CN117394160B - Automatic monitor terminal of distribution - Google Patents

Abstract

The invention discloses a power distribution automation monitoring terminal, which relates to the technical field of power equipment and comprises a cabinet body, a cabinet door, a framework, a first transmission assembly, a first monitoring module, a second transmission assembly and a third transmission assembly, wherein the cabinet door is hinged to one side of the cabinet body, the cabinet door is sequentially provided with a first stroke and a second stroke in the process of opening the cabinet body, the framework is horizontally and slidably connected in the cabinet body, the first transmission assembly is driven by the second stroke in the process of opening the cabinet door to enable the framework to slide out of the cabinet body, the first monitoring module and the second monitoring module are vertically and slidably connected on the framework, the first monitoring module is positioned above the second monitoring module, the second transmission assembly is driven by the action of the framework sliding out of the cabinet body to enable the first monitoring module to sequentially slide up the third stroke and the fourth stroke relative to the framework, and the third transmission assembly is driven by the first monitoring module to slide up the fourth stroke to enable the second monitoring module to slide up.

Description

Automatic monitor terminal of distribution

Technical Field

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

Background

The distribution automation monitoring terminal is a distribution monitoring terminal integrating functions of monitoring, metering, power quality, remote communication, local communication and the like, and is suitable for operation monitoring of a public transformer and a distribution line. And a link in the power system, wherein the link is directly connected with the user and distributes electric energy to the user.

The Chinese patent with the publication number of CN215897386U and the name of a power distribution automation monitoring terminal comprises an electric box and is characterized in that: the utility model discloses a safety door, including electric box, first slide rail of bottom fixedly connected with of electric box, the internally mounted of electric box has monitor terminal body, monitor terminal body and first slide rail sliding connection, the quantity of first slide rail is two, two first slide rail sets up about the central symmetry of electric box, one of them the bar groove has been seted up to the lateral wall of first slide rail, bar inslot fixedly connected with gear board, monitor terminal body's inside is provided with positioning mechanism, the one side of electric box is open structure and articulates there is the emergency exit.

The power distribution automation monitoring terminal in the above patent is practical and convenient, but has the defect, but the monitoring terminal body is located in a narrow electric box, and then personnel are required to visit into the electric box or dismantle the monitoring terminal body to overhaul the monitoring terminal body, so that maintenance is difficult, disassembly and assembly are troublesome, the time is long, and inconvenience is brought to overhaul and maintenance.

Disclosure of Invention

The invention aims to provide a power distribution automation monitoring terminal which aims to solve the defects in the prior art.

In order to achieve the above object, the present invention provides the following technical solutions: this automatic monitor terminal of distribution, including the cabinet body, cabinet door, skeleton, first drive assembly, first monitoring module, second drive assembly and third drive assembly, the cabinet door articulates in one side of the cabinet body, and the in-process that the cabinet door was opened relative to the cabinet body has first stroke and second stroke in proper order, skeleton horizontal sliding connection is internal at the cabinet, the drive of second stroke in the in-process is opened to the cabinet door is accepted to first drive assembly so that the skeleton roll-off cabinet body, the equal vertical sliding connection of first monitoring module and second monitoring module is on the skeleton, and first monitoring module is located the second monitoring module top, the drive that the second drive assembly accepted the action of skeleton roll-off cabinet body is in order to make first monitoring module roll-off third stroke and fourth stroke in proper order to the skeleton, the drive of fourth stroke is upwards slided in order to the third drive assembly accepts first monitoring module.

Further, the first transmission assembly comprises an irregular gear, a first gear, a gear box, a second gear and a first rack, wherein the irregular gear is meshed with the first gear, an input shaft and an output shaft are arranged on the gear box, the first gear is sleeved on the input shaft, the second gear is sleeved on the output shaft, the first rack is meshed with the second gear, a hinge shaft is arranged in the cabinet door in a penetrating mode, the irregular gear is sleeved on the top of the hinge shaft, the gear box is arranged on the top of the cabinet body, and the first rack is fixedly connected to one side, close to the gear box, of the framework.

Further, the second transmission assembly comprises a rotating shaft, the rotating shaft is rotationally connected to the inner wall of the cabinet body, a first connecting rod is arranged at one end, close to the first monitoring module, of the rotating shaft, and one end, close to the first monitoring module, of the first connecting rod is connected with the first monitoring module in a clamping mode.

Further, third drive assembly includes second connecting rod, fixed block and rand, second connecting rod fixed connection is in the bottom of first monitoring module, the bottom and the fixed block fixed connection of second connecting rod, the second spout has been seted up at second monitoring module top, a rand is connected in the detachable of second spout opening part, the vertical sliding connection of second connecting rod is in the second spout, have the butt station that makes fixed block and rand butt in the sliding stroke of second connecting rod.

Further, two first sliding grooves are horizontally symmetrically formed in the bottom wall of the cabinet body, two third sliding blocks are symmetrically arranged at the bottom of the framework, and the two third sliding blocks are in sliding connection with the two first sliding grooves in a one-to-one correspondence mode.

Further, two first through holes are vertically and symmetrically formed in the framework, two first sliding blocks are symmetrically arranged on one side, away from the cabinet door, of the first monitoring module, and the two first sliding blocks are in sliding connection with the two first through holes in a one-to-one correspondence mode.

Further, two second through holes are vertically and symmetrically formed in the framework, two second sliding blocks are symmetrically arranged on one side, away from the cabinet door, of the second monitoring module, and the two second sliding blocks are in sliding connection with the two second through holes in a one-to-one correspondence mode.

Further, two heat dissipation holes are formed in one side, far away from the cabinet door, of the cabinet body, and a fan is mounted on one side of each heat dissipation hole.

Further, two dampproof blocks are symmetrically arranged on the bottom wall of the cabinet body.

Compared with the prior art, the invention has the beneficial effects that: when the power distribution automatic monitoring terminal needs to be overhauled, the cabinet door is opened to receive the driving of the second stroke in the cabinet door opening process through the first transmission assembly, so that the framework slides out of the cabinet body, personnel do not need to visit the cabinet body to enter the first monitoring module and the second monitoring module for overhauling and maintaining, maintenance is more convenient, the second transmission assembly receives the driving of the action of the framework sliding out of the cabinet body to enable the first monitoring module to slide up a third stroke and a fourth stroke relative to the framework in sequence, the height of the first monitoring module is raised, the first monitoring module slides out of the cabinet body along with the framework, the overhauling space is enlarged, the third transmission assembly receives the driving of the first monitoring module sliding up the fourth stroke to enable the second monitoring module to move up, a gap is formed between the first monitoring module and the second monitoring module, and multi-azimuth overhauling is convenient to conduct.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present invention, and other drawings may be obtained according to these drawings for a person having ordinary skill in the art.

FIG. 1 is a schematic view of a partial structure provided in an embodiment of the present invention;

FIG. 2 is a schematic diagram of a cabinet according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of a skeleton provided in an embodiment of the present invention;

fig. 4 is a schematic diagram of a first monitoring module according to an embodiment of the present invention;

FIG. 5 is a schematic diagram of a second monitoring module according to an embodiment of the present invention;

FIG. 6 is a schematic diagram of a first transmission assembly according to an embodiment of the present invention;

FIG. 7 is a schematic view of a gearbox provided in an embodiment of the present invention;

FIG. 8 is a schematic view of an irregular gear provided by an embodiment of the present invention;

FIG. 9 is a schematic diagram of a second transmission assembly according to an embodiment of the present invention;

FIG. 10 is a cross-sectional view of an overall structure provided by an embodiment of the present invention;

fig. 11 is a schematic diagram of an overall structure according to an embodiment of the present invention.

Reference numerals illustrate: 1. a cabinet body; 2. a cabinet door; 3. an irregular gear; 4. a first gear; 5. a gear box; 5.1, an input shaft; 5.2, an output shaft; 6. a second gear; 7. a first rack; 8. a skeleton; 9. a first through hole; 10. a second through hole; 11. a third slider; 12. a first monitoring module; 13. a first slider; 14. a second connecting rod; 15. a fixed block; 16. a second monitoring module; 17. a second slider; 18. a collar; 19. a first connecting rod; 20. a rotating shaft; 21. a hinge shaft; 22. a third through hole; 23. a fourth through hole; 24. a first chute; 25. a moisture-proof block; 26. a heat radiation hole; 27. a fan; 28. a handle; 29. a clamping groove; 30. and a second chute.

Detailed Description

In order to make the technical scheme of the present invention better understood by those skilled in the art, the present invention will be further described in detail with reference to the accompanying drawings.

Referring to fig. 1 to 11, the embodiment of the present invention provides a technical solution: this distribution automation monitor terminal, including the cabinet body 1, cabinet door 2, skeleton 8, first drive assembly, first monitoring module 12, second monitoring module 16, second drive assembly and third drive assembly, cabinet door 2 articulates in the one side of the cabinet body 1, the in-process that cabinet door 2 opened relative cabinet body 1 has first stroke and second stroke in proper order, skeleton 8 horizontal sliding connection is in the cabinet body 1, first drive assembly accepts the drive of the second stroke of cabinet door 2 in-process of opening so that skeleton 8 roll-off cabinet body 1, first monitoring module 12 and the equal vertical sliding connection of second monitoring module 16 are on skeleton 8, and first monitoring module 12 is located second monitoring module 16 top, the drive of the motion of skeleton 8 roll-off cabinet body 1 is accepted to the second drive assembly so that first monitoring module 12 slides up third stroke and fourth stroke in proper order, the drive of third drive assembly accepts the drive of first monitoring module 12 to slide up fourth stroke so that second monitoring module 16 moves up, concrete cabinet door 2 is last to be equipped with a handle 28, make things convenient for operating personnel to rotate cabinet door 2, preferably, be equipped with a handle 28 in the groove is kept away from in the horizontal shutoff position 28 of the handle 28 when the groove is kept away from in the groove in the horizontal shutoff position 28 of the side of the cabinet door 2.

As the preferable technical scheme, the first transmission component comprises an irregular gear 3, a first gear 4, a gear box 5, a second gear 6 and a first rack 7, wherein the irregular gear 3 is meshed with the first gear 4, an input shaft 5.1 and an output shaft 5.2 are arranged on the gear box 5, the first gear 4 is sleeved on the input shaft 5.1, the second gear 6 is sleeved on the output shaft 5.2, the first rack 7 is meshed with the second gear 6, a hinge shaft 21 is penetrated in the cabinet door 2, the irregular gear 3 is sleeved on the top of the hinge shaft 21, the gear box 5 is arranged on the top of the cabinet body 1, the first rack 7 is fixedly connected to one side of the framework 8 close to the gear box 5, specifically, a groove is formed in the top of the cabinet body 1, the irregular gear 3 and the first gear 4 are both rotationally connected in the groove, the irregular gear 3 is a three-quarter gear, the top of the cabinet body 1 is provided with a third through hole 22 and a fourth through hole 23, the second gear 6 penetrates through the cabinet body 1 through the third through hole 22 to be meshed with the first rack 7, the input shaft 5.1 of the gear box 5 penetrates through the cabinet body 1 through the fourth through hole 23 to be fixedly connected with the first gear 4, the first stroke is to open the cabinet door 2 to drive the hinge shaft 21 to rotate, the rotation angle of the cabinet door 2 is smaller than 90 DEG, the irregular gear 3 is not meshed with the first gear 4 in the first stroke, the framework 8 is prevented from being collided with the cabinet door 2 in the process of sliding out the framework 8 from the cabinet body 1, the irregular gear 3 starts to be meshed with the first gear 4 when the rotation angle of the cabinet door 2 is equal to 90 DEG at the beginning of the second stroke, the first gear 4 improves the rotation ratio of the second gear 6 to the first gear 4 through the action of the gear box 5, the transmission ratio between the first gear 4 and the irregular gear 3 is prevented from being too low, the framework 8 cannot slide out of the cabinet body 1 completely, the second gear 6 of the gear box drives the first rack 7 to slide horizontally, so that the framework 8 slides out of the cabinet body 1.

As a preferred technical scheme, the second transmission assembly comprises a rotating shaft 20, the rotating shaft 20 is rotationally connected on the inner wall of the cabinet body 1, one end of the rotating shaft 20, which is close to the first monitoring module 12, is provided with a first connecting rod 19, one end of the first connecting rod 19, which is close to the first monitoring module 12, is in clamping connection with the first monitoring module 12, specifically, one side of the first monitoring module 12, which is close to the first connecting rod 19, is provided with a clamping groove 29, one end of the first connecting rod 19, which is far away from the rotating shaft 20, is in clamping connection with the clamping groove 29, the rotating shaft 20 and the first connecting rod 19 rotate, two first through holes 9 are vertically and symmetrically provided on the framework 8, one side of the first monitoring module 12, which is far away from the cabinet door 2, is symmetrically provided with two first sliding blocks 13, the two first sliding blocks 13 are in sliding connection with the two first through holes 9 in a one-to-one correspondence, in the process that the framework 8 drives the first monitoring module 12 to horizontally and smoothly go out of the cabinet body 1, through the cooperation between the first connecting rod 19 and the rotating shaft 20, the first monitoring module 12 swings relative to the cabinet body 1, but the moving direction of the first monitoring module 12 is limited through the cooperation between the two first sliding blocks 13 and the two first through holes 9, the first monitoring module 12 moves synchronously with the framework 8 in the horizontal direction, the first monitoring module 12 can only move in the vertical direction relative to the framework 8, the first monitoring module 12 is prevented from shaking in the moving process, collides with the framework 8, the first monitoring module 12 is damaged, the height of the first monitoring module 12 is also adjusted, the adaption of the height maintenance is facilitated, and the first monitoring module 12 is subjected to multidirectional maintenance.

As a preferred technical scheme, the third transmission assembly includes second connecting rod 14, fixed block 15 and rand 18, second connecting rod 14 fixed connection is in the bottom of first monitoring module 12, second spout 30 has been seted up at the bottom of second connecting rod 14 and fixed block 15 fixed connection, second spout 30 has been seted up at second monitoring module 16 top, a rand 18 is dismantled to second spout 30 opening part, vertical sliding connection of second connecting rod 14 is in second spout 30, have the butt station that makes fixed block 15 and rand 18 butt in the sliding travel of second connecting rod 14, specifically, rand 18 threaded connection is in second spout 30 opening part, fixed block 15 and second connecting rod 14 integrated into one piece, preferably, fixed block 15 spiro union is on second connecting rod 14, conveniently dismantle or install first monitoring module 12 and second monitoring module 16, in the third stroke, fixed block 15 sliding connection is in second spout 30, and do not butt with rand 18, in the fourth stroke, fixed block 15 and rand 18 butt, first monitoring module 12 moves on driving rand 18 through fixed block 15, thereby drive second monitoring module 16 on making second monitoring module 16 produce comparatively more diversified rand 16, make between the monitoring module 12 more convenient maintenance and monitor, the maintenance clearance is moved mutually.

As the preferred technical scheme, two first sliding grooves 24 are horizontally symmetrically formed in the bottom wall of the cabinet body 1, two third sliding blocks 11 are symmetrically arranged at the bottom of the framework 8, the two third sliding blocks 11 are in sliding connection with the two first sliding grooves 24 in a one-to-one correspondence manner, specifically, the direction of movement of the framework 8 is limited through the cooperation between the two third sliding blocks 11 and the two first sliding grooves 24, so that the framework 8 can only move horizontally and linearly, the situation that the framework 8 moves horizontally in the process of moving horizontally is avoided, the framework 8 moves towards the direction close to the first connecting rod 19, and the meshing between the first rack 7 and the second gear 6 is tighter.

As a preferred technical scheme, two second through holes 10 are vertically and symmetrically formed in the framework 8, two second sliding blocks 17 are symmetrically arranged on one side, away from the cabinet door 2, of the second monitoring module 16, the two second sliding blocks 17 are in sliding connection with the two second through holes 10 in a one-to-one correspondence manner, specifically, the moving direction of the second monitoring module 16 is limited through the cooperation between the two second sliding blocks 17 and the two second through holes 10, so that the second monitoring module 16 can only move in the vertical direction relative to the first monitoring module 12, shaking is prevented in the moving process of the second monitoring module 16, collision is generated with the framework 8, and the second monitoring module 16 is damaged.

As the preferable technical scheme, two radiating holes 26 are formed in one side, far away from the cabinet door 2, of the cabinet body 1, a fan 27 is arranged on one side of each of the two radiating holes 26, specifically, the two radiating holes 26 are opposite to the first monitoring module 12 and the second monitoring module 16 respectively, the fan 27 radiates the cabinet body 1, and heat flow generated by the first monitoring module 12 and the second monitoring module 16 and dust in the cabinet body 1 are blown out through the radiating holes 26, so that dust outside the cabinet body 1 is prevented from entering the cabinet body 1 to a certain extent.

As the preferable technical scheme, cabinet 1 diapire symmetry is equipped with two dampproofing pieces 25, through setting up two dampproofing pieces 25 at the inner wall of cabinet 1, can prevent that ground moisture from permeating inside first control module 12 and second control module 16, makes first control module 12 and second control module 16 short circuit fire disaster, thereby causes first control module 12 and second control module 16 to damage to the cabinet body 1 inside.

Working principle: this automatic monitor terminal of distribution opens cabinet door 2 and drives articulated shaft 21 and rotate when the maintenance is needed, cabinet door 2 turned angle is less than 90 in-process, irregular gear 3 does not mesh with first gear 4, prevent skeleton 8 roll-off cabinet body 1 in-process, skeleton 8 and cabinet door 2 produce the collision, when cabinet door 2 turned angle equals 90, the in-process of skeleton 8 roll-off cabinet body 1 can not produce the collision with cabinet door 2 this moment, irregular gear 3 begins with first gear 4 meshing, drive first gear 4 rotation, first gear 4 passes through the effect of gear box 5, improve the rotation speed ratio of second gear 6 and first gear 4, second gear 6 drives first rack 7 horizontal slip, make skeleton 8 roll-off cabinet body 1, need not personnel's probe get into in the cabinet body 1 to carry out maintenance to first monitor module 12 and second monitor module 16, make the maintenance more convenient, through the cooperation between second connecting rod 14 and pivot 20, at the in-process of skeleton 8 roll-off cabinet body 1, first monitor module 12 not only moves out cabinet body 1 along with skeleton 8 synchronous water, first monitor module 12 has still been driven on the first monitor module 12 relatively, the first monitor module 12 has been moved up to the first 12, make the first monitor module 12 has been moved more closely to the first 12, make the first monitor module 12 has been difficult for carrying out maintenance with the first 12, the maintenance module is more convenient, the maintenance is more has been carried out on the first 12, the first monitor module is more has been moved between the first 12, and the first monitor module is more than 12 has been more than 12, the maintenance module is convenient, the module is 12, has been more has been convenient to the 12, the maintenance module 12, has been 12, and has been more has been convenient.

While certain exemplary embodiments of the present invention have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that modifications may be made to the described embodiments in various different ways without departing from the spirit and scope of the invention. Accordingly, the drawings and description are to be regarded as illustrative in nature and not as restrictive of the scope of the invention, which is defined by the appended claims.

Claims (8)

1. A power distribution automation monitoring terminal, including a cabinet (1) and a cabinet door (2) hinged on one side of the cabinet (1). When the cabinet door (2) is opened relative to the cabinet (1), there are The first trip and the second trip are characterized in that they also include: The frame (8) is horizontally slidingly connected in the cabinet (1); a first transmission assembly, which is driven by a second stroke during the opening process of the cabinet door (2) so as to make the frame (8) slide out of the cabinet body (1); the first transmission assembly comprises an irregular gear (3), a first gear (4), a gear box (5), a second gear (6) and a first rack (7); the irregular gear (3) meshes with the first gear (4); the gear box (5) is provided with an input shaft (5.1) and an output shaft (5.2); the first gear (4) is sleeved on the input shaft (5.1); the second gear (6) is sleeved on the output shaft (5.2); the first rack (7) meshes with the second gear (6); a hinge shaft (21) is passed through the cabinet door (2); the irregular gear (3) is sleeved on the top of the hinge shaft (21); the gear box (5) is arranged on the top of the cabinet body (1); and the first rack (7) is fixedly connected to a side of the frame (8) close to the gear box (5); The first monitoring module (12) and the second monitoring module (16) are vertically slidingly connected to the frame (8), and the first monitoring module (12) is located above the second monitoring module (16); The second transmission component is driven by the movement of the frame (8) sliding out of the cabinet (1) so that the first monitoring module (12) slides up the third stroke and the fourth stroke relative to the frame (8) in sequence; The third transmission component is driven by the first monitoring module (12) to slide upward for the fourth stroke to move the second monitoring module (16) upward. 2. A power distribution automation monitoring terminal according to claim 1, characterized in that the second transmission component includes a rotating shaft (20), and the rotating shaft (20) is rotationally connected to the inner wall of the cabinet (1) , the rotating shaft (20) is provided with a first connecting rod (19) at one end close to the first monitoring module (12), and the first connecting rod (19) is connected to the first monitoring module at one end close to the first monitoring module (12). Module (12) is snap-connected. 3. A power distribution automation monitoring terminal according to claim 2, characterized in that the third transmission component includes a second connecting rod (14), a fixed block (15) and a clamp ring (18). The second connecting rod (14) is fixedly connected to the bottom of the first monitoring module (12). The bottom of the second connecting rod (14) is fixedly connected to the fixed block (15). The top of the second monitoring module (16) A second chute (30) is provided. A clamp ring (18) is detachably connected to the opening of the second chute (30). The second connecting rod (14) is vertically slidingly connected to the second chute (30). 30), in the sliding stroke of the second connecting rod (14), there is a contact station for the fixed block (15) to contact the clamp ring (18). 4. A distribution automation monitoring terminal according to claim 1, characterized in that two first slide grooves (24) are horizontally symmetrically provided on the bottom wall of the cabinet (1), and two third sliding blocks (11) are symmetrically provided on the bottom of the frame (8), and the two third sliding blocks (11) are slidably connected to the two first slide grooves (24) in a one-to-one correspondence. 5. A power distribution automation monitoring terminal according to claim 1, characterized in that two first through holes (9) are vertically and symmetrically provided on the frame (8), and the first monitoring module (12 ) Two first slide blocks (13) are symmetrically provided on the side away from the cabinet door (2). The two first slide blocks (13) are slidingly connected to the two first through holes (9) in one-to-one correspondence. 6. A power distribution automation monitoring terminal according to claim 1, characterized in that two second through holes (10) are vertically and symmetrically provided on the frame (8), and the second monitoring module (16 ) Two second slide blocks (17) are symmetrically provided on the side away from the cabinet door (2). The two second slide blocks (17) are slidingly connected to the two second through holes (10) in one-to-one correspondence. 7. A power distribution automation monitoring terminal according to claim 1, characterized in that two heat dissipation holes (26) are provided on the side of the cabinet (1) away from the cabinet door (2). A fan (27) is installed on one side of the hole (26). 8. A distribution automation monitoring terminal according to claim 1, characterized in that two moisture-proof blocks (25) are symmetrically provided on the bottom wall of the cabinet (1).