CN115548890B

CN115548890B - High-density distribution box

Info

Publication number: CN115548890B
Application number: CN202211428342.4A
Authority: CN
Inventors: 赵辉; 郭建利; 邓光栋; 李娜; 宗梅; 孔伟康; 王勇; 武帅帅; 邸敬宝; 胡秋红; 孙娜
Original assignee: Shandong Ruike Complete Set Electric Co ltd
Current assignee: Shandong Ruike Complete Set Electric Co ltd
Priority date: 2022-11-15
Filing date: 2022-11-15
Publication date: 2023-07-11
Anticipated expiration: 2042-11-15
Also published as: CN115548890A

Abstract

The utility model provides a high density block terminal, includes braced frame and baffle, baffle circumference sets up in braced frame's outside, braced frame still is provided with the guide rail, be provided with the translation saddle on the guide rail, the translation saddle can remove on the guide rail, be provided with a plurality of reason racks on the translation saddle, the one end that the translation saddle was kept away from to reason rack sets up the roof, the baffle is provided with the regulator, the regulator is including the wire roller that can remove in vertical direction, sets up drive assembly synchronous drive wire roller and roof, can realize the removal to reason rack and receive and release to the electric box. The utility model discloses a distribution box, including the distribution box, the distribution box is connected with the distribution box, is different from current distribution box, and this device can set up a plurality of reason line frames and be used for wiring and installation components and parts, just reason line frame can shift out in the distribution box, consequently can not influence the control of components and parts to, above-mentioned reason line frame removes the in-process, and the electric wire can take in and stretch thereupon.

Description

High-density distribution box

Technical Field

The invention relates to the technical field of power distribution and control equipment, in particular to a high-density distribution box.

Background

Because the block terminal needs to carry out the control of switch and the connection of circuit, consequently the block terminal that conventional singly opens the door can't set up a plurality of reason line frame, and single reason line frame only can set up the components and parts of fixed quantity on a plane, and when components and parts quantity was great, just need increase the quantity of block terminal or improve the specification of block terminal, but the specification of block terminal exists the upper limit for this, and in part cases, need set up a plurality of block terminal and carry out the installation of components and parts, probably can lead to the line connection between a plurality of block terminal, the process is more loaded down with trivial details.

Disclosure of Invention

In order to solve the problem that the distribution box is affected by structural characteristics and the density of installed components is low, the invention provides a high-density distribution box.

The technical scheme of the invention is as follows:

a high-density distribution box comprises a box body structure, a movable frame, a wire arranging frame, a regulator and a driving assembly;

the box body structure comprises a rectangular supporting frame and a baffle circumferentially arranged on the outer side of the supporting frame, the supporting frame is provided with two groups of guide rails in parallel, the baffle comprises a door plate which is perpendicular to the guide rails and can be opened, and the symmetrical sides of the door plate are provided with back plates;

the movable frame is movably arranged on the guide rail, can be switched between the inner cavity of the box body structure and the outside, and is provided with a plurality of vertical wire arranging frames;

the wire feeding device comprises a box body structure, a movable frame, a wire feeding device and a wire feeding device, wherein one side of the movable frame, which is close to the back plate, is provided with a regulator, the regulator comprises a wire guide roller which is horizontally arranged and can move in the vertical direction, a wire is arranged to enter the box body structure from a wire feeding port of the back plate, the wire guide roller is bypassed, the wire feeding device is fixed by the movable frame, and the wire feeding port and the movable frame are not on the same horizontal plane;

the driving assembly comprises a driving rope connected end to end, the driving rope is supported and tensioned by a plurality of wheel bodies and driven to rotate by driving wheels, the driving rope comprises two sections which move in the horizontal direction and the vertical direction, the horizontal section of the driving rope is fixedly connected with a moving frame and can drive the moving frame to move, and the vertical section of the driving rope is connected with a wire guide roller and can drive the wire guide roller to move.

The wire arranging frame can be integrally moved out through the translation saddle, so that the wire connection and the switch control are conveniently carried out, and the problems that the reserved wires are overlong and the wiring of the distribution box is affected can be solved through the structure.

The movable frame comprises a translation supporting table and an upper top plate, wherein the translation supporting table and the upper top plate are arranged on the upper side and the lower side of the wire arranging frame and horizontally arranged, the translation supporting table is movably arranged on two groups of guide rails, and the upper top plate is fixedly connected with the horizontal section of the driving rope. And the device is respectively used for supporting translation and transmitting output power.

In order to avoid the situation that the electric wires lose the adjusting capacity, the highest position which can be reached by the wire guide roller along with the driving rope is lower than the wire inlet of the back plate and the upper top plate.

In order to realize the same-direction driving, the upper top plate and the wire guide roller are both positioned on the same side of the driving rope. When the upper top plate moves forward, the wire guide roller can pay off.

The translation saddle is specifically structured, and comprises a saddle and a supporting seat, wherein the supporting seat is arranged on one side, close to the door plate, of the saddle, and a roller is arranged below the supporting seat, and the lower surface of the roller is flush with the lower surface of the supporting frame. Because the translation saddle moves, the box structural center can change along with it, in order to avoid the unexpected circumstances such as tipping over, just corresponding needs to set up the supporting part that can remove.

Preferably, a detachable locking vertical plate is arranged on the outer side of the backboard, the locking vertical plate can compress and fix the electric wire, a detachable locking pressing plate is arranged on the upper surface of the upper top plate, and the locking pressing plate can compress and fix the electric wire. In the moving process of the upper top plate, the condition of wire disorder is not caused.

In order to realize the rotation of reason line frame, translation saddle is fixed with last roof through a plurality of stands, the one end that reason line frame is close to the backplate can rotate for translation saddle and last roof. Further, wiring and connection of components can be performed from the middle of the two wire management frames.

On the basis of the structure, further, every two adjacent wire arranging frames are arranged, and the rotation directions of the two adjacent wire arranging frames are opposite.

Preferably, the turning parts of the horizontal section and the vertical section of the driving rope are provided with guide wheels. The driving direction of the driving rope is guided.

The specific setting quantity and the position of above-mentioned wheel body are, drive rope both ends are provided with drive wheel and location runner respectively, the location runner passes through the braced frame of crossbeam and door plant both sides to be fixed, the leading wheel is close to the backplate upside setting, and fixes on braced frame, the drive wheel sets up on being close to braced frame of backplate downside, it all fixes in the drive rope outside to go up roof and wire roller. Forming a complete drive assembly.

The invention has the beneficial effects that: the invention relates to a high-density distribution box, which is different from the existing distribution box, the device can be provided with a plurality of wire arranging frames for wiring and installing components, and the wire arranging frames can be moved out of the distribution box, so that the control of the components cannot be influenced, and in the moving process of the wire arranging frames, wires can be stored and stretched along with the wire arranging frames, so that the phenomenon of difficult wiring can be effectively avoided, and the phenomenon of separation between the components and the wires caused by moving the wire arranging frames is avoided.

Drawings

The aspects and advantages of the present application will become apparent to those of ordinary skill in the art upon reading the following detailed description of the preferred embodiments. The drawings are only for purposes of illustrating the preferred embodiments and are not to be construed as limiting the invention.

In the drawings:

FIG. 1 is a schematic top view (normal state) of the present invention;

FIG. 2 is a schematic top view of the present invention (after the wire management frame is removed);

FIG. 3 is a schematic view of the structure of the support base and the roller of the present invention;

FIG. 4 is a schematic view of the top plate structure of the present invention;

FIG. 5 is a schematic view of the driving assembly structure (normal state) of the present invention;

FIG. 6 is a schematic diagram of a driving assembly (after the wire management frame is removed) according to the present invention;

FIG. 7 is a schematic view of the structure of the adjusting frame of the present invention;

the components represented by the reference numerals in the figures are:

1. a support frame; 11. a guide rail; 2. a baffle; 21. a back plate; 22. a side plate; 23. a door panel; 24. locking the vertical plate; 3. translating the support; 31. a support; 32. a support base; 33. a roller; 4. an upper top plate; 41. a wire hole; 42. a wire slot; 43. locking the pressing plate; 5. a wire arranging frame; 51. a rotating shaft; 6. a drive assembly; 61. a driving wheel; 62. a first guide wheel; 63. a second guide wheel; 64. positioning a rotating wheel; 65. a drive rope; 7. a regulator; 71. an adjusting frame; 72. a wire guide roller; 8. an electric wire.

Detailed Description

A high density electrical box as shown in figures 1-2, comprising:

the supporting frame 1, the supporting frame 1 is rectangular, and is used as a main supporting structure of the box body, and provides a supporting function, which is the same as a conventional supporting structure of the box body, and is different in that two groups of guide rails 11 are arranged in parallel on the supporting frame 1, and are used as a new structure.

Further, still include baffle 2, baffle 2 circumference sets up in the outside of braced frame 1, is the same with current box structure, baffle 2 includes curb plate 22, backplate 21 and door plant 23, and the top is provided with the roof for the lid closes the box, is the same with the design mode of current case board, door plant 23 and backplate 21 are relative to be arranged, and door plant 23 passes through hinged joint to curb plate 22, curb plate 22 sets up two, and mutually perpendicular with backplate 21, and importantly, curb plate 22 is parallel to guide rail 11 setting, that is to say, the structure that guide rail 11 set up only can remove in the direction that is parallel to curb plate 22.

After that, a translation saddle 3 is disposed on the guide rail 11, the translation saddle 3 is parallel to the reference plane, and can move on the guide rail 11, the moving direction is parallel to the side plate 22, the translation saddle 3 includes a saddle 31 and a supporting seat 32, the supporting seat 32 is disposed on one side of the saddle 31 away from the backboard 21 as shown in fig. 3, and a roller 33 is disposed below the supporting seat, the lower surface of the roller 33 is flush with the lower surface of the supporting frame 1, since the translation saddle 3 needs to move, the friction force cannot be too large, the movement of the device is affected, at the same time, the floating translation saddle 3 can cause the device to roll over after the center offset, as a necessary design, the roller 33 can complete the displacement of the translation saddle 3 and can not cause the tilting of the distribution box, therefore, the design of the roller 33 can ensure that the whole distribution box always contacts the ground in the moving, and provides a supporting function, so that the translation saddle 3 can not cause the phenomenon that the whole distribution box is tilted in the moving, after the structure is completed, a box and the translation saddle 3 can move along the direction of the box 22 can be translated after the translation saddle 3 is disposed on the side plate 5. Because the translation saddle 3 is arranged on the guide rail 11 and has a moving function, correspondingly, the wire arranging frame 5 arranged on the translation saddle 3 can synchronously have the moving function. And can realize the position switching in the box body and outside the box body along with the translation supporting table 3.

On the basis of the structure, further, in order to improve the density of components and parts, the reason line frame 5 includes a plurality of, and vertical setting is on translation saddle 3, is different from conventional reason line frame 5 setting and can't remove in the box, needs reserve the design of operating space and installation space, in case shift out reason line frame 5 from the box, reason line frame 5 can easily carry out the control and the installation of components and parts, consequently, can directly occupy operating space and the installation space that original box was reserved, and then improve the setting density of components and parts. Moreover, the simple increase of the density cannot reserve an operation space, and therefore, on the basis of the structure, the rotating function of the wire arranging frame 5 is further provided, so that after the wire arranging frame 5 moves out of the box body, the wire arranging frame 5 rotates to an angle convenient for operation, and an operator can conveniently conduct wiring design and component installation.

The layout of the rotating wire arranging frames 5 is designed to be that the wire arranging frames 5 are arranged in a pair, two adjacent wire arranging frames 5 are opposite in rotation direction, the two wire arranging frames 5 are closely attached, the minimum space is occupied, and correspondingly, the wire arranging frames 5 can be arranged in a reverse rotation mode, through the design, the number of the wire arranging frames 5 can be increased to the greatest extent, 4 wire arranging frames 5 are arranged and divided into two groups, gaps exist between the two adjacent wire arranging frames 5, gaps exist between the wire arranging frames 5 of a single group and the side plates, and the fact that the two wire arranging frames 5 can rotate can be guaranteed. The existence of clearance can be under the condition of not rotating reason frame 5, controls components and parts, has reserved the space that the hand removed to, the electric wire sets up at the back of reason frame 5, and the adjacent plane of a set of reason frame 5 promptly, and then can avoid manual operation in-process, the condition that the electric wire 8 influences the operation appears.

Only rotate the reason frame 5 and set up on translation saddle 3, very unstable, for this reason, translation saddle 3 is provided with the upper roof 4 as shown in fig. 4 through a plurality of stand connections, and above-mentioned upper roof 4 is fixed and is kept away from translation saddle 3's one end at reason frame 5, reason frame 5 can rotate for translation saddle 3 and upper roof 4. And a rotation shaft 51 is provided to penetrate the upper top plate 4 and the translation stage 3, and finally a rotation effect is obtained. In addition, since the electric wire 8 of the device is required to be extended and stored according to the movement of the wire management frame 5, the design of the upper top plate 4 is necessary, and the telescopic electric cylinder or the like is simply provided by the translation bracket 3, so that the electric wire 8 can only have a moving function, and the problem of the electric wire 8 cannot be solved.

Then, as the key content of the device, that is, the function of moving the electric wire 8 along with the wire management frame 5, when the wire management frame 5 must have the moving function, the electric wire 8 must have the function of stretching along with the wire management frame 5 when being arranged, but the electric wire 8 does not have elasticity, therefore, the structure needs to be newly added with the following structures:

as shown in fig. 7, the regulator 7 is disposed in the middle of the back plate 21 and includes a wire guiding roller 72 capable of moving in a vertical direction, the highest position of the wire guiding roller 72 along with the driving rope 65 is lower than the wire inlet of the back plate 21 and the upper top plate 4, the wire 8 is set to enter the inside of the box structure from the wire inlet of the back plate 21, and after bypassing the wire guiding roller 72, the wire inlet is fixed by the upper top plate 4, the wire inlet is not on the same horizontal plane as the upper top plate 4, through the movement of the wire guiding roller 72 in the vertical direction, the reserved length of the wire 8 can be regulated, and then the movement of the wire arranging frame 5 is adapted, meanwhile, the wire 8 cannot be reset under the action of gravity by simply relying on the wire guiding roller 72, that is, when the wire extends from fig. 2 to 1, the wire cannot return into the regulator 7, and for this reason, the following structures must be further set:

as shown in fig. 5 and 6, the driving components 6 are two and symmetrically arranged, the driving components 6 comprise driving ropes 65 for connecting the wire guide rollers 72 and the upper top plate 4, the upper top plate 4 and the wire guide rollers 72 are positioned on the same side of the driving ropes 65, the wire guide rollers 72 and the upper top plate 4 are further bound to move synchronously, so that the wires 8 can extend and retract synchronously along with the movement of the upper top plate 4, the driving ropes 65 are driven by driving wheels 61, the wire guide rollers 72 and the upper top plate 4 can be driven to move synchronously, the whole process of the driving ropes 65 are tensioned and controlled by an electric structure without manual completion, the driving components 6 further comprise a positioning rotating wheel 64 and a guiding wheel, the driving ropes 65 are in a closed ring shape, further the reverse rotation of a single driving wheel 61 can be realized, the wire guide rollers 72 and the upper top plate 4 can be driven in two directions,

as shown in the positions of fig. 5 and 6, the turning parts of the horizontal section and the vertical section of the driving rope 65 are provided with guide wheels, and the guide wheels are used for guiding the driving rope backwards and are sleeved on the positioning rotating wheel 64 and the driving wheel 61. And the guide wheels are a first guide wheel 62 and a second guide wheel 63 respectively, so that the whole driving rope 65 is ensured to be 7-shaped. I.e., the lifting of the wire roller 72 in the vertical direction can be controlled, and the movement on the plane of the upper top plate 4 can be controlled.

The positioning rotating wheel 64 is fixed with the supporting frames 1 on two sides of the door plate 23 through a cross beam, the guide wheel is arranged close to the upper side of the back plate 21 and is fixed on the supporting frames 1, the driving wheel 61 is arranged on the supporting frames 1 close to the lower side of the back plate 21, the driving wheel 61 is connected with an output shaft of a driving motor, and can rotate along with the driving wheel, and drives the driving rope 65, the driving rope 65 can be wound on the driving wheel 61 for a plurality of circles, and can be driven along with the driving rope, or the driving rope 65 can be in a chain structure, and the driving wheel 61 is a chain wheel, so that driving can be realized.

Preferably, a detachable locking vertical plate 24 is arranged on the outer side of the back plate 21, the locking vertical plate 24 can press and fix the electric wire 8, a detachable locking pressing plate 43 is arranged on the upper surface of the upper top plate 4, and the locking pressing plate 43 can press and fix the electric wire 8. Through the fixation to reserve section electric wire 8 both ends, and then guarantee that the circumstances that can not cause electric wire 8 to be disordered in the removal in-process of last roof 4.

As shown in fig. 1 and 2, the plane of the driving rope 65 is parallel to the guide rail 11. The driving rope 65 is smoother in driving the upper plate 4 and the wire guide roller 72.

Finally, the positioning wheel 64 is positioned adjacent to the door panel 23 and the guide wheel and drive wheel 61 are positioned adjacent to the back panel 21. The maximum travel can be obtained, so that the wire management frame 5 can reach a position convenient to operate and can normally run in the box body.

When the wire management frame is used, the position of the wire management frame 5 can be driven by only selecting the rotation direction of the driving motor, so that the wire management frame 5 can move inside and outside the box body, when only components are required to be controlled, the components can be operated in the box body through reserved gaps, as shown in fig. 1, and when the components are required to be disassembled and the wires 8 are required to be re-wired, the wire management frame 5 is required to be integrally moved out of the box body, as shown in fig. 2.

Claims

1. The high-density distribution box is characterized by comprising a box body structure, a movable frame, a wire arranging frame (5), a regulator (7) and a driving assembly (6);

the box body structure comprises a rectangular supporting frame (1) and a baffle plate (2) circumferentially arranged on the outer side of the supporting frame (1), the supporting frame (1) is provided with two groups of guide rails (11) in parallel, the baffle plate (2) comprises a door plate (23) which is perpendicular to the guide rails (11) and can be opened, and back plates (21) are arranged on symmetrical sides of the door plate (23);

the movable frame is movably arranged on the guide rail (11) and can be switched and moved between the inner cavity of the box body structure and the outside, a plurality of vertical wire arranging frames (5) are arranged on the movable frame, the movable frame comprises a translation supporting table (3) and an upper top plate (4) which are arranged on the upper side and the lower side of the wire arranging frames (5) and are horizontally arranged, and the upper top plate (4) is fixedly connected with a horizontal section (65) of the driving rope;

one side of the movable frame, which is close to the back plate (21), is provided with a regulator (7), the regulator (7) comprises a wire guide roller (72) which is horizontally arranged and can move in the vertical direction, a wire (8) is arranged to enter the inside of the box body structure from a wire inlet of the back plate (21), the wire (8) bypasses the wire guide roller (72), the wire guide roller is fixedly connected to the back surface of the wire arranging frame (5) through an upper top plate (4), and the wire inlet and the upper top plate (4) are not on the same horizontal plane;

the driving assembly (6) comprises a driving rope (65) connected end to end, the driving rope (65) is supported and tensioned by a plurality of wheel bodies and driven to rotate by a driving wheel (61), the driving rope (65) comprises two sections which move in the horizontal direction and the vertical direction, the horizontal section of the driving rope (65) is fixedly connected with a moving frame and can drive the moving frame to move, and the vertical section of the driving rope (65) is connected with a wire guide roller (72) and can drive the wire guide roller (72) to move.

2. A high-density distribution box according to claim 1, characterized in that the translation pallets (3) are movably arranged on two sets of guide rails (11).

3. A high-density distribution box according to claim 2, characterized in that the highest position that the wire guide roller (72) can reach with the drive rope (65) is lower than the wire inlet of the back plate (21) and the upper top plate (4).

4. A high-density distribution box according to claim 3, characterized in that the upper top plate (4) and the wire guide roller (72) are both located on the same side of the drive rope (65).

5. A high-density distribution box according to claim 2, characterized in that the translation saddle (3) comprises a saddle (31) and a supporting seat (32), the supporting seat (32) is arranged on one side of the saddle (31) close to the door plate (23), and a roller (33) is arranged below the supporting seat, and the lower surface of the roller (33) is flush with the lower surface of the supporting frame (1).

6. A high-density distribution box according to claim 3, characterized in that a detachable locking vertical plate (24) is arranged on the outer side of the back plate (21), the locking vertical plate (24) can press and fix the electric wire (8), a detachable locking pressing plate (43) is arranged on the upper surface of the upper top plate (4), and the locking pressing plate (43) can press and fix the electric wire (8).

7. A high-density distribution box according to claim 2, characterized in that the translation saddle (3) is fixed to the upper top plate (4) by a plurality of columns, and the end of the wire management frame (5) close to the back plate (21) can rotate relative to the translation saddle (3) and the upper top plate (4).

8. A high-density distribution box according to claim 7, characterized in that the wire-arranging frames (5) are arranged two by two, and the rotation directions of the two adjacent wire-arranging frames (5) are opposite.

9. A high-density distribution box according to claim 8, characterized in that the turning of the horizontal and vertical sections of the drive rope (65) is provided with guide wheels.

10. The high-density distribution box according to claim 9, wherein the driving rope (65) is provided with a driving wheel (61) and a positioning rotating wheel (64) at two ends respectively, the positioning rotating wheel (64) is fixed with the supporting frames (1) at two sides of the door plate (23) through a cross beam, the guiding wheel is arranged close to the upper side of the back plate (21) and fixed on the supporting frames (1), the driving wheel (61) is arranged on the supporting frames (1) close to the lower side of the back plate (21), and the upper top plate (4) and the wire guide roller (72) are both fixed on the outer side of the driving rope (65).