CN112897256A

CN112897256A - Automatic pay-off and take-up device for geophysical exploration

Info

Publication number: CN112897256A
Application number: CN202110058151.2A
Authority: CN
Inventors: 石磊
Original assignee: Beijing Saar Technology Co ltd
Current assignee: Beijing Saar Technology Co ltd
Priority date: 2021-01-16
Filing date: 2021-01-16
Publication date: 2021-06-04

Abstract

The invention discloses an automatic winding and unwinding device for geophysical exploration, which comprises a winding box, wherein a winding roller is rotationally connected in the winding box, rotating shafts are fixed on two sides of the winding box and rotate in the winding box, a first mounting cover and a second mounting cover are respectively fixed on the rotating shafts of the winding box, which correspond to two ends of the winding roller, a driving motor is mounted on the first mounting cover, a connecting shaft is fixed at the output end of the driving motor, and a first square shaft is connected on the connecting shaft in a sliding manner. According to the invention, the two fastening rings are screwed and movably matched, the fastening rings can move through the fixed shaft, so that the first square shaft is separated from the rotating shaft, the rotating handle inserts the second square shaft into the rotating shaft, and the winding roller can be driven by the rotating handle to rotate and wind the cable, so that even if a field driving motor cannot be used, the cable winding and unwinding work can be manually carried out, the problem that the cable cannot be wound due to electric winding failure is avoided, and the cable winding and unwinding device is more flexible to use.

Description

Automatic pay-off and take-up device for geophysical exploration

Technical Field

The invention relates to the technical field of pay-off and take-up lines, in particular to an automatic pay-off and take-up device for geophysical exploration.

Background

In the geophysical exploration process, different devices are often required to be used for different terrains, when the exploration devices are used, paying-off work is required in advance, cables need to be retracted after the use is finished, and a take-up and pay-off device needs to be used in the paying-off and paying-off process;

in order to improve the efficiency of taking up and paying off, generally adopt automatic winding device, but when open-air geological exploration, if the condition that takes place to lack the electricity, just influence the rolling of cable, also be inconvenient for the even rolling of cable simultaneously.

Disclosure of Invention

The invention aims to solve the problems in the prior art, and provides an automatic take-up and pay-off device for geophysical exploration.

In order to achieve the purpose, the invention adopts the following technical scheme:

an automatic winding and unwinding device for geophysical exploration comprises a winding box, wherein a winding roller is rotatably connected in the winding box, rotating shafts are fixedly arranged on two sides of the winding box and rotate in the winding box, a first mounting cover and a second mounting cover are respectively fixed on the winding box corresponding to the rotating shafts at two ends of the winding roller, a driving motor is mounted on the first mounting cover, a connecting shaft is fixed at the output end of the driving motor, a first square shaft is slidably connected on the connecting shaft, square shaft holes are respectively formed in the two rotating shafts, a rotating handle is rotatably connected on the second mounting cover, a fixed cover is mounted on the second mounting cover corresponding to the rotating handle, the rotating handle is connected into the fixed cover and is fixedly provided with a blocking head, a second square shaft is fixed on the blocking head and penetrates out of the fixed cover, a guide shaft is fixed on one side of the winding box, which is positioned on the winding roller, the guide shaft is connected with a wire guide head in a sliding mode, and a wire guide opening is formed in the wire guide head.

Preferably, the coiling box is located one side of wire guide and is fixed with the dead lever, it is connected with the carousel to rotate on the dead lever, the one end of the relative dead lever of carousel is fixed with the shifting shaft, the lower extreme of wire guide is fixed with branch, one side that the lower extreme of branch is close to the carousel is fixed with the fixed pin, the position rotation that the coiling box is located between branch and the carousel is connected with the shifting rod, the slip recess has all been seted up to the both sides of shifting rod, and shifting shaft and fixed pin are located the slip recess of shifting rod both sides respectively, the position fixation that the carousel corresponds the dead lever has the rotation post, and rotates the post and rotate on the dead lever.

Preferably, the upper end and the lower end of the first square shaft are both fixed with a fixed shaft, the fixed shaft slides on the connecting shaft, the connecting shaft is in threaded connection with fastening rings at two sides of the fixed shaft, and the connecting shaft is provided with a sliding groove corresponding to the fixed shaft.

Preferably, the rolling box is located one side of wind-up roll and rotates and be connected with the dwang, be fixed with two solid fixed cylinders of symmetry on the dwang, gu the equal sliding connection of fixed cylinder has the slide bar, two the one end that solid fixed cylinder was kept away from to the slide bar rotates jointly and is connected with the line ball pole, the slide bar is located solid fixed cylinder and all is fixed with the connector, gu the fixed cylinder is located and has placed the spring between connector and the solid fixed cylinder inner wall.

Preferably, the fixed cover is in threaded connection with two positioning bolts, and the distance from the two positioning bolts to the inner wall of the fixed cover is the same as the thickness of the stopper.

Preferably, a chain wheel is installed on the rotating shaft in the second installation cover, a first chain is sleeved on the rotating shaft, the winding box is located at one end, far away from the rotating shaft, of the first chain, and is connected with a first shaft body in a rotating mode, a chain wheel corresponding to the first chain is fixed on the first shaft body, a driving bevel gear is fixed at one end, located in the winding box, of the first shaft body, a second shaft body is fixed at a position, close to the driving bevel gear, of the winding box, a driven bevel gear meshed with the driving bevel gear is fixed on the second shaft body, a second chain is connected onto the second shaft body, one end, far away from the second shaft body, of the second chain is connected onto the rotating column, and chain wheels corresponding to the second chain are fixed on the rotating column and the second.

Preferably, a torsion spring is fixed between the two ends of the rotating rod and the inner wall of the winding box.

Preferably, a plurality of shifting pins are fixed on the outer wall of the fastening ring.

Compared with the prior art, the invention has the following advantages:

1. according to the invention, the two fastening rings are screwed and movably matched, the fastening rings can move through the fixed shaft, so that the first square shaft is separated from the rotating shaft, the second square shaft is inserted into the rotating shaft through the rotating handle, the positioning bolt is screwed to abut against the stop head, the rotating handle cannot move back and forth, and the rotating handle can drive the winding roller to rotate to wind cables, so that even if a driving motor cannot be used in the field, the winding and unwinding work can be carried out manually, the problem that the electric winding fails and the winding cannot be carried out is avoided, and the use is more flexible;

2. when the turntable rotates, the poke rod can be driven to swing through the poke shaft, the fixing pin can be driven to swing back and forth through the sliding groove in the poke rod, the wire guide head is driven to linearly move by the fixing pin due to the fact that the wire guide head slides on the fixing shaft, the cable penetrates through the wire guide head to be wound on the winding roller, and the wire guide head is driven to move back and forth through the supporting rod, so that the winding roller can uniformly and neatly arrange wires;

3. through line ball pole cooperation slide bar, spring, a fixed section of thick bamboo, can be so that the cable rolling in-process, the line ball pole can press on the cable, simultaneously along with going on of rolling, the line ball pole can drive the dwang and take place to rotate, and the cooperation torsional spring guarantees that the line ball pole stably presses on the cable, avoids the cable to take place loosely, guarantees the stability of cable rolling in-process.

Drawings

FIG. 1 is a structural diagram of an automatic take-up and pay-off device for geophysical exploration according to the present invention;

FIG. 2 is a side view of a turntable of the automatic take-up and pay-off device for geophysical exploration according to the present invention;

FIG. 3 is an enlarged view of part A of an automatic take-up and pay-off device for geophysical exploration according to the present invention;

FIG. 4 is an enlarged view of part B of an automatic take-up and pay-off device for geophysical exploration, according to the present invention;

FIG. 5 is a connection diagram of a support rod of an automatic take-up and pay-off device for geophysical exploration according to the present invention;

FIG. 6 is a schematic view of a sliding groove of an automatic take-up and pay-off device for geophysical exploration according to the present invention;

FIG. 7 is a first square shaft connection diagram of an automatic take-up and pay-off device for geophysical exploration according to the present invention;

FIG. 8 is an internal view of a fixed cylinder of the automatic take-up and pay-off device for geophysical exploration, which is provided by the invention.

In the figure: 1 winding box, 2 driving motor, 3 first mounting cover, 4 rotating shafts, 5 winding rollers, 6 wire pressing rods, 7 connectors, 8 sliding rods, 9 fixing cylinders, 10 rotating rods, 11 torsion springs, 12 guide shafts, 13 second chains, 14 wire guides, 15 turntables, 16 drive bevel gears, 17 first chains, 18 rotating handles, 19 second mounting covers, 20 supporting rods, 21 fixing rods, 22 connecting shafts, 23 fixing shafts, 24 fastening rings, 25 first square shafts, 26 shifting pins, 27 stoppers, 28 second square shafts, 29 positioning bolts, 30 fixing covers, 31 springs, 32 fixing pins, 33 shifting rods, 34 shifting shafts and 35 sliding grooves.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Referring to fig. 1-8, an automatic winding and unwinding device for geophysical exploration comprises a winding box 1, a winding roller 5 is rotatably connected in the winding box 1, the winding roller 5 is positioned at two sides of the winding box 1 and is fixed with a rotating shaft 4 and rotates in the winding box 1, the rotating shafts 4 of the winding box 1 corresponding to two ends of the winding roller 5 are respectively fixed with a first mounting cover 3 and a second mounting cover 19, a driving motor 2 is mounted on the first mounting cover 3, an output end of the driving motor 2 is fixed with a connecting shaft 22, a first square shaft 25 is slidably connected on the connecting shaft 22, two rotating shafts 4 are respectively provided with a square shaft hole, a rotating handle 18 is rotatably connected on the second mounting cover 19, a fixed cover 30 is mounted on the second mounting cover 19 corresponding to the rotating handle 18, the rotating handle 18 is connected into the fixed cover 30 and is fixed with a retaining head 27, a second square shaft 28 is fixed on the retaining head 27 and penetrates out of the fixed cover 30, one side that the rolling case 1 is located wind-up roll 5 is fixed with guiding axle 12, sliding connection has wire guide 14 on guiding axle 12, the wire guide has been seted up on the wire guide 14, when the first square axle 25 of connecting is connected with axis of rotation 4 on driving motor 2, accessible driving motor 2 drives wind-up roll 5 and carries out automatic rolling work, driving motor 2 lacks the unable during operation of electric power, can make first square axle 25 shift out axis of rotation 4, change in the second square axle 28 on 18 inserts axis of rotation 4, switch to manual operation mode, thereby even at the unable use of open-air driving motor 2, also can receive and release line work through manual, avoid taking place the unable problem of rolling of electronic rolling inefficacy.

Specifically, a fixing rod 21 is fixed on one side of the winding box 1, which is located on the wire guide 14, a rotating disc 15 is rotatably connected on the fixing rod 21, a shifting shaft 34 is fixed on one end of the rotating disc 15, which is opposite to the fixing rod 21, a supporting rod 20 is fixed on the lower end of the wire guide 14, a fixing pin 32 is fixed on one side of the lower end of the supporting rod 20, which is close to the rotating disc 15, a shifting rod 33 is rotatably connected on the position of the winding box 1, which is located between the supporting rod 20 and the rotating disc 15, sliding grooves 35 are formed on both sides of the shifting rod 33, the shifting shaft 34 and the fixing pin 32 are respectively located in the sliding grooves 35 on both sides of the shifting rod 33, a rotating column is fixed on the position of the rotating disc 15, which corresponds to the fixing rod 21, the rotating column rotates on the fixing rod 21, the shifting shaft 34 is driven by the rotating disc 15 to drive, the cable passes through wire head 14 rolling on wind-up roll 5, drives wire head 14 through branch 20 and carries out the round trip movement for it is more even neat when wind-up roll 5 lays wire.

Specifically, the upper end and the lower end of the first square shaft 25 are both fixed with the fixing shaft 23, the fixing shaft 23 slides on the connecting shaft 22, the connecting shaft 22 is located on the two sides of the fixing shaft 23 and is connected with the fastening ring 24 in a threaded manner, the connecting shaft 22 is provided with a sliding groove corresponding to the fixing shaft 23, the first square shaft 25 can drive the fixing shaft 23 to move through the fastening ring 24, and therefore the first square shaft 25 can be moved out of the rotating shaft 4 when the driving motor 2 cannot be used, and the manual operation mode can be switched.

Specifically, one side that rolling case 1 is located wind-up roll 5 is rotated and is connected with dwang 10, be fixed with two solid fixed cylinders 9 of symmetry on the dwang 10, the equal sliding connection of solid fixed cylinder 9 has slide bar 8, the one end that solid fixed cylinder 9 was kept away from to two slide bars 8 rotates jointly and is connected with wire pressing rod 6, slide bar 8 is located solid fixed cylinder 9 and all is fixed with connector 7, gu fixed cylinder 9 is located and has placed spring 31 between connector 7 and the solid fixed cylinder 9 inner wall, through spring 31 cooperation slide bar 8 and wire pressing rod 6, make wire pressing rod 6 can support on the cable when the cable rolling, can avoid the not hard up problem of cable rolling in-process emergence, the homogeneity and the regularity of better assurance cable rolling.

Specifically, the fixed cover 30 is connected with two positioning bolts 29 through threads, and the distance from the two positioning bolts 29 to the inner wall of the fixed cover 30 is the same as the thickness of the stopper 27, so that different positions of the stopper 27 are limited through the two positioning bolts 29, and the rotating handle 18 cannot move back and forth.

Specifically, a chain wheel is installed on the rotating shaft 4 in the second installation cover 19 and sleeved with a first chain 17, one end of the rolling box 1, which is located at the position far away from the rotating shaft 4, of the first chain 17 is rotatably connected with a first shaft body, the first shaft body is fixedly provided with the chain wheel corresponding to the first chain 17, one end of the first shaft body, which is located in the rolling box 1, is fixedly provided with a driving bevel gear 16, the position of the rolling box 1, which is close to the driving bevel gear 16, is fixedly provided with a second shaft body, the second shaft body is fixedly provided with a driven bevel gear meshed with the driving bevel gear 16, the second shaft body is connected with a second chain 13, one end of the second chain 13, which is far away from the second shaft body, is connected with the rotating column, the rotating column and the second shaft body are both fixedly provided with the chain wheel corresponding to the second chain 13, the rotating shaft 4 in the second installation cover 19 drives the first chain 17 and the, thereby rotating the turntable 15.

Specifically, be fixed with the torsional spring between the both ends of dwang 10 and the inner wall of rolling case 1, when wind-up roll 5 took place the diameter grow along with the rolling of cable, line ball pole 6 can drive dwang 10 and take place to rotate, and the cooperation torsional spring can make line ball pole 6 support all the time on the cable, avoids the cable loose. A plurality of toggle pins 26 are fixed on the outer wall of the fastening ring 24, and the toggle pins 26 are convenient for driving the fastening ring 24 to rotate.

When the winding and unwinding device is used, the driving motor 2 drives the connecting shaft 22, the first square shaft 25 and the rotating shaft 4 to rotate, so that the winding and unwinding roll 5 can perform winding and unwinding work, the connecting shaft 22 at one end opposite to the driving motor 2 drives the first chain 17, the drive bevel gear 16, the second chain 13 and the turntable 15 to drive through the chain wheels, when the turntable 15 rotates, the poking rod 33 can be driven by the poking shaft 34 to swing, the fixing pin 32 can be driven to swing back and forth through the sliding groove 35 on the poking rod 33, the fixing pin 32 drives the wire guide 14 to linearly move due to the fact that the wire guide 14 slides on the guide shaft 12, a cable penetrates through the wire guide 14 to be wound on the winding roll 5, the wire guide 14 is driven to move back and forth through the supporting rod 20, so that the winding roll 5 is more uniform in wiring, the wire pressing rod 6 is pressed on the cable, and the wire pressing rod, The spring 31 and the fixed cylinder 9 can prevent the cable from loosening in the cable winding process, ensure the stability in the cable winding process, when the driving motor 2 is not used, the first square shaft 25 can be moved by screwing the two fastening rings 24, the fastening rings 24 can be moved by the fixing shaft 23, the first square shaft 25 is separated from the rotating shaft 4, then, the set bolt 29 is loosened so that the rotating handle 18 can perform the inserting work, the second square shaft 28 is inserted onto the rotating shaft 4, the positioning bolt 29 is screwed to abut against the stopper 27, the rotating handle 18 cannot move back and forth, at the moment, the winding roller 5 can be driven by the rotating handle 18 to rotate and wind the cables, meanwhile, the rotating shaft 4 drives the wire guide head 14 to move through transmission, the wiring work of the wire guide head 14 is not influenced, so that the wire winding and unwinding work can be performed manually even if the driving motor 2 cannot be used in the field.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. An automatic winding and unwinding device for geophysical exploration comprises a winding box (1) and is characterized in that a winding roller (5) is rotationally connected in the winding box (1), rotating shafts (4) are fixed on two sides of the winding box (1) of the winding roller (5) and rotate in the winding box (1), a first mounting cover (3) and a second mounting cover (19) are respectively fixed on the rotating shafts (4) at two ends of the winding box (1) corresponding to the winding roller (5), a driving motor (2) is mounted on the first mounting cover (3), a connecting shaft (22) is fixed on the output end of the driving motor (2), a first square shaft (25) is connected on the connecting shaft (22) in a sliding mode, square shaft holes are formed in the two rotating shafts (4), a rotating handle (18) is connected on the second mounting cover (19) in a rotating mode, and a fixing cover (30) is mounted on the second mounting cover (19) corresponding to the rotating handle (18), the winding device is characterized in that the rotating handle (18) is connected into a fixed cover (30) and is fixedly provided with a blocking head (27), a second square shaft (28) is fixedly arranged on the blocking head (27) and penetrates out of the fixed cover (30), a guide shaft (12) is fixedly arranged on one side, located on the winding roller (5), of the winding box (1), a wire guide head (14) is connected onto the guide shaft (12) in a sliding mode, and a wire guide opening is formed in the wire guide head (14).

2. The automatic pay-off and pay-off device for geophysical exploration according to claim 1, wherein a fixed rod (21) is fixed on one side of the winding box (1) positioned on the wire guide head (14), a rotary disc (15) is rotatably connected onto the fixed rod (21), a shifting shaft (34) is fixed on one end of the rotary disc (15) opposite to the fixed rod (21), a support rod (20) is fixed on the lower end of the wire guide head (14), a fixed pin (32) is fixed on one side of the lower end of the support rod (20) close to the rotary disc (15), a shifting rod (33) is rotatably connected to the position of the winding box (1) positioned between the support rod (20) and the rotary disc (15), sliding grooves (35) are formed in both sides of the shifting rod (33), and the shifting shaft (34) and the fixed pin (32) are respectively positioned in the sliding grooves (35) on both sides of the shifting rod (33), the rotary plate (15) is fixed with a rotary column corresponding to the position of the fixed rod (21), and the rotary column rotates on the fixed rod (21).

3. The automatic take-up and pay-off device for geophysical exploration according to claim 1, wherein a fixing shaft (23) is fixed to each of the upper end and the lower end of the first square shaft (25), the fixing shaft (23) slides on the connecting shaft (22), fastening rings (24) are in threaded connection with the connecting shaft (22) on two sides of the fixing shaft (23), and a sliding groove corresponding to the fixing shaft (23) is formed in the connecting shaft (22).

4. The automatic winding and unwinding device for geophysical exploration according to claim 1, wherein a rotating rod (10) is rotatably connected to one side, located on a winding roller (5), of the winding box (1), two symmetrical fixed cylinders (9) are fixed on the rotating rod (10), sliding rods (8) are slidably connected to the fixed cylinders (9), one ends, far away from the fixed cylinders (9), of the two sliding rods (8) are rotatably connected with a wire pressing rod (6) together, the sliding rods (8) are located on the fixed cylinders (9) and are fixedly provided with connectors (7), and springs (31) are placed between the connectors (7) and the inner walls of the fixed cylinders (9) in the fixed cylinders (9).

5. The automatic take-up and pay-off device for geophysical exploration according to claim 1, wherein two positioning bolts (29) are connected to the fixed cover (30) in a threaded mode, and the distance from the two positioning bolts (29) to the inner wall of the fixed cover (30) is the same as the thickness of the stopper (27).

6. The automatic winding and unwinding device for geophysical exploration according to claim 2, wherein a chain wheel is installed on the rotating shaft (4) in the second installation cover (19) and sleeved with a first chain (17), the end of the winding box (1) which is located at the position far away from the rotating shaft (4) of the first chain (17) is rotatably connected with a first shaft body, the first shaft body is fixedly provided with the chain wheel corresponding to the first chain (17), the end of the first shaft body which is located in the winding box (1) is fixedly provided with a drive bevel gear (16), the position of the winding box (1) which is close to the drive bevel gear (16) is fixedly provided with a second shaft body, the second shaft body is fixedly provided with a driven bevel gear which is meshed with the drive bevel gear (16), the second shaft body is connected with a second chain (13), and the end of the second chain (13) which is far away from the second shaft body is connected on the rotating column, and chain wheels corresponding to the second chain (13) are fixed on the rotating column and the second shaft body.

7. The automatic take-up and pay-off device for geophysical exploration according to claim 4, characterized in that a torsion spring is fixed between the two ends of the rotating rod (10) and the inner wall of the rolling box (1).

8. An automatic pay-off and take-up device for geophysical exploration according to claim 3, characterized in that a plurality of tumbler pins (26) are fixed on the outer wall of the fastening ring (24).