CN210260728U - Multifunctional cable laying machine - Google Patents

Abstract

The utility model discloses a multifunctional cable laying machine, which comprises a box body of a handle and wheels, an engine, a stepless speed change device, an upper roller conveying belt mechanism and a lower roller conveying belt mechanism, wherein an output shaft of the engine is connected with an input shaft of the stepless speed change device; the upper roller conveying belt mechanism and the lower roller conveying belt mechanism form a cable conveying channel with adjustable gap, a pressure sensor and an electric push rod are mounted on the upper roller conveying belt mechanism, and the electric push rod adjusts the gap of the cable conveying channel according to a pressure signal of the pressure sensor. The utility model provides a multi-functional cable cloth machine adopts intelligent pressure adjustment device, can ensure to provide sufficient driving force for dredging stick, cable and steel strand wires, can ensure again that pressure bears within the controllable scope dredging stick, cable and steel strand wires, does not damage dredging stick and cable.

Description

Multifunctional cable laying machine

Technical Field

The utility model relates to a multi-functional cable laying machine is a communication line construction operation device who synthesizes, belongs to information and communication line engineering construction technical field.

Background

At present, communication pipeline dredging, cable laying and recycling, overhead and direct-buried special section cable laying, steel strand laying and indoor strong and weak current cable laying are mainly carried out in a manual laying mode. The manual cable laying needs to be carried out in multiple steps of dredging, special section processing, laying, plate reversing and the like, and is difficult in organization and command cooperation, high in labor intensity and low in construction efficiency. In addition, the manual arrangement of pipelines, overhead and direct-buried cables or indoor strong and weak current cables is difficult to ensure the uniform speed, the tension control is difficult, the tensile stress acting on the cables cannot be thoroughly eliminated, the fatigue effect is easy to occur on the cables, and the service life is shortened.

In order to meet the construction requirements of information communication engineering, further improve the mechanical construction capacity, reduce the construction labor intensity, improve the construction efficiency and the engineering quality, a set of multifunctional cable laying machine is imperatively developed.

Disclosure of Invention

The utility model discloses not enough to exist among the prior art provides a multi-functional cable laying machine, the utility model discloses a technical scheme be:

a multifunctional cable laying machine is characterized by comprising a box body, an engine, a stepless speed change device, a control device, an upper roller conveying belt mechanism and a lower roller conveying belt mechanism, wherein the box body is provided with a handle and wheels; the output shaft of the engine is connected with the input shaft of the stepless speed change device through a coupler, the output shaft of a gearbox of the stepless speed change device is connected with an upper roller conveying belt mechanism through the coupler, and the upper roller conveying belt mechanism is connected with a lower roller conveying belt mechanism through gear transmission; the upper roller conveying belt mechanism and the lower roller conveying belt mechanism form a cable conveying channel with adjustable gap, the upper roller conveying belt mechanism and the lower roller conveying belt mechanism respectively comprise two clamping plates with the same shape and two supporting plates which are vertical to the side faces of the clamping plates and are fixed on the clamping plates, the supporting plates of the upper roller conveying belt mechanism are positioned above the upper roller conveying belt mechanism, an electric push rod is arranged at the position close to the end of each supporting plate of the upper roller conveying belt mechanism, the push rod inner tube of each electric push rod is connected with the supporting plate of the upper roller conveying belt mechanism, the flat base of the electric push rod is fixed on the top plate of the box body, pressure sensors are arranged on the surfaces of the supporting plates of the upper roller conveying belt mechanism, which are contacted with the clamping plates of the upper roller conveying belt mechanism, and each sensor transmits a pressure signal to the control, the control device controls the electric push rod to stretch and retract so as to adjust the gap of the cable transmission channel; the control device is associated with the engine, and when the equipment fails and cannot complete the propelling operation, the external remote controller can be used for interrupting the power supply of the engine through the control device.

The supporting plate of the lower roller conveying belt mechanism is positioned below the lower roller conveying belt mechanism, an upright is arranged at the position close to the end of the supporting plate of each lower roller conveying belt mechanism, one end of the upright is fixedly connected with the supporting plate of the lower roller conveying belt mechanism, and the other end of the upright is fixed on the bottom plate of the box body; the clamping plates of the upper roller conveying belt mechanism and the lower roller conveying belt mechanism are respectively provided with a clamping seat at two ends, the clamping plates of the upper roller conveying belt mechanism can only slide up and down in the clamping seats, and the clamping plates of the lower roller conveying belt mechanism can not move in the clamping seats.

The upper roller conveying belt mechanism comprises an upper driving roller connected with a transmission case output shaft of the stepless speed change device through a coupling, a driving gear sleeved on a gear driving shaft of the upper driving roller and an upper linkage roller connected with the upper driving roller through a belt; the lower roller conveying belt mechanism comprises a lower driving roller, a driven gear sleeved on a driven shaft of a gear of the lower driving roller and a lower linkage roller connected with the lower driving roller through a belt; the driving gear and the driven gear are meshed together; the roller shafts of the upper linkage rollers are fixed together through a clamping plate of an upper roller conveying belt mechanism, and the roller shafts of the lower linkage rollers are fixed together through a clamping plate of a lower roller conveying belt mechanism; the upper driving roller and the lower driving roller are supported by a large support sliding sleeve and a small support sliding sleeve.

The box body is also provided with a variable cable guide pipe, and the large-caliber end of the variable cable guide pipe is positioned at the cable output end of the cable transmission channel.

The wheels are positioned at the bottom of the box body, two universal wheels are arranged at the end close to the handle, a brake device is arranged on each universal wheel, two fixed wheels are arranged at the end far away from the handle, and a brake device is also arranged on each fixed wheel.

The motor is an alternating current motor or a gasoline engine, and a coupler is arranged between the motor and the stepless speed change device.

And a guide wheel is arranged at the cable input end on the box body and used for guiding the cable into the cable transmission channel.

The control device can control the running direction of the engine through an external remote controller, and the forward or backward movement of the cable and the dredging rod is realized.

And a meter counter device for counting the meter of the cable is arranged on the upper roller conveying belt mechanism.

The engine and the stepless speed change device are placed on the same base, and the base is fixed on the bottom plate of the box body.

The utility model has the advantages that: the utility model discloses a multi-functional cable cloth machine adopts infinitely variable speed to adjust, has small, light in weight, portable, transportation, maintenance and easy and simple to handle characteristics, can be used for communication pipeline cable cloth to put and retrieve, when the operation is used, adopts intelligent pressure adjusting device, can ensure to provide sufficient driving force for dredging stick, cable and steel strand wires, can ensure pressure to be within dredging stick, cable and steel strand wires bear controllable scope, do not damage dredging stick and cable; when the equipment fails and can not finish the propelling operation, the operator can interrupt the power supply through the external remote controller of the utility model to automatically protect the equipment and continue the operation after the situation is disposed; the control device can control the running direction of the engine through an external remote controller to realize the forward or backward movement of the cable and the dredging rod; the installed meter counter can effectively control the use condition of the cable material, and waste is avoided.

Drawings

Fig. 1 is a schematic structural view of the utility model with the box body removed.

Fig. 2 is a schematic view of the external structure of the present invention.

Fig. 3 is a schematic view of the inverted configuration of fig. 2.

Fig. 4 is a schematic view of the structure of fig. 1 in a different orientation.

Fig. 5 is a top view of fig. 1.

Fig. 6 is a partial structural schematic view of fig. 1.

Fig. 7 is a rear view of fig. 6.

In the figure, reference numeral 1 is a handle, 2 is a stepless speed change device, 3 is an engine, 4 is a control device, 5 is a belt, 6 is a dredging rod, 7 is a cable output end, 8 is an electric push rod, 9 is a wheel, 10 is an upper driving roller, 11 is a variable cable guide pipe, 12 is a top plate, 13 is a box body, 14 is a roller shaft, 15 is a gearbox output shaft, 16 is a base, 17 is a bottom plate, 18 is a driving gear, 19 is a gear driving shaft, 20 is a driven gear, 21 is a gear driven shaft, 22 is a supporting plate, 23 is a clamping plate, 24 is a clamping seat, 25 is a large support sliding sleeve, 26 is a small support sliding sleeve, 27 is an upright post and 28 is a lower driving roller.

Detailed Description

The present invention will be further explained with reference to the drawings and examples.

As shown in fig. 2 and 3, the multifunctional cable laying machine is in the shape of a box body 13 provided with a handle 1 and wheels 9, wherein the wheels 9 are positioned at the bottom of the box body 13, two universal wheels are arranged at the end close to the handle, each universal wheel is provided with a brake device, two fixed wheels are arranged at the end far away from the handle 1, and each fixed wheel is also provided with a brake device. The box 13 is further provided with a variable cable guide tube 11, and a large-diameter end of the variable cable guide tube 11 is located at the cable output end 7 of the cable conveying passage shown in fig. 7. Guide wheels are mounted on the housing 13 for guiding the cable into the cable carrying channel.

The case 13 is internally provided with an engine 3, a continuously variable transmission 2, an upper roller conveyor belt mechanism and a lower roller conveyor belt mechanism. The engine 3, the continuously variable transmission 2 and the control device 4 are located on one side in the case 13, and the upper roller conveyor belt mechanism and the lower roller conveyor belt mechanism are located on the other side in the case 13.

As shown in fig. 1, 4, 5, 6 and 7, an output shaft of the engine 3 is coupled to an input shaft of the continuously variable transmission 2, a transmission output shaft 15 of the continuously variable transmission 2 is coupled to a gear drive shaft 19 of the upper drum transfer belt mechanism through a coupling, and a drive gear 18 fitted around the gear drive shaft 19 is drivingly coupled to a driven gear 20 fitted around a gear driven shaft 21 of the lower drum transfer belt mechanism.

The upper roller conveying belt mechanism and the lower roller conveying belt mechanism form a cable conveying channel with adjustable gap. The cable conveying channel conveys the cable by the belt 5 between the upper roller conveying belt mechanism and the lower roller conveying belt mechanism, when the gap is small, the friction force between the upper belt 5 and the lower belt 5 is increased, the thrust force transmitted to the cable is increased, when the gap is small, the friction force between the upper belt 5 and the lower belt 5 is reduced, and the thrust force transmitted to the cable is reduced.

The upper roller conveying belt mechanism and the lower roller conveying belt mechanism both comprise two clamping plates 23 with the same shape and two supporting plates 22 which are perpendicular to the side surfaces of the clamping plates 23 and are fixed on the clamping plates 23.

The supporting plate 22 of the upper roller conveying belt mechanism is positioned above the upper roller conveying belt mechanism, an electric push rod 8 is arranged at the position, close to the end, of the supporting plate 22 of the upper roller conveying belt mechanism, a push rod inner tube of the electric push rod 8 is connected with the supporting plate 22 of the upper roller conveying belt mechanism, a flat base of the electric push rod 8 is fixed on the top plate 12 of the box body 13, pressure sensors are arranged on the surfaces, in contact with a clamping plate 23 of the upper roller conveying belt mechanism, of the supporting plate 22 of the upper roller conveying belt mechanism, all pressure signals are transmitted to the control device 4 through the pressure sensors, and then the control device 4 controls the expansion and contraction of the electric push rod 8, so that the gap of a cable conveying.

The control device 4 is associated with the engine 3 and can interrupt the power supply of the engine 3 through the control device 4 by using an external remote controller when the equipment fails and can not finish the propelling operation.

The control device 4 can control the running direction of the engine 3 through an external remote controller, and the forward or backward movement of the cable and the dredging rod 6 is realized.

And a meter counter device for counting the meter of the cable is arranged on the upper roller conveying belt mechanism.

The supporting plate 22 of the lower roller conveyor belt mechanism is positioned below the lower roller conveyor belt mechanism, and an upright 27 is arranged at the position of the end, close to each lower roller conveyor belt mechanism supporting plate 22, of each lower roller conveyor belt mechanism supporting plate 22, one end of each upright 27 is fixedly connected with the lower roller conveyor belt mechanism supporting plate 22, and the other end of each upright 27 is fixed on the bottom plate 17 of the box body 13.

The clamping seats 24 are respectively arranged at two ends of the clamping plates 23 of the upper roller conveying belt mechanism and the lower roller conveying belt mechanism, the clamping plates 23 of the upper roller conveying belt mechanism can only slide up and down in the clamping seats 24, and the clamping plates 23 of the lower roller conveying belt mechanism cannot move in the clamping seats 24.

The upper roller conveying belt mechanism comprises an upper driving roller 10 which is in transmission connection with a gearbox output shaft 15 of the stepless speed change device through a driving gear 18 and an upper linkage roller which is connected with the upper driving roller 10 through a belt.

The lower roller conveying belt mechanism comprises a lower driving roller 28 which is in transmission connection with the upper driving roller 10 of the upper roller conveying belt mechanism through a driven gear 20 and a lower linkage roller which is connected with the lower driving roller 28 through a belt.

The roller shafts 14 of the upper interlocking rollers are fixed together by the clamping plates 23 of the upper roller conveying belt mechanism, and the roller shafts 14 of the lower interlocking rollers are fixed together by the clamping plates 23 of the lower roller conveying belt mechanism.

The engine 3 adopts an alternating current motor or a gasoline engine, and a coupling is arranged between the engine 3 and the stepless speed change device 2.

The upper and lower driving rollers 10 and 28 are supported by a large and small bracket sliding bush 25 and 26.

The engine and the stepless speed change device are arranged on the same base 16, and the base 16 is fixed on the bottom plate 17 of the box body 13.

Claims (8)

1. A multifunctional cable laying machine is characterized by comprising a box body, an engine, a stepless speed change device, a control device, an upper roller conveying belt mechanism and a lower roller conveying belt mechanism, wherein the box body is provided with a handle and wheels; the output shaft of the engine is connected with the input shaft of the stepless speed change device through a coupler, the output shaft of a gearbox of the stepless speed change device is connected with an upper roller conveying belt mechanism through the coupler, and the upper roller conveying belt mechanism is connected with a lower roller conveying belt mechanism through gear transmission; the upper roller conveying belt mechanism and the lower roller conveying belt mechanism form a cable conveying channel with adjustable gap, the upper roller conveying belt mechanism and the lower roller conveying belt mechanism respectively comprise two clamping plates with the same shape and two supporting plates which are vertical to the side faces of the clamping plates and are fixed on the clamping plates, the supporting plates of the upper roller conveying belt mechanism are positioned above the upper roller conveying belt mechanism, an electric push rod is arranged at the position close to the end of each supporting plate of the upper roller conveying belt mechanism, the push rod inner tube of each electric push rod is connected with the supporting plate of the upper roller conveying belt mechanism, the flat base of the electric push rod is fixed on the top plate of the box body, pressure sensors are arranged on the surfaces of the supporting plates of the upper roller conveying belt mechanism, which are contacted with the clamping plates of the upper roller conveying belt mechanism, and each sensor transmits a pressure signal to the control, the control device controls the electric push rod to stretch and retract so as to adjust the gap of the cable transmission channel; the control device is associated with the engine, and when the equipment fails and cannot complete the propelling operation, the external remote controller can be used for interrupting the power supply of the engine through the control device.

2. The multifunctional cable distribution machine of claim 1, wherein the support plate of the lower roller conveyor belt mechanism is located below the lower roller conveyor belt mechanism, and wherein an upright is located proximate to the end of each support plate of the lower roller conveyor belt mechanism, one end of the upright being fixedly connected to the support plate of the lower roller conveyor belt mechanism and the other end of the upright being fixed to the floor of the cabinet; the clamping plates of the upper roller conveying belt mechanism and the lower roller conveying belt mechanism are respectively provided with a clamping seat at two ends, the clamping plates of the upper roller conveying belt mechanism can only slide up and down in the clamping seats, and the clamping plates of the lower roller conveying belt mechanism can not move in the clamping seats.

3. The multifunctional cable laying machine as claimed in claim 1, wherein the upper roller conveyor belt mechanism comprises an upper driving roller coupled to an output shaft of a transmission of the continuously variable transmission through a coupling, a driving gear sleeved on a gear driving shaft of the upper driving roller, and an upper interlocking roller connected to the upper driving roller through a belt; the lower roller conveying belt mechanism comprises a lower driving roller, a driven gear sleeved on a driven shaft of a gear of the lower driving roller and a lower linkage roller connected with the lower driving roller through a belt; the driving gear and the driven gear are meshed together; the roller shafts of the upper linkage rollers are fixed together through a clamping plate of an upper roller conveying belt mechanism, and the roller shafts of the lower linkage rollers are fixed together through a clamping plate of a lower roller conveying belt mechanism; the upper driving roller and the lower driving roller are supported by a large support sliding sleeve and a small support sliding sleeve.

4. The multifunctional cable deployment machine of claim 1, wherein the housing further comprises a variable cable guide tube mounted thereon, the variable cable guide tube having a larger diameter end located at the cable exit end of the cable transport channel.

5. The multifunctional cable laying machine as claimed in claim 1, wherein the wheels are located at the bottom of the housing, and two universal wheels are provided near the handle end, each universal wheel having a braking device, and two fixed wheels are provided far from the handle end, each fixed wheel also having a braking device.

6. The multifunctional cable routing machine of claim 1, wherein a guide wheel is mounted to the cabinet at the cable input end for guiding the cable into the cable transport path.

7. The multifunctional cable laying machine as recited in claim 1, wherein a meter counter device for counting the number of meters of the cable is mounted on said upper drum conveyor belt mechanism.

8. The multifunctional cable laying machine as claimed in claim 1, wherein the control device can control the operation direction of the engine through an external remote controller to realize the forward or backward movement of the cable and the dredging rod.

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