CN221073620U - Electric pole correcting device for electric power engineering construction - Google Patents

Abstract

The utility model provides an electric pole correction device for electric power engineering construction, which comprises two support bases and a correction driving mechanism; the two support bases are supported on the ground at two sides of the electric pole, the two support bases are fixedly connected through a connecting mechanism to form a support platform, a through hole which is convenient for the electric pole to pass through is formed in the middle of the support platform, and inserting rods which are inserted on the ground are inserted at two ends of the support platform through inserting holes; the correction driving mechanism is arranged on a supporting platform on one side of the inclined direction of the electric pole through bolts and comprises a hydraulic lifting column I, a fixing sleeve I, a square driving rod, a driving clamping groove, a driving screw rod I and a motor I.

Description

Electric pole correcting device for electric power engineering construction

Technical Field

The utility model relates to the technical field of power engineering construction, in particular to an electric pole correcting device for power engineering construction.

Background

The pole 7 is the important component of transmission engineering, and the pole 7 of outdoor installation can appear the condition of slope because of various reasons such as weather, and the pole 7 slope can make the electric wire be torn, leads to the emergence of power failure accident, influences people normal production life, is holding up the time to pole 7 of slope at present, usually uses the manpower to straighten pole 7, and intensity of labour is great, and the efficiency of construction is lower, and correction effect is poor.

Disclosure of utility model

In order to overcome the problems in the background art, the utility model provides a correction device for an electric pole 7 for electric power engineering construction, and aims to solve the technical problems that the existing electric pole 7 in the background art is corrected manually, the labor intensity is high and the construction efficiency is low.

In order to achieve the above purpose, the utility model is realized by the following technical scheme:

An electric pole correcting device for electric power engineering construction comprises two supporting bases 1 and a correcting driving mechanism 2; the two support bases 1 are supported on the ground at two sides of the electric pole 7, the two support bases 1 are fixedly connected through the connecting mechanism 3 to form a support platform, a through hole 4 which is convenient for the electric pole 7 to pass through is formed in the middle of the support platform, and inserting rods 5 which are inserted on the ground are inserted at two ends of the support platform through inserting holes; the correction actuating mechanism 2 is installed on the supporting platform of pole 7 incline direction one side through the bolt, correction actuating mechanism 2 includes hydraulic lifting column I21, fixed sleeve I22, square actuating lever 23, drive draw-in groove 24, drive screw I25, motor I26, hydraulic lifting column I21 passes through the bolt to be installed on supporting platform, and fixed sleeve I22 installs at hydraulic lifting column I21's top, and square actuating lever 23 inserts and establishes in fixed sleeve I22, and drive screw I25 one end threaded connection inserts the one end of establishing in fixed sleeve I22 at square actuating lever 23, and the other end is connected with the motor I26 transmission of installing at fixed sleeve I22 tail end, drive draw-in groove 24 installs the tip at square actuating lever 23, and drive draw-in groove 24 card is on pole 7.

Preferably, the connecting mechanism 3 comprises two connecting blocks 31 and an adjusting screw rod 32, the two connecting blocks 31 are respectively inserted into slots 33 on the two supporting bases 1, one end of the adjusting screw rod 32 is installed on one connecting block 31 through a bearing, and the other end is in threaded connection with the other connecting block 31.

Preferably, the end of the adjusting screw 32 is provided with a handle 34 for facilitating the rotation of the adjusting screw 32.

Preferably, the correction stabilizing mechanism 6 is installed to one side of supporting platform on the opposite side with correction actuating mechanism 2, correction stabilizing mechanism 6 includes hydraulic lifting column II 61, fixed sleeve II 62, square telescopic tube 63, telescopic link 64, stable draw-in groove 65, drive screw II 66, motor II 67, hydraulic lifting column II 61 passes through the bolt mounting on supporting platform, and fixed sleeve II 62 installs at hydraulic lifting column II 61 top, square telescopic tube 63 one end insert establish in fixed sleeve II 62 and with drive screw II 66 one end threaded connection, drive screw II 66 other end and the motor II 67 transmission of fixed sleeve II 62 tail end installation are connected, square telescopic tube 63 other end insert and are equipped with telescopic link 64, and telescopic link 64 end connection has stable draw-in groove 65, and stable draw-in groove 65 card is on pole 7, and telescopic link 64 passes through spring 68 elasticity and inserts and establish at square telescopic tube 63.

The beneficial effects of the utility model are as follows: according to the utility model, the support base 1 is fixed on the ground through the inserted link 5, so that the stability of the support base 1 is increased, and the two support bases 1 are connected and installed on the two sides of the electric pole 7 through connection, so that the electric pole 7 is convenient to install and correct from different directions; the correction driving mechanism 2 is installed on a supporting platform through a hydraulic lifting column I21, the height of a driving clamping groove 24 is conveniently adjusted, the correction device is convenient to correct electric poles 7 with different heights, the electric poles 7 are automatically pushed and corrected through square driving rods 23, so that labor force is saved, and the correction efficiency of the electric poles 7 is improved.

Drawings

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

Fig. 2 is a schematic perspective view of the correction driving mechanism.

Fig. 3 is a schematic cross-sectional structure of the correction driving mechanism.

Fig. 4 is a schematic structural view of the connecting mechanism.

Fig. 5 is a schematic perspective view of the correcting and stabilizing mechanism.

Fig. 6 is a schematic cross-sectional view of the corrective stabilization mechanism.

Detailed Description

In order to make the objects, technical solutions and advantageous effects of the present utility model more apparent, preferred embodiments of the present utility model will be described in detail below with reference to the accompanying drawings, so as to facilitate understanding of the skilled person.

As shown in fig. 1 to 6, the utility model provides an electric pole correcting device for electric power engineering construction, which comprises two supporting bases 1 and a correcting driving mechanism 2; the two support bases 1 are supported on the ground at two sides of the electric pole 7, the two support bases 1 are fixedly connected through the connecting mechanism 3 to form a support platform, a through hole 4 which is convenient for the electric pole 7 to pass through is formed in the middle of the support platform, and inserting rods 5 which are inserted on the ground are inserted at two ends of the support platform through inserting holes; the correction actuating mechanism 2 is installed on the supporting platform of pole 7 incline direction one side through the bolt, correction actuating mechanism 2 includes hydraulic lifting column I21, fixed sleeve I22, square actuating lever 23, drive draw-in groove 24, drive screw I25, motor I26, hydraulic lifting column I21 passes through the bolt to be installed on supporting platform, and fixed sleeve I22 installs at hydraulic lifting column I21's top, and square actuating lever 23 inserts and establishes in fixed sleeve I22, and drive screw I25 one end threaded connection inserts the one end of establishing in fixed sleeve I22 at square actuating lever 23, and the other end is connected with the motor I26 transmission of installing at fixed sleeve I22 tail end, drive draw-in groove 24 installs the tip at square actuating lever 23, and drive draw-in groove 24 card is on pole 7. Install two support base 1 in the both sides of slope pole 7, connect fixedly through coupling mechanism 3, use inserted bar 5 to install in the jack at support base 1 both ends and insert underground, thereby increase supporting platform's stability, then install the one side that lies in the slope of pole 7 on supporting platform with correcting actuating mechanism 2 through the bolt, adjust hydraulic lifting column I21 and make drive draw-in groove 24 reciprocate to the position of being convenient for promote pole 7, then start motor I26 drives drive screw I25 and rotates, make square actuating lever 23 move forward in fixed sleeve I22, drive draw-in groove 24 card promotes pole 7 on pole 7, thereby correct pole 7. The support base 1 is fixed on the ground through the inserted link 5, so that the stability of the support base 1 is improved, the two support bases 1 are connected and installed on the two sides of the electric pole 7 through connection, and the electric pole 7 is convenient to install and correct from different directions; the correction driving mechanism 2 is installed on a supporting platform through a hydraulic lifting column I21, the height of a driving clamping groove 24 is conveniently adjusted, the correction device is convenient to correct electric poles 7 with different heights, the electric poles 7 are automatically pushed and corrected through square driving rods 23, so that labor force is saved, and the correction efficiency of the electric poles 7 is improved.

The connecting mechanism 3 comprises two connecting blocks 31 and an adjusting screw rod 32, the two connecting blocks 31 are respectively inserted into slots 33 on the two supporting bases 1, one end of the adjusting screw rod 32 is installed on one connecting block 31 through a bearing, and the other end is in threaded connection with the other connecting block 31. When the support base 1 is installed, the two connecting blocks 31 are respectively inserted into the slots 33 of the two support bases 1, then the adjusting screw 32 is rotated, the two connecting blocks 31 are closely tensioned and fixedly connected with the two support bases 1, so that the support base 1 is convenient to install, high in efficiency and good in installation stability.

The end of the adjusting screw 32 is provided with a handle 34 which facilitates the rotation of the adjusting screw 32. The handle 34 can rotate the adjusting screw 32 more conveniently and laborsaving, so that the correction efficiency of the electric pole 7 is improved.

The utility model discloses a correction stabilizing device, including support platform, correction actuating mechanism 2, correction stabilizing device 6 is installed to one side on the support platform opposite to correction actuating mechanism 2, correction stabilizing device 6 includes hydraulic lifting column II 61, fixed sleeve II 62, square telescopic tube 63, telescopic link 64, stable draw-in groove 65, drive screw II 66, motor II 67, hydraulic lifting column II 61 passes through the bolt to be installed on support platform, and fixed sleeve II 62 is installed at hydraulic lifting column II 61 top, square telescopic tube 63 one end insert establish in fixed sleeve II 62 and with drive screw II 66 one end threaded connection, drive screw II 66 other end and the motor II 67 transmission of fixed sleeve II 62 tail end installation are connected, square telescopic tube 63 other end is inserted and is equipped with telescopic link 64, and telescopic link 64 end connection has stable draw-in groove 65 card on pole 7, and telescopic link 64 passes through spring 68 elasticity and inserts to establish at square telescopic tube 63. After the driving clamping groove 24 of the correction driving mechanism 2 is clamped on the electric pole 7, the height of the hydraulic lifting column II 61 is adjusted to conveniently and stably clamp the electric pole 7, the motor II 67 drives the driving screw II 66 to rotate, the square telescopic sleeve 63 stretches and moves on the fixed sleeve II 62, the telescopic rod 64 and the stable clamping groove 65 are driven to move forwards, the stable clamping groove 65 is supported on the electric pole 7, then the driving clamping groove 24 is started to push the electric pole 7, the telescopic rod 64 is elastically compressed at the square telescopic sleeve 63 when the electric pole 7 is pushed, so that the electric pole 7 is supported and protected from the other side of the stable clamping groove 65 in the push correction process, and the electric pole 7 is prevented from being tilted or even toppled over from other directions in the push process.

The working process comprises the following steps:

The two support bases 1 are installed on two sides of the inclined electric pole 7 and are fixedly connected through the connecting mechanism 3, the two connecting blocks 31 are respectively inserted into slots 33 of the two support bases 1, then the adjusting screw rod 32 is rotated, the two connecting blocks 31 are close to each other to tightly tighten and fixedly connect the two support bases 1, the inserting rod 5 is used for being inserted into insertion holes at two ends of the support bases 1 and is inserted into the ground, so that stability of a support platform is improved, the correction driving mechanism 2 is installed on the support platform through bolts and is positioned on one inclined side of the electric pole 7, the hydraulic lifting column I21 is adjusted to enable the driving clamping groove 24 to move up and down to a position convenient for pushing the electric pole 7, and then the motor I26 is started to drive the driving screw rod I25 to rotate, so that the square driving rod 23 moves forwards in the fixing sleeve I22 to enable the driving clamping groove 24 to be clamped on the electric pole 7; then adjust the high convenient stable draw-in groove 65 of hydraulic lifting column II 61 and support pole 7, drive screw II 66 through motor II 67 and rotate, make square telescopic tube 63 at fixed sleeve II 62 concertina movement, and drive telescopic link 64 and stable draw-in groove 65 antedisplacement make stable draw-in groove 65 support on pole 7, then start drive draw-in groove 24 and promote pole 7, when pole 7 is promoted, telescopic link 64 is by elastic compression at square telescopic tube 63, thereby make pole 7 in the in-process of being promoted and correcting, stable draw-in groove 65 supports the protection to pole 7 from the opposite side, prevent pole 7 from being crooked even empting from other directions by the in-process that is promoted.

Finally, it is noted that the above-mentioned preferred embodiments are only intended to illustrate rather than limit the utility model, and that, although the utility model has been described in detail by means of the above-mentioned preferred embodiments, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the scope of the utility model as defined by the appended claims.

Claims (4)

1. Electric pole orthotic devices is used in electric power engineering construction, its characterized in that: comprises two supporting bases (1) and a correction driving mechanism (2); the two support bases (1) are supported on the ground at two sides of the electric pole (7), the two support bases (1) are fixedly connected through the connecting mechanism (3) to form a support platform, a through hole (4) which is convenient for the electric pole (7) to pass through is formed in the middle of the support platform, and inserting rods (5) which are inserted on the ground are inserted at two ends of the support platform through inserting holes; correction actuating mechanism (2) are installed on the supporting platform of pole (7) incline direction one side through the bolt, correction actuating mechanism (2) include hydraulic lifting column I (21), fixed sleeve I (22), square actuating lever (23), drive draw-in groove (24), drive screw I (25), motor I (26), hydraulic lifting column I (21) pass through the bolt mounting on supporting platform, and fixed sleeve I (22) are installed at the top of hydraulic lifting column I (21), and square actuating lever (23) are inserted and are established in fixed sleeve I (22), and drive screw I (25) one end threaded connection inserts the one end of establishing in fixed sleeve I (22) at square actuating lever (23), and the other end is connected with motor I (26) transmission of installing at fixed sleeve I (22) tail end, drive draw-in groove (24) are installed at the tip of square actuating lever (23), and drive draw-in groove (24) card is on pole (7).

2. The electric pole orthotic device for electric power engineering construction according to claim 1, wherein: the connecting mechanism (3) comprises two connecting blocks (31) and an adjusting screw (32), the two connecting blocks (31) are respectively inserted into slots (33) on the two supporting bases (1), one end of the adjusting screw (32) is installed on one connecting block (31) through a bearing, and the other end of the adjusting screw is connected with the other connecting block (31) through threads.

3. The electric pole orthotic device for electric power engineering construction according to claim 2, wherein: the end part of the adjusting screw rod (32) is provided with a handle (34) which is convenient for rotating the adjusting screw rod (32).

4. A pole orthotic device for electrical engineering construction according to any one of claims 1-3, wherein: the utility model discloses a hydraulic lifting mechanism, including support platform, right actuating mechanism (2), right actuating mechanism (6) are installed to one side opposite with correcting actuating mechanism (2), right actuating mechanism (6) include hydraulic lifting column II (61), fixed sleeve II (62), square telescopic tube (63), telescopic link (64), stabilize draw-in groove (65), drive screw II (66), motor II (67), hydraulic lifting column II (61) are installed on support platform through the bolt, and fixed sleeve II (62) are installed at hydraulic lifting column II (61) top, square telescopic tube (63) one end insert establish in fixed sleeve II (62) and with drive screw II (66) one end threaded connection, motor II (67) transmission of drive screw II (66) other end and fixed sleeve II (62) tail end installation are connected, square telescopic tube (63) other end insert and are equipped with telescopic link (64), and telescopic link (64) end connection has stable draw-in groove (65), and stable draw-in groove (65) card is on pole (7), and telescopic link (64) are through spring (68) elasticity insert in square telescopic tube (63).