阅读说明：本技术 一种配电箱 (Distribution box ) 是由 郑柏阳 于 2021-08-03 设计创作，主要内容包括：本发明公开了一种配电箱,包括有配电箱主体,配电箱主体的下半部分开设有供配电箱主体内的各导线引出的过线口,且在该过线口处固定设置有对各导线进行捆绑区分的捆绑区分装置；捆绑区分装置包括有作为承载结构的壳体,所述的壳体上端设置有供导线穿过及放置的放置区,壳体上还设置有输送组件、拨起组件、交互组件和切割组件。本发明具有以下优点和效果：方便用户自主的对各导线进行组合式捆绑,从而避免单独的各导线缠绕,同时方便后续的区分寻找。(The invention discloses a distribution box, which comprises a distribution box main body, wherein the lower half part of the distribution box main body is provided with a wire passing port for leading out each wire in the distribution box main body, and a binding distinguishing device for binding and distinguishing each wire is fixedly arranged at the wire passing port; the binding distinguishing device comprises a shell serving as a bearing structure, a placing area for a lead to pass through and place is arranged at the upper end of the shell, and a conveying assembly, a poking assembly, an interaction assembly and a cutting assembly are further arranged on the shell. The invention has the following advantages and effects: the combined binding of the wires is facilitated for users, so that the independent wires are prevented from being wound, and meanwhile, the subsequent distinguishing and searching are facilitated.)

1. The utility model provides a distribution box, includes distribution box main part (11), its characterized in that: the lower half part of the distribution box main body (11) is provided with a wire passing port (12) for leading out each wire in the distribution box main body (11), and a binding distinguishing device (2) for binding and distinguishing each wire is fixedly arranged at the wire passing port (12);

bind distinguishing device (2) including casing (21) as load-bearing structure, casing (21) upper end be provided with supply the wire to pass and place district (22), casing (21) on still be provided with:

a conveying assembly for conveying the binding band for binding to the placing area (22);

a pulling-up component for pulling up the tail end of the binding belt conveyed to the placing area (22) so as to be convenient for a user to grab;

an interaction component capable of detecting a wire placed in the placement area (22);

and a cutting assembly for cutting the binding band after detecting the wire placed in the placement area (22).

2. The electrical box of claim 1, wherein: the conveying assembly comprises a conveying platform (31), a feeding rotary drum (32), a pressing drum (33), a driving connecting rod (34), a driving belt (36) and a first motor (37), wherein the conveying platform (31) is transversely arranged on the shell (21) and extends into the placing area (22), a conveying belt (35) used for conveying the binding belt is arranged on the upper end face of the conveying platform (31), the feeding rotary drum (32) is arranged at the head end of the conveying platform (31), the binding belt is conveyed to the conveying belt (35) from the outside through the feeding rotary drum (32), the pressing drum (33) is fixedly arranged at the upper end of the conveying platform (31), and the pressing drum is matched with the conveying belt (35) to press down the binding belt on the conveying belt (35) so as to prevent the binding belt from tilting;

the conveying table (31) is provided with a driving connecting rod (34) which can drive the conveying belt (35) to advance through self rotation so as to convey the binding belt, and the first motor (37) is fixedly arranged in the shell (21) and is linked with the driving connecting rod (34) through a driving belt (36).

3. The electrical box of claim 2, wherein: the poking assembly comprises a poking piece (41), a poking connecting rod (42), a poking belt (43) and a second motor (44), the poking piece (41) is attached to the tail end of the conveying table (31), the poking piece (41) is fixed on the poking connecting rod (42), the poking connecting rod (42) is connected with the second motor (44) through the poking belt (43), the second motor (44) is driven to drive the poking piece (41) to rotate so as to poke the binding belt conveyed out of the tail end of the conveying table (31), and therefore a user can grab the binding belt conveniently.

4. The electrical box of claim 1, wherein: the interactive assembly comprises a fixed frame (51), a stroke seat (52), a distance measuring sensor (53) and a third motor (54), wherein the fixed frame (51) is fixedly arranged in the shell (21), the stroke seat (52) is limited in the fixed frame (51) to move longitudinally, the distance measuring sensor (53) is fixedly arranged at the upper end of the stroke seat (52), and the placing area (22) is provided with an induction through hole corresponding to a probe of the distance measuring sensor (53); when a lead is placed in the placing area (22), the distance measuring sensor (53) can detect through the sensing through hole and generate a feedback signal;

the third motor (54) is arranged in the shell (21) and is positioned below the stroke seat (52), the third motor (54) is connected with the distance measuring sensor (53) and works based on a feedback signal of the distance measuring sensor (53), and an output shaft of the third motor (54) is linked with the lower end of the stroke seat (52) to drive the stroke seat (52) to move longitudinally.

5. The electrical box of claim 4, wherein: the cutting assembly comprises a cutting connecting block (61) and a cutting piece (62), the cutting connecting block (61) is transversely fixedly connected to the stroke seat (52), the cutting piece (62) is longitudinally fixed to the cutting connecting block (61) and moves longitudinally along with the stroke seat (52), and a cutting opening (63) for the cutting piece (62) to extend out is formed in the conveying table (31).

6. The electrical box of claim 5, wherein: the output shaft of the third motor (54) is fixedly provided with a linkage block (71) which synchronously rotates along with the output shaft, the linkage block (71) at least has a short side (712) and a long side (711), and the cutting sheet (62) can extend out of the cutting opening (63) to cut off the binding belt when the long side (711) of the linkage block (71) is matched with the stroke seat (52) under the driving of the output shaft of the third motor (54); when the short side (712) is matched with the stroke seat (52), the cutting blade (62) does not extend out of the cutting opening (63).

Technical Field

The invention relates to the technical field of power equipment, in particular to a distribution box.

Background

The distribution box is a mass parameter on data, generally forms a low-voltage forest according to electrical wiring, and requires that a switch device, a measuring instrument, a protective electrical appliance and an auxiliary device are assembled in a closed or semi-closed metal cabinet or on a screen to form the low-voltage distribution box. In normal operation, the circuit can be switched on or off by means of a manual or automatic switch.

Therefore, a plurality of wires which need to be connected on the distribution box are very large, and the wires are alternated and wound to easily cause disorder of wiring; when equipment or instruments in the distribution box have faults, finding out the wires connected with the equipment or the instruments is very difficult, a large amount of time is consumed, and accidents such as falling of other wires and the like are easily caused. Therefore, it is necessary to provide a distribution box that can easily distinguish between wires and wiring work.

Disclosure of Invention

The invention aims to provide a distribution box to solve the problems in the background technology.

The technical purpose of the invention is realized by the following technical scheme: a distribution box comprises a distribution box main body, wherein the lower half part of the distribution box main body is provided with a wire passing port for leading out each wire in the distribution box main body, and a binding distinguishing device for binding and distinguishing each wire is fixedly arranged at the wire passing port;

bind distinguishing device including the casing as load-bearing structure, casing upper end be provided with and supply the wire to pass and the district of placing, the casing on still be provided with:

a conveying assembly for conveying the binding belt for binding to the placing area;

a pulling-up component which pulls up the tail end of the binding belt conveyed to the placing area so as to be convenient for a user to grab;

an interactive component capable of detecting a wire placed in the placement area;

and a cutting assembly for cutting the tying band after detecting the wire placed in the placement area.

The further setting is that: the conveying assembly comprises a conveying platform, a feeding rotary drum, a pressing drum, a driving connecting rod, a driving belt and a first motor, wherein the conveying platform is transversely arranged on the shell and extends into the placing area, a conveying belt used for conveying the binding belt is arranged on the upper end face of the conveying platform, the feeding rotary drum is arranged at the head end of the conveying platform and conveys the binding belt to the conveying belt from the outside through the feeding rotary drum, the pressing drum is fixedly arranged at the upper end of the conveying platform and presses the binding belt on the conveying belt downwards through matching with the conveying belt so as to prevent the binding belt from tilting;

the conveying table is provided with a driving connecting rod which can drive the conveying belt to advance through self rotation so as to convey the binding belt, and the first motor is fixedly arranged in the shell and is linked with the driving connecting rod through a driving belt.

The further setting is that: the poking component comprises a poking piece, a poking connecting rod, a poking belt and a second motor, the poking piece is attached to the tail end of the conveying table and fixed on the poking connecting rod, the poking connecting rod is connected with the second motor through the poking belt, and the second motor is driven to drive the poking piece to rotate so as to poke the binding belt conveyed out from the tail end of the conveying table, so that a user can grab the binding belt conveniently.

The further setting is that: the interactive assembly comprises a fixed frame, a stroke seat, a distance measuring sensor and a third motor, wherein the fixed frame is fixedly arranged in the shell, the stroke seat is limited in the fixed frame to move longitudinally, the distance measuring sensor is fixedly arranged at the upper end of the stroke seat, and the placing area is provided with a sensing through hole corresponding to a probe of the distance measuring sensor; when a lead is placed in the placing area, the distance measuring sensor can detect through the sensing through hole and generate a feedback signal;

the third motor is arranged in the shell and located below the stroke seat, the third motor is connected with the distance measuring sensor and works based on a feedback signal of the distance measuring sensor, and an output shaft of the third motor is connected with the lower end of the stroke seat to drive the stroke seat to move longitudinally.

The further setting is that: the cutting assembly comprises a cutting connecting block and a cutting blade, the cutting connecting block is transversely and fixedly connected to the stroke seat, the cutting blade is longitudinally fixed to the cutting connecting block and longitudinally moves along with the stroke seat, and a cutting opening for the cutting blade to extend out is formed in the conveying table.

The further setting is that: the output shaft of the third motor is fixedly provided with a linkage block which synchronously rotates along with the output shaft, the linkage block at least has a short edge and a long edge, and the linkage block is driven by the output shaft of the third motor, and when the long edge of the linkage block is matched with the stroke seat, the cutting piece can extend out of the cutting opening to cut off the binding belt; when the short edge of the cutting blade is matched with the stroke seat, the cutting blade does not extend out of the cutting opening.

The invention has the beneficial effects that:

1. in the invention, the wires which need to be bound and distinguished are placed in the placing area one by one, then the binding belt for binding is conveyed to the placing area through the conveying assembly, and then the user holds the tail end of the binding belt conveyed to the placing area to bind the wires in the placing area together; the binding belt is continuously conveyed and needs to be cut off, and when a user places a conducting wire needing to be bound and distinguished in the placement area, the binding belt can be cut through the cutting assembly; then, the user binds and distinguishes the conducting wires through the cut binding belt; after a plurality of wires needing to be bound and distinguished are bound through the binding belt, the subsequent finding is facilitated, and meanwhile the messy condition of wiring caused by alternation and winding of various wires can be avoided.

2. According to the invention, the shifting sheet in the shifting assembly is attached to the tail end of the conveying platform, so that the tail end of the binding belt conveyed to the placing area can be shifted, and a user can conveniently grab the binding belt.

3. According to the invention, the interaction assembly is arranged to detect the lead wire placed in the placement area, when the lead wire is placed in the placement area, the distance measuring sensor can detect and generate a feedback signal, the third motor works when the distance measuring sensor generates the feedback signal to control the stroke seat to longitudinally move, and then the cutting piece is controlled to extend out of the cutting opening to cut off the binding belt, so that the binding belt is cut off more intelligently.

4. According to the invention, the linkage block is arranged on the output shaft of the third motor, and the longitudinal movement of the stroke seat is realized based on the long side and the short side of the linkage block, so that the structure is reasonable and simple.

Drawings

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

FIG. 2 is a schematic diagram of the internal structure of the binding differentiating device in the embodiment;

FIG. 3 is a schematic structural view of a conveying assembly in an embodiment;

FIG. 4 is a schematic structural diagram of a pick-up assembly in an embodiment;

fig. 5 is a schematic diagram illustrating the cooperation between the third motor and the linkage block in the embodiment.

In the figure: 11. a distribution box main body; 12. a wire passing port; 2. a binding differentiating device; 21. a housing; 22. a placement area; 31. a conveying table; 32. a feed drum; 33. pressing the cylinder; 34. a drive link; 35. a conveyor belt; 36. a drive belt; 37. a first motor; 41. a shifting sheet; 42. the connecting rod is pulled; 43. a toggle belt; 44. a second motor; 51. a fixed mount; 52. a stroke seat; 53. a ranging sensor; 54. a third motor; 61. cutting the connecting block; 62. cutting the slices; 63. cutting the opening; 71. a linkage block; 711. a long side; 712. short side.

Detailed Description

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

Referring to fig. 1 to 5, a distribution box includes a distribution box main body 11, a wire passing port 12 for leading out each wire in the distribution box main body 11 is provided at a lower half portion of the distribution box main body 11, and a binding distinguishing device 2 for binding and distinguishing each wire is fixedly provided at the wire passing port 12;

bind distinguishing device 2 including the casing 21 as load-bearing structure, casing 21 upper end is provided with the district 22 of placing that supplies the wire to pass and place, still is provided with on the casing 21:

a conveying assembly for conveying the binding band for binding to the placement area 22;

a pulling-up member for pulling up the end of the tying band conveyed to the placing area 22 to facilitate grasping by the user;

an interactive component capable of detecting a wire placed in the placement area 22;

and a cutting assembly that cuts the strap after detecting the wire placed in the placement area 22.

Wherein, the conveying assembly comprises a conveying platform 31, a feeding rotary drum 32, a pressing drum 33, a driving connecting rod 34, a driving belt 36 and a first motor 37, the conveying platform 31 is transversely arranged on the shell 21 and extends into the placing area 22, the upper end surface of the conveying platform 31 is provided with a conveying belt 35 for conveying the binding belt, the feeding rotary drum 32 is arranged at the head end of the conveying platform 31, the binding belt is conveyed to the conveying belt 35 from the outside through the feeding rotary drum 32, the pressing drum 33 is fixedly arranged at the upper end of the conveying platform 31, and the binding belt on the conveying belt 35 is pressed downwards through matching with the conveying belt 35 to prevent the binding belt from rising;

a driving link 34 for driving the conveying belt 35 to advance by rotating itself to convey the binding belt is provided on the conveying table 31, and a first motor 37 is fixedly provided in the housing 21 and interlocked with the driving link 34 by a driving belt 36.

Wherein, dial the subassembly including plectrum 41, stir connecting rod 42, stir area 43 and second motor 44, plectrum 41 pastes mutually with the end of carrying platform 31, and plectrum 41 fixes on stirring connecting rod 42, stirs connecting rod 42 and links to each other with second motor 44 through stirring area 43, and the drive of second motor 44 is got down and is driven plectrum 41 and rotate to dial the binding area of carrying from carrying platform 31 end and carrying, convenience of customers snatchs.

The interactive assembly comprises a fixed frame 51, a stroke seat 52, a distance measuring sensor 53 and a third motor 54, wherein the fixed frame 51 is fixedly arranged in the shell 21, the stroke seat 52 is limited in the fixed frame 51 to move longitudinally, the distance measuring sensor 53 is fixedly arranged at the upper end of the stroke seat 52, and the placing area 22 is provided with a sensing through hole corresponding to a probe of the distance measuring sensor 53; when a lead is placed in the placing area 22, the distance measuring sensor 53 can detect the lead through the sensing through hole and generate a feedback signal;

the third motor 54 is disposed in the housing 21 and located below the stroke seat 52, the third motor 54 is connected to the distance measuring sensor 53 and operates based on a feedback signal of the distance measuring sensor 53, and an output shaft of the third motor 54 is connected to a lower end of the stroke seat 52 to drive the stroke seat 52 to move longitudinally.

In the present embodiment, the distance measuring sensor 53 is an ultrasonic distance measuring sensor, but it is also possible to provide a controller in the housing 21, and the controller is connected to the distance measuring sensor 53, the first motor 37, the second motor 44 and the third motor 54 and is controlled by the controller.

Wherein, cutting assembly is including cutting connecting block 61 and cutting piece 62, and cutting connecting block 61 horizontal fixed connection is on stroke seat 52, and cutting piece 62 vertically fixes on cutting connecting block 61 and carries out longitudinal motion along with stroke seat 52, offers the cutting opening 63 that supplies cutting piece 62 to stretch out on the transport platform 31.

Wherein, the output shaft of the third motor 54 is fixedly provided with a linkage block 71 which synchronously rotates with the output shaft, the linkage block 71 at least has a short side 712 and a long side 711, and the linkage block 71 is driven by the output shaft of the third motor 54, when the long side 711 is matched with the stroke seat 52, the cutting piece 62 can extend out of the cutting opening 63 to cut off the binding belt; when its short side 712 engages the stroker 52, the cutting blade 62 does not extend beyond the cutting opening 63.

The working principle of the embodiment is as follows:

in the present invention, the wires to be bound are placed one by one in the placement area 22, then the binding band for binding is transported to the placement area 22 by the transporting assembly, and then the user holds the end of the binding band transported to the placement area 22 to bind the wires of the placement area 22 together; the binding band is continuously conveyed and needs to be cut off, when a user places a conducting wire needing to be bound and distinguished in the placing area 22, the distance measuring sensor 53 detects that the conducting wire exists in the placing area 22 and generates a feedback signal, the third motor 54 works based on the feedback signal and controls the stroke seat 52 to move upwards, and the cutting piece 62 fixed on the stroke seat 52 extends into the cutting opening 63 to cut off the binding band on the conveying table 31. Then, the user binds and distinguishes the conducting wires through the cut binding belt; after a plurality of wires needing to be bound and distinguished are bound through the binding belt, the subsequent finding is facilitated, and meanwhile the messy condition of wiring caused by alternation and winding of various wires can be avoided.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications of the present embodiment without inventive contribution as needed after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present invention.