CN115389841A - Auxiliary analysis device for power line loss - Google Patents

Abstract

The invention discloses an auxiliary analysis device for power line loss, which belongs to the technical field of power equipment, wherein a detected line body in the prior art is long, the detection operation is inconvenient to carry out circulation when the detected line body is guided, so that the subsequent auxiliary analysis efficiency of a power line is reduced.

Description

A power line loss auxiliary analysis device

technical field

The invention relates to the technical field of electric power equipment, in particular to an auxiliary power line loss analysis device.

Background technique

Line loss refers to the energy loss in the form of heat energy, usually refers to the active power consumed by the resistance or conductance in the line. This phenomenon is relatively common in power transmission. At present, the substation can calculate the effective output in the line through the line loss analysis device. Analyze the line loss of electric power, and various damages and problems outside the line may also lead to line loss.

For example, the patent of invention disclosed by the publication number: CN114236274A, the present invention provides a power line loss analysis device including a mounting table, a mounting frame is fixedly installed on the left side of the upper end surface, and an analysis component is arranged at the inner side of the mounting frame, and the mounting frame The first drive motor is installed on the right side of the upper end surface of the upper end; the limit plate is fixedly installed on the outer side of the installation block, the left end surface of the installation block is fixedly installed with the first installation plate, and the lower end of the second drive motor is installed. There is a transmission rod; an adjustment component, which is installed on the upper end of the installation frame; an inlet pipe, which is installed in the middle of the upper end of the installation frame, and the lower end of the upper wall of the installation frame is equipped with a guide assembly through bolts, and the inside of the connecting plate Mounting holes are provided with different diameters. The power line loss analysis device is convenient for better limiting the lines of different sizes, and at the same time has a better guiding effect for the lines during analysis, and is convenient for adjusting the length of the lines, so that the range of line loss analysis can be adjusted.

For example, the publication number is: the utility model patent disclosed by CN216485272U. The utility model is suitable for the technical field of power station equipment, and provides a power line loss analysis device. The junctions between the upper end of the installation base plate and the front and rear end surfaces are oppositely provided with end partitions. , install the top surface of the bottom plate and install the middle partition symmetrically along the longitudinal symmetry axis in the area of the two end partitions, the left and right sides of the middle partition and the inner side of the end partition are equipped with horizontal partition mounting frames, and the bottom plate is installed An external protective cover is provided on the outermost periphery of the upper end surface. Firstly, because the utility model is provided with an installation base plate, an end partition and a middle partition, the installation base plate can be divided into several installation compartments for placing various detection components, which improves the space. The utilization rate reduces the workload of the inspectors during the inspection; secondly, because the upper end surface of the outer protective cover is provided with a glass window, it is convenient for the inspectors to observe, and the work efficiency of the inspectors is further improved.

However, in the prior art, the wires detected by it are relatively long, and it is not convenient to carry out cyclic detection operations when guiding the detection wires, thereby reducing the efficiency of subsequent auxiliary analysis of power lines. We propose an auxiliary power line loss analysis device used to solve the above problems.

Contents of the invention

The purpose of the present invention is to provide an auxiliary power line loss analysis device to solve the problems raised in the above-mentioned background technology.

In order to achieve the above object, the present invention provides the following technical solutions: an auxiliary analysis device for power line loss, including a guide limit seat, a fixed guide groove, a toothed belt, a guide assembly, an analysis device and a material guide device, the material guide device The upper end surface is symmetrically provided with a guide limit seat for limiting, and five sets of fixed guide grooves are evenly and equally spaced on the inner end surface of the guide limit seat, and the upper end surface of the material guide device is fixed near the side. A guide assembly is installed, and an analysis device is slidably clamped on the upper end surface of the material guide device through the guide assembly, and the material guide device and the guide assembly are meshed and connected by a toothed belt.

As a preferred technical solution of the present invention, the guide assembly includes a guide roller, a first bevel gear, a second bevel gear, a transmission toothed pulley, a connecting card seat, a limit chute, a support guide groove, Fixed rotary slot, connecting bottom plate, servo motor, transmission guide shaft and limit chute, the side end surface of the connection card base is provided with a support guide groove for position limitation near the center, and is located on the side end surface of the connection card base A fixed turning slot for positioning is symmetrically opened, and a limit chute is opened up and down at the center of the upper end surface of the connecting card holder. A servo motor is fixedly installed at the center of the outer end surface of the connecting card holder, and is located at the A guide roller is fixedly installed on the inner end surface of the seat facing the servo motor, and a transmission guide shaft is symmetrically arranged on the outer end surface of the guide roller, and a transmission guide shaft is fixedly installed on the outer end surfaces of the two sets of the transmission guide shaft. The second bevel gear, the inner end surface of the fixed rotating groove is rotatably engaged with the first bevel gear, and the center of the rear end surface of the first bevel gear is fixedly connected with a transmission toothed pulley, and the guide Two groups of limit slide grooves are symmetrically provided on the side end surface of the rotating roller, and a connecting bottom plate is symmetrically provided on the lower end surface of the connecting card seat.

As a preferred technical solution of the present invention, the analysis device includes a guide plug shaft, a fixed shaft sleeve, a connecting side plate, a support clamp, a detection slide table, a detection sleeve, a detection contact head and an information collector. A detection slide is fixedly installed at the center of the lower end surface of the support clamp, and five sets of detection sleeves for positioning are fixedly installed on the inner end surface of the detection slide evenly and equidistantly, and the inner end surfaces of the detection sleeves are uniform. Five groups of detection contact heads are fixedly arranged equidistantly, an information collector is fixedly arranged at the center of the lower end surface of the detection sleeve, and a connecting side plate is fixedly connected to the side end surface of the support clamp near the top, and is located at the center of the lower end surface of the detection sleeve. A fixed sleeve is fixedly installed on the side end surface of the connecting side plate away from the support clamp, and a guide insertion shaft is fixedly installed on the inner end surface of the fixed sleeve close to the bottom, and the fixed sleeve is connected to the guide roller. Adapt, and the limit chute is adapted to the guide insertion shaft, the analysis device is adapted to the guide roller through the fixed bushing, the limit chute is adapted to the guide insertion shaft, and then the sliding card Connected to the inner end face of the fixed revolving groove.

As a preferred technical solution of the present invention, the inner end surface of the transmission toothed pulley is meshed with the second bevel gear through the first bevel gear.

As a preferred technical solution of the present invention, the connecting side plate is slidably engaged with the connecting card seat through the supporting guide groove.

As a preferred technical solution of the present invention, the material guide device includes a power line guide roller, a transmission device, a connecting belt, a support bracket, a guide support, a positioning revolving groove, a fixed pulley, a positioning gear and a limit gear. The upper end surface of the support card frame is symmetrically provided with a guide support for positioning, and the inner end surface of the guide support is provided with a positioning rotary slot for positioning, and the inner end surface of the positioning rotary slot is symmetrically rotated and clamped. There are two sets of power line guide rollers, and a limit gear is fixed at the center of the side end face of the power line guide roller, and a positioning gear is fixedly installed at the center of the side end face of the limit gear, and is located on the side end face of the positioning gear. The center is fixedly connected with a fixed pulley, and the two sets of fixed pulleys are meshed and connected by connecting belts. The inner end surface of the guide support is close to the upper part of the power line guide roller and is connected with a transmission device for rotation.

As a preferred technical solution of the present invention, the lower end surface of the connection bracket is fixedly connected to the upper end surface of the support bracket through the connection bottom plate.

As a preferred technical solution of the present invention, the transmission device includes a clamping pulley, a guide shaft, a fixed chuck and connecting teeth, and the side end surface of the guide shaft is symmetrically provided with a fixed chuck for support, The outer end surface of the fixed chuck is evenly and equidistantly fixedly connected with connecting teeth, and the outer end surface of the guide shaft is fixedly connected with a clamping pulley near the side, and the outer end surface of the clamping pulley passes through the toothed belt Mesh connection with the outer end surface of the transmission toothed pulley, the outer end surface of the fixed chuck is meshed with the outer end surface of the limit gear through the connecting teeth, and the upper and lower adjacent two groups of the The power line guide rollers are meshed and connected through the positioning gears.

As a preferred technical solution of the present invention, the detection sleeve and the fixing guide groove are coaxial.

As a preferred technical solution of the present invention, the lower end surface of the support clamp is slidably engaged with the detection slide through the positioning slide shaft, and the lower end surface of the support clamp is connected to the detection slide through the spring snap ring. The upper part of the detection slide is fixedly connected.

Compared with prior art, the beneficial effect of the present invention is:

1. By setting up the analysis device, when performing auxiliary analysis on the power line loss, the servo motor can synchronously drive the second bevel gear and the guide roller to rotate through the transmission guide shaft, so that the second bevel gear can pass through the first bevel The gear drives the material guide device to rotate intermittently. At the same time, the guide roller can cooperate with the intermittent supply line of the material guide device, and then perform cyclic analysis and detection operations on the supplied power line, which maximizes the detection efficiency of the equipment on the power line.

2. By setting the material guide device, when the power line is imported and exported, the transmission device can be connected with the limit gear to provide intermittent rotation power for the four sets of power line guide rollers, so that the four sets of power line guide rollers can be aligned. The power line is precisely guided, which improves the stability of the detection power line supply.

3. By setting up the guide assembly, the guide assembly can synchronously supply power to the analysis device and the material guide device during transmission, and the material guide device can cooperate with the analysis device without clearance when the power line is supplied, thereby effectively improving It not only improves the utilization efficiency of the equipment for power, but also improves the detection efficiency.

Description of drawings

Fig. 1 is a schematic diagram of the main structure of the present invention,

Fig. 2 is a side view of the main body of the present invention,

Fig. 3 is an exploded view of the guide assembly of the present invention,

Fig. 4 is a structural schematic diagram of the guide assembly of the present invention,

Fig. 5 is the structural schematic diagram of analysis device of the present invention,

Fig. 6 is a side view of the analysis device of the present invention,

Figure 7 is a disassembled view of the material guide device of the present invention,

Fig. 8 is a structural schematic diagram of the material guiding device of the present invention,

Fig. 9 is a structural schematic diagram of the transmission device of the present invention,

Fig. 10 is a schematic structural diagram of the second embodiment of the analysis device of the present invention.

In the figure: 1. Guide limit seat; 2. Fixed guide groove; 3. Toothed belt; 4. Guide assembly; 5. Analysis device; 6. Material guide device; 41. Guide roller; Gear; 43, the second bevel gear; 44, transmission toothed belt wheel; 45, connecting card seat; 46, limit chute; 47, supporting guide groove; 48, fixed turning groove; 49, connecting base plate; 410, Servo motor; 411, transmission guide shaft; 412, limit chute; 51, guide plug shaft; 52, fixed bushing; 53, connecting side plate; Sleeve; 57. Detection contact head; 58. Information collector; 59. Spring snap ring; 510. Positioning slide shaft; 61. Power line guide roller; 62. Transmission device; 63. Connecting belt; 64. Support card frame; 65 , guide support; 66, positioning turning groove; 67, fixed pulley; 68, positioning gear; 69, limit gear; 621, clamping pulley; 622, guiding shaft; 623, fixed chuck; .

Detailed ways

The following will clearly and completely describe the technical solutions in the embodiments of the present invention with reference to the accompanying drawings in the embodiments of the present invention. Obviously, the described embodiments are only some, not all, embodiments of the present invention. Based on the embodiments of the present invention, all other embodiments obtained by persons of ordinary skill in the art without making creative efforts belong to the protection scope of the present invention.

Example 1

Please refer to Figures 1-9, the present invention provides an auxiliary analysis device for power line loss, including a guide limit seat 1, a fixed guide groove 2, a toothed belt 3, a guide assembly 4, an analysis device 5 and a material guide device 6, the guide The upper end surface of the material device 6 is symmetrically provided with a guide limit seat 1 for limiting, and the inner end surface of the guide limit seat 1 is evenly and equidistantly provided with five groups of fixed guide grooves 2, and the upper end surface of the material guide device 6 is close to The guide assembly 4 is fixedly installed on the side, and the analysis device 5 is slid and clamped on the upper end surface of the material guide device 6 through the guide assembly 4, and the material guide device 6 and the guide assembly 4 are meshed and connected by a toothed belt 3 .

As shown in Figures 3 and 4, the guide assembly 4 includes a guide roller 41, a first bevel gear 42, a second bevel gear 43, a transmission toothed pulley 44, a connecting card seat 45, a limit chute 46, a support guide Groove 47, fixed turning groove 48, connecting bottom plate 49, servo motor 410, transmission guide shaft 411 and limit chute 412, the side end surface of connection deck 45 is provided with the support guide groove 47 that is used for position limit near the center, and is positioned at The side end face of the connecting card base 45 is symmetrically provided with a fixed turning groove 48 for positioning, and the center of the upper end face of the connecting card base 45 is provided with a limit chute 46 up and down, and the center of the outer end face of the connecting card base 45 is fixedly installed with a servo motor. 410, and the inner end face of the connection card seat 45 is fixedly installed with the guide roller 41 facing the servo motor 410, and the outer end face of the guide roller 41 is symmetrically provided with a transmission guide shaft 411, and is located between two groups of transmission guide shafts 411. The second bevel gear 43 is fixedly arranged on the outer end surface, the first bevel gear 42 is fixedly connected to the inner end surface of the fixed rotary groove 48, and the transmission tooth profile is fixedly connected to the center of the rear end surface of the first bevel gear 42. The belt pulley 44 and the side end faces of the guide roller 41 are symmetrically provided with two sets of limiting chute 412, and the lower end face of the connecting card holder 45 is symmetrically provided with a connecting bottom plate 49, which is convenient for subsequent fast and stable positioning and installation, and improves assembly efficiency. efficiency.

As shown in Fig. 5 and Fig. 6, the analysis device 5 includes a guide plug shaft 51, a fixed shaft sleeve 52, a connecting side plate 53, a support clamp 54, a detection slide 55, a detection sleeve 56, a detection contact 57 and an information collector 58, a detection slide 55 is fixedly installed at the center of the lower end surface of the support clamp 54, and five groups of detection sleeves 56 for positioning are fixedly installed on the inner end surface of the detection slide 55 evenly and equidistantly. Five groups of detection contact heads 57 are fixedly arranged on the inner end surface evenly and equidistantly, and an information collector 58 is fixedly arranged at the center of the lower end surface of the detection sleeve 56, and a connecting side plate 53 is fixedly connected to the side end surface of the support clamp 54 close to the top. , and the side end surface of the connecting side plate 53 is fixedly installed with a fixed bushing 52 away from the support clamping plate 54, and the inner end surface of the fixed bushing 52 is fixedly provided with a guide insertion shaft 51 near the bottom, and the fixed bushing 52 is connected to the guide shaft. The roller 41 is compatible, and the limit chute 412 is compatible with the guide insertion shaft 51. The analysis device 5 is adapted to the guide roller 41 through the fixed sleeve 52, and the limit chute 412 is compatible with the guide insertion shaft 51. Matching and then slidingly clamping on the inner end surface of the fixed rotating groove 48 can improve the stability of the displacement of the follow-up analysis device 5 inside the guide assembly 4 and improve the efficiency of follow-up detection.

As shown in FIG. 3 , the inner end surface of the transmission toothed pulley 44 is meshed with the second bevel gear 43 through the first bevel gear 42 , which can effectively improve the stability of the transmission between devices.

As shown in FIG. 3 and FIG. 5 , the connecting side plate 53 slides and engages with the connecting bracket 45 through the supporting guide groove 47 , which can improve the stability of the sliding displacement of the analyzing device 5 inside the guiding assembly 4 .

As shown in Fig. 7 and Fig. 8, the material guide device 6 includes a power line guide roller 61, a transmission device 62, a connecting belt 63, a support card frame 64, a guide support 65, a positioning revolving groove 66, a fixed pulley 67, a positioning gear 68 and a limiter. Bit gear 69, the upper end face of supporting bracket 64 is symmetrically provided with guide support 65 for positioning, and the inner end face positioned at guide support 65 is provided with positioning rotary groove 66 for limiting, and the inner end surface of positioning rotary groove 66 Two groups of power line guide rollers 61 are clamped in symmetrical rotation, and a limit gear 69 is fixedly installed at the center of the side end surface of the power line guide roller 61. A positioning gear 68 is fixedly installed at the center of the side end surface of the limit gear 69, and is located at the center of the position The center of the side end surface of 68 is fixedly connected with a fixed pulley 67, and the two sets of fixed pulleys 67 are meshed and connected by connecting belts 63. The inner end surface of the guide support 65 is close to the upper part of the power line guide roller 61 and is connected with a transmission device 62. , to facilitate the follow-up transmission device 62 to provide intermittent power for the power line guide roller 61 to guide.

As shown in FIG. 4 and FIG. 8 , the lower end surface of the connecting card holder 45 is fixedly connected to the upper end surface of the supporting card frame 64 through the connecting bottom plate 49 , so as to facilitate the subsequent fast and stable positioning and connection of the guide assembly 4 .

As shown in Figure 9, the transmission device 62 includes a snap pulley 621, a guide shaft 622, a fixed chuck 623 and a connecting tooth 624. The side end surface of the guide shaft 622 is symmetrically provided with a fixed chuck 623 for support, and is located on the fixed chuck 623. The outer end surface of the guide shaft 622 is fixedly connected with connecting teeth 624 evenly and equidistantly, and the outer end surface of the guide shaft 622 is fixedly connected with a snap-in pulley 621 near the side, and the outer end face of the snap-in pulley 621 is connected with the transmission toothed belt The outer end surface of the wheel 44 is meshed and connected, the outer end surface of the fixed chuck 623 is meshed with the outer end surface of the limit gear 69 through the connecting teeth 624, and the upper and lower adjacent two groups of power line guide rollers 61 are connected through the positioning gear 68. The meshing connection enables the four sets of power line guide rollers 61 to rotate synchronously and in the same direction, effectively improving the stability of introducing the detected power lines.

As shown in FIG. 1 and FIG. 6 , the detection sleeve 56 and the fixed guide groove 2 are coaxial, which facilitates rapid guidance and positioning of the power line for subsequent detection and analysis.

In the implementation of this embodiment, before the use, the user can introduce the power line required for analysis and detection into the two sets of guide limit seats 1 through the fixed guide groove 2 inside the guide limit seat 1, At this time, the power line runs through the analysis device 5 and the material guide device 6, which is convenient for subsequent rapid analysis and detection operations on the power line. During the detection operation, the user can start the servo motor 410 through the external control device. At this time, the servo motor 410 can drive the transmission. The guide shaft 411 rotates. When the transmission guide shaft 411 is rotating, the side part of the transmission guide shaft 411 can drive the second bevel gear 43 to rotate, and the front part of the transmission guide shaft 411 can synchronously drive the guide roller 41 Rotate, when above-mentioned two groups of second bevel gears 43 are rotating, the second bevel gears 43 can drive the first bevel gears 42 to engage and rotate, so that the first bevel gears 42 can drive the transmission tooth profile of the side The pulley 44 rotates, and when the transmission toothed pulley 44 rotates simultaneously, the transmission toothed pulley 44 can drive the clamping belt pulley 621 at the bottom through the toothed belt 3 to rotate, so that the clamping belt pulley 621 can drive the external The guide shaft 622 rotates in a circle. When the guide shaft 622 rotates, the guide shaft 622 can synchronously drive the external connecting teeth 624 to rotate through the fixed chuck 623, so that the connecting teeth 624 can drive intermittently when rotating. The limit gear 69 is meshed, so that the limit gear 69 can drive the power line guide roller 61 in the middle to rotate, and at the same time, when the upper power line guide roller 61 is rotating, it can synchronously drive the power line guide roller 61 at the bottom through the positioning gear 68 Reverse rotation, and the power line guide roller 61 at the rear can be engaged with the fixed pulley 67 through the connecting belt 63, and then drive the two sets of power line guide rollers 61 at the front to rotate synchronously, so that the four sets of power line guide rollers 61 can be synchronized The electric power line is guided to improve the stability of the guide. When testing, the above-mentioned guide roller 41 can pass through the limit chute 412 and the sliding limit of the guide plug shaft 51, so that when the guide roller 41 rotates, The circular track of the limit chute 412 can drive the guide plug shaft 51 to perform cyclic displacement, so that the guide plug shaft 51 can drive the connecting side plate 53 and the detection slide 55 outside the support card frame 64 through the fixed bushing 52 cyclic displacement, and at the same time, the detection slide 55 can drive the detection sleeve 56 to cyclically slide outside the power line, so that the detection sleeve 56 and the detection contact head 57 inside the detection slide 55 can detect and analyze the power line, and finally pass information collection The device 58 derives the information, which improves the efficiency of detecting and analyzing the power line.

Example 2

On the basis of Embodiment 1, as shown in FIG. 10 , the lower end surface of the support clamp 54 is slidably engaged with the detection slide 55 through the positioning slide shaft 510 , and the lower end surface of the support clamp 54 is connected to the detection slide 55 through the spring snap ring 59 . The upper part of the detection slide 55 is fixedly connected.

During implementation of this embodiment, the spring snap ring 59 and the positioning sliding shaft 510 can provide sufficient elastic force for the detection slide 55 to support and buffer, effectively improving the stability of subsequent protection of the power line.

Working principle: before use, the user can guide the power line required for analysis and detection into the two sets of guide limit seats 1 through the fixed guide groove 2 inside the guide limit seat 1. At this time, the power line runs through the analysis device 5 and The material guide device 6 facilitates subsequent rapid analysis and detection operations on the power line. During the detection operation, the user can start the servo motor 410 through an external control device. At this time, the servo motor 410 can drive the transmission guide shaft 411 to rotate. When the transmission When the guide shaft 411 was rotating, the side of the transmission guide shaft 411 could drive the second bevel gear 43 to rotate, and the front portion of the transmission guide shaft 411 could synchronously drive the guide roller 41 to rotate. When the bevel gear 43 is rotating, the second bevel gear 43 can drive the first bevel gear 42 to engage and rotate, so that the first bevel gear 42 can drive the transmission toothed belt pulley 44 of the side to rotate, and when When the transmission toothed pulley 44 rotates, the transmission toothed pulley 44 can drive the clamping pulley 621 at the bottom to rotate through the toothed belt 3, so that the clamping pulley 621 can drive the external guide shaft 622 to rotate in a circle, When the guide shaft 622 rotates, the guide shaft 622 can synchronously drive the external connecting teeth 624 to rotate through the fixed chuck 623, so that the connecting teeth 624 can intermittently drive the limit gear 69 to mesh when rotating, and then The limit gear 69 can drive the power line guide roller 61 in the middle to rotate, and at the same time, when the upper power line guide roller 61 is rotating, the positioning gear 68 can synchronously drive the power line guide roller 61 at the bottom to rotate in the opposite direction, and the rear part The power line guide rollers 61 can drive the two sets of power line guide rollers 61 at the front to rotate synchronously through the meshing of the connecting belt 63 and the fixed pulley 67, so that the four sets of power line guide rollers 61 can guide the power lines synchronously, improving the guiding When testing, the above-mentioned guide roller 41 can pass through the sliding limit of the limit chute 412 and the guide insertion shaft 51, so that the guide roller 41 can pass through the position of the limit chute 412 when rotating. Circular trajectory, and then drive the guide plug shaft 51 to carry out cyclic displacement, so that the guide plug shaft 51 can drive the connecting side plate 53 and the detection slide table 55 to carry out circular displacement outside the support card frame 64 through the fixed bushing 52, and simultaneously detect the slide table 55 can drive the detection sleeve 56 to slide cyclically outside the power line, so that the detection sleeve 56 and the detection contact 57 inside the detection slide 55 can detect and analyze the power line, and finally export the information through the information collector 58, improving the Efficiency of detection and analysis of power lines.

Although the embodiments of the present invention have been shown and described, those skilled in the art can understand that various changes, modifications and substitutions can be made to these embodiments without departing from the principle and spirit of the present invention. and modifications, the scope of the invention is defined by the appended claims and their equivalents.

Claims (10)

1. The utility model provides an electric power line loss auxiliary analysis device, includes spacing seat of direction (1), fixed guide slot (2), toothed belt (3), direction subassembly (4), analytical equipment (5) and guide device (6), its characterized in that: the utility model discloses a guide device, including guide device (6), guide device, lateral part department fixed mounting, the up end symmetry of guide device (6) is provided with and is used for spacing seat of direction (1), and is located five fixed guide slots (2) have been seted up to the even equidistance of the interior terminal surface of spacing seat of direction (1), the up end of guide device (6) is close to lateral part department fixed mounting and has direction subassembly (4), and is located the up end of guide device (6) passes through direction subassembly (4) slip joint has analytical equipment (5), guide device (6) with mesh through toothed belt (3) between direction subassembly (4) and connect.

2. The power line loss auxiliary analysis device according to claim 1, wherein: the guide assembly (4) comprises a guide rotating roller (41), a first bevel gear (42), a second bevel gear (43), a transmission toothed belt wheel (44), a connecting clamping seat (45), a limiting sliding groove (46), a supporting guide groove (47), a fixed rotating groove (48), a connecting bottom plate (49), a servo motor (410), a transmission guide shaft (411) and a limiting sliding groove (412), wherein the supporting guide groove (47) for limiting is formed in a position, close to the center, of the side end face of the connecting clamping seat (45), the fixed rotating groove (48) for positioning is symmetrically formed in the side end face of the connecting clamping seat (45), the limiting sliding grooves (46) are formed in the center of the upper end face of the connecting clamping seat (45) in a penetrating mode, the servo motor (410) is fixedly installed in the center of the outer end face of the connecting clamping seat (45), the guide rotating roller (41) is fixedly installed in a position, the position, which is right opposite to the servo motor (410), of the inner end face of the connecting clamping seat (45), the guide rotating roller (41) is symmetrically provided with the transmission guide rotating shaft (411), the first bevel gear (42) is connected with the first bevel gear (42), two groups of limiting sliding grooves (412) are symmetrically formed in the side end face of the guiding rotary roller (41), and connecting bottom plates (49) are symmetrically arranged on the lower end face of the connecting clamping seat (45).

3. The power line loss auxiliary analysis device according to claim 2, wherein: analyzing device (5) including direction spiale (51), fixed axle sleeve (52), connection curb plate (53), support cardboard (54), detect slip table (55), detection sleeve pipe (56), detection contact head (57) and information collector (58), the lower terminal surface center department fixed mounting who supports cardboard (54) detects slip table (55), and is located the even equidistance fixed mounting of the interior terminal surface that detects slip table (55) has five sets of detection sleeve pipes (56) that are used for the location, the even equidistance of the interior terminal surface of detection sleeve pipe (56) is fixed to be provided with five sets of detection contact head (57), is located the fixed information collector (58) that are provided with of lower terminal surface center department that detect sleeve pipe (56), the side end surface that supports cardboard (54) is close to top department fixedly connected with curb plate (53), and is located the side end surface that connects curb plate (53) deviates from support cardboard (54) department fixed mounting has fixed axle sleeve (52), the interior terminal surface of fixed axle sleeve (52) is close to bottom department fixed being provided with direction spiale (51), fixed axle sleeve (52) and direction commentaries on classics roller (41) looks adaptation, just insert the adaptation of direction spiale (412) and pass through fixed axle sleeve pipe (51) and direction spiale (41) the fixed connection device (52), the fixed bearing (52) looks adaptation of the fixed bearing, the limiting sliding groove (412) is matched with the guide inserting shaft (51) and then is clamped on the inner end surface of the fixed rotating groove (48) in a sliding mode.

4. The power line loss auxiliary analysis device according to claim 3, wherein: the inner end surface of the transmission toothed belt wheel (44) is in meshed connection with the second bevel gear (43) through the first bevel gear (42).

5. The power line loss auxiliary analysis device according to claim 3, wherein: the connecting side plate (53) is in sliding clamping connection with the connecting clamping seat (45) through the supporting guide groove (47).

6. The power line loss auxiliary analysis device according to claim 3, wherein: guide device (6) include power line deflector roll (61), transmission (62), connect belt (63), support card frame (64), direction support (65), location rotary trough (66), solid fixed pulley (67), positioning gear (68) and stop gear (69), the up end symmetry that supports card frame (64) is provided with direction support (65) that are used for the location, and is located the interior terminal surface of direction support (65) is offered and is used for spacing location rotary trough (66), the interior terminal surface symmetry of location rotary trough (66) rotates the joint and has two sets of power line deflector roll (61), and is located the fixed stop gear (69) that is provided with of side end face center department of power line deflector roll (61), the side end face center department fixed mounting of stop gear (69) has positioning gear (68), and is located the side end face center department fixedly connected with solid fixed pulley (67) of location gear (68), and is two sets of mesh through connecting belt (63) between solid fixed pulley (67) and connect, the interior terminal surface of direction support (65) is close to power line deflector roll (61) upper portion rotates joint and has transmission (62).

7. The power line loss auxiliary analysis device according to claim 6, wherein: the lower end face of the connecting clamping seat (45) is fixedly connected with the upper end face of the supporting clamping frame (64) through the connecting bottom plate (49).

8. The power line loss auxiliary analysis device according to claim 6, wherein: transmission device (62) are including joint band pulley (621), direction pivot (622), fixed chuck (623) and connection tooth (624), the side end face symmetry of direction pivot (622) is provided with fixed chuck (623) that are used for the support, and is located the even equidistance fixedly connected with of outer terminal surface of fixed chuck (623) connects tooth (624), the outer terminal surface of direction pivot (622) is close to lateral part department fixedly connected with joint band pulley (621), the outer terminal surface of joint band pulley (621) passes through toothed belt (3) with the outer terminal surface of transmission toothed belt wheel (44) meshes and connects, the outer terminal surface of fixed chuck (623) passes through connect tooth (624) with the outer terminal surface of stop gear (69) meshes and connects, and upper and lower adjacent two sets of pass through between power line deflector roll (61) location gear (68) mesh and connect.

9. The power line loss auxiliary analysis device according to claim 7, wherein: the detection sleeve (56) and the fixed guide groove (2) are coaxial.

10. The power line loss auxiliary analysis device according to claim 7, wherein: the lower end face of the supporting clamping plate (54) is in sliding clamping connection with the detection sliding table (55) through a positioning sliding shaft (510), and the lower end face of the supporting clamping plate (54) is fixedly connected with the upper portion of the detection sliding table (55) through a spring clamping ring (59).

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