CN115087263B - Terminal equipment for detecting and maintaining intelligent power grid - Google Patents

Abstract

The invention discloses terminal equipment for detecting and maintaining a smart power grid, and relates to the technical field of power grid detecting and maintaining equipment. This smart power grids detects and maintains and use terminal equipment, including the equipment shell, the front end of equipment shell rotates and is connected with the revolving door, the inside of equipment shell is provided with detects and maintains the device, it includes fan-shaped fixed block to detect and maintain the device, sliding connection has the slider on the arcwall face of fan-shaped fixed block, the inside of slider runs through and sliding connection has the movable rod, be fixed with the detector main part on the movable rod, T type slide bar runs through and sliding connection is in the bottom plate of equipment shell. The invention can lead the detector main body to extend automatically when in use and retract into the equipment shell when not in operation by arranging the detection maintenance device, so that the detector main body has a protection function in the moving and transporting process and has a function of convenient use.

Description

Terminal equipment for detecting and maintaining intelligent power grid

Technical Field

The invention relates to the technical field of power grid detection and maintenance equipment, in particular to terminal equipment for detecting and maintaining a smart power grid.

Background

The smart grid is an area-powered power structure, and is applied by advanced technology, advanced equipment and advanced control methods.

Many accurate intelligent components can be arranged in the whole structure of the intelligent power grid, the intelligent components need to be detected and maintained regularly, and the existing detection and maintenance terminal equipment is special in function and accurate in structure, so that the protection box body is generally configured for protection, the occupied space is large during movement and transportation, and the taking and the using are inconvenient.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides terminal equipment for detecting and maintaining a smart grid, which solves the problems in the background art. In order to achieve the above purpose, the invention is realized by the following technical scheme: the utility model provides a smart power grids detects and maintains and use terminal equipment, includes the equipment shell, the front end of equipment shell rotates and is connected with the revolving door, the bottom left side of equipment shell is fixed with the rubber supporting legs, the inside of equipment shell is provided with detects and maintains the device, it includes fan-shaped fixed block, T type litter, hydraulic pressure pipeline one, hydraulic pressure pipeline two to detect and maintain the device, sliding connection has the slider on the arcwall face of fan-shaped fixed block, the inside of slider runs through and sliding connection has the movable rod, be fixed with the detector main part on the movable rod, be fixed with two shell fragments between movable rod and the slider, the detector main part passes through movable rod and slider elasticity sliding connection, makes the detector main part have certain autonomous cushioning effect, T type litter runs through and sliding connection is in the bottom plate of equipment shell, two elastic sheets for providing elasticity are fixed between the T-shaped slide rod and the inner wall of the equipment shell, a hydraulic rod at one inner end of the first hydraulic pipeline is fixed with the T-shaped slide rod, the other two hydraulic rods of the first hydraulic pipeline are fixed with a sliding block, a sliding rail is fixed on the arc surface of the fan-shaped fixed block, the sliding block is in sliding connection with the sliding rail, the sliding track of the sliding block is limited through the sliding rail so as to ensure the motion track of the detector main body, the hydraulic rod at one inner end of the second hydraulic pipeline is fixed with the T-shaped slide rod, the other end of the second hydraulic pipeline is fixed with a sealing plate, the top end of the equipment shell is provided with an opening, the right side of the sealing plate is rotationally connected in the opening at the top end of the equipment shell, the detector main body can automatically extend out when in use and is retracted into the equipment shell when the detector main body does not work, the detector main body has an autonomous protection function in the moving and transporting process and has a function of convenient use.

Further, the inside of fan-shaped fixed block is fixed with vibrations fixing device, vibrations fixing device includes hollow pipeline, tee bend formula pneumatic tube, the inner wall top at fan-shaped fixed block is fixed to hollow pipeline, has seted up two sets of symmetry sets of through-holes on the arcwall face of fan-shaped fixed block, the inside top swing joint of hollow pipeline has gravity ball, the inside of hollow pipeline is located the below of gravity ball and is fixed with hollow glass pole, and when this application produced great vibrations in the transportation, the gravity ball can destroy hollow glass pole, and then the downward movement, tee bend formula pneumatic tube's one end is fixed with air pump one, is provided with push type switch on the air pump one, and push type switch is located the inside lower extreme of hollow pipeline, equal sliding connection has spacing inserted bar in two ports of tee bend formula pneumatic tube, two spacing inserted bar are located two through-holes of below, along with the removal of gravity ball, can extrude the push type switch of air pump one, make in a pair of tee bend formula pneumatic tube aerifys the hollow glass pole, and when this application produces great vibrations in the transportation, will detect the main part and the detector is connected with the detector main part and the detector main part can prevent to bump the main part and the main part from the detector main part from the impact the main part to the main part when the detector is located the main part and the detector main part to the main part has the shock absorber and the detector main part to the detector is located the main part.

Furthermore, an auxiliary protection device is fixed in the fan-shaped fixing block and comprises an arc-shaped air pressure bin, one end of the arc-shaped air pressure bin is communicated with a three-way air pressure pipeline, arc-shaped protection plates are connected in the other two ports of the arc-shaped air pressure bin in a sliding mode, and arc-shaped sponge cushion layers are fixed in the arc-shaped protection plates.

It is worth noting that the inside of equipment shell is fixed with buffering protection device, buffering protection device includes the rectangle shell, the inside of rectangle shell is provided with the buffer module, aerify the protection module, the buffer module includes the buffer board, the buffer board runs through and sliding connection is in the roof department of rectangle shell, and is fixed with two buffer springs between the bottom of buffer board and the inner wall of rectangle shell, assist the buffering through two buffer springs, the bottom both sides of buffer board all rotate and are connected with the transfer line, two the bottom of transfer line all rotates and is connected with resistance movable block, the inside of rectangle shell is fixed with two resistance bars, two resistance movable block respectively with two resistance bars sliding connection, provides the resistance through resistance movable block and resistance bar contact slip to and to the pressure release, further promotes the buffering effect of buffer board, and the buffering effect to the detector main part is promoted through setting up buffering protection device, and when the buffering operation is carried out through movable bar and connected shell fragment through the buffer board after the detector main part is fixed a position.

It is worth noting that, aerify protection subassembly includes air pump two, be provided with push type switch on the air pump two, the bottom of air pump two is fixed with annular inflation bag through two connecting rods, annular inflation bag is fixed in the bottom of equipment shell, air pump two's push type switch is located the buffer board below, after the buffer board is extrudeed, can extrude air pump two's push type switch, makes air pump two to annular inflation bag aerify, makes it take place the inflation to promote the contact buffering effect between equipment shell and the transportation equipment, further promotion is to the protection effect of detector main part.

The invention provides terminal equipment for detecting and maintaining a smart grid. The beneficial effects are as follows:

(1) The invention can lead the detector main body to extend automatically when in use and retract into the equipment shell when not in operation by arranging the detection maintenance device, so that the detector main body has a protection function in the moving and transporting process and has a function of convenient use.

(2) According to the invention, through the vibration fixing device, when vibration is generated in the transportation process, the sliding block at the joint of the detector main body and the fan-shaped fixing block is positioned, so that the detector main body is prevented from being impacted with the equipment main body shell during vibration, and at the moment, the detector main body slides and is buffered on the sliding block through the movable rod, so that the detector main body has a buffering effect, and meanwhile, the detector main body is prevented from being impacted with the inner wall of the equipment main body.

(3) The auxiliary protection device is arranged to protect the upper part of the detector main body, and the arc-shaped sponge cushion layer in the extended arc-shaped protection plate is used to protect the upper part of the detector main body, so that the protection effect on the detector main body can be further improved.

(4) According to the invention, the buffer protection device is arranged to improve the buffer effect on the detector main body, and when the buffer operation is carried out through the movable rod and the elastic sheet connected with the movable rod after the detector main body is positioned, the buffer plate is used for assisting in the buffer operation, so that the buffer effect on the detector main body is improved.

Drawings

FIG. 1 is a schematic view of the overall three-dimensional structure of the present invention;

FIG. 2 is a schematic three-dimensional structure of the inspection and maintenance device of the present invention;

FIG. 3 is a schematic structural view of the connection relationship among the detector body, the movable rod and the sliding block according to the present invention;

FIG. 4 is a schematic three-dimensional structure of the vibration fixing device of the present invention;

FIG. 5 is a schematic three-dimensional structure of the auxiliary protection device of the present invention;

fig. 6 is a schematic view of a three-dimensional structure of an arc-shaped protection plate according to the present invention;

FIG. 7 is a schematic three-dimensional structure of the buffer protection device of the present invention;

FIG. 8 is a schematic three-dimensional view of a cushioning assembly of the present invention;

FIG. 9 is a schematic three-dimensional view of an inflatable protection assembly of the present invention.

In the figure: 1. an equipment housing; 2. rubber supporting feet; 3. detecting and maintaining the device; 31. a fan-shaped fixed block; 32. a first hydraulic pipeline; 33. a second hydraulic pipeline; 34. a T-shaped slide rod; 35. a detector body; 36. a movable rod; 37. a slide block; 38. a sealing plate; 4. a vibration fixing device; 41. a hollow tube; 42. a three-way pneumatic pipeline; 43. a gravity ball; 44. an air pump I; 45. a limit inserted link; 46. an auxiliary protection device; 461. an arc-shaped air pressure bin; 462. an arc-shaped protection plate; 463. an arc-shaped sponge cushion layer; 5. a buffer protection device; 51. a rectangular housing; 52. a buffer assembly; 53. an inflatable protection assembly; 531. an air pump II; 532. an annular inflation bladder; 533. a push switch; 54. a buffer plate; 55. a resistance rod; 56. a transmission rod; 57. resistance movable block.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

Referring to fig. 1-9, the present invention provides a technical solution: the utility model provides a smart power grids detects and maintains with terminal equipment, including equipment shell 1, the front end of equipment shell 1 rotates and is connected with the revolving door, the bottom left side of equipment shell 1 is fixed with rubber supporting legs 2, the inside of equipment shell 1 is provided with detects and maintains device 3, detect and maintain device 3 includes fan-shaped fixed block 31, T type slide bar 34, hydraulic pressure pipeline I32, hydraulic pressure pipeline II 33, sliding connection has slider 37 on the arcwall face of fan-shaped fixed block 31, the inside of slider 37 runs through and sliding connection has movable rod 36, be fixed with detector main part 35 on the movable rod 36, be fixed with two shell fragments between movable rod 36 and the slider 37, detector main part 35 passes through movable rod 36 and slider 37 elastic sliding connection, make detector main part 35 have certain autonomous cushioning effect, T type slide bar 34 runs through and sliding connection is in the bottom plate of equipment shell 1, two elastic sheets for providing elasticity are fixed between the T-shaped slide rod 34 and the inner wall of the equipment shell 1, a hydraulic rod at one end in the first hydraulic pipeline 32 is fixed with the T-shaped slide rod 34, the other two hydraulic rods of the first hydraulic pipeline 32 are fixed with a sliding block 37, a sliding rail is fixed on the arc surface of the fan-shaped fixed block 31, the sliding block 37 is connected with the sliding rail in a sliding way, the sliding track of the sliding block 37 is limited by the sliding rail so as to ensure the motion track of the detector main body 35, the hydraulic rod at one end in the second hydraulic pipeline 33 is fixed with the T-shaped slide rod 34, the other end of the second hydraulic pipeline 33 is fixed with a sealing plate 38, the top end of the equipment shell 1 is provided with an opening, the right side of the sealing plate 38 is rotationally connected in the opening at the top end of the equipment shell 1, the detector main body 35 has an autonomous protection function in the moving and transporting process and has a function of convenient use.

Further, the inside of fan-shaped fixed block 31 is fixed with vibrations fixing device 4, vibrations fixing device 4 includes hollow pipeline 41, tee bend formula pneumatic tube 42, hollow pipeline 41 is fixed on the inner wall top of fan-shaped fixed block 31, two sets of through-holes that set up symmetrically on the arcwall face of fan-shaped fixed block 31, the inside top swing joint of hollow pipeline 41 has gravity ball 43, the inside of hollow pipeline 41 is located the below of gravity ball 43 and is fixed with hollow glass pole, when this application produced great vibrations in the transportation, gravity ball 43 can destroy hollow glass pole, then move downwards, one end of tee bend formula pneumatic tube 42 is fixed with air pump one 44, be provided with push type switch on air pump one 44, and push type switch is located the inside lower extreme of hollow pipeline 41, equal sliding connection has spacing inserted bar 45 in two other ports of tee bend formula pneumatic tube 42, two sets of through-holes of being located the below, along with the removal of gravity ball 43, can extrude the push type switch of air pump one 44, make air pump 44 aerify in tee bend formula pneumatic tube 42, when this invention produces great vibrations in the transportation fixing device 4, when producing vibrations in the main part 35 in the transportation, in order to prevent that the main part from producing vibrations in the main part 35 and the main part 35 from producing the detector 35 at the time, can also to make the main part is connected with the detector 35 at the main part 35 at the detector 35 in the main part 35 at the time of the main part of the detector 1 at the time of the detector, the main part is detected in the main part of the detector.

Further, an auxiliary protection device 46 is fixed in the fan-shaped fixing block 31, the auxiliary protection device 46 comprises an arc-shaped air pressure bin 461, one end of the arc-shaped air pressure bin 461 is communicated with a three-way air pressure pipeline 42, arc-shaped protection plates 462 are connected in other two ports of the arc-shaped air pressure bin 461 in a sliding mode, and arc-shaped sponge cushion layers 463 are fixed in each arc-shaped protection plate 462.

It is worth noting that the buffer protection device 5 is fixed inside the equipment shell 1, the buffer protection device 5 comprises a rectangular shell 51, a buffer assembly 52 and an inflation protection assembly 53 are arranged inside the rectangular shell 51, the buffer assembly 52 comprises a buffer plate 54, the buffer plate 54 penetrates through and is connected to the top plate of the rectangular shell 51 in a sliding mode, two buffer springs are fixed between the bottom of the buffer plate 54 and the inner wall of the rectangular shell 51, the buffer is assisted by the two buffer springs, two transmission rods 56 are rotatably connected to two sides of the bottom of the buffer plate 54, a resistance movable block 57 is rotatably connected to the bottom of the two transmission rods 56, two resistance rods 55 are fixed inside the rectangular shell 51, the two resistance movable blocks 57 are respectively connected with the two resistance rods 55 in a sliding mode, the resistance movable block 57 is in contact with the resistance rods 55 to provide resistance, pressure release is achieved, and the buffer effect of the buffer plate 54 is further improved.

It is worth noting that, the inflation protection component 53 includes an air pump two 531, the air pump two 531 is provided with a push type switch 533, the bottom of the air pump two 531 is fixed with an annular expansion bag 532 through two connecting rods, the annular expansion bag 532 is fixed at the bottom of the equipment housing 1, the push type switch 533 of the air pump two 531 is located below the buffer plate 54, when the buffer plate 54 is extruded, the push type switch 533 on the air pump two 531 is extruded, so that the air pump two 531 inflates the annular expansion bag 532, and the annular expansion bag 532 is inflated, so as to improve the contact buffering effect between the equipment housing 1 and the transportation equipment, and further improve the protection effect on the detector main body 35.

In use, in the initial state of transportation, the sealing plate 38 seals the top end opening of the equipment shell 1, so that sundries and dust can be prevented from entering the equipment shell 1, the detector main body 35 can be effectively protected, once the vehicle is impacted in the transportation process, the gravity ball 43 breaks the hollow glass rod and then moves downwards, the push switch of the air pump one 44 is extruded along with the movement of the gravity ball 43, the air pump one 44 inflates the three-way air pressure pipeline 42, at the moment, the two limit inserting rods 45 in the three-way air pressure pipeline 42 extend out to position the sliding block 37, meanwhile, redundant air enters the arc-shaped air pressure bin 461 to enable the two arc-shaped protection plates 462 to extend out, the top end of the detector main body 35 is protected by the arc-shaped sponge cushion 463 in the two arc-shaped protection plates 462, because the sliding block 37 is positioned, at this time, the detector body 35 slides and buffers on the sliding block 37 through the movable rod 36, so that the detector body 35 has a buffering effect, at the same time, the detector body 35 can be prevented from being impacted with the inner wall of the equipment body 1, then, the sliding block 37 of the detector body 35 elastically slides and buffers, the buffer plate 54 contacted with the lower part of the detector body 35 absorbs and releases pressure, at the same time, the buffer plate 54 moves downwards to release pressure, at the same time, the power is transmitted to the resistance movable block 57 through the two transmission rods 56, the two resistance movable blocks 57 are respectively connected with the two resistance rods 55 in a sliding manner, the resistance movable block 57 contacts with the resistance rods 55 to provide resistance, and releases pressure, so that the buffering effect of the buffer plate 54 is further improved, then, after the buffer plate 54 is extruded, the pressing switch 533 on the air pump II 531 is extruded, the annular expansion bag 532 is inflated by the air pump II 531, and the annular expansion bag is expanded, to promote the contact buffer effect between the equipment housing 1 and the transportation equipment, and further promote the protection effect on the detector main body 35;

when the transportation is finished, the equipment shell 1 is taken up, at the moment, under the action of resilience force of two elastic sheets on the T-shaped slide rod 34, the T-shaped slide rod 34 moves downwards, the two hydraulic rods fixedly connected with the T-shaped slide rod 34 are simultaneously extruded to move downwards through the T-shaped slide rod 34, at the moment, the hydraulic rod at the top end of the second hydraulic pipeline 33 can push the sealing plate 38 to rotate, the top end opening of the equipment shell 1 is opened, meanwhile, the two hydraulic rods at the left side of the first hydraulic pipeline 32 can push the sliding block 37 to slide on the fan-shaped fixed block 31, the movement of the sliding block 37 can drive the detector main body 35 to rotate through the movable rod 36, and the detector main body 35 slides out of the equipment shell 1 to perform detection maintenance operation.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims (6)

1. Terminal equipment for intelligent power grid detection and maintenance comprises an equipment shell (1), and is characterized in that: the front end of equipment shell (1) rotates and is connected with the revolving door, the bottom left side of equipment shell (1) is fixed with rubber supporting legs (2), the inside of equipment shell (1) is provided with detects maintenance device (3), detect maintenance device (3) include:

the detector comprises a fan-shaped fixed block (31), wherein a sliding block (37) is connected to the arc-shaped surface of the fan-shaped fixed block (31) in a sliding manner, a movable rod (36) penetrates through the sliding block (37) and is connected with the sliding block in a sliding manner, and a detector main body (35) is fixed on the movable rod (36);

a T-shaped slide rod (34), wherein the T-shaped slide rod (34) penetrates through and is connected in the bottom plate of the equipment shell (1) in a sliding manner;

the hydraulic device comprises a first hydraulic pipeline (32), wherein a hydraulic rod at one end in the first hydraulic pipeline (32) is fixed with a T-shaped slide rod (34), and the other two hydraulic rods of the first hydraulic pipeline (32) are fixed with a slide block (37);

the second hydraulic pipeline (33), a hydraulic rod at one end in the second hydraulic pipeline (33) is fixed with the T-shaped slide rod (34), and a sealing plate (38) is fixed at the other end of the second hydraulic pipeline (33);

two elastic sheets for providing elasticity are fixed between the T-shaped sliding rod (34) and the inner wall of the equipment shell (1), and two elastic sheets are fixed between the movable rod (36) and the sliding block (37);

the arc-shaped surface of the fan-shaped fixed block (31) is fixedly provided with a sliding rail, the sliding block (37) is in sliding connection with the sliding rail, the top end of the equipment shell (1) is provided with an opening, and the right side of the sealing plate (38) is rotationally connected in the opening at the top end of the equipment shell (1).

2. The smart grid inspection maintenance terminal device according to claim 1, wherein: the inside of fan-shaped fixed block (31) is fixed with vibrations fixing device (4), vibrations fixing device (4) are including hollow pipeline (41) and tee bend formula pneumatic tube way (42), the inner wall top at fan-shaped fixed block (31) is fixed to hollow pipeline (41), the inside top swing joint of hollow pipeline (41) has gravity ball (43), the inside of hollow pipeline (41) is located the below of gravity ball (43) and is fixed with hollow glass pole, the one end of tee bend formula pneumatic tube way (42) is fixed with air pump one (44), equal sliding connection has spacing inserted bar (45) in two other ports of tee bend formula pneumatic tube way (42).

3. The smart grid inspection maintenance terminal device according to claim 2, wherein: two groups of symmetrically arranged through holes are formed in the arc-shaped surface of the fan-shaped fixed block (31), a push type switch is arranged on the air pump I (44), the push type switch is located at the lower end of the hollow pipeline (41), and two limit inserting rods (45) are located in the two through holes below.

4. A smart grid detection and maintenance terminal device according to claim 3, wherein: the inside of fan-shaped fixed block (31) is fixed with auxiliary protection device (46), auxiliary protection device (46) are including arc atmospheric pressure storehouse (461), the one end and the tee bend pneumatic tube way (42) intercommunication in arc atmospheric pressure storehouse (461), all sliding connection has arc protection shield (462) in two other ports in arc atmospheric pressure storehouse (461), every all be fixed with arc sponge bed course (463) in arc protection shield (462).

5. The smart grid inspection maintenance terminal device according to claim 1, wherein: the inside of equipment shell (1) is fixed with buffering protection device (5), buffering protection device (5) include rectangle shell (51), the inside of rectangle shell (51) is provided with buffer module (52), aerifys protection module (53), buffer module (52) are including buffer board (54), buffer board (54) run through and sliding connection is in the roof department of rectangle shell (51), and are fixed with two buffer springs between the bottom of buffer board (54) and the inner wall of rectangle shell (51), the bottom both sides of buffer board (54) all rotate and are connected with transfer line (56), two the bottom of transfer line (56) is all rotated and is connected with resistance movable block (57), the inside of rectangle shell (51) is fixed with two resistance bars (55), two resistance movable block (57) respectively with two resistance bars (55) sliding connection.

6. The smart grid inspection maintenance terminal device according to claim 5, wherein: the inflatable protection component (53) comprises an air pump II (531), a push type switch (533) is arranged on the air pump II (531), an annular inflation bag (532) is fixed at the bottom of the air pump II (531) through two connecting rods, the annular inflation bag (532) is fixed at the bottom of the equipment shell (1), and the push type switch (533) of the air pump II (531) is located below the buffer plate (54).