CN211846250U - Conveying device - Google Patents

Abstract

The disclosure provides a conveying device, and belongs to the field of electrical engineering. This conveyor includes the sleeve pipe, the support column, the mounting panel, place the ring, the tight nail in top, motor support, motor and gyro wheel, the one end of support column is connected on sheathed tube outer wall, the other end at the support column is connected perpendicularly to the mounting panel, a plurality of lateral walls of placing the ring are all connected on the mounting panel, and the axis of placing the ring is parallel with the mounting panel, it has the intercommunication to place the jack of the inner wall of ring and outer wall to place the ring, the tight nail in top is inserted and is established in the through-hole, motor support connects on sheathed tube outer wall, the motor is installed on motor support, the axis of gyro wheel is perpendicular but not intersect with sheathed tube axis, on the plane of perpendicular to casing axis, the. After the sleeve is installed on the telegraph pole, the roller can be attached to the outer wall of the telegraph pole, the roller is driven by the motor to drive the conveying device to move along the telegraph pole, and the lightning arrester and related tools are conveniently conveyed to the top end of the telegraph pole.

Description

Conveying device

Technical Field

The present disclosure relates to the field of electrical engineering, and more particularly, to a conveying apparatus.

Background

Utility poles are an important infrastructure in electrical power systems for the erection of electrical wires. In order to prevent lightning from affecting the power system and ensure the power system to work normally, a lightning arrester is usually installed on a telegraph pole.

At present, when the lightning arrester is installed, an installer usually carries the lightning arrester and some installation tools and climbs to the top end of a telegraph pole for installation

At present this kind of mode, the transportation of arrester and mounting tool is very inconvenient, can influence installer climbing to bring danger, and the weight of carrying is also very limited.

SUMMERY OF THE UTILITY MODEL

The disclosed embodiment provides a conveyor, can conveniently transport arrester and relevant instrument when installing the arrester. The technical scheme is as follows:

the disclosed embodiment provides a conveyor, including:

a sleeve comprising two cylindrical half-tubes removably connected;

one end of the supporting column is connected to the outer wall of the sleeve;

the mounting plate is vertically connected to the other end of the support column;

the side walls of the placing rings are connected to the mounting plate, the axes of the placing rings are parallel to the mounting plate, and the placing rings are provided with jacks for communicating the inner wall and the outer wall of the placing rings;

the jacking nails are inserted into the through holes;

a motor bracket connected to an outer wall of the sleeve;

a motor mounted on the motor mount;

the roller is coaxially connected to the rotating shaft of the motor, the axis of the roller is perpendicular to but not intersected with the axis of the sleeve, and the orthographic projection of the roller is at least partially positioned in the sleeve on a plane perpendicular to the axis of the sleeve.

Optionally, the placing ring is rotatably connected with the mounting plate, and a rotating shaft of the placing ring is perpendicular to the mounting plate.

Optionally, the conveying device further comprises a mounting rod, one end of the mounting rod is connected with the mounting plate, the other end of the mounting rod is connected with the placing ring, and at least one of the mounting plate and the placing ring is in threaded connection with the mounting rod.

Optionally, the mounting plate and the placing ring are both in threaded connection with the mounting rod, and the thread directions of the two ends of the mounting rod are opposite.

Optionally, the motor bracket comprises a connecting rod and a positioning ring, one end of the connecting rod is connected to the outer wall of the positioning ring, the other end of the connecting rod is connected to the sleeve, and the motor is inserted into the positioning ring.

Optionally, the carrying device further comprises a spring, the other end of the connecting rod is hinged with the sleeve, the spring is connected between the middle part of the connecting rod and the sleeve, or,

the middle part of the connecting rod is hinged with the sleeve, and the spring is connected between the other end of the connecting rod and the sleeve.

Optionally, a columnar protrusion is arranged on the outer wall of the sleeve, the columnar protrusion is perpendicular to the axis of the sleeve, a spring is sleeved on the columnar protrusion, a guide hole is formed in the connecting rod, the extending direction of the guide hole is perpendicular to the axis of the connecting rod, the columnar protrusion is located in the guide hole, the columnar protrusion is in clearance fit with the guide hole, and the connecting rod and the sleeve are respectively connected with two ends of the spring.

Optionally, an anti-slip layer is arranged on the inner wall of the two cylindrical half pipes.

Optionally, each cylinder half-pipe is provided with one mounting plate, each mounting plate is provided with the placement ring, and the mounting plates on the two cylinder half-pipes are symmetrical with respect to the axis center of the sleeve.

Optionally, at least one of a pull rope and a storage battery is further disposed on the sleeve.

The beneficial effects brought by the technical scheme provided by the embodiment of the disclosure at least comprise:

through setting up the sleeve pipe, the sleeve pipe is including dismantling two cylinder half-pipes of connection, can install the sleeve pipe outside the wire pole, through setting up the support column on sheathed tube outer wall to connect the mounting panel, through set up a plurality of rings of placing on the mounting panel, place and have the jack on the ring, insert in the jack and be equipped with a top tacking, make can insert arrester or instrument and place the ring, and will place arrester or instrument in the ring through a top tacking and push up tightly, avoid it to drop from placing the ring. Through set up the motor support on sheathed tube outer wall, install the motor on the motor support, be provided with the gyro wheel in the pivot of motor, because the axis of gyro wheel is perpendicular but the non-intersect with sheathed tube axis, on the plane of perpendicular to casing axis, the orthographic projection of gyro wheel is at least partly located the cover intraductally, consequently after installing the sleeve pipe on the wire pole, the gyro wheel can paste on the wire pole outer wall, through motor drive gyro wheel, thereby drive conveyor and remove along the wire pole, be convenient for transport wire pole top with arrester and relevant instrument, the convenience of erection workman installs the arrester.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present disclosure, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present disclosure, and it is obvious for those skilled in the art to obtain other drawings based on the drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a conveying device provided in an embodiment of the present disclosure;

FIG. 2 is a schematic view of a partial structure of another transportation device provided in the embodiment of the present disclosure;

FIG. 3 is a schematic partial structure diagram of another transportation device provided in the embodiment of the present disclosure;

FIG. 4 is a schematic structural diagram of a roller according to an embodiment of the present disclosure;

fig. 5 is a partial schematic structural view of a transportation device provided in an embodiment of the present disclosure;

fig. 6 is an end view of a ferrule provided by an embodiment of the present disclosure.

Detailed Description

To make the objects, technical solutions and advantages of the present disclosure more apparent, embodiments of the present disclosure will be described in detail with reference to the accompanying drawings.

Fig. 1 is a schematic structural diagram of a conveying device according to an embodiment of the present disclosure. As shown in fig. 1, the carrying device includes a sleeve 10, a support column 20, a mounting plate 30, a plurality of placing rings 40, a plurality of holding pins 50, a motor bracket 60, a motor 70, and a roller 80.

The cannula 10 comprises two cylindrical half-tubes 101 which are detachably connected. One end of the support pole 20 is connected to the outer wall of the casing 10, and the mounting plate 30 is vertically connected to the other end of the support pole 20.

The side walls of a plurality of placing rings 40 are all connected on the mounting plate 30, the axes of the placing rings 40 are parallel to the mounting plate 30, the placing rings 40 are provided with inserting holes 40a for communicating the inner wall and the outer wall of the placing rings 40, and the jacking nails 50 are inserted in the inserting holes 40 a.

The motor bracket 60 is coupled to the outer wall of the casing 10, the motor 70 is mounted on the motor bracket 60, and the roller 80 is coaxially coupled to the rotating shaft of the motor 70. The axis of the roller 80 is perpendicular to but does not intersect the axis of the sleeve 10. The orthographic projection of the roller 80 on a plane perpendicular to the axis of the casing 10 is at least partially within the casing 10. Dotted lines m and n in fig. 1 are projection lines of one point of the roller 80, and the dotted lines m and n are located on the inner wall of the casing 10.

Through setting up the sleeve pipe, the sleeve pipe is including dismantling two cylinder half-pipes of connection, can install the sleeve pipe outside the wire pole, through setting up the support column on sheathed tube outer wall to connect the mounting panel, through set up a plurality of rings of placing on the mounting panel, place and have the jack on the ring, insert in the jack and be equipped with a top tacking, make can insert arrester or instrument and place the ring, and will place arrester or instrument in the ring through a top tacking and push up tightly, avoid it to drop from placing the ring. Through set up the motor support on sheathed tube outer wall, install the motor on the motor support, be provided with the gyro wheel in the pivot of motor, because the axis of gyro wheel is perpendicular but the non-intersect with sheathed tube axis, on the plane of perpendicular to casing axis, the orthographic projection of gyro wheel is at least partly located the cover intraductally, consequently after installing the sleeve pipe on the wire pole, the gyro wheel can paste on the wire pole outer wall, through motor drive gyro wheel, thereby drive conveyor and remove along the wire pole, be convenient for transport wire pole top with arrester and relevant instrument, the convenience of erection workman installs the arrester.

As shown in fig. 1, a battery 104 may also be disposed on the sleeve 10 to provide power to the motor 70. The accumulator 104 may be mounted on the outer wall of one of the cylindrical half-tubes 101.

A pull cord 103 may also be provided on the sleeve 10. Installer can be with stay cord 103 system on one's body when climbing the wire pole, can further avoid conveyor landing. A connecting rope 105 can be connected between the two cylindrical half pipes 101, and the pull rope 103 can be connected to the middle of the connecting rope 105.

As shown in fig. 1, a mounting plate 30 may be mounted on each cylindrical half pipe 101, a placing ring 40 is disposed on each mounting plate 30, and the mounting plates 30 on the two cylindrical half pipes 101 are symmetrical with respect to the axis center of the casing 10. By providing mounting plates 30 on both cylindrical pipe halves 101, more tools and arresters can be transported, and the mounting plates 30 on both cylindrical pipe halves 101 are centrally symmetrical about the axis of the casing 10, the transport device can be made more balanced.

The motor brackets 60 may also be attached to each cylindrical half-tube 101, and the rollers 80 attached to the motors 70 on the two motor brackets 60 may be centered symmetrically about the axis of the bushing 10, making the carriage more stable during movement along the pole.

Alternatively, the motor bracket 60 may include a connection rod 601 and a positioning ring 602, one end of the connection rod 601 is connected to the outer wall of the positioning ring 602, the other end of the connection rod 601 is connected to the casing 10, and the motor 70 is inserted into the positioning ring 602. The motor 70 is installed through the positioning ring 602, so that the motor 70 is installed more stably, and the motor bracket 60 has a simple structure, which is beneficial to reducing the volume and the weight.

As shown in fig. 1, the outer wall of the sleeve 10 may have a cylindrical protrusion 1011, the cylindrical protrusion 1011 is perpendicular to the axis of the sleeve 10, and the spring 90 is sleeved on the cylindrical protrusion 1011. The connecting rod 601 is provided with a guide hole 601a, the extending direction of the guide hole 601a is perpendicular to the axis of the connecting rod 601, a columnar projection 1011 is positioned in the guide hole 601a, the columnar projection 1011 is in clearance fit with the guide hole 601a, and the connecting rod 601 and the sleeve 10 are respectively connected with two ends of the spring 90. The spring 90 may be in tension after the carriage is mounted to the pole. Since the utility pole is generally thick at the lower end and thin at the upper end, by providing the columnar projection 1011, the spring 90 and the guide hole 601a, the roller 80 can be pressed against the utility pole all the time by the spring 90 when the transporting device is moved upward from the lower end of the utility pole, thereby ensuring the transporting device to be moved normally. The engagement of the columnar projection 1011 and the guide hole 601a can prevent the spring 90 from being bent.

Alternatively, the sleeve 10 may have a plurality of cylindrical protrusions 1011 on the outer wall thereof, and the connecting rod 601 may have a plurality of guide holes 601a corresponding to the plurality of cylindrical protrusions 1011 one to one. Compared with only one columnar protrusion 1011, the motor bracket 60 can be prevented from swinging through the matching of the plurality of columnar protrusions 1011 and the plurality of guide holes 601a, so that the motor bracket 60 is more stable. A plurality of columnar projections 1011 may be arranged at intervals in the axial direction of the sleeve 10.

Fig. 2 is a partial schematic structural diagram of another conveying device provided in the embodiment of the present disclosure. As shown in fig. 2, the carriage device also includes a spring 90. One end of the connecting rod 601 is still connected to the positioning ring 602, the other end of the connecting rod 601 is hinged to the bushing 10, and the spring 90 is connected between the middle of the connecting rod 601 and the bushing 10. The spring 90 may be under tension after the carriage is mounted to the pole, and the roller 80 remains in contact with the pole under the force of the spring 90.

Fig. 3 is a partial schematic structural diagram of another conveying device provided in the embodiment of the present disclosure. As shown in fig. 3, the carriage device also includes a spring 90. The middle of the connecting rod 601 is hinged to the sleeve 10, one end of the connecting rod 601 is still connected to the retaining ring 602, and the spring 90 is connected between the other end of the connecting rod 601 and the sleeve 10. The spring 90 may be in a compressed state after the carriage is mounted to the pole, and the roller 80 may also be held in contact with the pole under the force of the spring 90.

Fig. 4 is a schematic structural diagram of a roller according to an embodiment of the present disclosure. As shown in fig. 4, the roller 80 may have a V-shaped groove 80a on its circumferential surface, which may advantageously increase the contact area of the roller 80 with the utility pole.

The roller 80 may also be provided with a rubber layer on its surface to increase the friction between the roller 80 and the pole.

Alternatively, the placement ring 40 may be rotatably coupled to the mounting plate 30, with the axis of rotation of the placement ring 40 perpendicular to the mounting plate 30. Thereby can rotate and place ring 40, change the angle of placing ring 40, make things convenient for the installer to get and put the arrester or the instrument that are arranged in placing ring 40.

Fig. 5 is a partial structural schematic diagram of a conveying device according to an embodiment of the present disclosure. As shown in fig. 5, the conveyor may further include a mounting bar 401. One end of the mounting rod 401 is connected to the mounting plate 30, the other end of the mounting rod 401 is connected to the placing ring 40, and at least one of the mounting plate 30 and the placing ring 40 may be screw-coupled to the mounting rod 401. Thereby, the angle of the placing ring 40 can be changed by screwing the placing ring 40, and a part of the placing ring 40 can be unscrewed under the condition that the lightning arrester and tools needing to be transported are less, so that the total weight of the transporting device is reduced.

In particular, mounting rod 401 may be threadably coupled to mounting plate 30 such that when placing ring 40 is removed, mounting rod 401 may be removed together. Alternatively, mounting rod 401 may be threadably coupled to placement ring 40. In addition, the mounting rod 401 can be in threaded connection with the mounting plate 30, and the mounting rod 401 is in threaded connection with the placing ring 40, so that the mounting rod 401 and the placing ring 40 can be detached, and the mounting rod 401 or the placing ring 40 can be conveniently and independently processed and maintained.

Alternatively, mounting plate 30 and placing ring 40 are both threaded onto mounting rod 401, and the threads at the two ends of mounting rod 401 may be reversed. This facilitates the removal of the mounting bar 401 and the placement ring 40, respectively.

The top tack 50 and the placing ring 40 may be screwed to facilitate adjustment of the amount of the holding force of the top tack 50 against the lightning protection device or tool placed in the placing ring 40.

The end of the top tack 50 may be connected to a handle 501 to facilitate the installer to directly screw the top tack 50 by hand without using tools to screw the top tack 50.

Optionally, the inner walls of the two cylindrical half-pipes 101 may be provided with an anti-slip layer 102, so that the two cylindrical half-pipes 101 can be better held on the utility pole without slipping down. The anti-slip layer 102 may be a rubber pad, and the anti-slip layer 102 is made of a rubber material, so that the cost is low and the anti-slip layer is easy to replace. And the rubber pad can produce deformation when receiving the extrusion, and when conveyor was located the wire pole lower extreme, the rubber pad can produce great deformation and attenuation, and when conveyor moved to the upper end of wire pole, the wire pole diameter diminishes gradually, and the deformation of rubber pad also diminishes gradually to paste with the wire pole mutually all the time.

Fig. 6 is an end view of a ferrule provided by an embodiment of the present disclosure. As shown in fig. 6, the two cylindrical half pipes 101 can be connected by bolts, so that the disassembly and assembly are convenient and the magnitude of the clasping force can be controlled.

The above description is intended to be exemplary only and not to limit the present disclosure, and any modification, equivalent replacement, or improvement made without departing from the spirit and scope of the present disclosure is to be considered as the same as the present disclosure.

Claims (10)

1. A conveyor apparatus, comprising:

a sleeve (10) comprising two cylindrical half-tubes (101) removably connected;

a support pillar (20), wherein one end of the support pillar (20) is connected to the outer wall of the sleeve (10);

the mounting plate (30), the said mounting plate (30) is connected to another end of the said support column (20) vertically;

a plurality of placing rings (40), the side walls of the placing rings (40) are all connected on the mounting plate (30), the axes of the placing rings (40) are parallel to the mounting plate (30), and the placing rings (40) are provided with insertion holes (40a) which are communicated with the inner wall and the outer wall of the placing rings (40);

a plurality of knock-up nails (50), the knock-up nails (50) being inserted in the insertion holes (40 a);

a motor bracket (60), the motor bracket (60) being connected to an outer wall of the casing (10);

a motor (70), the motor (70) being mounted on the motor bracket (60);

the roller (80) is coaxially connected to the rotating shaft of the motor (70), the axis of the roller (80) is perpendicular to but not intersected with the axis of the sleeve (10), and the orthographic projection of the roller (80) is at least partially positioned in the sleeve (10) on the plane perpendicular to the axis of the sleeve (10).

2. The transporter according to claim 1, wherein the placement ring (40) is rotatably connected to the mounting plate (30), the placement ring (40) having an axis of rotation perpendicular to the mounting plate (30).

3. The transporter according to claim 2, further comprising a mounting rod (401), one end of the mounting rod (401) being connected to the mounting plate (30), the other end of the mounting rod (401) being connected to the placement ring (40), at least one of the mounting plate (30) and the placement ring (40) being threadedly connected to the mounting rod (401).

4. The transporter according to claim 3, wherein the mounting plate (30) and the placement ring (40) are each threadedly connected to the mounting rod (401), the threads at the two ends of the mounting rod (401) being of opposite hand.

5. The transporter according to claim 1, wherein the motor bracket (60) comprises a connecting rod (601) and a positioning ring (602), one end of the connecting rod (601) is connected to the outer wall of the positioning ring (602), the other end of the connecting rod (601) is connected to the sleeve (10), and the motor (70) is inserted into the positioning ring (602).

6. The transportation device according to claim 5, characterized in that it further comprises a spring (90), the other end of the connecting rod (601) being hinged with the sleeve (10), the spring (90) being connected between the middle of the connecting rod (601) and the sleeve (10), or,

the middle part of the connecting rod (601) is hinged with the sleeve (10), and the spring (90) is connected between the other end of the connecting rod (601) and the sleeve (10).

7. The conveying device according to claim 5, characterized in that a cylindrical protrusion (1011) is arranged on the outer wall of the sleeve (10), the cylindrical protrusion (1011) is perpendicular to the axis of the sleeve (10), a spring (90) is sleeved on the cylindrical protrusion (1011), a guide hole (601a) is arranged on the connecting rod (601), the extending direction of the guide hole (601a) is perpendicular to the axis of the connecting rod (601), the cylindrical protrusion (1011) is arranged in the guide hole (601a), the cylindrical protrusion (1011) is in clearance fit with the guide hole (601a), and the connecting rod (601) and the sleeve (10) are respectively connected with two ends of the spring (90).

8. The conveyance device according to any one of claims 1 to 7, wherein the two cylindrical half pipes (101) are provided with an anti-slip layer (102) on the inner wall thereof.

9. The transport device according to any one of claims 1 to 7, wherein one mounting plate (30) is mounted on each cylindrical half-pipe (101), the placement ring (40) is arranged on each mounting plate (30), and the mounting plates (30) on the two cylindrical half-pipes (101) are centrosymmetric with respect to the axis of the casing (10).

10. The conveyance device according to any one of claims 1 to 7, wherein at least one of a pull cord (103) and a battery (104) is further provided to the sleeve (10).

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