CN220870463U - Be used for total back to survey wind station sensor hanger frame - Google Patents

Abstract

The utility model discloses a hanging frame for a total return air station sensor, which comprises a fixed seat, wherein a plurality of positioning rings are fixed on the inner side of the fixed seat, a bottom supporting rod is inserted in the middle of each positioning ring, an adjustable connecting rod is movably mounted at the top end of each bottom supporting rod, a plurality of limit clamping grooves are formed in the outer surface of the bottom end of each adjustable connecting rod, a positioning hole is formed in the outer surface of the top end of each bottom supporting rod, a supporting cross beam is fixed at the top end of each adjustable connecting rod, two pulleys are fixed below one end of each supporting cross beam, and a total return air station sensor is movably mounted below each pulley. According to the utility model, the adjustable connecting rod is arranged at the top end of the bottom supporting rod, and the height of the adjustable connecting rod is adjusted through the limit screw or the T-shaped plug-in block and the limit telescopic block, so that the total back air station sensor is conveniently and rapidly arranged, the construction difficulty is reduced, the construction time is shortened, and the working efficiency is effectively improved.

Description

Be used for total back to survey wind station sensor hanger frame

Technical Field

The utility model relates to the technical field of total back air station sensor hanging frames, in particular to a hanging frame for a total back air station sensor.

Background

The total back air station sensor is a sensor group consisting of a plurality of sensors and is used for monitoring gas, carbon monoxide, wind speed and temperature.

The total back air station sensor is suspended at the top of a mine hole by adopting a steel wire, holes are needed to be drilled at the top of the mine hole during installation, then a pulley for suspension is fixed at the drilled position, and then the total back air station sensor is suspended and installed by utilizing the steel wire, so that workers are needed to ascend and construct during operation.

The steel wire suspension steel wire is rusted due to the internal environment of the mine tunnel, the total back air station sensor has the risk of falling, the installation height is higher, the construction has potential safety hazard, and the maintenance is inconvenient; therefore, the existing requirements are not met, and for this purpose we propose a sensor hanger for a total back air station.

Disclosure of utility model

The utility model aims to provide a hanging frame for a total back-air station sensor, which solves the problems that the steel wire hanging steel wire adopted in the prior art can be corroded due to the internal environment of a mine hole, the total back-air station sensor has the risk of falling, the installation height is higher, the construction has potential safety hazard, the maintenance is inconvenient and the like.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a be used for total back wind station sensor hanger frame, includes the fixing base, the inboard of fixing base is fixed with a plurality of holding rings, the centre of holding ring alternates there is the bottom support pole, the top movable mounting of bottom support pole has adjustable connecting rod, a plurality of spacing draw-in grooves have been seted up to the bottom surface of adjustable connecting rod, the locating hole has been seted up to the top surface of bottom support pole, the top of adjustable connecting rod is fixed with supporting beam, supporting beam's one end below is fixed with two pulleys, the below movable mounting of pulley has total back wind station sensor, the upper surface of total back wind station sensor is fixed with two suspension ropes, two suspension ropes pass from the top of two pulleys.

Preferably, the outer surface of the bottom end of the bottom supporting rod is fixedly provided with a lifting rope binding rod and an anti-drop hook, the anti-drop hook is positioned below the lifting rope binding rod, and one end of the suspension rope is wound on the outer side of the lifting rope binding rod;

The end part of the suspension rope, which is wound on the outer side of the suspension rope binding rod, is fixedly provided with an anti-drop ring, and the anti-drop ring is sleeved on the outer side of the anti-drop hook.

Preferably, a limit screw is inserted in the middle of the positioning hole, the limit screw is connected with the positioning hole through threads, and the threaded end penetrates through the positioning hole to be inserted into the limit clamping groove.

Preferably, a T-shaped plug block is fixed in the middle of the positioning hole, one end of the T-shaped plug block is movably provided with a telescopic limiting block, one end of the telescopic limiting block is plugged into the T-shaped plug block, a limiting spring is arranged between the end of the telescopic limiting block and the T-shaped plug block, the other end of the telescopic limiting block is plugged into a limiting clamping groove, and the end of the telescopic limiting block is provided with a downward inclined plane;

the other end movable mounting of T type plug block has draws the piece, the outer terminal surface of drawing the piece is equipped with the finger draw-in groove, the inner terminal surface of drawing the piece is fixed with the connecting rope, the connecting rope runs through T type plug block and passes spacing spring and flexible stopper fixed.

Compared with the prior art, the utility model has the beneficial effects that:

1. According to the utility model, the adjustable connecting rod is arranged at the top end of the bottom supporting rod, and the height of the adjustable connecting rod is adjusted through the limit screw or the T-shaped plug-in block and the limit telescopic block, so that the total back air station sensor is conveniently and rapidly arranged, the construction difficulty is reduced, the construction time is shortened, and the working efficiency is effectively improved;

2. According to the utility model, the two pulleys are fixed on the bottom surface of the supporting beam, and the suspension rope passes through the upper parts of the pulleys and is fixed with the top of the total return air station sensor, so that the total return air station sensor can be quickly suspended or put down, the installation time of the total return air station sensor is shortened, and the replacement is convenient.

Drawings

FIG. 1 is a schematic view of the overall structure of the present utility model;

FIG. 2 is a schematic diagram of a first embodiment of the present utility model;

FIG. 3 is a schematic diagram of a second embodiment of the present utility model;

fig. 4 is an enlarged view of the structure of fig. 3 a according to the present utility model.

In the figure: 1. a fixing seat; 2. a positioning ring; 3. a bottom support bar; 4. an adjustable connecting rod; 5. a support beam; 6. a pulley; 7. a total back wind station sensor; 8. a suspension rope; 9. a hanging rope binding rod; 10. an anti-falling hook; 11. anti-slip ring; 12. a limit clamping groove; 13. positioning holes; 14. a limit screw; 15. a T-shaped plug block; 16. a telescopic limiting block; 17. a limit spring; 18. a connecting rope; 19. pulling blocks; 20. finger card slot.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

The first embodiment is shown in fig. 1 and 2, a hanging rack for a total back air station sensor, which comprises a fixed seat 1, wherein a plurality of positioning rings 2 are fixed on the inner side of the fixed seat 1, a bottom supporting rod 3 is inserted in the middle of the positioning rings 2, an adjustable connecting rod 4 is movably mounted on the top end of the bottom supporting rod 3, a plurality of limit clamping grooves 12 are formed in the outer surface of the bottom end of the adjustable connecting rod 4, a positioning hole 13 is formed in the outer surface of the top end of the bottom supporting rod 3, a supporting cross beam 5 is fixed on the top end of the adjustable connecting rod 4, two pulleys 6 are fixed below one end of the supporting cross beam 5, a total back air station sensor 7 is movably mounted below the pulleys 6, two hanging ropes 8 are fixed on the upper surface of the total back air station sensor 7, and the two hanging ropes 8 penetrate from the upper sides of the two pulleys 6.

The bottom surface mounting of bottom bracing piece 3 has lifting rope to bind pole 9 and anticreep couple 10, anticreep couple 10 is located the lifting rope and bindes the below of pole 9, the one end winding of lifting rope 8 is in the outside of lifting rope and bindes pole 9, the end fixing who hangs rope 8 winding in the lifting rope and bindes the pole 9 outside has anticreep ring 11, anticreep ring 11 cover is in anticreep couple 10 outsides, can be quick lock the tip of lifting rope 8, and guarantee that the tip of lifting rope 8 can not appear easily not hard up or appear separating with lifting rope and bind pole 9, guarantee stability and safety after total back wind station sensor 7 hangs.

The middle of the locating hole 13 is inserted with a limit screw 14, the limit screw 14 and the locating hole 13 are connected through threads, the threaded end penetrates through the locating hole 13 and is inserted into the limit clamping groove 12, the end part of the limit screw 14 is screwed into the limit clamping groove 12 through threaded connection, the adjustable connecting rod 4 after the height is adjusted can be limited in position, and the adjustable connecting rod 4 is guaranteed not to slide downwards.

One end of the suspension rope 8 passes through the upper part of the pulley 6, then the adjustable connecting rod 4 slides upwards, after the adjustable connecting rod 4 rises to a certain height, a worker can rotate a limit screw 14 inserted in a locating hole 13, the end part of the limit screw 14 passes through the locating hole 13 and enters a limit clamping groove 12 at the outer side of the bottom end of the adjustable connecting rod 4, the position of the adjustable connecting rod 4 is limited by the limit screw 14, then a worker pulls the suspension rope 8, the total back wind station sensor 7 rises, the end part of the suspension rope 8 is wound at the outer side of the suspension rope binding rod 9 after the total back wind station sensor 7 rises, an anti-drop ring 11 at the end part of the suspension rope 8 is sleeved on an anti-drop hook 10, the suspension rope 8 is tightened, and the total back wind station sensor 7 can be installed quickly, and the operation is simple and quick.

In the second embodiment, as shown in fig. 3 and 4, a T-shaped plugging block 15 is fixed in the middle of the positioning hole 13, one end of the T-shaped plugging block 15 is movably provided with a telescopic limiting block 16, one end of the telescopic limiting block 16 is plugged in the T-shaped plugging block 15, a limiting spring 17 is arranged between the end of the telescopic limiting block 16 and the T-shaped plugging block 15, the other end of the telescopic limiting block 16 is plugged in a limiting clamping groove 12, the end of the telescopic limiting block is provided with a downward inclined surface, the other end of the T-shaped plugging block 15 is movably provided with a pulling block 19, the outer end surface of the pulling block 19 is provided with a finger clamping groove 20, the inner end surface of the pulling block 19 is fixedly provided with a connecting rope 18, the connecting rope 18 penetrates through the T-shaped plugging block 15 and passes through the limiting spring 17 to be fixed with the telescopic limiting block 16, the end of the telescopic limiting block 16 provided with the inclined surface does not influence the upward movement of the adjustable connecting rod 4, but can limit the adjustable connecting rod 4 to enable the adjustable connecting rod 4 to slide down, as long as the pulling block 19 is pulled, the telescopic limiting block 16 can be driven by the connecting rope 18 to enter the T-shaped plugging block 15.

One end of the suspension rope 8 passes through the upper portion of the pulley 6, then the adjustable connecting rod 4 slides upwards, the telescopic limiting block 16 is extruded into the T-shaped inserting block 15 in the sliding process of the adjustable connecting rod 4 until the limiting clamping groove 12 on the outer surface of the bottom end of the adjustable connecting rod 4 is aligned with the positioning hole 13, at the moment, the telescopic limiting block 16 can enter the limiting clamping groove 12 on the outer side of the bottom end of the adjustable connecting rod 4 under the ejection of elastic recovery of the limiting spring 17, the telescopic limiting block 16 can limit the position of the adjustable connecting rod 4 so that the adjustable connecting rod 4 cannot slide downwards, then a worker pulls the suspension rope 8, the total back wind station sensor 7 rises, the end of the suspension rope 8 is wound on the outer side of the suspension rope binding rod 9 after the total back wind station sensor 7 rises, the anti-drop ring 11 on the end of the suspension rope 8 is sleeved on the anti-drop hook 10, the suspension rope 8 is tightened, the total back wind station sensor 7 can be installed quickly, and the operation is simple and quick.

At present, the sensor rack is installed and used in a mining area, is convenient to carry and install, saves labor, and needs two people to install a sensor hanging rack before, and can be completed by only one person with the sensor rack in a working time.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (6)

1. Be used for always returning to survey wind station sensor hanging rack, including fixing base (1), its characterized in that: the inside of fixing base (1) is fixed with a plurality of holding rings (2), the centre of holding ring (2) alternates there is bottom support rod (3), the top movable mounting of bottom support rod (3) has adjustable connecting rod (4), a plurality of spacing draw-in grooves (12) have been seted up to the bottom surface of adjustable connecting rod (4), locating hole (13) have been seted up to the top surface of bottom support rod (3), the top of adjustable connecting rod (4) is fixed with supporting beam (5), the one end below of supporting beam (5) is fixed with two pulleys (6), the below movable mounting of pulley (6) has total back to wind station sensor (7), the upper surface of total back to wind station sensor (7) is fixed with two and hangs rope (8), two hang rope (8) and pass from the top of two pulleys (6).

2. A sensor pylon for a total air return station according to claim 1, wherein: the bottom support rod (3) is characterized in that a lifting rope binding rod (9) and an anti-drop hook (10) are fixed on the outer surface of the bottom end of the bottom support rod (3), the anti-drop hook (10) is located below the lifting rope binding rod (9), and one end of the hanging rope (8) is wound on the outer side of the lifting rope binding rod (9).

3. A sensor pylon for a total air return station according to claim 2, wherein: the end part of the suspension rope (8) wound on the outer side of the suspension rope binding rod (9) is fixedly provided with an anti-drop ring (11), and the anti-drop ring (11) is sleeved on the outer side of the anti-drop hook (10).

4. A sensor pylon for a total air return station according to claim 1, wherein: a limit screw (14) is inserted in the middle of the positioning hole (13), the limit screw (14) is connected with the positioning hole (13) through threads, and the threaded end passes through the positioning hole (13) to be inserted into the limit clamping groove (12).

5. A sensor pylon for a total air return station according to claim 1, wherein: the T-shaped plug block (15) is fixed in the middle of the positioning hole (13), a telescopic limiting block (16) is movably mounted at one end of the T-shaped plug block (15), one end of the telescopic limiting block (16) is inserted into the T-shaped plug block (15) and a limiting spring (17) is arranged between the end of the telescopic limiting block and the T-shaped plug block (15), and the other end of the telescopic limiting block (16) is inserted into a limiting clamping groove (12) and a downward inclined surface is arranged at the end of the telescopic limiting block.

6. A sensor pylon for a total air return station according to claim 5 wherein: the novel T-shaped plug-in block is characterized in that a pull block (19) is movably mounted at the other end of the T-shaped plug-in block (15), a finger clamping groove (20) is formed in the outer end face of the pull block (19), a connecting rope (18) is fixed on the inner end face of the pull block (19), and the connecting rope (18) penetrates through the T-shaped plug-in block (15) and penetrates through a limiting spring (17) to be fixed with a telescopic limiting block (16).