CN217626959U - Pay-off is used in high tension transmission line engineering construction - Google Patents

Abstract

The utility model provides a pay-off is used in high tension transmission line engineering construction, include universal wheel, bottom plate, place a semicircle tube, inlet wire device, spacing disc, solidus port, wrapping post, push away handle, synchronizer and lead wire device, place the semicircle tube and pass through welded mounting on the upper portion of bottom plate, and the wrapping post passes through the bearing and installs on the upper portion of placing the semicircle tube, and this wrapping post passes through interference fit and installs the inside at spacing disc. The utility model relates to a pay-off is used in high tension transmission line engineering construction steps up the electric wire through two rolling posts, carries out adjusting pressure through reset spring, but through universal coupling both transmission power still can realize vertical displacement, drives wire winding band pulley and inlet wire band pulley through the motor and realizes synchronous revolution, makes to produce certain stress between inlet wire and the wrapping post, is difficult for taking place in disorder when having guaranteed the electric wire winding.

Description

Pay-off is used in high tension transmission line engineering construction

Technical Field

The utility model belongs to the technical field of the engineering construction, especially, relate to a pay-off is used in high tension transmission line engineering construction.

Background

When a high-voltage transmission line is laid, wires need to be laid or overhead erected, and when a cable transmission line is used, in order to avoid winding of the high-voltage wires, a pay-off device for the high-voltage transmission line is generally used for paying off the cables.

The Chinese patent publication numbers are: CN208916463U, utility model's name is a pay-off is used in high tension transmission line engineering construction, including base and gyro wheel, paying out machine constructs and guiding mechanism are installed to the interval on the base, and paying out machine constructs including two lift cylinder, backup pad, pivot, driven gear, driving gear and motor, and the spacing ring is installed respectively to the tip of pivot. However, when the cable is stored or pulled out in the conventional pay-off device, the cable is easily unevenly wound on the winding post, and the cable is easily subjected to different pulling forces during storage, thereby easily causing damage to the cable.

Therefore, the invention of the pay-off device for the high-voltage transmission line engineering construction is very necessary.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a pay-off is used in high tension transmission line engineering construction to solve because current pay-off is when accomodating or pulling out the cable, the cable takes place to twine unevenly easily on the wrapping post, and easily makes the cable produce different pulling forces when accomodating, easily causes the problem of cable damage. A pay-off device for high-voltage transmission line engineering construction comprises universal wheels, a bottom plate, a placing semi-cylinder, a wire inlet device, a limiting disc, a wire fixing port, a winding post, a push handle, a synchronizing device and a wire leading device, wherein the universal wheels are installed on the lower portion of the bottom plate through bolt connection; the placing semi-cylinder is installed on the upper portion of the bottom plate through welding, the winding post is installed on the upper portion of the placing semi-cylinder through a bearing, and the winding post is installed inside the limiting disc through interference fit; the wire leading device is installed on the upper portion of the bottom plate through bolt connection, and the pushing handle is installed on the side portion of the bottom plate through welding; the upper part of the winding post is provided with a wire fixing port; the upper part of the bottom plate is provided with a switch through bolt connection.

Furthermore, the wire inlet device comprises a fixed shell, a rolling column, a gear set, a universal coupling, a support column cylinder and a transmission shaft, wherein the fixed shell is arranged on the upper part of the bottom plate through a support rod, and the rolling column is connected with the gear set through a bearing; the universal coupling is connected with the transmission shaft through welding, and the transmission shaft is arranged inside the support column cylinder through a bearing; the support column cylinder is arranged at the upper part of the bottom plate through a support plate; the universal coupling is connected with the rolling column through welding.

Further, the fixed shell comprises a return spring, a semicircular ring and a deep groove ball bearing, the return spring is placed in the fixed shell, and the return spring is installed on the side portion of the semicircular ring through a buckle; the deep groove ball bearing is installed in the semicircular ring.

Further, the synchronizing device comprises a wire inlet belt wheel, a V-shaped belt, a motor I, a motor belt wheel and a winding belt wheel, wherein the motor I is installed on the upper part of the bottom plate through bolt connection, and the motor belt wheel is installed on a shaft of the motor I through key connection; the wire inlet belt wheel is mounted on the side part of the transmission shaft through a key connection, and the winding belt wheel is mounted on the side part of the winding column through a key connection; the motor belt wheel is connected with the winding belt wheel and the inlet wire belt wheel through a V-shaped belt.

Further, the lead device comprises a lead screw, a lead cylinder, a rotating seat, a supporting column, a second motor, a shell, a rotating nut and a fixed seat, wherein the lead screw is installed inside the fixed seat through a bearing, and the lead screw is installed on the side part of the second motor through a connecting shaft; the motor II is connected and installed inside the shell through a bolt; the fixed seat is arranged on the upper part of the bottom plate through welding; the support is installed on the upper portion of the bottom plate through welding, the rotating seat is installed on the upper portion of the support through a bearing, and the lead cylinder is installed on the upper portion of the rotating seat through welding.

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

1. the utility model discloses a setting of inlet wire device is favorable to step up the electric wire through two rolling posts, carries out adjusting pressure through reset spring, but through universal coupling both transmission power still can realize longitudinal displacement.

2. The utility model discloses a synchronizer's setting is favorable to driving wire winding band pulley and inlet wire band pulley through the motor and realizes synchronous revolution, makes to produce certain tensile stress between inlet wire and the wrapping post, is difficult for taking place in disorder when having guaranteed the electric wire winding.

3. The utility model discloses a setting of pin device is favorable to driving the lead screw through two motors and rotates and make the lead wire section of thick bamboo follow the rotation nut and rotate, makes the winding twine about regular, prevents that the electric wire winding is uneven.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural diagram of the wire inlet device of the present invention.

Fig. 3 is a schematic view of the structure of the fixing housing of the present invention.

Fig. 4 is a schematic view of the inlet wire belt wheel structure of the present invention.

Fig. 5 is a schematic view of the structure of the lead wire device of the present invention.

In the figure:

1-universal wheel, 2-bottom plate, 3-placing semi-cylinder, 4-wire inlet device, 41-fixed shell, 411-reset spring, 412-semi-circular ring, 413-deep groove ball bearing, 42-rolling column, 43-gear set, 44-universal coupling, 45-supporting column cylinder, 46-transmission shaft, 5-limiting disc, 6-wire fixing port, 7-winding column, 8-pushing handle, 9-synchronization device, 91-wire inlet belt wheel, 92-V-shaped belt, 93-motor I, 94-motor belt wheel, 95-winding belt wheel, 10-wire leading device, 101-lead screw, 102-wire leading cylinder, 103-rotating seat, 104-supporting column, 105-motor II, 106-shell, 107-rotating nut and 108-fixing seat.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

the first embodiment is as follows:

as shown in figure 1

The utility model provides a pay-off device for high-voltage transmission line engineering construction, which comprises a universal wheel 1, a bottom plate 2, a semi-cylinder 3, a wire inlet device 4, a limiting disc 5, a wire fixing port 6, a winding post 7, a pushing handle 8, a synchronizer 9 and a wire leading device 10, wherein the universal wheel 1 is installed at the lower part of the bottom plate 2 through bolt connection; the placing semi-cylinder 3 is installed on the upper part of the bottom plate 2 through welding, the winding post 7 is installed on the upper part of the placing semi-cylinder 3 through a bearing, and the winding post 7 is installed inside the limiting disc 5 through interference fit; the wire inlet device 4 is installed on the upper part of the bottom plate 2 through bolt connection, the wire inlet device 10 is installed on the upper part of the bottom plate 2 through bolt connection, and the push handle 8 is installed on the side part of the bottom plate 2 through welding; the upper part of the winding post 7 is provided with a wire fixing port 6; the upper part of the bottom plate 2 is provided with a switch 11 through bolt connection.

Example two:

as shown in fig. 2, the wire feeding device 4 includes a fixed housing 41, a rolling column 42, a gear set 43, a universal coupling 44, a support column cylinder 45 and a transmission shaft 46, the fixed housing 41 is mounted on the upper portion of the bottom plate 2 through a support rod, and the rolling column 42 is connected with the gear set 43 through a bearing; the universal coupling 44 is connected with a transmission shaft 46 through welding, and the transmission shaft 46 is installed inside the support column cylinder 45 through a bearing; the supporting column cylinder 45 is arranged at the upper part of the bottom plate 2 through a supporting plate; the universal coupling 44 is connected with the rolling columns 42 through welding, the wires are tightened through the double rolling columns 42, pressure is adjusted through the return spring 411, and power can be transmitted and longitudinal displacement can be achieved through the universal coupling 44.

As shown in fig. 3, the fixed housing 41 includes a return spring 411, a semicircular ring 412 and a deep groove ball bearing 413, the return spring 411 is placed inside the fixed housing 41, and the return spring 411 is mounted on a side portion of the semicircular ring 412 by a snap; the deep groove ball bearing 413 is installed in the semicircular ring 412, and the rolling column 42 can adjust the pressure of incoming and outgoing wires through the return spring 411, so that the damage to the wires is reduced.

As shown in fig. 4, the synchronizer 9 includes a wire feeding pulley 91, a V-belt 92, a first motor 93, a first motor pulley 94 and a wire winding pulley 95, the first motor 93 is mounted on the upper portion of the base plate 2 through a bolt connection, and the first motor pulley 94 is mounted on a shaft of the first motor 93 through a key connection; the wire inlet belt wheel 91 is mounted on the side part of the transmission shaft 46 through key connection, and the winding belt wheel 95 is mounted on the side part of the winding post 7 through key connection; the motor belt wheel 94 is connected with the winding belt wheel 95 and the wire inlet belt wheel 91 through the V-shaped belt 92, and the winding belt wheel 95 and the wire inlet belt wheel 91 are driven through the motor I93 to realize synchronous rotation, so that a certain tensile force is generated between the wire inlet and the winding post 7, and disorder is not easy to occur when wires are wound.

As shown in fig. 5, the lead device 10 includes a lead screw 101, a lead cylinder 102, a rotating base 103, a support column 104, a second motor 105, a housing 106, a rotating nut 107 and a fixed base 108, the lead screw 101 is mounted inside the fixed base 108 through a bearing, and the lead screw 101 is mounted on the side of the second motor 105 through a connecting shaft; the second motor 105 is installed inside the shell 106 through bolt connection; the fixed seat 108 is installed on the upper part of the bottom plate 2 by welding; the pillar 104 is installed on the upper portion of the bottom plate 2 through welding, the rotating base 103 is installed on the upper portion of the pillar 104 through a bearing, the lead wire cylinder 102 is installed on the upper portion of the rotating base 103 through welding, the lead screw 101 is driven to rotate through the second motor 105, the lead wire cylinder 102 rotates along with the rotating nut 107, winding is conducted on the winding wire regularly in the left and right directions, and uneven winding of the electric wire is prevented.

The working principle is as follows: the utility model discloses in, the user makes two 105 rotations of motor through switch 11, make inlet wire device 4 work, step up the electric wire through two rolling posts 42, realize the business turn over motion of electric wire, adjust the pressure of applying the electric wire through reset spring 411, but universal joint 44 both can drive power and still can realize longitudinal displacement, the displacement of the rolling post 42 of being convenient for, through lead device 10, make two 105 drive lead screw 101 of motor rotate and make lead cylinder 102 follow swivel nut 107 and rotate, make the winding twine regularly about, prevent that the electric wire from twining unevenly, fix the tip of electric wire through solidus port 6, motor one 93 drives coiling band pulley 95 and rotates the wire winding and be qualified for the next round of competitions of realizing the device, through synchronizer 9, motor one 93 drives coiling band pulley 95 and inlet wire band pulley 91 and realizes synchronous revolution, make and produce certain tension between inlet wire and the wrapping post 7, difficult emergence disorder when having guaranteed the electric wire winding.

Utilize technical scheme, or technical personnel in the field are in the utility model discloses under technical scheme's the inspiration, design similar technical scheme, and reach above-mentioned technological effect, all fall into the utility model discloses a protection scope.

Claims (5)

1. The utility model provides a pay-off is used in high tension transmission line engineering construction which characterized in that: the wire feeding device comprises universal wheels (1), a bottom plate (2), a placing semi-cylinder (3), a wire feeding device (4), a limiting disc (5), a wire fixing port (6), a winding post (7), a pushing handle (8), a synchronizing device (9) and a wire leading device (10), wherein the universal wheels (1) are installed on the lower portion of the bottom plate (2) through bolts; the placing semi-cylinder (3) is installed on the upper portion of the bottom plate (2) in a welding mode, the winding post (7) is installed on the upper portion of the placing semi-cylinder (3) through a bearing, and the winding post (7) is installed inside the limiting disc (5) in an interference fit mode; the wire inlet device (4) is installed on the upper portion of the bottom plate (2) through bolt connection, the wire leading device (10) is installed on the upper portion of the bottom plate (2) through bolt connection, and the pushing handle (8) is installed on the side portion of the bottom plate (2) through welding; the upper part of the winding post (7) is provided with a wire fixing port (6); the upper part of the bottom plate (2) is provided with a switch (11) through bolt connection.

2. The pay-off device for the high-voltage transmission line engineering construction according to claim 1, characterized in that: the wire inlet device (4) comprises a fixed shell (41), a rolling column (42), a gear set (43), a universal coupling (44), a support column cylinder (45) and a transmission shaft (46), wherein the fixed shell (41) is installed on the upper portion of the bottom plate (2) through a support rod, and the rolling column (42) is connected with the gear set (43) through a bearing; the universal coupling (44) is connected with the transmission shaft (46) through welding, and the transmission shaft (46) is installed inside the support column cylinder (45) through a bearing; the supporting column cylinder (45) is arranged at the upper part of the bottom plate (2) through a supporting plate; the universal coupling (44) is connected with the rolling column (42) through welding.

3. The pay-off device for high-voltage transmission line engineering construction according to claim 2, characterized in that: the fixed shell (41) comprises a return spring (411), a semicircular ring (412) and a deep groove ball bearing (413), wherein the return spring (411) is placed inside the fixed shell (41), and the return spring (411) is installed on the side portion of the semicircular ring (412) through a buckle; the deep groove ball bearing (413) is arranged inside the semi-circular ring (412).

4. The pay-off device for the high-voltage transmission line engineering construction according to claim 1, characterized in that: the synchronous device (9) comprises an inlet wire belt wheel (91), a V-shaped belt (92), a first motor (93), a motor belt wheel (94) and a winding belt wheel (95), wherein the first motor (93) is installed on the upper portion of the base plate (2) through bolt connection, and the motor belt wheel (94) is installed on a shaft of the first motor (93) through key connection; the wire inlet belt wheel (91) is mounted on the side of the transmission shaft (46) through key connection, and the winding belt wheel (95) is mounted on the side of the winding post (7) through key connection; the motor belt wheel (94) is connected with the winding belt wheel (95) and the wire inlet belt wheel (91) through a V-shaped belt (92).

5. The pay-off device for the high-voltage transmission line engineering construction according to claim 1, characterized in that: the wire leading device (10) comprises a lead screw (101), a wire leading barrel (102), a rotating seat (103), a support column (104), a second motor (105), a shell (106), a rotating nut (107) and a fixed seat (108), wherein the lead screw (101) is installed inside the fixed seat (108) through a bearing, and the lead screw (101) is installed on the side part of the second motor (105) through a connecting shaft; the second motor (105) is installed inside the shell (106) through bolt connection; the fixed seat (108) is arranged on the upper part of the bottom plate (2) through welding; the support column (104) is installed on the upper portion of the bottom plate (2) through welding, the rotating base (103) is installed on the upper portion of the support column (104) through a bearing, and the lead cylinder (102) is installed on the upper portion of the rotating base (103) through welding.

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