CN214405346U - Water temperature monitoring support device - Google Patents

Abstract

The utility model discloses a temperature monitoring strutting arrangement, including mount pad, suspension, stay cord, first line rope guiding mechanism, winding mechanism, the suspension is scalable to be adjusted and is located one side of mount pad, and the hanging end of suspension is located to line rope guiding mechanism, and on the mount pad was located to winding mechanism, the one end of stay cord was equipped with signal line clamping mechanism around locating on the winding mechanism, on the line rope guiding mechanism was born in the middle section, the other end. This temperature monitoring strutting arrangement simple structure, can carry out the free regulation to check out test set's height and horizontal position.

Description

Water temperature monitoring support device

Technical Field

The utility model relates to a support technical field as the supporting especially relates to a temperature monitoring strutting arrangement.

Background

With the development and application of computers and automation technologies, the automatic monitoring technology of reservoir water temperature is rapidly developed, in the prior art, water temperature monitoring equipment arranged on a certain fixed section is commonly used for measurement, and probes are arranged in layers in advance according to the specific situation of the section. But current vertical temperature monitoring bearing structure is comparatively simple, and bearing structure can't carry out freely adjusting according to the use needs of reality to influence bearing structure's result of use.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to overcome the not enough of prior art, provide a simple structure and can carry out the temperature monitoring strutting arrangement who freely adjusts.

In order to solve the technical problem, the utility model discloses a following technical scheme:

the utility model provides a water temperature monitoring strutting arrangement, includes mount pad, suspension, stay cord, first line rope guiding mechanism, wire winding mechanism, one side of mount pad is located to the scalable regulation of suspension, the end of hanging out of suspension is located to line rope guiding mechanism, wire winding mechanism locates on the mount pad, the one end of stay cord is around locating on the wire winding mechanism, the middle section supports on line rope guiding mechanism, the other end is equipped with signal line clamping mechanism.

As a further improvement of the above technical solution:

the suspension comprises a threaded sleeve, a telescopic adjusting rod and a telescopic guide rod, one end of the telescopic guide rod is fixed on the mounting seat, the threaded sleeve is fixed at the other end of the telescopic guide rod, the telescopic adjusting rod penetrates through the mounting seat and extends into the threaded sleeve, the telescopic adjusting rod is in threaded connection with the threaded sleeve, the cotton rope guide mechanism is arranged on the threaded sleeve, and a first rotary force application mechanism is arranged at one end, far away from the threaded sleeve, of the telescopic adjusting rod.

The first rotary force application mechanism is a rotary handle, and a first locking mechanism is arranged between the first rotary force application mechanism and the mounting seat.

First locking mechanical system includes first locking piece and locates the first lockhole on the mount pad, first locking piece activity is worn to locate in the first rotatory application of force mechanism and is aimed at the setting with first lockhole.

Winding mechanism includes U-shaped frame and reel, the open end of U-shaped frame is fixed on the mount pad, the seal end, the other end rotation that U-shaped frame was worn to locate in reel one end activity are located on the mount pad, the one end that the reel stretches out the U-shaped frame is equipped with the rotatory application of force mechanism of second.

The second rotary force application mechanism is a rotary handle, and a second locking mechanism is arranged between the second rotary force application mechanism and the U-shaped frame.

The second locking mechanism comprises a second locking part and a second locking hole arranged on the U-shaped frame, and the second locking part is movably arranged in the second rotary force application mechanism in a penetrating mode and is aligned with the second locking hole.

The signal wire clamping mechanism comprises an installation block fixed on the pull rope and a signal wire through channel arranged in the installation block, a wire clamping plate is arranged in the signal wire through channel, and a wire clamping force application mechanism used for enabling the wire clamping plate to move so as to clamp the signal wire is arranged on the installation block.

The wire clamping force application mechanism comprises a wire clamping adjusting screw rod and a rotary force application part, the wire clamping adjusting screw rod penetrates through the side wall of the signal wire through channel and is in threaded connection with the installation block, one end of the wire clamping adjusting screw rod, which extends into the signal wire through channel, is connected with the wire clamping plate, and the rotary force application part is arranged at the other end of the wire clamping adjusting screw rod.

The side wall of the signal wire through channel is provided with a guide hole, a guide rod is arranged in the guide hole, and the guide rod is fixedly connected with the mounting block.

Compared with the prior art, the utility model has the advantages of:

the utility model discloses a temperature monitoring strutting arrangement, including mount pad, suspension, stay cord, first line rope guiding mechanism, wire winding mechanism, the suspension is scalable to be adjusted and is located one side of mount pad, and the end of hanging out of suspension is located to line rope guiding mechanism, and on the mount pad was located to wire winding mechanism, the one end of stay cord was equipped with signal line clamping mechanism around locating on the wire winding mechanism, on the line rope guiding mechanism of middle section supporting, the other end. During the use, fix the mount pad on the bank platform, the suspension hangs to the surface of water top, then is connected the one end and the display device of signal line, and the other end is connected with check out test set and fixes on signal line clamping mechanism, receive and releases the stay cord through winding mechanism, can adjust check out test set from the height of the surface of water to reach best detection height, through the flexible regulation of suspension, can adjust check out test set's level monitoring position. This temperature monitoring strutting arrangement simple structure, can carry out the free regulation to check out test set's height and horizontal position.

Drawings

Fig. 1 is a schematic structural view of the water temperature monitoring support device of the present invention.

Fig. 2 is an enlarged view at a in fig. 1.

The reference numerals in the figures denote:

1. a mounting seat; 11. a shoreside platform; 12. a guide block; 2. a suspension; 21. a threaded sleeve; 22. a telescopic adjusting rod; 23. a telescopic guide rod; 24. a first rotary force applying mechanism; 3. pulling a rope; 4. a cord guide mechanism; 5. a winding mechanism; 51. a U-shaped frame; 52. a reel; 53. a second rotary force applying mechanism; 6. a signal wire clamping mechanism; 61. mounting blocks; 62. the signal wire penetrates through the channel; 621. a guide hole; 622. a guide bar; 63. a wire clamping plate; 64. a wire clamping force application mechanism; 641. a wire clamping adjusting screw; 642. rotating the force application member; 7. a first locking mechanism; 71. a first locking member; 72. a first lock hole; 8. a second locking mechanism; 81. a second locking member; 82. a second lock hole; 9. and a signal line.

Detailed Description

The invention will be described in further detail with reference to the drawings and specific examples.

Fig. 1 and fig. 2 show the utility model discloses a water temperature monitoring strutting arrangement's an embodiment, this water temperature monitoring strutting arrangement includes mount pad 1, suspension 2, stay cord 3, first line rope guiding mechanism 4, winding mechanism 5, one side of mount pad 1 is located to suspension 2 scalable regulation ground, suspension 2's overhang end is located to line rope guiding mechanism 4, winding mechanism 5 is located on mount pad 1, the one end of stay cord 3 is around locating on winding mechanism 5, the middle section supports on line rope guiding mechanism 4, the other end is equipped with signal line clamp mechanism 6. During the use, fix mount pad 1 on bank platform 11, suspension 2 is hung to the surface of water top, then, is connected the one end and the display device of signal line 9, and the other end is connected with check out test set and fixes on signal line clamping mechanism 6, receive and releases stay cord 3 through winding mechanism 5, can adjust check out test set from the height of the surface of water to reach the best height that detects, through the flexible regulation of suspension 2, can adjust check out test set's level monitoring position. This temperature monitoring strutting arrangement simple structure, can carry out the free regulation to check out test set's height and horizontal position.

In this embodiment, the suspension 2 includes the thread bush 21, the telescopic adjusting rod 22 and the telescopic guide rod 23, one end of the telescopic guide rod 23 is fixed on the mounting base 1, the thread bush 21 is fixed on the other end of the telescopic guide rod 23, the telescopic adjusting rod 22 is arranged in the mounting base 1 in a penetrating manner and extends into the thread bush 21, the telescopic adjusting rod 22 is in threaded connection with the thread bush 21, the thread rope guide mechanism 4 is arranged on the thread bush 21, and one end of the telescopic adjusting rod 22 away from the thread bush 21 is provided with the first rotary force application mechanism 24. Specifically, the first rotation forcing mechanism 24 is a rotation handle, and the first locking mechanism 7 is provided between the first rotation forcing mechanism 24 and the mounting base 1. The first locking mechanism 7 comprises a first locking member 71 and a first locking hole 72 arranged on the mounting base 1, wherein the first locking member 71 is movably arranged in the first rotation forcing mechanism 24 in a penetrating way and is aligned with the first locking hole 72. The extending position of the threaded sleeve 21 can be adjusted by rotating the rotating handle, so that the horizontal position of the detection equipment on the signal wire 9 is adjusted, and the telescopic guide rod 23 is telescopic along with the movement of the threaded sleeve 21, thereby guiding the moving direction of the threaded sleeve 21. The telescopic guide rods 23 are uniformly distributed around the telescopic adjusting rod 22 at intervals to prevent the threaded sleeve 21 from shaking. When the horizontal position of the detection device on the adjustment signal line 9 is adjusted to the right position, the first rotational urging mechanism 24 is locked to the mount base 1 by the first locking mechanism 7 (the first locking piece 71 is inserted into the first locking hole 72), thereby locking the horizontal position of the threaded sleeve 21.

In this embodiment, the winding mechanism 5 includes a U-shaped frame 51 and a reel 52, an open end of the U-shaped frame 51 is fixed on the mounting base 1, one end of the reel 52 movably penetrates through a sealing end of the U-shaped frame 51, the other end of the reel 52 is rotatably arranged on the mounting base 1, and a second rotation force application mechanism 53 is arranged at one end of the reel 52 extending out of the U-shaped frame 51. Specifically, the second rotation urging mechanism 53 is a rotation handle, and the second lock mechanism 8 is provided between the second rotation urging mechanism 53 and the U-shaped frame 51. The second locking mechanism 8 includes a second locking member 81 and a second locking hole 82 disposed on the U-shaped frame 51, and the second locking member 81 is movably disposed through the second rotary force applying mechanism 53 and aligned with the second locking hole 82. The reel 52 can be driven to rotate by rotating the second rotary force application mechanism 53, so that the retraction and release of the pull rope 3 are realized, the height of the detection equipment on the signal line 9 from the water surface is adjusted, and after the height adjustment is completed, the second rotary force application mechanism 53 is locked on the U-shaped frame 51 through the second locking mechanism 8 (the second locking piece 81 is inserted into the second locking hole 82), so that the height of the detection equipment from the water surface is locked. The first and second locking members 71 and 81 may be locking screws or locking pins, and the first and second locking holes 72 and 82 may be provided in plurality to increase the adjustment accuracy.

In the present embodiment, as shown in fig. 2, the signal wire clamping mechanism 6 includes a mounting block 61 fixed to the pull rope 3 and a signal wire passage 62 provided in the mounting block 61, a clamping plate 63 is provided in the signal wire passage 62, and a wire clamping force applying mechanism 64 for moving the clamping plate 63 to clamp the signal wire 9 is provided on the mounting block 61.

In this embodiment, as shown in fig. 2, the wire clamping force applying mechanism 64 includes a wire clamping adjusting screw 641 and a rotary force applying member 642, the wire clamping adjusting screw 641 penetrates through the sidewall of the signal wire through channel 62 and is in threaded connection with the mounting block 61, one end of the wire clamping adjusting screw 641 extending into the signal wire through channel 62 is connected with the wire clamping plate 63, and the rotary force applying member 642 is disposed at the other end of the wire clamping adjusting screw 641. The wire clamping adjusting screw 641 is rotated by rotating the rotation forcing member 642 to move the mounting block 61, so that the mounting block 61 clamps or loosens the signal wire 9. Simple structure and convenient adjustment. The rotation forcing member 642 may be a rotating rod or a rotating disk or a bidirectional motor.

In this embodiment, a guide hole 621 is disposed on a side wall of the signal line through channel 62, a guide rod 622 is disposed in the guide hole 621, and the guide rod 622 is fixedly connected to the mounting block 61. The guide rod 622 slides along the guide hole 621, and guides the movement of the mounting block 61 to prevent the mounting block 61 from shaking.

In this embodiment, the mount base 1 is also provided with a wire guide mechanism 4, and the pull rope 3 is a steel wire rope wound around the wire guide mechanism 4 on the mount base 1. The cord guide mechanisms 4 are fixed pulleys for reducing friction when the cord 3 slides, the cord 3 sequentially passes through the cord guide mechanisms 4 and extends downward, and the mounting block 61 is fixed to one end of the cord 3 extending downward. The mounting base 1 is further provided with a guide block 12, a sliding groove is formed in the guide block 12, the signal wire 9 penetrates through the sliding groove, the guide block 12 is used for preventing the signal wire 9 from deviating, and the signal wire 9 penetrates through the wire guide mechanisms 4 and the signal wire through channel 62 of the mounting block 61 and extends downwards.

Although the present invention has been described with reference to the preferred embodiments, it is not intended to limit the present invention. The technical solution of the present invention can be used by anyone skilled in the art to make many possible variations and modifications, or to modify equivalent embodiments, without departing from the scope of the technical solution of the present invention, using the technical content disclosed above. Therefore, any simple modification, equivalent change and modification made to the above embodiments by the technical entity of the present invention should fall within the protection scope of the technical solution of the present invention.

Claims (10)

1. The utility model provides a temperature monitoring strutting arrangement which characterized in that: including mount pad (1), suspension (2), stay cord (3), first line rope guiding mechanism (4), winding mechanism (5), one side of mount pad (1) is located to suspension (2) scalable regulation, the end of hanging out of suspension (2) is located in line rope guiding mechanism (4), on mount pad (1) is located in winding mechanism (5), the one end of stay cord (3) is around locating on winding mechanism (5), the middle section supporting is on line rope guiding mechanism (4), the other end is equipped with signal line clamping mechanism (6).

2. The water temperature monitoring support device of claim 1, wherein: the suspension (2) comprises a threaded sleeve (21), a telescopic adjusting rod (22) and a telescopic guide rod (23), one end of the telescopic guide rod (23) is fixed on the mounting seat (1), the threaded sleeve (21) is fixed at the other end of the telescopic guide rod (23), the telescopic adjusting rod (22) is arranged in the mounting seat (1) in a penetrating mode and extends into the threaded sleeve (21), the telescopic adjusting rod (22) is connected with the threaded sleeve (21) in a threaded mode, the thread rope guide mechanism (4) is arranged on the threaded sleeve (21), and one end, away from the threaded sleeve (21), of the telescopic adjusting rod (22) is provided with a first rotary force application mechanism (24).

3. The water temperature monitoring support device of claim 2, wherein: the first rotating force application mechanism (24) is a rotating handle, and a first locking mechanism (7) is arranged between the first rotating force application mechanism (24) and the mounting seat (1).

4. The water temperature monitoring support device of claim 3, wherein: the first locking mechanism (7) comprises a first locking piece (71) and a first locking hole (72) arranged on the mounting base (1), and the first locking piece (71) is movably arranged in the first rotary force application mechanism (24) in a penetrating mode and is aligned with the first locking hole (72).

5. The water temperature monitoring support device of claim 1, wherein: winding mechanism (5) are including U-shaped frame (51) and reel (52), the open end of U-shaped frame (51) is fixed on mount pad (1), the closed end, the other end rotation that U-shaped frame (51) was worn to locate in reel (52) one end activity are located on mount pad (1), the one end that U-shaped frame (51) were stretched out in reel (52) is equipped with the rotatory forcing mechanism of second (53).

6. The water temperature monitoring support device of claim 5, wherein: the second rotating force application mechanism (53) is a rotating handle, and a second locking mechanism (8) is arranged between the second rotating force application mechanism (53) and the U-shaped frame (51).

7. The water temperature monitoring support device of claim 6, wherein: the second locking mechanism (8) comprises a second locking part (81) and a second locking hole (82) arranged on the U-shaped frame (51), and the second locking part (81) is movably arranged in the second rotary force application mechanism (53) in a penetrating mode and is aligned with the second locking hole (82).

8. A water temperature monitoring support device according to any one of claims 1 to 7 wherein: the signal wire clamping mechanism (6) comprises an installation block (61) fixed on the pull rope (3) and a signal wire through channel (62) arranged in the installation block (61), a wire clamping plate (63) is arranged in the signal wire through channel (62), and a wire clamping force application mechanism (64) used for enabling the wire clamping plate (63) to move to clamp the signal wire (9) is arranged on the installation block (61).

9. The water temperature monitoring support device of claim 8, wherein: wire clamping forcing mechanism (64) include wire clamping adjusting screw (641) and rotatory application of force piece (642), wire clamping adjusting screw (641) run through in the lateral wall of signal line through channel (62) and with installation piece (61) threaded connection, wire clamping adjusting screw (641) stretch into the one end in signal line through channel (62) and are connected with clamp (63), the other end of wire clamping adjusting screw (641) is located in rotatory application of force piece (642).

10. The water temperature monitoring support device of claim 8, wherein: be equipped with guiding hole (621) on the lateral wall of signal line through channel (62), be equipped with guide bar (622) in guiding hole (621), guide bar (622) and installation piece (61) fixed connection.

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