CN221119398U - Power grid planning device - Google Patents

Abstract

The utility model provides a power grid planning device, which relates to the technical field of power distribution networks and aims to solve the problem that the structure of a planning overhead line is easy to age and damage due to the fact that the existing power distribution network planning overhead line is positioned at high altitude and is frequently subjected to sun and rain, and comprises a mounting mechanism; the installation mechanism comprises a main body, a top groove and a bottom groove, wherein the main body is of a cylindrical structure, and an electric wire lap joint frame is arranged at the top of the main body. When the lifting device is used, the lifting rod can downwards move in the main body through rotating the rotating piece, the connecting rod can drive the turning plate to upwards turn up through the transmission of the gear rack, and the wire-lapping frame at the top of the main body is shielded and protected.

Description

Power grid planning device

Technical Field

The utility model belongs to the technical field of power distribution networks, and particularly relates to a power grid planning device.

Background

The distribution network is a power network which receives electric energy from a power transmission network or a regional power plant, distributes the electric energy locally through a distribution facility or distributes the electric energy to various users step by step according to voltage, and in order to enable the distribution network to better perform connection distribution and ensure safety, a distribution network planning frame is generally required to be used for supporting all access lines away from the ground, and the transfer distribution of the lines is performed through a plurality of connectors arranged on the planning frame.

Based on the prior art discovery, the position of the current power distribution network planning overhead line is in the high altitude and is frequently subjected to sun and rain, so that the structure of the planning overhead line is easy to age and damage, and the support structure of the current power distribution network planning overhead line is imperfect.

Disclosure of utility model

In order to solve the technical problem, the utility model provides a power grid planning device, with solve current distribution network planning overhead line's position because be in the high altitude, and often receive sun and rain, this just leads to planning overhead line's structure to take place ageing damage easily, and current distribution network planning overhead line's bearing structure is imperfect, during the use, its bearing structure is fixed, consequently, when receiving flood disaster and wind power influence, can not provide good support according to the atress direction, make distribution network planning overhead line receive the problem that easy emptys after the external force influences.

The utility model relates to a purpose and efficiency of electric wire netting planning device is reached by following concrete technical means:

A power grid planning apparatus comprising:

A mounting mechanism; the installation mechanism comprises a main body, a top groove and a bottom groove, wherein the main body is of a cylindrical structure, and an electric wire lap joint frame is arranged at the top of the main body; the top groove is formed in the upper end of the inner part of the main body, and penetrates through two sides of the main body; the bottom groove is formed in the outer side of the bottom of the main body; the lifting assembly is arranged on the mounting mechanism, a lifting rod of the lifting assembly is slidably mounted on the inner side of the main body, a top piece at the outer end of the lifting rod is slidably mounted in a top groove at the upper end of the main body, a rack on the top piece is in transmission connection with a gear on a connecting rod at the outer side of the main body, and a rotating piece at the bottom side of the lifting rod is rotatably mounted in an inner groove in the main body; the mounting mechanism is provided with an external assembly, a connecting piece of the external assembly is clamped in a bottom groove at the lower end of the main body, and a positioning hole in the connecting piece is clamped with a round rod at the bottom side of the lifting piece in the main body.

Further, the mounting mechanism includes: the device comprises a turning plate and a connecting rod; the turning plates are arranged on two sides of the outer part of the upper end of the main body; the connecting rod is arranged at the outer end of the turning plate, a gear is fixedly arranged at the middle position of the connecting rod, and the middle position of the connecting rod is rotationally connected with the two sides of the outer part of the top groove.

Further, the mounting mechanism includes: an inner tank and a lifting member; the inner groove is formed in the main body, the inner groove penetrates through the front end of the main body, and the top of the inner groove is communicated with the top groove through a circular through groove; the lifting piece is arranged at the bottom side of the main body, the upper end of the lifting piece is connected with the inner groove in a sliding mode, and the round rod at the bottom of the lifting piece penetrates through the main body and is inserted into the bottom groove.

Further, the lifting assembly includes: lifting rod and screw rod; the lifting rod is of a cylindrical structure; the screw rod is arranged at the bottom side of the lifting rod.

Further, the lifting assembly includes: a top member and a rotary member; the top part is arranged at the top of the lifting rod, and racks are fixedly arranged on two sides of the top part; the rotating piece is arranged on the screw rod at the bottom side of the lifting rod in a threaded mode.

Further, the external connection assembly includes: the connecting piece, the positioning hole and the jack; the inside of the connecting piece is provided with a groove, and the outside of the connecting piece is provided with a circular rod; the positioning holes are formed in the inner end of the connecting piece at equal intervals in a ring shape; the jacks are provided with two groups in total, and the jacks are arranged in the round rod outside the connecting piece.

Further, the external connection assembly further includes: a support plate and a limiting member; the support plate is arranged at the outer end of the connecting piece, the bottom of the support plate is rotationally connected with the round rod at the outer side of the connecting piece, a rectangular groove is formed in the inner side of the lower end of the support plate, and a conical bulge structure is arranged at the outer side of the support plate; the limiting piece is slidably mounted in the rectangular groove at the inner end of the bottom side of the supporting plate, and two groups of round rods at the bottom of the limiting piece penetrate through the supporting plate and are inserted into the insertion holes in the connecting piece.

Compared with the prior art, the utility model has the following beneficial effects:

1. In this device, mounting structure and lifting assembly have been set up, sliding installation lifter in the main part, make the roof part of lifter upper end and the roof groove sliding connection in the main part, rotate the rotating member of lifter bottom and install in the inside groove in the main part, will turn over the board and rotate the both sides of installing the main part upper end through the connecting rod, make the connecting rod go up the gear and be connected with the rack transmission in the top outside, during the use, through rotating the rotating member, can make the lifter move down in the main part, and through rack and pinion's transmission, can make the connecting rod drive and turn over the board upwards and tilt up, and shelter from the protection to the wire frame at main part top, through setting up like this, reducible main part top wire frame is influenced by the erosion of sunshine and rainwater, thereby can prolong its life.

2. In this device, installation mechanism and external subassembly have been set up in the bottom of main part and annular kerve, and set up the lifting element that the bottom has the round bar in the lower extreme of main part, be the annular locating hole of seting up at the connecting piece, and rotate the backup pad that installs and have the locating part at the outer end of connecting piece, when the electric wire netting planning frame receives the influence of strong wind or flood, in the kerve of main part lower extreme is to the connecting plate block, and fix the connecting piece through the lifting element, place the backup pad parallel with ground, and insert the round bar on the locating part from the side of jack, through setting up like this, in extreme weather's condition, can be according to the direction of receiving external force, adjust the strong point to the electric wire netting planning frame, thereby provide extra support to the electric wire netting planning frame, it is supported by the backup pad after receiving external force influence, be difficult to take place to empty.

Drawings

Fig. 1 is a schematic perspective view of the present utility model.

Fig. 2 is a schematic exploded view of the present utility model.

Fig. 3 is a schematic view of the upper cross-sectional connection structure of the mounting mechanism of the present utility model.

Fig. 4 is a schematic view of a cross-sectional connection structure of the bottom end of the mounting mechanism of the present utility model.

Fig. 5 is a schematic view of a local connection structure of an external connection assembly according to the present utility model.

1. A mounting mechanism;

101. a main body; 1011. A top groove; 1012. A bottom groove;

102. Turning plate; 1021. A connecting rod;

103. An inner tank; 1031. a lifting member;

2. a lifting assembly;

201. A lifting rod; 2011. a screw;

202. A top member; 203. a rotating member;

3. an external connection assembly;

301. A connecting piece; 3011. positioning holes; 3012. a jack;

302. A support plate; 3021. and a limiting piece.

Detailed Description

Embodiments of the present invention are described in further detail below with reference to the accompanying drawings and examples.

Examples:

As shown in fig. 1 to 5:

The utility model provides a power grid planning device, comprising: a mounting mechanism 1; the mounting mechanism 1 comprises a main body 101, a top groove 1011 and a bottom groove 1012, wherein the main body 101 is of a cylindrical structure, and the top of the main body 101 is provided with an electric wire lap joint frame; the top groove 1011 is formed at the upper end of the inside of the main body 101, and the top groove 1011 penetrates through both sides of the main body 101; the bottom groove 1012 is formed on the outer side of the bottom of the main body 101; the mounting mechanism 1 is provided with a lifting assembly 2, a lifting rod 201 of the lifting assembly 2 is slidably mounted on the inner side of the main body 101, a top piece 202 at the outer end of the lifting rod 201 is slidably mounted in a top groove 1011 at the upper end of the main body 101, a rack on the top piece 202 is in transmission connection with a gear on a connecting rod 1021 at the outer side of the main body 101, and a rotating piece 203 at the bottom side of the lifting rod 201 is rotatably mounted in an inner groove 103 in the main body 101; the mounting mechanism 1 is provided with an external component 3, a connecting piece 301 of the external component 3 is clamped in a bottom groove 1012 at the lower end of the main body 101, and a positioning hole 3011 in the connecting piece 301 is clamped with a round rod at the bottom side of a lifting piece 1031 in the main body 101.

As embodiment 1 of the present application, as shown in fig. 2 to 4, the mounting mechanism 1 includes: a flap 102 and a connecting rod 1021; the flaps 102 are provided on both sides of the outside of the upper end of the main body 101; the connecting rod 1021 is arranged at the outer end of the turning plate 102, a gear is fixedly arranged at the middle position of the connecting rod 1021, and the middle position of the connecting rod 1021 is rotationally connected with the two sides of the outer part of the top groove 1011; an inner tank 103 and a lifter 1031; the inner groove 103 is formed in the main body 101, the inner groove 103 penetrates through the front end of the main body 101, and the top of the inner groove 103 is communicated with the top groove 1011 through a circular through groove; the lifting member 1031 is disposed at the bottom side of the main body 101, the upper end of the lifting member 1031 is slidably connected with the inner groove 103, and a circular rod at the bottom of the lifting member 1031 penetrates the main body 101 and is inserted into the bottom groove 1012.

Setting up the rectangle and turning over board 102, can shelter from sunshine and rainwater to the electric wire overlap joint frame on the main part 101, setting up U-shaped connecting rod 1021, can pass through connecting rod 1021 rotation and install the both sides of main part 101 with turning over board 102, setting up circular inside groove 103, can pass through inside groove 103 rotation and install the inside of main part 101 with rotating member 203, setting up lifter 1031 to set up the circular pole on the platelike structure of lifter 1031 bottom, through inserting the circular pole into the locating hole 3011 in the connecting piece 301, can make connecting piece 301 fix in the undercut 1012.

As shown in fig. 2 to 3, wherein the lifting assembly 2 comprises: a lifting rod 201 and a screw 2011; the lifting rod 201 has a cylindrical structure; the screw 2011 is arranged at the bottom side of the lifting rod 201; a lifting rod 201 is arranged, a top part 202 can be installed on the lifting rod 201, a screw 2011 is arranged, and a rotating part 203 can be installed on the screw 2011 in a threaded manner; a top member 202 and a rotary member 203; the top part 202 is arranged at the top of the lifting rod 201, and racks are fixedly arranged on two sides of the top part 202; the rotating member 203 is screwed on the screw 2011 at the bottom side of the lifting rod 201, a U-shaped top member 202 is provided, racks can be fixedly mounted at both ends of the top member 202, the lifting rod 201 is connected with the connecting rod 1021 through the top member 202 in a transmission manner, a cylindrical rotating member 203 is provided, and the lifting rod 201 and the screw 2011 can be rotated inside the main body 101 by rotating the rotating member 203.

As embodiment 2 of the present application, the external connection assembly 3 may include, on the basis of embodiment 1, as shown in fig. 4 to 5: a connector 301, a positioning hole 3011 and a jack 3012; a groove is formed in the connecting piece 301, and a circular rod is arranged on the outer side of the connecting piece 301; the positioning holes 3011 are formed at the inner end of the connecting piece 301 at equal intervals in a ring shape; two groups of jacks 3012 are arranged in total, and the jacks 3012 are arranged in a circular rod outside the connecting piece 301; a support plate 302 and a stop 3021; the supporting plate 302 is arranged at the outer end of the connecting piece 301, the bottom of the supporting plate 302 is rotationally connected with a round rod at the outer side of the connecting piece 301, a rectangular groove is formed at the inner side of the lower end of the supporting plate 302, and a conical protruding structure is arranged at the outer side of the supporting plate 302; the limiting piece 3021 is slidably mounted in a rectangular groove at the inner end of the bottom side of the supporting plate 302, and two groups of round rods at the bottom of the limiting piece 3021 penetrate through the supporting plate 302 and are inserted into insertion holes 3012 on the connecting piece 301.

The hook-shaped connector 301 is provided, the supporting plate 302 is movably mounted in the bottom groove 1012 at the lower end of the main body 101 through the connector 301, the circular positioning hole 3011 is provided, the connector 301 is fixed in the bottom groove 1012 at the lower end of the main body 101 by inserting the round bar-shaped structure at the bottom of the lifting member 1031 into the positioning hole 3011, the L-shaped insertion hole 3012 is provided, the supporting plate 302 is fixed in the vertical direction on the connector 301 by inserting the round bar on the stopper 3021 from the upper end of the insertion hole 3012, the supporting plate 302 is fixed in the connector 301 at a lateral angle by inserting the round bar on the stopper 3021 from the side end of the insertion hole 3012, the rectangular supporting plate 302 is provided, the lifting rod 201 is additionally supported, the stopper 3021 is provided, and the supporting plate 302 is fixed on the connector 301 by inserting the round bar on the stopper 3021 into the insertion hole 3012.

Specific use and action of the embodiment:

In the utility model, as shown in fig. 1-5, an electric wire lapping frame is installed at the top of a main body 101, an electric wire is fixed at the top of the main body 101 through the lapping frame, lifting rods 201 with top parts 202 are arranged in the main body 101, turning plates 102 are arranged at two sides of the main body 101, gears on connecting rods 1021 are in transmission connection with racks on the top parts 202, rotating parts 203 in inner grooves 103 are rotated, the lifting rods 201 move downwards and drive the turning plates 102 to turn up from two sides of the main body 101 until two groups of turning plates 102 are mutually spliced, the spliced turning plates 102 can be used as the lapping frame for shielding rainwater, connecting pieces 301 are clamped into bottom grooves 1012 at the lower end of the main body 101, then round rods at the bottom of the lifting pieces 1031 are inserted into positioning holes 3011 in the connecting pieces 301, the bottom of the main body 101 are fixed, support plates 302 are installed on the outer sides of the connecting pieces 301 in a transmission mode, limit pieces 3021 are installed in a sliding mode in the inner sides of the support plates 302, round rods on the limit pieces 3021 are inserted into the tops of the insertion holes 3012, the support plates 302 are fixed, and thus when large wind is blown down, the support plates 302 can be provided, the support plates 302 can be used as a conical structure, and the wind can be protected from being blown down, and the tail ends of the wind can be protected against the wind.

Claims (7)

1. A power grid planning apparatus, comprising: a mounting mechanism (1); the mounting mechanism (1) comprises a main body (101), a top groove (1011) and a bottom groove (1012), wherein the main body (101) is of a cylindrical structure, and an electric wire lap joint frame is arranged at the top of the main body (101); the top groove (1011) is formed at the upper end of the inside of the main body (101), and the top groove (1011) penetrates through two sides of the main body (101); the bottom groove (1012) is arranged at the outer side of the bottom of the main body (101); the lifting assembly (2) is arranged on the mounting mechanism (1), a lifting rod (201) of the lifting assembly (2) is slidably mounted on the inner side of the main body (101), a top piece (202) at the outer end of the lifting rod (201) is slidably mounted in a top groove (1011) at the upper end of the main body (101), a rack on the top piece (202) is in transmission connection with a gear on a connecting rod (1021) at the outer side of the main body (101), and a rotating piece (203) at the bottom side of the lifting rod (201) is rotatably mounted in an inner groove (103) in the main body (101); the mounting mechanism (1) is provided with an external assembly (3), a connecting piece (301) of the external assembly (3) is clamped in a bottom groove (1012) at the lower end of the main body (101), and a positioning hole (3011) in the connecting piece (301) is clamped with a round rod at the bottom side of a lifting piece (1031) in the main body (101).

2. A power grid planning device according to claim 1, characterized in that the mounting mechanism (1) comprises: a flap (102) and a connecting rod (1021); the turning plates (102) are arranged on two sides of the outer part of the upper end of the main body (101); the connecting rod (1021) is arranged at the outer end of the turning plate (102), a gear is fixedly arranged at the middle position of the connecting rod (1021), and the middle position of the connecting rod (1021) is rotationally connected with the two sides of the outer part of the top groove (1011).

3. A power grid planning device according to claim 1, characterized in that the mounting mechanism (1) comprises: an inner tank (103) and a lifter (1031); the inner groove (103) is formed in the main body (101), the inner groove (103) penetrates through the front end of the main body (101), and the top of the inner groove (103) is communicated with the top groove (1011) through a circular through groove; the lifting piece (1031) is arranged at the bottom side of the inside of the main body (101), the upper end of the lifting piece (1031) is in sliding connection with the inner groove (103), and a round rod at the bottom of the lifting piece (1031) penetrates through the main body (101) and is inserted into the bottom groove (1012).

4. A power grid planning device according to claim 1, characterized in that the lifting assembly (2) comprises: a lifting rod (201) and a screw (2011); the lifting rod (201) is of a cylindrical structure; the screw (2011) is arranged at the bottom side of the lifting rod (201).

5. A power grid planning device according to claim 4, characterized in that the lifting assembly (2) comprises: a top member (202) and a rotary member (203); the top part (202) is arranged at the top of the lifting rod (201), and racks are fixedly arranged on two sides of the top part (202); the rotating piece (203) is arranged on a screw rod (2011) at the bottom side of the lifting rod (201) in a threaded mode.

6. A power grid planning device according to claim 1, characterized in that the external connection assembly (3) comprises: a connecting piece (301), a positioning hole (3011) and a jack (3012); a groove is formed in the connecting piece (301), and a circular rod is arranged on the outer side of the connecting piece (301); the positioning holes (3011) are formed in the inner end of the connecting piece (301) at equal intervals in a ring shape; two groups of jacks (3012) are arranged in total, and the jacks (3012) are arranged in round rods outside the connecting piece (301).

7. A power grid planning device according to claim 6, characterized in that the external connection assembly (3) further comprises: a support plate (302) and a stopper (3021); the supporting plate (302) is arranged at the outer end of the connecting piece (301), the bottom of the supporting plate (302) is rotationally connected with a circular rod at the outer side of the connecting piece (301), a rectangular groove is formed in the inner side of the lower end of the supporting plate (302), and a conical protruding structure is arranged at the outer side of the supporting plate (302); the limiting piece (3021) is slidably mounted in a rectangular groove at the inner end of the bottom side of the supporting plate (302), and two groups of round rods at the bottom of the limiting piece (3021) penetrate through the supporting plate (302) and are inserted into insertion holes (3012) in the connecting piece (301).