CN115377874A

CN115377874A - Cable laying device for power distribution and supply

Info

Publication number: CN115377874A
Application number: CN202211087986.1A
Authority: CN
Inventors: 胡晓琳; 刘长龙; 曾凡文; 李速; 林存衢
Original assignee: Pingyi Power Supply Co Of State Grid Shandong Electric Power Co
Current assignee: Pingyi Power Supply Co Of State Grid Shandong Electric Power Co
Priority date: 2022-09-07
Filing date: 2022-09-07
Publication date: 2022-11-22
Anticipated expiration: 2042-09-07
Also published as: CN115377874B

Abstract

The invention discloses a cable laying device for power distribution and supply, and relates to the technical field of cable laying. Comprises a frame assembly, a laying assembly, an excavating assembly and an adjusting assembly, wherein the frame assembly comprises a base, the excavating assembly is rotatably arranged on the base and comprises a middle screw rod, the middle screw rod is rotatably arranged on the adjusting assembly, the adjusting assembly comprises an adjusting bracket, the adjusting bracket is fixedly arranged on the base, the frame assembly also comprises a sweeping plate and a conveying plate, the sweeping plate is rotatably connected on the sweeping bracket, sweep flat support fixed connection on the base, delivery board fixed connection lays the subassembly and includes flexible mobile jib on the base, and flexible mobile jib rotates to be connected on the base, carries out the excavation work of cable pit through the subassembly that digs, and the soil that will dig up is carried through the delivery board, puts down the back with the cable through laying the subassembly, and the soil that the delivery board was carried falls down, covers on the cable, sweeps flat through sweeping the flat board soil that looses on the cable pit at last.

Description

Cable laying device for power distribution and supply

Technical Field

The invention relates to the technical field of cable laying, in particular to a cable laying device for power distribution and supply.

Background

With the continuous development of the economy of China, the power consumption of China is increased, the scale of a power grid is enlarged, cables need to be laid, the size and the shape of the cable trench are fixed after the cable trench is laid, when a new cable is laid, soil needs to be excavated manually, then the cable trench is laid, and then the cable trench is buried.

The utility model discloses a utility model patent with publication number CN214590229U discloses a cable laying device for power distribution and power supply, including pull rod, cable frame, motor, transmission assembly, bottom plate, elastic plate and pulley, the bottom plate is connected to one end of pull rod, be equipped with the cable frame on the bottom plate, the motor is connected with transmission assembly, transmission assembly is fixed on the bottom plate through the screw, the bottom of bottom plate is equipped with elastic plate, the bottom of elastic plate is connected with the pulley; the transmission assembly comprises a rotating shaft, a rotating shaft frame, a base and a bearing, the rotating shaft transversely penetrates through the inner side of the rotating shaft frame, the rotating shaft frame is welded on the base, the base is fixed on the bottom plate through screws, the bearing is arranged at the side end of the rotating shaft frame, and the rotating shaft is embedded in the inner side of the bearing. Through add motor and drive assembly on the bottom plate, improved the efficiency of laying the cable.

However, the above device is only improved for laying the cable, and the cable trench is required to be constructed during laying, which is the longest construction time, therefore, efficiency is improved, the process of cable trench construction needs to be improved, the soil excavation, the laying and the soil burying are integrated, and the overall construction efficiency is improved.

Disclosure of Invention

In order to solve the technical problem, the invention provides a cable laying device for power distribution and supply.

According to one aspect of the invention, the cable laying device for power distribution and power supply comprises a frame assembly, a laying assembly, an earth digging assembly and an adjusting assembly, wherein the frame assembly comprises a base, the earth digging assembly is rotatably mounted on the base and comprises an intermediate screw rod, the intermediate screw rod is rotatably mounted on the adjusting assembly, the adjusting assembly comprises an adjusting support, the adjusting support is fixedly mounted on the base, the frame assembly further comprises a sweeping plate and a conveying plate, the sweeping plate is rotatably connected to the sweeping support, the sweeping support is fixedly connected to the base, the conveying plate is fixedly connected to the base, the laying assembly comprises a telescopic main rod, the telescopic main rod is rotatably connected to the base, the excavating work of a cable trench is carried out through the earth digging assembly, the dug earth is conveyed through the conveying plate, after the cable is laid down through the laying assembly, the earth conveyed by the conveying plate falls down and is covered on the cable, and finally the earth scattered on the cable trench is swept through the sweeping plate.

Preferably, the base on fixedly connected with cable rack, rotate on the cable rack and install the cable coil, still fixedly connected with cable support on the base.

Preferably, the laying component further comprises a rocker fixedly connected to the rotating shaft, the rotating shaft is rotatably connected to the first supporting block and the fourth supporting block, the first supporting block is fixedly connected to the base, the fourth supporting block is also fixedly connected to the base, a first bevel gear is fixedly connected to one end, close to the fourth supporting block, of the rotating shaft, and a second supporting block is fixedly connected to the fourth supporting block.

Preferably, the second supporting shoe on rotate and be connected with and lay the screw rod, lay the first end fixedly connected with second bevel gear of screw rod, the second end of laying the screw rod rotates and connects on the third supporting shoe, it has the sliding block still to slide connection on the screw rod to lay, rotates the first end that is connected with the connecting rod on the sliding block, the second end of connecting rod rotates and connects on the first end of rotary rod, the second end fixed connection of rotary rod is on flexible mobile jib, flexible mobile jib rotates and connects on the base.

Preferably, flexible mobile jib on sliding connection have flexible auxiliary rod, the first end of fixedly connected with spring on the flexible auxiliary rod, the second end fixed connection of going up the spring is on last installation piece, go up the one end fixedly connected with upper slide rod of keeping away from the spring on the installation piece, upper slide rod sliding connection is downthehole on flexible auxiliary rod, it is connected with guide pulley and last gear still to rotate on the installation piece to go up, the first end of spring under still fixedly connected with on the flexible auxiliary rod, the second end fixed connection of lower spring is on the installation piece down, still fixedly connected with lower slide rod on the installation piece down, lower slide rod sliding connection is downthehole on flexible auxiliary rod, sliding connection has lower gear and lower guide pulley on the installation piece down.

Preferably, the movable plate is connected with a rotating plate in a sliding mode, the rotating plate is fixedly connected with a limiting rack, the rotating plate is further connected with an adjusting screw in a sliding mode, the movable plate is further connected with a main gear in a rotating mode, the base is fixedly connected with an adjusting support, and the adjusting support is fixedly connected with a rack.

Preferably, a scraper is installed at the first end of the conveying plate, a hole is formed in the second end of the conveying plate, and a vibrating plate is further arranged on the conveying plate and used for conveying soil.

The invention provides a cable laying device for power distribution and supply, which has the following beneficial effects: (1) According to the invention, the cable trench can be quickly excavated through the middle screw and the side screws, so that the construction efficiency is improved; (2) The depth of the middle screw and the depth of the side screw can be adjusted through the adjusting assembly, so that the depth of the cable trench required under different conditions is adapted; (3) According to the invention, the upper guide wheel and the lower guide wheel are rotated to move the cable by the contact of the lower gear and the ground, and the upper guide wheel and the lower guide wheel are connected through the spring and the sliding rod, so that the installation of the cable is convenient and the cable is prevented from being extruded and damaged; (4) The sweeping plate is arranged, so that soil scattered outside the cable trench can be collected and compacted.

Drawings

Fig. 1 is a schematic view of the overall structure of a cable laying device for power distribution and supply according to the present invention.

Fig. 2 is a front view of a cable laying device for power distribution and supply of the present invention.

Fig. 3 is a bottom view of a cable laying device for power distribution and supply according to the present invention.

Fig. 4 is a side view of a cable laying device for power distribution and supply of the present invention.

Fig. 5 is a partial structural diagram of fig. 4 at B.

Fig. 6 is a partial structure diagram of a part a in fig. 1.

Fig. 7 is a schematic view of the construction of the laying assembly of the present invention.

Fig. 8 is a partial structural view at C in fig. 7.

Fig. 9 is a schematic view of the upper spring structure of the present invention.

FIG. 10 is a schematic diagram of a sweeping plate structure according to the present invention.

In the figure: 1-a frame assembly; 2-laying a component; <xnotran> 3- ; </xnotran> 4-a regulating component; 101-a cable rack; 102-a base; 103-a cable coil; 104-sweep the flat rack; 105-sweeping the plate; 106-transport plate; 107-cable support; 201-rocker; 202-rotating shaft; 203-a first support block; 204-a first bevel gear; 205-second bevel gear; 206-laying a screw rod; 207-a third support block; 208-slider; 209-connecting rod; 210-rotating the bar; 211-telescopic main rod; 212-telescoping secondary rods; 213-upper mounting block; 214-upper gear; 215-an upper idler; 216-lower mounting block; 217-lower gear; 218-a lower guide wheel; 219-a second support block; 220-a fourth support block; 221-upper sliding bar; 222-upper spring; 223-lower spring; 224-a lower sliding rod; 301-middle screw; 302-side screw; 303-a drive shaft; 304-a drive spindle; 305-a drive screw; 306-a drive gear; 307-a motor; 308-a first transmission shaft; 309-motor shaft; 310-a second drive spindle; 311-a second drive shaft; 401-adjusting the stent; 402-a main gear; 403-rotating the plate; 404-a rack; 405-moving the plate; 406-Regulation a screw; 407-limit rack.

Detailed Description

The technical scheme of the invention is further explained by the specific implementation mode in combination with the attached drawings.

Wherein the showings are for the purpose of illustration only, and which are shown in schematic form, and not as an actual drawing, should not be construed as limiting the patent; to better illustrate the embodiments of the present invention, some parts of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

Referring to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9 and fig. 10, the present invention provides a technical solution: a cable laying device for power distribution and power supply comprises a frame assembly 1, a laying assembly 2, an excavating assembly 3 and an adjusting assembly 4, wherein the frame assembly 1 comprises a base 102, the excavating assembly 3 is rotatably mounted on the base 102, the excavating assembly 3 comprises a middle screw 301, the middle screw 301 is rotatably mounted on the adjusting assembly 4, the adjusting assembly 4 comprises an adjusting bracket 401, the adjusting bracket 401 is fixedly mounted on the base 102, the frame assembly 1 further comprises a sweeping plate 105 and a conveying plate 106, the sweeping plate 105 is rotatably connected on a sweeping bracket 104, sweep flat support 104 fixed connection on base 102, delivery board 106 fixed connection is on base 102, it includes flexible mobile jib 211 to lay subassembly 2, flexible mobile jib 211 rotates to be connected on base 102, carry out the excavation work of cable pit through digging subassembly 3, the soil that will dig up is carried through delivery board 106, put down the back with the cable through laying subassembly 2, the soil that delivery board 106 was carried falls, covers on the cable, sweep flat board 105 through sweeping at last and sweep the soil that scatters on the cable pit.

The base 102 is fixedly connected with a cable placing rack 101, a cable coil 103 is rotatably installed on the cable placing rack 101, and the base 102 is also fixedly connected with a cable support 107.

The cable coil is arranged at on the cable placing frame 101, a cable placing frame is arranged, the cable is mounted between upper guide pulley 215 and lower guide pulley 218 by cable bracket 107.

Laying component 2 still includes rocker 201, and rocker 201 fixed connection is on axis of rotation 202, and axis of rotation 202 rotates to be connected on first supporting shoe 203 and fourth supporting shoe 220, and first supporting shoe 203 fixed connection is on base 102, and fourth supporting shoe 220 is also fixed connection on base 102, and the one end fixed connection that is close to fourth supporting shoe 220 on axis of rotation 202 has first bevel gear 204, still fixedly connected with second supporting shoe 219 on the fourth supporting shoe 220.

Second supporting shoe 219 is last to rotate to be connected with and to lay screw rod 206, lay screw rod 206 first end fixedly connected with second bevel gear 205, the second end rotation of laying screw rod 206 is connected on third supporting shoe 207, it has sliding block 208 still to slide connection on screw rod 206 to lay, the first end that is connected with connecting rod 209 rotates on sliding block 208, the second end rotation of connecting rod 209 is connected on the first end of rotary rod 210, the second end fixed connection of rotary rod 210 is on flexible mobile jib 211, flexible mobile jib 211 rotates to be connected on base 102.

As shown in fig. 7, 8 and 9, in use, the rocker 201 is manually rotated, the rotation shaft 202 drives the first bevel gear 204 to rotate, the first bevel gear 204 drives the second bevel gear 205 to rotate, the second bevel gear 205 drives the laying screw 206 to rotate, the sliding block 208 is provided with threads, the laying screw 206 drives the sliding block 208 to move on the laying screw 206, the sliding block 208 pushes the connecting rod 209 to move, and the connecting rod 209 pushes the rotating rod 210 to rotate around the mounting shaft of the telescopic main rod 211.

The telescopic main rod 211 is slidably connected with a telescopic auxiliary rod 212, the telescopic auxiliary rod 212 is fixedly connected with a first end of an upper spring 222, a second end of the upper spring 222 is fixedly connected with an upper mounting block 213, one end of the upper mounting block 213 far away from the upper spring 222 is fixedly connected with an upper sliding rod 221, the upper sliding rod 221 is slidably connected with a hole in the telescopic auxiliary rod 212, the upper mounting block 213 is rotatably connected with an upper guide wheel 215 and an upper gear 214, the telescopic auxiliary rod 212 is fixedly connected with a first end of a lower spring 223, a second end of the lower spring 223 is fixedly connected with a lower mounting block 216, the lower mounting block 216 is fixedly connected with a lower sliding rod 224, the lower sliding rod 224 is slidably connected with a hole in the telescopic auxiliary rod 212, and the lower mounting block 216 is rotatably connected with a lower gear 217 and a lower guide wheel 218.

After the telescopic main rod 211 rotates to a certain angle, the telescopic auxiliary rod 212 is controlled to leave the telescopic main rod 211, so that the lower gear 217 is in contact with the ground, then the lower gear 217 rotates through the movement of the device, the lower gear 217 is meshed with the upper gear 214, the upper guide wheel 215 and the lower guide wheel 218 are close to each other, the lower gear 217 drives the lower guide wheel 218 to rotate, the lower guide wheel 218 and the upper guide wheel 215 rotate, and the cable is driven to move through extruding the cable.

After the main telescopic rod 211 and the auxiliary telescopic rod 212 rotate, the included angle between the main telescopic rod 211 and the auxiliary telescopic rod 212 and the ground is less than ninety degrees, so only the lower gear 217 is in contact with the ground, and the lower gear 217 and the upper gear 214 are not in contact with the ground at the same time.

As shown in fig. 1 and 6, the middle screw 301 is rotatably mounted on the moving plate 405, the side screw 302 and the transmission shaft 303 are further rotatably mounted on the moving plate 405, the middle screw 301 and the side screw 302 are connected through a belt, the side screw 302 and the transmission shaft 303 are connected through a belt, the transmission screw 305 is further slidably connected on the moving plate 405, the transmission screw 305 is fixedly mounted on the transmission main shaft 304, the base 102 is rotatably connected with a first transmission shaft 308, a second transmission shaft 311, a second transmission main shaft 310 and a motor shaft 309, and the motor shaft 309 is rotatably connected with a motor 307.

The motor shaft 309 is connected with the second transmission main shaft 310 through a belt, the second transmission main shaft 310 is connected with the second transmission shaft 311 through a belt, the second transmission shaft 311 is connected with the first transmission shaft 308 through a belt, and the first transmission shaft 308 is connected with the transmission main shaft 304 through a belt. Two groups of side screws 302 are arranged on two sides of the middle screw 301.

When the device is used, the motor 307 is started, the motor shaft 309 drives the second transmission main shaft 310 to rotate, the second transmission main shaft 310 drives the transmission main shaft 304 to rotate through the second transmission shaft 311 and the first transmission shaft 308, the transmission main shaft 304 drives the transmission screw 305 to rotate, the transmission screw 305 drives the transmission gear 306 to rotate, the transmission gear 306 drives the transmission shaft 303 to rotate, the transmission shaft 303 drives the side screw 302 to rotate, and the side screw 302 drives the middle screw 301 to rotate, so that the middle screw 301 and the two side screws 302 rotate.

As shown in fig. 4 and 5, a rotating plate 403 is slidably connected to the moving plate 405, a limit rack 407 is fixedly connected to the rotating plate 403, an adjusting screw 406 is also slidably connected to the rotating plate 403, a main gear 402 is also rotatably connected to the moving plate 405, an adjusting bracket 401 is fixedly connected to the base 102, and a rack 404 is fixedly connected to the adjusting bracket 401.

The adjusting screw 406 is provided with a groove, the rotating plate 403 is provided with a protrusion, and the protrusion on the rotating plate 403 is matched with the groove on the adjusting screw 406, so that the rotating plate 403 can rotate the adjusting screw 406 and can also slide on the adjusting screw 406, and the main gear 402 is meshed with the limit rack 407.

In use, the rotating plate 403 is pulled out, the rotating plate 403 is rotated, the rotating plate 403 drives the adjusting screw 406 to rotate, the adjusting screw 406 drives the main gear 402 to rotate, the main gear 402 moves on the rack 404, the main gear 402 drives the moving plate 405 to move, and when the adjusting screw 406 moves to a proper position, the rotating plate 403 is pushed, so that the limiting rack 407 on the rotating plate 403 is meshed with the main gear 402, and the moving plate 405 is limited to move.

A scraper is installed at the first end of the conveying plate 106, a hole is formed at the second end of the conveying plate 106, and a vibrating plate is further arranged on the conveying plate 106 and used for conveying soil.

The working principle is as follows: the motor 307 is started to drive the middle screw 301 and the two side screws 302 to rotate, the height of the moving plate 405 is adjusted by pulling the rotating plate 403 and rotating the rotating plate 403, after adjustment, the rotating plate 403 is pushed in, the position of the moving plate 405 is fixed, the middle screw 301 and the side screws 302 are driven by the moving plate 405 to move, so that the cable trench is excavated, after the middle screw 301 and the side screws 302 move to the proper depth, the pushing device moves integrally, soil excavation is performed by using the middle screw 301 and the side screws 302, meanwhile, the rocker 201 is rotated, the telescopic main rod 211 and the telescopic auxiliary rod 212 are controlled to rotate, the telescopic main rod 211 is controlled to extend the telescopic auxiliary rod 212, so that the lower gear 217 is in contact with the ground, the movement of the cable is controlled by the rotation of the lower gear 217, the excavated soil is scraped from the middle screw 301 and the side screws 302 by the scraper of the conveying plate 106, the excavated soil is conveyed by the vibrating plate on the conveying plate 106, the cable falls through the hole of the conveying plate 106, the falling position is the buried position, so that the cable is finally, the cable groove 105 is swept, and the cable is arranged to facilitate the scattering of the scattered soil is arranged on the conveying plate 105.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a distribution is cable laying device for power supply, includes frame subassembly (1), lays subassembly (2), digs native subassembly (3) and adjusting part (4), its characterized in that: frame subassembly (1) including base (102), base (102) go up to rotate and install subassembly (3) of digging earth, subassembly (3) of digging earth includes middle screw rod (301), middle screw rod (301) rotate and install on adjusting part (4), adjusting part (4) are including adjusting support (401), adjust support (401) fixed mounting on base (102), still include on frame subassembly (1) and sweep flat board (105) and delivery board (106), sweep flat board (105) and rotate and connect on sweeping flat support (104), sweep flat support (104) fixed connection on base (102), delivery board (106) fixed connection is on base (102), it includes flexible mobile jib (211) to lay subassembly (2), flexible mobile jib (211) rotates and connects on base (102), carry out the excavation work of cable pit through subassembly (3) of digging earth, carry out the delivery board (106) with the soil of digging up and carry out the cable wire through laying assembly (2) after putting down delivery board (106) the earth of delivery, on the earth that the cable wire was put down, sweep flat cable wire is covered at last.

2. A cable laying device for distribution and supply of power according to claim 1, characterized in that: the cable fixing device is characterized in that a cable placing frame (101) is fixedly connected to the base (102), a cable coil (103) is rotatably mounted on the cable placing frame (101), and a cable support (107) is fixedly connected to the base (102).

3. A cable laying device for distribution and supply of power according to claim 1, characterized in that: lay subassembly (2) still include rocker (201), rocker (201) fixed connection is on axis of rotation (202), axis of rotation (202) are rotated and are connected on first supporting shoe (203) and fourth supporting shoe (220), first supporting shoe (203) fixed connection is on base (102), fourth supporting shoe (220) also fixed connection is on base (102), be close to first bevel gear of one end fixedly connected with (204) of fourth supporting shoe (220) on axis of rotation (202), go back fixedly connected with second supporting shoe (219) on fourth supporting shoe (220).

4. A cable laying device for distribution and supply of power according to claim 3, characterized in that: second supporting shoe (219) on rotate and be connected with and lay screw rod (206), lay screw rod (206) first end fixedly connected with second bevel gear (205), the second end of laying screw rod (206) rotates and connects on third supporting shoe (207), it has sliding block (208) still to slide connection on screw rod (206) to lay, the first end that is connected with connecting rod (209) rotates on sliding block (208), the second end of connecting rod (209) rotates and connects on the first end of rotating rod (210), the second end fixed connection of rotating rod (210) is on flexible mobile jib (211), flexible mobile jib (211) rotates and connects on base (102).

5. A cable laying device for distribution and supply of power according to claim 4, characterized in that: the telescopic main rod (211) on sliding connection have flexible auxiliary rod (212), the first end of fixedly connected with upper spring (222) on flexible auxiliary rod (212), the second end fixed connection of upper spring (222) is on last installation piece (213), go up on installation piece (213) and keep away from one end fixed connection of upper spring (222) and go up slide rod (221), go up slide rod (221) sliding connection in the hole on flexible auxiliary rod (212), it is connected with upper guide wheel (215) and last gear (214) still to rotate on installation piece (213), still fixedly connected with down the first end of spring (223) on flexible auxiliary rod (212), the second end fixed connection of lower spring (223) is on installation piece (216) down, still fixedly connected with lower slide rod (224) on lower installation piece (216), lower slide rod (224) sliding connection is in the hole on flexible auxiliary rod (212), lower installation piece (216) go up sliding connection and have down gear (217) and lower guide wheel (218).

6. A cable laying device for distribution and supply of power according to claim 1, characterized in that: middle screw rod (301) rotate and install on movable plate (405), still rotate on movable plate (405) and install side screw rod (302) and transmission shaft (303), connect through the belt between middle screw rod (301) and side screw rod (302), be connected through the belt between side screw rod (302) and transmission shaft (303), still sliding connection has drive screw rod (305) on movable plate (405), drive screw rod (305) fixed mounting is on transmission main shaft (304), it is connected with first transmission shaft (308) to rotate on base (102), second transmission shaft (311), second transmission main shaft (310) and motor shaft (309), it is connected with motor (307) to rotate on motor shaft (309).

7. A cable laying device for distribution and supply of power according to claim 1, characterized in that: the movable plate (405) is connected with a rotating plate (403) in a sliding mode, a limiting rack (407) is fixedly connected onto the rotating plate (403), an adjusting screw (406) is further connected onto the rotating plate (403) in a sliding mode, a main gear (402) is further connected onto the movable plate (405) in a rotating mode, an adjusting support (401) is fixedly connected onto the base (102), and a rack (404) is fixedly connected onto the adjusting support (401).

8. A cable laying device for distribution and supply of power according to claim 1, characterized in that: the first end of the conveying plate (106) is provided with a scraper, the second end of the conveying plate (106) is provided with a hole, and the conveying plate (106) is also provided with a vibrating plate for conveying soil.