CN210350386U - Novel power distribution terminal - Google Patents

Abstract

The utility model provides a novel power distribution terminal, which relates to the technical field of power distribution equipment, and comprises a shell for accommodating a power distribution functional module, a vertical partition plate and a transverse partition plate which are arranged inside the shell, a transverse sliding mechanism for enabling the vertical partition plate to slide relative to the upper inner wall and the lower inner wall of the shell, and a vertical sliding mechanism for enabling the transverse partition plate to slide relative to the left inner wall and the right inner wall of the shell, wherein the length of the transverse partition plate can be adjusted; the utility model discloses in because vertical baffle can carry out the removal of horizontal direction in the inside of shell, and horizontal baffle can carry out the removal of vertical direction in the inside of shell, can be through adjusting horizontal baffle and vertical baffle's position, can separate into the partition region of equidimension not with the inside of shell, can install the distribution functional module that needs on horizontal baffle, consequently can come the partition region in the reasonable regulation shell according to the size of different distribution functional modules, more abundant utilization inner space.

Description

Novel power distribution terminal

Technical Field

The utility model relates to a distribution equipment technical field specifically is a novel distribution terminal.

Background

The station power distribution terminal device is a measurement and control integrated device which is arranged at a switch station, a distribution room, a ring main unit box type transformer substation and the like of a power distribution network feeder line loop and has the functions of remote signaling, remote measurement, remote control and the like.

The existing power distribution terminal is characterized in that the power distribution functional modules are installed in the shell, and because the installation volumes required by different power distribution functional modules are different, the internal space of the existing power distribution terminal is fixed and unchangeable, so that the internal space of the existing power distribution terminal can not be well utilized, and the waste of the installation space or the mutual interference between modules caused by too many installation modules can be easily caused.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a novel distribution terminal, the inner space that aims at solving the distribution terminal among the prior art all is fixed unchangeable, consequently can not be fine utilize its inner space, cause the problem of mutual interference between the module that installation space's waste or too much installation module and caused easily.

In order to achieve the above purpose, the utility model adopts the following technical scheme: the novel power distribution terminal comprises:

a housing for housing a power distribution functional module;

the vertical partition plate and the transverse partition plate are arranged in the shell;

the transverse sliding mechanism is used for sliding the vertical partition plates relative to the upper inner wall and the lower inner wall of the shell;

the vertical sliding mechanisms are used for enabling the transverse partition plates to slide relative to the left inner wall and the right inner wall of the shell;

wherein the length of the transverse partition is adjustable.

The transverse sliding mechanism comprises a transverse sliding rail fixedly connected to the inner wall of the upper side or/and the inner wall of the lower side of the shell, a transverse sliding sleeve is arranged on the transverse sliding rail in a sliding mode, a jackscrew A is connected to the transverse sliding sleeve, and the vertical partition plate is fixedly connected with the transverse sliding sleeve.

The transverse sliding mechanism comprises a hollow cylinder A fixedly connected to the inner wall of the left side or/and the inner wall of the right side of the shell, a guide rod A is movably inserted into the opening end of the hollow cylinder A, and a jackscrew B is connected to the hollow cylinder A.

Vertical glide machanism includes the vertical slide rail of fixed connection on the left side inner wall of shell or right side inner wall, slides on the vertical slide rail and is equipped with to erect and moves the sliding sleeve, erects to move and is connected with jackscrew C on the sliding sleeve, horizontal baffle and the sliding sleeve fixed connection that erects to move.

The vertical sliding mechanism comprises a hollow cylinder B fixedly connected to the inner wall of the upper side or/and the inner wall of the lower side of the shell, a guide rod B is movably inserted into the opening end of the hollow cylinder B, and a jackscrew D is connected to the hollow cylinder B.

The transverse partition plate comprises two hollow plates used for installing the power distribution functional module, springs connected in the hollow plates and connecting plates, wherein the two ends of each connecting plate are respectively inserted into the hollow plates, and the connecting plates are fixedly connected with the springs.

The height of the vertical partition plate is adjustable.

The vertical partition plate comprises splicing plates, clamping grooves formed in the end portions of the splicing plates and clamping pieces used for being connected with the clamping grooves in different splicing plates.

The cross-section of the clamping groove is trapezoidal, and the clamping piece is dumbbell-shaped.

The utility model has the advantages that:

1. the vertical partition plate can move in the transverse direction in the shell, the transverse partition plate can move in the vertical direction in the shell, the interior of the shell can be divided into different partition areas by adjusting the positions of the transverse partition plate and the vertical partition plate, and required power distribution functional modules can be installed on the transverse partition plate, so that the partition areas in the shell can be reasonably adjusted according to the sizes of different power distribution functional modules, and the internal space is more fully utilized;

2. the vertical partition plate and the transverse partition plate are made of materials with anti-interference and fireproof capabilities, so that the power distribution functional modules in different partition areas can be well separated, the interference capability between the power distribution functional modules is reduced, and the condition that the fire spread caused by the fire catching of the power distribution functional modules in a certain partition area is also reduced.

Drawings

Fig. 1 is a front view of one configuration of embodiment 1 of the novel power distribution terminal.

Fig. 2 is a front view of another configuration of embodiment 1 of the novel power distribution terminal.

Fig. 3 is a front view of one configuration of embodiment 2 of the novel power distribution terminal.

FIG. 4 is an enlarged view of I in FIG. 1.

Fig. 5 is an enlarged view of the transverse partition in fig. 1.

Detailed Description

The following description will further describe embodiments of the present invention with reference to the accompanying drawings.

Example 1

As shown in fig. 1 and 2, a novel power distribution terminal comprises a housing 1 for accommodating a power distribution functional module, a vertical partition plate 5 and a horizontal partition plate 11 which are arranged inside the housing 1, a horizontal sliding mechanism 2 for enabling the vertical partition plate 5 to slide relative to the upper and lower inner walls of the housing 1, and a vertical sliding mechanism 3 for enabling the horizontal partition plate 11 to slide relative to the left and right inner walls of the housing 1, wherein the length of the horizontal partition plate 11 is adjustable.

Since the vertical partition 5 can perform a movement in a lateral direction inside the housing 1, and the horizontal partition 11 can perform a movement in a vertical direction inside the housing 1, as shown in fig. 1 and 2, the interior of the housing 1 can be divided into divided areas of different sizes by adjusting the positions of the transverse partition plates 11 and the vertical partition plates 5, the required power distribution functional modules can be arranged on the transverse partition plate 11, so that the partition area in the shell 1 can be reasonably adjusted according to the sizes of different power distribution functional modules, the internal space can be more fully utilized, and the vertical partition plates 5 and the transverse partition plates 11 can be made of materials with the capacities of interference prevention, fire prevention and the like, so that the power distribution functional modules in different partition areas can be well separated, the interference capacity between the power distribution functional modules is reduced, and the condition that the fire spread is caused by the fire catching of the power distribution functional modules in a certain partition area is also reduced.

Specifically, the transverse sliding mechanism 2 comprises a transverse sliding rail 21 fixedly connected to the inner wall of the upper side or/and the inner wall of the lower side of the housing 1, a transverse sliding sleeve 22 is slidably arranged on the transverse sliding rail 21, a jackscrew a23 is connected to the transverse sliding sleeve 22, and the vertical partition 5 is fixedly connected with the transverse sliding sleeve 22; vertical glide machanism 3 includes vertical slide rail 31 of fixed connection on the left side inner wall of shell 1 or right side inner wall, and vertical slide rail 31 slides upward and is equipped with the vertical sliding sleeve 32 that moves, and the vertical sliding sleeve 32 that moves is last to be connected with jackscrew C33, horizontal partition 11 and vertical sliding sleeve 32 fixed connection.

When the position of the vertical partition plate 5 needs to be adjusted, the jackscrew A23 is loosened, at the moment, the vertical partition plate 5 can be pushed to move in the transverse direction by manpower, the transverse sliding sleeve 22 moves along the transverse sliding rail 21, and after the vertical partition plate 5 moves to a proper position, the jackscrew A23 is tightened; in the same principle, when the height position of the transverse partition plate 11 needs to be adjusted, the jackscrew B33 is loosened, the transverse partition plate 11 is moved by manpower, and the jackscrew B33 is tightened again after the transverse partition plate 11 is moved to the proper position.

Specifically, as shown in fig. 4, the transverse partition 11 includes two hollow plates 111 for mounting the power distribution functional module, a spring 113 connected inside the hollow plate 111, and a connecting plate 112 having two ends respectively inserted into the hollow plates 111, and the connecting plate 112 is fixedly connected to the spring 113.

Preferably, the height of the vertical partition plate 5 is adjustable, and the vertical partition plate 5 comprises splicing plates 51, clamping grooves 52 formed in the end portions of the splicing plates 51, and clamping pieces 53 used for connecting the clamping grooves 52 on different splicing plates 51; because can splice the splice plate 51, then can select the vertical baffle 5 of different length, make the interior upper portion of shell 1 or lower part can be vacated, can install the distribution functional module of bigger volume.

Preferably, as shown in fig. 3, the cross section of the clip groove 52 is trapezoidal, and the clip member 53 is dumbbell-shaped, so as to ensure the splicing and mounting stability between the splice plates 51.

Example 2

The difference from the embodiment 1 is only that, as shown in fig. 5, the lateral sliding mechanism 2 comprises a hollow cylinder a24 fixedly connected to the left inner wall or/and the right inner wall of the housing 1, a guide bar a25 is movably inserted into the open end of the hollow cylinder a24, and a jackscrew B26 is connected to the hollow cylinder a 24; the vertical sliding mechanism 3 comprises a hollow cylinder B34 fixedly connected to the inner wall of the upper side or/and the inner wall of the lower side of the shell 1, a guide rod B35 is movably inserted into the open end of the hollow cylinder B34, and a jackscrew D36 is connected to the hollow cylinder B34.

When the position of the vertical partition plate 5 needs to be adjusted, the jackscrew C26 is loosened, the vertical partition plate 5 can be pushed to move in the transverse direction manually at the moment, the guide rod 25 moves in the hollow cylinder A24, and the jackscrew C26 is tightened after the vertical partition plate 5 moves to a proper position; in the same principle, when the height position of the transverse partition plate 11 needs to be adjusted, the jackscrew D36 is loosened, the transverse partition plate 11 is moved by manpower, and the jackscrew D36 is tightened again after the transverse partition plate 11 is moved to the proper position.

In the description of the present invention, unless otherwise expressly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Claims (9)

1. A novel power distribution terminal is characterized by comprising:

a housing (1) for accommodating a power distribution functional module;

the vertical partition plate (5) and the transverse partition plate (11) are arranged in the shell (1);

a transverse sliding mechanism (2) used for enabling the vertical partition plate (5) to slide relative to the upper inner wall and the lower inner wall of the shell (1);

the vertical sliding mechanism (3) is used for enabling the transverse partition plate (11) to slide relative to the left inner wall and the right inner wall of the shell (1);

wherein the length of the transverse partition (11) is adjustable.

2. The novel power distribution terminal according to claim 1, wherein the lateral sliding mechanism (2) comprises a lateral sliding rail (21) fixedly connected to the upper inner wall or/and the lower inner wall of the housing (1), a lateral sliding sleeve (22) is slidably arranged on the lateral sliding rail (21), a jackscrew A (23) is connected to the lateral sliding sleeve (22), and the vertical partition (5) is fixedly connected to the lateral sliding sleeve (22).

3. The novel power distribution terminal according to claim 1, wherein the lateral sliding mechanism (2) comprises a hollow cylinder A (24) fixedly connected to the left inner wall or/and the right inner wall of the housing (1), a guide rod A (25) is movably inserted into the open end of the hollow cylinder A (24), and a jackscrew B (26) is connected to the hollow cylinder A (24).

4. The novel power distribution terminal according to claim 1, wherein the vertical sliding mechanism (3) comprises a vertical sliding rail (31) fixedly connected to the left inner wall or/and the right inner wall of the housing (1), a vertical sliding sleeve (32) is slidably arranged on the vertical sliding rail (31), a jackscrew C (33) is connected to the vertical sliding sleeve (32), and the transverse partition (11) is fixedly connected to the vertical sliding sleeve (32).

5. The novel power distribution terminal according to claim 1, wherein the vertical sliding mechanism (3) comprises a hollow cylinder B (34) fixedly connected to the upper inner wall or/and the lower inner wall of the housing (1), a guide rod B (35) is movably inserted into the open end of the hollow cylinder B (34), and a jackscrew D (36) is connected to the hollow cylinder B (34).

6. The novel power distribution terminal as claimed in claim 1, wherein the transverse partition (11) comprises two hollow plates (111) for mounting the power distribution functional module, a spring (113) connected in the hollow plates (111), and a connecting plate (112) with two ends respectively inserted into the hollow plates (111), and the connecting plate (112) is fixedly connected with the spring (113).

7. A new type of power distribution terminal according to any of the claims 1-6, characterized in that the height of the vertical partition (5) is adjustable.

8. The novel power distribution terminal according to claim 7, wherein the vertical partition (5) comprises splice plates (51), snap-in grooves (52) formed at the ends of the splice plates (51), and snap-in members (53) for connecting the snap-in grooves (52) of different splice plates (51).

9. The novel electrical distribution terminal of claim 8, wherein the clip groove (52) is trapezoidal in cross-section and the clip member (53) is dumbbell-shaped.

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