CN211594856U

CN211594856U - Hydrology long-sight hole input type sensor mounting device

Info

Publication number: CN211594856U
Application number: CN201922270797.8U
Authority: CN
Inventors: 秋兴国; 赵旭; 黄润青; 吴兴; 郭艳艳
Original assignee: Xi'an Dakang Visualization Information Technology Co ltd; Xian University of Science and Technology
Current assignee: Xi'an Dakang Visualization Information Technology Co ltd; Xian University of Science and Technology
Priority date: 2019-12-17
Filing date: 2019-12-17
Publication date: 2020-09-29
Anticipated expiration: 2029-12-17

Abstract

The utility model discloses a hydrology long-sight hole input type sensor mounting device, which comprises a plate group arranged on a shelf; the plate group comprises a bottom plate, a left side plate and a right side plate which are connected to two sides of the upper surface of the bottom plate, and the bottom plate is provided with a through hole; the bottom of the plate group is provided with a screwing component, and the top of the plate group is provided with a wire retracting component; the tightening component and the take-up and pay-off component are provided with locking components; the cable is wound along the wire winding and unwinding assembly and then penetrates through the tightening assembly to be stopped in the hydrological observing hole. The utility model fixes the twisting rod and the rotating wheel through two bolts, thus solving the problems that the weight of the cable and the sensor is heavy and the operation of binding and unbinding the positioning pipe is difficult in the processes of paying off and taking up; the cable is wound on the rotating wheel for multiple circles, so that friction is increased, the acting force of personnel is effectively reduced, and the aim of saving labor is fulfilled.

Description

Hydrology long-sight hole input type sensor mounting device

Technical Field

The utility model belongs to the technical field of hydrology monitoring devices, a hydrology long-term hole of seeing is thrown into formula sensor installation device is related to.

Background

When the hydrological long-sight hole throwing-in type sensor is installed, the sensor is installed at a specified position below the ground surface by means of a cable of the sensor. And the water level burial depth of the hydrological observation hole ranges from dozens of meters to kilometers. For hydrological long observation holes with water level buried depth of more than 300 meters, the installation is difficult due to the fact that the weight of the sensor and the signal cable is large. When the sensor is installed, a plurality of people are often required to finish the installation by means of complicated tools such as a chain block and the like, and certain difficulty is caused to the fixing work of the sensor after the sensor is installed in place due to the large weight.

Therefore, a simple device is urgently needed to solve the installation problem of the long-line sensor.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a hydrology length is seen hole and is thrown into formula sensor installation device, it is hard to have solved the sensor that exists among the prior art and cable weight and lead to the installation greatly to and the problem of the fixed work operation difficulty after targetting in place.

The technical scheme adopted by the utility model is that the hydrological long observation hole input type sensor mounting device comprises a plate group arranged on a frame; the plate group comprises a bottom plate, a left side plate and a right side plate which are connected to two sides of the upper surface of the bottom plate, and the bottom plate is provided with a through hole; the bottom of the plate group is provided with a screwing component, and the top of the plate group is provided with a wire retracting component; the tightening component and the take-up and pay-off component are provided with locking components; the cable is wound along the wire winding and unwinding assembly and then penetrates through the tightening assembly to be stopped in the hydrological observing hole.

The tightening assembly comprises a tightening rod, one end of the tightening rod penetrates through the bottom of the left side plate and is mounted at the bottom of the right side plate, and the other end of the tightening rod is connected with one end of the first tightening handle; the other end of the first tightening handle is connected with a first tightening handle rod; a first twisted wire handle is sleeved on the first twisted handle rod.

The middle part of the tightening rod is connected with a ring, one end of the ring is connected with the tightening rod through a fork part, and the other end of the ring is an opening part.

The take-up and pay-off assembly comprises a rotating wheel, and one end of the rotating wheel is installed at the top of the left side plate through a first rotating shaft; the other end of the rotating wheel is arranged at the top of the right side plate through a second rotating shaft; the second rotating shaft is also connected with one end of a handle connecting rod, and the other end of the handle connecting rod is connected with a second tight-twisting handle rod; and a second stranded wire handle is sleeved on the second tight-twisting handle rod.

The first rotating shaft is provided with a first shaft sleeve, and the second rotating shaft is provided with a second shaft sleeve.

The outer edges of the two ends of the rotating wheel are respectively connected with a first baffle and a second baffle.

The diameter of the rotating wheel is gradually reduced from two ends to the middle part.

The locking assembly comprises a first bolt and a second bolt; the first bolt penetrates through the first limiting block or the second limiting block and is stopped at the tightening assembly; the first limiting block and the second limiting block are fixed on the left side plate; the second bolt passes through the wire retracting assembly and is stopped at the right side plate.

The utility model has the advantages that:

the utility model fixes the twisting rod and the rotating wheel through two bolts, thus solving the problems that the weight of the cable and the sensor is heavy and the operation of binding and unbinding the positioning pipe is difficult in the processes of paying off and taking up; the cable is wound on the rotating wheel for multiple circles, so that friction is increased, the acting force of personnel is effectively reduced, and the aim of saving labor is fulfilled.

Drawings

FIG. 1 is a schematic view of the installation device of the hydrological long observation hole drop-in sensor of the present invention;

FIG. 2 is a detailed view of a tightening rod of the hydrological long observation hole input type sensor mounting device of the present invention;

FIG. 3 is a front view of the structure of the hydrological long observation hole drop-in type sensor mounting device of the present invention;

FIG. 4 is a structural plan view of the hydrological long observation hole drop-in type sensor mounting device of the present invention;

fig. 5 is a left side view of the structure of the hydrology long sight hole input type sensor installation device of the utility model.

In the drawing, 1, a bottom plate, 2, a left side plate, 3, a right side plate, 4, a second shaft sleeve, 5, a first limiting block, 6, a second limiting block, 7, a first bolt, 8, a tightening rod, 9, a first tightening handle, 10, a first tightening handle rod, 11, a first twisted wire handle, 12, a first shaft sleeve, 13, a first rotating shaft, 14, a first baffle, 15, a rotating wheel, 16, a second baffle, 17, a second rotating shaft, 18, a handle connecting rod, 19, a second bolt, 20, a second tightening handle rod, 21, a second twisted wire handle and 22, a positioning pipe are arranged.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1 and 3, the hydrological long sight hole drop-in type sensor mounting device comprises a plate group mounted on a frame; the plate group comprises a bottom plate 1, a left side plate 2 and a right side plate 3 which are connected to two sides of the upper surface of the bottom plate 1, the bottom plate 1 is provided with a through hole for a cable to pass through, and in the embodiment, the bottom plate 1, the left side plate 2 and the right side plate 3 are detachably fixed on the top of a frame through bolts; the bottom of the plate group is provided with a stranding assembly for performing stranding operation on cables, and the top of the plate group is provided with a wire retracting assembly for performing retracting operation on the cables and the sensors; the tightening component and the wire take-up and pay-off component are provided with locking components for locking the positions of the tightening component and the wire take-up and pay-off component; the cable is wound along the wire winding and unwinding assembly and then penetrates through the tightening assembly to be stopped in the hydrological observing hole.

As shown in fig. 2-3, the tightening assembly comprises a tightening rod 8, one end of the tightening rod 8 penetrates through the bottom of the left side plate 2 and is mounted at the bottom of the right side plate 3, and the other end of the tightening rod 8 is connected with one end of a first tightening handle 9; the other end of the first tightly twisting handle 9 is connected with a first tightly twisting handle rod 10; a first twisted handle 11 is sleeved on the first twisted handle rod 10, and the length of the power arm is larger than that of the resistance arm through the first twisted handle 9 by utilizing the lever balance principle, so that the purpose of saving manpower is achieved.

The ring is connected at 8 middle parts of hank pole, ring one end is passed through fork portion and is connected with hank pole 8, and the other end is the opening, both can provide frictional force for the cable through fork portion, also can remove or put into the cable through the opening, and is not influenced to the operation of receiving and releasing the line.

The wire take-up and pay-off assembly comprises a rotating wheel 15, and one end of the rotating wheel 15 is installed at the top of the left side plate 2 through a first rotating shaft 13; the other end of the rotating wheel 15 is arranged at the top of the right side plate 3 through a second rotating shaft 17, and rolling is realized through the first rotating shaft 13 and the second rotating shaft 17; the second rotating shaft 17 is also connected with one end of a handle connecting rod 18, and the other end of the handle connecting rod 18 is connected with a second tight-twisting handle rod 20; the second twisted handle 21 is sleeved on the second tight-twisting handle rod 20, and the length of the power arm is larger than that of the resistance arm through the handle connecting rod 18, so that the purpose of saving manpower is achieved.

The first shaft 13 carries the first sleeve 12 and the second shaft 17 carries the second sleeve 4.

The outer edges of the two ends of the rotating wheel 15 are respectively connected with a first baffle plate 14 and a second baffle plate 16, so that the cable can be effectively prevented from slipping off the rotating wheel 15 in the cable winding and unwinding process.

The diameter of the rotating wheel 15 is gradually reduced from two ends to the middle, so that the cable can be prevented from moving or deviating along the axial direction on the circumference of the rotating wheel 15.

The locking assembly comprises a first bolt 7 and a second bolt 19; the first bolt 7 penetrates through the first limiting block 5 or the second limiting block 6 and is stopped at the tightening rod 8, namely, the tightening rod 8 is provided with a hole for the first bolt 7 to insert; the first limiting block 5 and the second limiting block 6 are fixed on the left side plate 2, in this example, the top and the side of the tightening rod 8; the second bolt 19 passes through the handle connecting rod 18 and is stopped at the right side plate 3, namely the handle connecting rod 18, and the right side plate 3 is provided with a through hole for the second bolt 19 to pass through.

The use process of the device is as follows:

(1) preparing before paying off:

as shown in fig. 1-4, the plate set is mounted on a frame during paying off, so that the through hole on the bottom plate 1 is opposite to the hydrologic long observation hole, the hydrologic long observation hole is opposite to the ring in the middle of the tightening rod 8, the first bolt 7 is inserted into the first limit block 5 and is stopped in the hole on the tightening rod 8, the cable of the sensor is wound on the rotating wheel 15 for one circle (several circles can be wound to increase friction force), and then the cable penetrates out from the fork part of the tightening rod 8, see fig. 4. The beneficial friction is generated between the cable and the fork part of the tightening rod 8 in the paying-off process through the winding way; thereby reducing manpower.

(2) Sensor unwrapping wire process:

when the cable is paid off, the handle connecting rod 18 and the right side plate 3 need to be locked by the second bolt 19, the free end of the cable is pulled to convey the cable to the hydrological long observation hole, and when the sensor is about to reach a specified position, the free end of the cable is tensioned and the cable feeding is stopped. At this time, the first bolt 7 on the tightening rod 8 is taken down, the first twisted wire handle 11 is shaken to enable the cable to be wound on the tightening rod 8 for about two circles, the first bolt 7 is inserted back to lock the cable, and the dead weight of the cable and the sensor in the hydrological long sight hole is borne by the tightening rod 8. And continuously releasing a certain length of cable, and tying the cable into a horseshoe buckle to penetrate a section of the positioning pipe 22, and buckling.

After tying up and detaining the completion, taut cable free end to take off first bolt 7 on the hank pole 8, wave first hank line handle 11 again, pull down winding cable from hank pole 8, insert back hank pole 8 with first bolt 7 after pulling down, shift out the cable from hank pole 8's opening. And releasing the cable, releasing the positioning tube 22 in place (at the hydrological observation hole), and ensuring that about 2m of redundant cable (convenient to use when taking up the cable) is bound and buckled at the tail end of the cable to complete the paying-off.

If the speed of unwrapping wire is too fast, rotatable tightening rod 8 and horizontal plane become certain angle (first bolt 7 is arranged in second stopper 6) to increase the frictional force of cable and tightening rod 8.

(3) A sensor wire-rewinding process:

twine many rings with the cable on runner 15, the same unwrapping wire of concrete wire winding mode, handheld cable free end is pulled backward, wave second stranded conductor handle 21 simultaneously, when tying up the knot and rising between tightening rod 8 and runner 15, pass the ring at 8 middle parts of tightening rod with the cable, and wave first stranded conductor handle 11, make the cable twine about the round on tightening rod 8, and insert first bolt 7 and pin the cable, the dead weight of cable and sensor in the long hole of seeing of hydrology this moment is whole to be undertaken by tightening rod 8.

The binding clasp and the positioning tube 22 are then removed, the first bolt 7 is removed, the first twisting handle 11 is shaken to remove the cable wound on the twisting rod 8, the first bolt 7 is inserted back again, and the twisting rod 8 is locked. The free end of the cable is continuously held by hands to be pulled backwards, and the second stranded wire handle 21 is rotated to complete the wire rewinding.

Claims

1. The hydrological long observation hole input type sensor mounting device is characterized by comprising a plate group mounted on a frame; the plate group comprises a bottom plate (1), a left side plate (2) and a right side plate (3) which are connected to two sides of the upper surface of the bottom plate (1), and the bottom plate (1) is provided with a through hole; the bottom of the plate group is provided with a screwing component, and the top of the plate group is provided with a wire retracting component; the tightening component and the take-up and pay-off component are provided with locking components; the cable is wound along the wire winding and unwinding assembly and then penetrates through the tightening assembly to be stopped in the hydrological observing hole.

2. The hydrological long sight hole projection type sensor mounting device according to claim 1, wherein the tightening assembly comprises a tightening rod (8), one end of the tightening rod (8) penetrates through the bottom of the left side plate (2) and is mounted at the bottom of the right side plate (3), and the other end of the tightening rod (8) is connected with one end of a first tightening handle (9); the other end of the first tightly twisting handle (9) is connected with a first tightly twisting handle rod (10); and a first twisted wire handle (11) is sleeved on the first twisted handle rod (10).

3. The hydrological long sight hole projection type sensor mounting device according to claim 2, wherein a ring is connected to the middle of the tightening rod (8), one end of the ring is connected to the tightening rod (8) through a fork, and the other end of the ring is an opening.

4. The hydrological long sight hole projection type sensor mounting device according to claim 1, wherein the wire retracting assembly comprises a rotating wheel (15), one end of the rotating wheel (15) is mounted on the top of the left side plate (2) through a first rotating shaft (13); the other end of the rotating wheel (15) is arranged at the top of the right side plate (3) through a second rotating shaft (17); the second rotating shaft (17) is also connected with one end of a handle connecting rod (18), and the other end of the handle connecting rod (18) is connected with a second tight-twisting handle rod (20); and a second stranded wire handle (21) is sleeved on the second tight-twisting handle rod (20).

5. A hydrological longhole drop-in sensor mounting device according to claim 4, wherein the first shaft (13) is provided with a first bushing (12) and the second shaft (17) is provided with a second bushing (4).

6. The hydrological long sight hole drop-in sensor mounting device according to claim 4, wherein a first baffle (14) and a second baffle (16) are respectively connected to the outer edges of the two ends of the rotating wheel (15).

7. The hydrological longhole drop-in sensor mounting device according to claim 4, wherein the runner (15) is gradually reduced in diameter from both ends to the middle.

8. The hydrological longhole drop-in sensor mounting apparatus of claim 1, wherein the locking assembly comprises a first latch (7) and a second latch (19); the first bolt (7) penetrates through the first limiting block (5) or the second limiting block (6) and is stopped at the tightening assembly; the first limiting block (5) and the second limiting block (6) are fixed on the left side plate (2); the second bolt (19) passes through the wire take-up and pay-off assembly and is stopped at the right side plate (3).