阅读说明：本技术 一种磁吸式铁塔倾斜在线监测装置 (Magnetic type iron tower inclination on-line monitoring device ) 是由 黄玉城 于 2019-11-09 设计创作，主要内容包括：本发明公开了一种磁吸式铁塔倾斜在线监测装置,涉及设施监测领域。该磁吸式铁塔倾斜在线监测装置包括磁吸块、连接架、监测箱体、监测箱盖、调整旋钮和连接键轴,连接架的一侧开设有磁块放置槽,磁吸块安装在磁块放置槽内,连接架的另一侧设置有刻度安装座,监测箱体靠近连接架的一侧设置有安装台,刻度安装座与安装台之间通过调整旋钮、连接螺钉、连接键轴和螺帽转动安装,监测箱盖背面的顶部滑动安装有垂直摆针,监测箱盖背面的底部对称设置有右斜感应器与左斜感应器,监测箱体与监测箱盖通过封盖螺钉固定连接。该磁吸式铁塔倾斜在线监测装置具有在线监测功能,能记录所安装铁塔位置的倾斜度以及整个铁塔发生倾斜后的倾斜角度。(The invention discloses a magnetic iron tower inclination online monitoring device, and relates to the field of facility monitoring. This formula iron tower slope on-line monitoring device is inhaled to magnetism includes magnetism and inhales the piece, the link, the monitoring box, the monitoring case lid, adjust knob and connection key axle, the magnetic path standing groove has been seted up to one side of link, magnetism is inhaled the piece and is installed in the magnetic path standing groove, the opposite side of link is provided with the scale mount pad, one side that the monitoring box is close to the link is provided with the mount table, through adjust knob between scale mount pad and the mount table, connecting screw, connection key axle and nut rotate the installation, the top slidable mounting at the monitoring case lid back has perpendicular pendulum needle, the bottom symmetry at the monitoring case lid back is provided with oblique inductor in the right side and oblique inductor in the left side, the monitoring box passes through closing cap screw fixed connection with. The magnetic iron tower inclination on-line monitoring device has an on-line monitoring function and can record the inclination of the position of an installed iron tower and the inclination angle of the whole iron tower after inclination.)

1. The utility model provides a formula iron tower slope on-line monitoring device is inhaled to magnetism, includes magnetism piece (1), link (2), monitoring box (3), monitoring case lid (4), adjust knob (5) and connecting key axle (6), its characterized in that: a magnetic block placing groove (204) is formed in one side of the connecting frame (2), and the magnetic block (1) is installed in the magnetic block placing groove (204);

a scale mounting seat (201) is arranged on the other side of the connecting frame (2), a mounting table (302) is arranged on one side, close to the connecting frame (2), of the monitoring box body (3), and the scale mounting seat (201) and the mounting table (302) are rotatably mounted through an adjusting knob (5), a connecting screw (504), a connecting key shaft (6) and a nut (605);

the top slidable mounting at monitoring case lid (4) back has perpendicular balance needle (7), the bottom symmetry at monitoring case lid (4) back is provided with oblique inductor in the right side (403) and oblique inductor in the left side (404), monitoring box (3) and monitoring case lid (4) are through closing cap screw (407) fixed connection.

2. The online monitoring device for the inclination of the magnetic iron tower according to claim 1, characterized in that: the magnetic block (1) is T-shaped, the magnetic block placing groove (204) is also T-shaped and is matched with the magnetic block (1), and the front face of the magnetic block (1) protrudes out of the magnetic block placing groove (204) when the back face of the magnetic block (1) is abutted against the bottom of the magnetic block placing groove (204).

3. The online monitoring device for the inclination of the magnetic iron tower according to claim 1, characterized in that: the front surface of the scale installation seat (201) is provided with a key shaft rough hole (202), and the back surface of the scale installation seat (201) is provided with a key shaft fine hole (203).

4. The online monitoring device for the inclination of the magnetic iron tower according to claim 1, characterized in that: the key shaft mounting hole (303) matched with the connecting key shaft (6) is formed in the mounting table (302), the accommodating bin (301) is formed in the front face of the monitoring box body (3), the optical axis fixing hole (304) is formed in the top of the front face of the accommodating bin (301), and first screw holes (305) are formed in four corners of the front face of the monitoring box body (3).

5. The online monitoring device for the inclination of the magnetic iron tower according to claim 1, characterized in that: observation groove (406) have been seted up in the front of monitoring case lid (4), monitoring case lid (4) front four corners seted up with first screw hole (305) assorted second screw hole (405), monitoring case lid (4) back be provided with location axle (401), the one end that monitoring case lid (4) was kept away from in location axle (401) is provided with rotates optical axis (402) with optical axis fixed orifices (304) assorted.

6. The online monitoring device for the inclination of the magnetic iron tower according to claim 1, characterized in that: the front surface of the adjusting knob (5) is provided with a screw countersunk hole (502) and a third screw hole (503) which are matched with a connecting screw (504), the back surface of the adjusting knob (5) is provided with a connecting square hole (505), and one end of the adjusting knob (5) is provided with a scale pointer (501).

7. The online monitoring device for the inclination of the magnetic iron tower according to claim 1, characterized in that: one end of the connecting key shaft (6) is provided with a key shaft thin end (602) matched with the key shaft thin hole (203), one end of the connecting key shaft (6) far away from the key shaft thin end (602) is provided with a key shaft thick end (601) matched with the key shaft thick hole (202), one side of the key shaft thick end (601) far away from the key shaft thin end (602) is provided with a connecting block (603) matched with the connecting square hole (505), a fourth screw hole (604) corresponding to the third screw hole (503) is formed in the connecting block (603), threads are formed in the key shaft thin end (602), and the nut (605) is matched with the key shaft thin end (602).

8. The online monitoring device for the inclination of the magnetic iron tower according to claim 1, characterized in that: the top of perpendicular pendulum needle (7) is provided with shaft hole seat (701), shaft hole seat (701) openly seted up with rotation optical axis (402) assorted light shaft hole (702), the bottom of perpendicular pendulum needle (7) is provided with counter weight ball (704), indicator groove (703) have been seted up on the front of perpendicular pendulum needle (7).

9. The online monitoring device for the inclination of the magnetic iron tower according to claim 1, characterized in that: the optical axis locating device is characterized in that the shaft hole seat (701) is installed on a rotating optical axis (402) through an optical axis hole (702), an optical axis sleeve (408) is installed at one end, far away from the locating shaft (401), of the rotating optical axis (402) in a rotating mode, the front face of the shaft hole seat (701) is abutted to the locating shaft (401), and the back face of the shaft hole seat (701) is abutted to the optical axis sleeve (408).

Technical Field

The invention relates to the technical field of facility monitoring, in particular to a magnetic iron tower inclination online monitoring device.

Background

Iron towers are common in daily life, such as mobile phone signal towers, power towers and the like, but the iron towers are often inclined due to long-term use and external force factors, so that great danger and influence are caused, and the inclination of a railway bridge needs to be monitored.

The invention discloses a magnetic iron tower inclination on-line monitoring device, which is difficult to install and use, cannot measure the inclination angle of an installed iron tower, cannot monitor the inclination of the iron tower on line, cannot obtain the inclination angle, cannot control the factors, and aims to overcome the defects of the prior art.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention discloses a magnetic iron tower inclination online monitoring device, which aims to solve the problems in the background technology.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a magnetism is inhaled formula iron tower slope on-line monitoring device, includes magnetism and inhales piece, link, monitoring box, monitoring case lid, adjust knob and connection key axle, the magnetic path standing groove has been seted up to one side of link, magnetism is inhaled the piece and is installed in the magnetic path standing groove, the opposite side of link is provided with the scale mount pad, one side that the monitoring box is close to the link is provided with the mount table, rotate the installation through adjust knob, connecting screw, connecting key axle and nut between scale mount pad and the mount table, the top slidable mounting at the monitoring case lid back has perpendicular pendulum needle, the bottom symmetry at the monitoring case lid back is provided with oblique inductor in the right side and oblique inductor in the left side, the monitoring box passes through closing cap screw fixed connection with the monitoring case lid.

Preferably, the magnetic block is T-shaped, the magnetic block placement groove is T-shaped and is matched with the magnetic block, and the front face of the magnetic block protrudes out of the magnetic block placement groove when the back face of the magnetic block abuts against the bottom of the magnetic block placement groove.

Preferably, the front surface of the scale installation seat is provided with a key shaft rough hole, and the back surface of the scale installation seat is provided with a key shaft fine hole.

Preferably, the mounting table is provided with key shaft mounting holes matched with the connecting key shafts, the front face of the monitoring box body is provided with a containing bin, the top of the front face of the containing bin is provided with an optical axis fixing hole, and four corners of the front face of the monitoring box body are provided with first screw holes.

Preferably, the observation groove has been seted up in the front of monitoring case lid, the positive four corners of monitoring case lid is seted up with first screw hole assorted second screw hole, monitoring case lid back is provided with the location axle, the one end that the monitoring case lid was kept away from to the location axle is provided with the rotation optical axis that matches with the optical axis fixed orifices.

Preferably, the front surface of the adjusting knob is provided with a screw countersunk hole and a third screw hole which are matched with the connecting screw, the back surface of the adjusting knob is provided with a connecting square hole, and one end of the adjusting knob is provided with a scale pointer.

Preferably, one end of the connecting key shaft is provided with a key shaft thin end matched with the key shaft thin hole, one end of the connecting key shaft, far away from the key shaft thin end, is provided with a key shaft thick end matched with the key shaft thick hole, one side of the key shaft thick end, far away from the key shaft thin end, is provided with a connecting square block matched with the connecting square hole, the connecting square block is provided with a fourth screw hole corresponding to the third screw hole, the key shaft thin end is provided with a thread, and the nut is matched with the key shaft thin end.

Preferably, the top of perpendicular pendulum needle is provided with the shaft hole seat, the smooth shaft hole that openly offers and rotate the optical axis assorted, the bottom of perpendicular pendulum needle is provided with the counter weight ball, the instruction groove has been seted up on the front of perpendicular pendulum needle.

Preferably, the shaft hole seat is installed on the rotating optical axis through the optical axis hole, the end, far away from the positioning shaft, of the rotating optical axis is rotatably provided with the optical axis sleeve, the front face of the shaft hole seat is abutted to the positioning shaft, and the back face of the shaft hole seat is abutted to the optical axis sleeve.

The invention discloses a magnetic iron tower inclination online monitoring device, which has the following beneficial effects:

1. this magnetism is inhaled formula iron tower slope on-line monitoring device rotates optical axis, perpendicular balance staff, counter weight ball, left sensor and right sensor etc. to one side through the setting, can make the device always detect the slope condition of iron tower, has realized the on-line monitoring function and the simple to operate of device.

2. This magnetism is inhaled formula iron tower slope on-line monitoring device has realized taking place the angle of slope to the inclination of monitoring box body vertical angle's adjustment, record installation iron tower position and whole iron tower through setting up adjust knob, scale pointer, scale mount pad, observation groove and instruction groove etc..

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the present invention after installation;

FIG. 3 is a front view of the present invention;

FIG. 4 is a schematic view of the structure of the connecting frame of the present invention;

FIG. 5 is a bottom view of the attachment bracket of the present invention;

FIG. 6 is a schematic view of the monitoring box structure of the present invention;

FIG. 7 is a schematic view of a monitoring chamber lid according to the present invention;

FIG. 8 is a schematic view of an adjusting knob according to the present invention;

FIG. 9 is a rear elevational view of the adjustment knob of the present invention;

FIG. 10 is a schematic view of the shaft structure of the connecting key of the present invention;

FIG. 11 shows a vertical wobble pin of the present invention

The structure is schematic.

In the figure: 1 magnetic block, 2 connecting frame, 201 scale mounting base, 202 key shaft rough hole, 203 key shaft fine hole, 204 magnetic block placing groove, 3 monitoring box body, 301 accommodating bin, 302 mounting table, 303 key shaft mounting hole, 304 optical axis fixing hole, 305 first screw hole, 4 monitoring box cover, 401 positioning shaft, 402 rotating optical axis, 403 right oblique sensor, 404 left oblique sensor, 405 second screw hole, 406 observation groove, 407 cover screw, 408 optical shaft sleeve, 5 adjusting knob, 501 scale pointer, 502 screw countersunk hole, 503 third screw hole, 504 connecting screw, 505 connecting square hole, 6 connecting key shaft, 601 key shaft rough end, 602 key shaft thin end, 603 connecting block, 604 fourth screw hole, 605 screw cap, 7 vertical swing pin, 701 shaft hole base, 702 optical shaft hole, 703 indicating groove and 704 matching ball.

Detailed Description

The embodiment of the invention provides a magnetic attraction type iron tower inclination online monitoring device, which comprises a magnetic attraction block 1, a connecting frame 2, a monitoring box body 3, a monitoring box cover 4, an adjusting knob 5 and a connecting key shaft 6, wherein a magnetic block placing groove 204 is formed in one side of the connecting frame 2, the magnetic attraction block 1 is installed in the magnetic block placing groove 204, the magnetic attraction block 1 is T-shaped, the magnetic block placing groove 204 is also T-shaped and is matched with the magnetic attraction block 1, and the front surface of the magnetic attraction block 1 protrudes out of the magnetic block placing groove 204 when the back surface of the magnetic attraction block 1 is abutted against the bottom of the magnetic block placing groove 204, so that a part of the magnetic attraction block 1 can be magnetically connected with a monitored iron tower through magnetism after being installed, and the installation is simple.

The scale mounting base 201 and the mounting platform 302 are rotatably mounted through the adjusting knob 5, the connecting screw 504, the connecting key shaft 6 and the nut 605, the scale mounting base 201 is arranged on the other side of the connecting frame 2, the scale pointer 501 is arranged at one end of the adjusting knob 5, and the scale pointer 501 points to the angle on the scale mounting base 201, so that the inclination angle of the mounted iron tower and the inclination angle of the whole iron tower can be conveniently recorded.

The front surface of the adjusting knob 5 is provided with a screw countersunk hole 502 and a third screw hole 503 which are matched with the connecting screw 504, the back surface of the adjusting knob 5 is provided with a connecting square hole 505, one side of the thick end 601 of the key shaft, which is far away from the thin end 602 of the key shaft, is provided with a connecting square block 603 which is matched with the connecting square hole 505, the connecting square block 603 is provided with a fourth screw hole 604 which is corresponding to the third screw hole 503, and the adjusting knob 5 is connected with the connecting key shaft 6 through the connecting screw 504.

The front surface of the scale mounting seat 201 is provided with a key shaft thick hole 202, the back surface of the scale mounting seat 201 is provided with a key shaft thin hole 203, one end of the connecting key shaft 6 is provided with a key shaft thin end 602 matched with the key shaft thin hole 203, one end of the connecting key shaft 6 far away from the key shaft thin end 602 is provided with a key shaft thick end 601 matched with the key shaft thick hole 202, the key shaft thin end 602 is provided with a thread, a nut 605 is matched with the key shaft thin end 602, the nut 605 can not rotate the adjusting knob 5 after being screwed, and the adjusting knob 5 can be rotated after being unscrewed.

The side of the monitoring box body 3 close to the connecting frame 2 is provided with a mounting table 302, and the mounting table 302 is provided with a key shaft mounting hole 303 matched with the connecting key shaft 6, so that the rotary adjusting knob 5 can synchronously drive the monitoring box body 3 to rotate.

The top of the back of the monitoring box cover 4 is provided with a vertical swing needle 7 in a sliding way, the back of the monitoring box cover 4 is provided with a positioning shaft 401, one end of the positioning shaft 401 far away from the monitoring box cover 4 is provided with a rotating optical axis 402 matched with the optical axis fixing hole 304, the top of the vertical swing needle 7 is provided with a shaft hole seat 701, the front of the shaft hole seat 701 is provided with an optical axis hole 702 matched with the rotating optical axis 402, the bottom of the vertical swing needle 7 is provided with a counterweight ball 704, the vertical pendulum array can be better arranged along the gravity direction under the action of the gravity of the counterweight ball 704, the shaft hole seat 701 is arranged on the rotating optical axis 402 through the optical axis hole 702, the optical axis sleeve 408 is rotatably arranged at one end, far away from the positioning shaft 401, of the rotating optical axis 402, the front face of the shaft hole seat 701 is abutted against the positioning shaft 401, the back face of the shaft hole seat 701 is abutted against the optical axis sleeve 408, the positioning shaft 401 and the optical axis sleeve 408 can position the vertical pendulum pin 7 and can not influence the free rotation of the vertical pendulum pin 7 along the gravity on the rotating optical axis 402.

The right oblique sensor 403 and the left oblique sensor 404 are symmetrically arranged at the bottom of the back of the monitoring box cover 4, and the right oblique sensor 403 and the left oblique sensor 404 are arranged so that when the iron tower inclines leftwards, the signal can be transmitted to a signal device through the left oblique sensor 404 and when the iron tower inclines rightwards, the signal can be transmitted to the signal device through the right oblique sensor 403.

This magnetism is inhaled formula iron tower slope on-line monitoring device rotates optical axis 402, perpendicular balance staff 7, counter weight ball 704, left oblique inductor 404 and right oblique inductor 403 etc. through setting up, can make the device detect the slope condition of iron tower at all times, has realized the on-line monitoring function and the simple to operate of device.

First screw hole 305 has all been seted up in the positive four corners of monitoring box 3, and the positive four corners of monitoring case lid 4 is seted up with first screw hole 305 assorted second screw hole 405, and monitoring box 3 passes through first screw hole 305, second screw hole 405 and closing cap screw 407 fixed connection with monitoring case lid 4.

The front of monitoring box 3 has been seted up and has been held storehouse 301, holds storehouse 301 and is in order to place perpendicular balance staff 7, rotate optical axis 402, the oblique inductor 403 in right side and left inductor 404 etc. holds the positive top in storehouse 301 and has seted up optical axis fixed orifices 304, and optical axis fixed orifices 304 is that place to rotate optical axis 402.

The front surface of the monitoring box cover 4 is provided with an observation groove 406, the front surface of the vertical swing needle 7 is provided with an indication groove 703, and when the indication groove 703 is positioned at the middle part of the observation groove 406, it indicates that the vertical direction of the monitoring box body 3 is along the gravity direction, i.e. the direction is consistent with the direction of the vertical swing needle 7.

This magnetism is inhaled formula iron tower slope on-line monitoring device has realized taking place the angle of slope to the inclination of monitoring box 3 vertical angle, record installation iron tower position and whole iron tower through setting up adjust knob 5, scale pointer 501, scale mount pad 201, observation tank 406 and instruction groove 703 etc..

In summary, the following steps: this magnetism is inhaled formula iron tower slope on-line monitoring device and is inhaled piece 1 through setting up magnetism, rotation optical axis 402, perpendicular balance pin 7, counter weight ball 704, inductor 404 and the right side inductor 403 to one side in a left side, can make the device always detect the slope condition to the iron tower, the on-line monitoring function and the simple to operate of device have been realized, this magnetism is inhaled formula iron tower slope on-line monitoring device and is through setting up adjust knob 5, scale pointer 501, scale mount pad 201, observation groove 406 and instruction groove 703 etc., the adjustment to monitoring box 3 vertical angle has been realized, the angle of slope takes place for the inclination and the whole iron tower of record installation iron tower position.

The working principle is as follows: when the device is installed, firstly, the magnetic block is arranged in the magnetic block placing groove 204 in a sliding mode from the bottom of the connecting frame 2, then the vertical swing pin 7 is arranged on the rotating optical axis 402 in a sliding mode through the optical axis hole 702 and the optical axis seat 701, then the optical axis sleeve 408 is arranged on the rotating optical axis 402 in a sliding mode, the front face of the optical axis seat 701 abuts against the positioning shaft 401, the back face of the optical axis seat 701 abuts against the optical axis sleeve 408, the vertical swing pin 7 is not influenced to freely rotate on the rotating optical axis 402 along with gravity, then one end, far away from the monitoring box cover 4, of the rotating optical axis 402 abuts against the bottom of the optical axis fixing hole 304, the monitoring box body 3 and the monitoring box cover 4 are fixedly connected through the first screw hole 305, the second screw hole 405 and the cover sealing screw 407, and at the moment, the vertical swing pin 7 is located between the left oblique sensor 404 and the right.

Then the adjusting knob 5 and the connecting key shaft 6 are fixedly connected through the connecting screw 504, the screw countersunk hole 502, the third screw hole 503, the fourth screw hole 604, the connecting square hole 505 and the connecting block 603, finally the key shaft thick end 601 and the key shaft thin end 602 of the connecting key shaft 6 correspond to the key shaft thick hole 202 and the key shaft thin hole 203 of the scale mounting seat 201 respectively, the connecting key shaft 6 corresponds to the key shaft mounting hole 303, and the nut 605 is screwed to fix the connecting frame 2, the adjusting knob 5, the connecting key shaft 6 and the monitoring box 3.

When the device is used, firstly, the magnetic chuck 1 is placed at any position of an iron tower, the adjusting knob 5 can be rotated by loosening the screw cap 605, the monitoring box body 3 is driven to rotate by rotating the adjusting knob 5, when a user sees that the indicating groove 703 of the vertical swinging pin 7 is positioned at the middle part of the observing groove 406 through the observing groove 406, the vertical direction of the monitoring box body 3 is along the gravity direction, namely the direction is consistent with the direction of the vertical swinging pin 7, then the screw cap 605 is screwed to fix the device, the position gradient of the installed iron tower can be displayed through the degree pointed by the scale pointer 501 on the scale mounting seat 201, when the iron tower inclines, leftward inclination can be transmitted to a signal device through the left inclined inductor 404, rightward inclination can be transmitted to the signal device through the right inclined inductor 403, after the iron tower inclines, the indicating groove 703 is positioned at the middle part of the observing groove 406 again by rotating the adjusting knob 5, the degree of inclination of the iron tower can be calculated through the degree of the scale pointer 501 on the scale mounting base 201 and the degree recorded during mounting.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.