, a latch 352 and a reset piece 353, the housing 351 is fixedly mounted at the bottom of the upper panel 321 through a bolt, and the latch 352 is L-shaped and slidably mounted in the housing 351. The reset unit 353 is a spring, one end of the spring abuts against the inner side wall of the housing 351, the other end of the spring abuts against the latch 352, and under the elastic biasing force of the spring, the latch 352 extends out of the housing 351 and closes the notch 324.

A sliding groove 355 is formed at the bottom of the housing 351, a shifting piece 354 is arranged on the lock tongue 352, and the shifting piece 354 extends out of the sliding groove 355.

The working principle is as follows:

when the telescopic rod 310 is used, the telescopic tube 311 is pulled out, so that the telescopic rod 310 is extended, then the poking piece 354 is pushed to overcome the elastic force of the reset piece 353, the lock tongue 352 is driven to move to open the notch 324, at the moment, the power transmission line is loaded into the notch 324, moves along the limiting channel 325, passes through the neck opening 326 and then enters the limiting opening 323.

Example 3:

a power heat sink device tethered to a unified box, as shown in FIG. 9, comprises a box body 100, a heat sink 410, a power module 420, a storm fan 430 and a heat sink fan 440, all of the heat sink 410, the power module 420, the storm fan 430 and the heat sink fan 440 being mounted within the box body 100.

Referring to fig. 10 and 11, the heat dissipation plate 410 includes a heat dissipation bottom plate 411 and two heat dissipation side plates 412, the two heat dissipation side plates 412 are vertically disposed at two sides of the heat dissipation bottom plate 411, a distance between the two heat dissipation side plates 412 is smaller than a width of the heat dissipation bottom plate 411, and a mounting cavity for mounting the power module 420 is formed between the heat dissipation bottom plate 411 and the two heat dissipation side plates 412. The end face of the heat dissipation bottom plate 411 far away from the heat dissipation side plates 412 and the end faces of the two heat dissipation side plates 412 far away from the installation cavity are both provided with heat dissipation fins 413.

The two heat dissipation side plates 412 are both provided with slots 414, the slots 414 are located higher than the heat dissipation bottom plate 411, and the PCB 421 on the power module 420 is inserted between the two slots 414, so that a gap is formed between the heat dissipation bottom plate 411 and the PCB 421.

A plurality of heat-conducting blocks 422 are disposed on both sides of the PCB 421 of the power module 420, a plurality of pressing plates 415 are mounted on the heat-dissipating side plate 412 for pressing the heat-conducting blocks 422 onto the heat-dissipating side plate 412, and the pressing plates 415 are disposed between two adjacent heat-conducting blocks 422.

The heat-dissipating side plate 412 is provided with a plurality of connecting holes, the pressing plate 415 is provided with a threaded hole, the pressing plate 415 is installed on the heat-dissipating side plate 412 by passing through the connecting holes through a mounting bolt and then connecting with the threaded hole, the mounting hole 241 and the threaded hole are not shown in the figure, but for those skilled in the art, the mounting structure of the pressing plate 415 can be known without doubt.

As shown in fig. 12 and 13, the heat sink 410 is attached to the case 100, and a space is provided between the heat sink bottom plate 411 and the bottom of the case 100, and the heat sink fins 413 on the heat sink bottom plate 411 are not in contact with the bottom of the case 100, and a space is also provided between the heat sink side plate 412 and the side wall of the case 100.

The storm fan 430 and the heat dissipation fan 440 are respectively installed on two sidewalls of the cabinet 100 and respectively located at two ends of the heat dissipation plate 410, and referring to fig. 14 and 15, an air inlet 111 and an air outlet 112 are respectively installed on two sidewalls of the cabinet 100, the air inlet 111 is opposite to the storm fan 430, and the air outlet 112 is opposite to the heat dissipation fan 440.

Referring to fig. 13, the air outlet end of the air fan is inclined downward, and the heat dissipation fan 440 is disposed in a vertical direction.

Example 4:

referring to fig. 14, the case body 100 includes a vertically arranged wire-receiving mounting portion 120 and a horizontally arranged power supply mounting portion 110, the wire-receiving mounting portion 120 and the power supply mounting portion 110 form the case body 100 of an L-shaped structure, and an unmanned placing platform 113 is formed on the power supply mounting portion 110.

Referring to fig. 17, a wire take-up device, which is a prior art and not specifically described in this application, and the support rod 300 of embodiment 2 are mounted in the wire take-up mounting portion 120.

Referring to fig. 9, a power module 420 is installed in the power installation portion 110, a storage box 500 is disposed at an end of the power installation portion 110 connected to the wire take-up installation portion 120, an opening (not shown) is formed on an upper end surface of the power installation portion 110 of the storage box 500, and a cover plate 600 is hinged to the opening.

As shown in fig. 16 and 17, the lid 200 is hinged to an edge of the power mounting portion 110 away from the wire-receiving mounting portion 120, and two opposite side panels 322 of the lid 200 are connected to two side walls of the power mounting portion 110 through a duckbill buckle 800.

The box body 100 and the lid 200 are connected to each other by a release hinge 900, and referring to fig. 16 and 18, the release hinge 900 includes a first hinge 910 attached to the box body 100 and a second hinge 920 attached to the lid 200. The first hinge 910 includes a first leaf 911 connected to the case 100, a first boss 912 fixed to the first leaf 911, and a rotation shaft 913 installed on the boss in parallel with the first leaf 911.

The second hinge 920 includes a second leaf 921 connected to the case cover 200, and a second shaft sleeve 922 fixed to the second leaf 921, wherein the second shaft sleeve 922 is provided with a shaft hole (not shown) for the rotating shaft 913 to insert into. Wherein, the first leaf 911 is provided with a limit protrusion 914 for abutting against the second leaf 921 on one side of the first shaft sleeve 912 and on the end surface of the end departing from the box 100.

As shown in fig. 17, the top of the wire take-up installation part 120 is provided with a display screen and a storage groove, and the storage groove can be used for placing a remote control handle of the unmanned aerial vehicle.

The protective cover 700 is hinged to the top of the wire-rewinding mounting part 120 and is hinged to the side of the wire-rewinding mounting part 120 away from the power supply mounting part 110. Two limit pins 710 are arranged on the end face of the protective cover 700 far away from the hinge point, a blank holder 260 capable of being abutted against the limit pins 710 is arranged on the end face of the cover 200 far away from the hinge point, and two bayonets 261 matched with the limit pins 710 are arranged on the blank holder 260. When the protective cover 700 and the cover 200 are in a closed state, the stopper pin 710 is inserted into the bayonet 261.

The working principle is as follows:

when accomodating unmanned aerial vehicle, place unmanned aerial vehicle on place the platform 113, remote control handle places to accomodate the groove, then covers visor 700, covers lid 200 after the lid closes again, pushes down spacer pin 710 through blank pressing 260, then detain 800 through the duckbilled with lid 200 fixed can.

When using unmanned aerial vehicle, after opening case lid 200, remove along the axial lead direction of dismantling hinge 900 and can dismantle case lid 200, then can regard as the chair to use after pulling out supporting legs 240.

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

Claims (9)

1. A mooring integrated box is characterized in that: the box body (100) comprises a box body (100) and a box cover (200), wherein the box body (100) comprises a vertically arranged wire collecting installation part (120) and a horizontally arranged power installation part (110), the wire collecting installation part (120) and the power installation part (110) form an L-shaped box body (100), and an unmanned placing platform (113) is formed on the power installation part (110);

case lid (200) articulated connection is in the edge of power installation department (110), just case lid (200) include roof (210) and three curb plate (220), roof (210) and three curb plate (220) enclose into a cavity that is used for accomodating unmanned aerial vehicle, the both sides of case lid (200) are detained (800) and are connected through the duckbilled between the both sides wall of both sides curb plate (220) and power installation department (110).

2. The tethered integrated box of claim 1, wherein: the box body (100) is connected with the box cover (200) through a disassembly hinge (900), the disassembly hinge (900) comprises a first hinge (910) installed on the box body (100) and a second hinge (920) installed on the box cover (200), and the first hinge (910) is detachably connected with the second hinge (920); four containing sleeves (230) with the length less than or equal to the height of the side plate (220) are installed in the cavity, supporting legs (240) with the length less than or equal to the height of the side plate (220) are inserted into the containing sleeves (230), and a positioning structure used for keeping the supporting legs (240) extending out of the containing sleeves (230) is arranged between the supporting legs (240) and the containing sleeves (230).

3. The tethered integrated box of claim 2, wherein: first hinge (910) include first page fan (911) be connected with box (100), fix first axle sleeve (912) on first page fan (911) and install pivot (913) parallel with first page fan (911) on the axle sleeve, second hinge (920) include second page fan (921) be connected with case lid (200) and fix second axle sleeve (922) on second page fan (921), be provided with on second axle sleeve (922) and supply pivot (913) to insert the shaft hole of establishing.

4. The tethered integrated box of claim 3, wherein: one side that first axle sleeve (912) was installed to first leaf (911), and the one end terminal surface that deviates from box (100) is provided with one and supplies second leaf (921) to support spacing arch (914) of establishing.

5. The tethered integrated box of claim 4, wherein: the positioning structure comprises a spring pin (250) arranged on the supporting leg (240) and an insertion hole (232) arranged on the receiving sleeve (230).

6. The tethered integrated box of claim 5, wherein: the spring pin (250) comprises a sleeve (251), and a bolt (252) and a compression spring (253) which are inserted into the sleeve (251), wherein the supporting leg (240) is provided with a mounting hole (241) for the sleeve (251) to be inserted, and the end faces of the two ends of the sleeve (251) are respectively flush with the two end faces of the supporting leg (240) provided with the insertion holes (232).

7. The tethered integrated box of claim 6, wherein: one end of the bolt (252) far away from the compression spring (253) is provided with a pin head (254), and the diameter of the pin head (254) is the same as that of the jack (232) and is smaller than that of the bolt (252).

8. The tethered integrated box of claim 1, wherein: the top of the wire take-up mounting portion (120) is provided with a display screen and a storage groove, the top of the wire take-up mounting portion (120) is hinged to a protective cover (700), the protective cover (700) is hinged to one side, away from the power supply mounting portion (110), of the wire take-up mounting portion (120), and the box cover (200) is hinged to one side, away from the wire take-up mounting portion (120), of the power supply mounting portion (110); be provided with spacer pin (710) on the one end terminal surface of pin joint is kept away from in visor (700), be provided with blank pressing (260) that can with spacer pin (710) butt on the one end terminal surface of pin joint is kept away from in case lid (200), during visor (700) and case lid (200) closed condition, on spacer pin (710) stretched into case lid (200) open-ended one side lateral wall, just blank pressing (260) are to locating on spacer pin (710).

9. The tethered integrated box of claim 1, wherein: receive line installation department (120) and the junction of power installation department (110) and be provided with a receiver (500), receiver (500) are formed with an opening on the up end of power installation department (110), the opening part articulates there is an apron (600).

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