CN116337142A - Energy-saving monitoring device for water conservancy construction management - Google Patents

Abstract

The invention discloses an energy-saving monitoring device for water conservancy construction management, which structurally comprises a fixed base, a supporting vertical rod, an electric cabinet, a noise monitor, a solar panel and a water level monitor, wherein the middle part of the upper end surface of the fixed base is welded with the bottom of the supporting vertical rod, the electric cabinet is arranged in the middle of the supporting vertical rod, more heat is generated in the working process of a transmitter, a host chip and a receiver, a heat absorption block expands to push a heat dissipation plate to move outwards, the speed of outwards discharging the heat is accelerated, after the heat dissipation is finished, an opening and closing plate is used for closing the inside of a heat dissipation hole through a torsion shaft, external moisture is prevented from entering from the heat dissipation hole so as to influence the normal work of the host chip, the electromagnetic sliding rail is used for magnetically sucking the sliding shaft, so that the sliding shaft is driven to carry out sliding, a linkage rod is driven to carry out linkage, the monitoring head can carry out telescopic movement in the lower end of the protective shell, the surface of the monitoring head is protected by water mist, and the monitoring clarity of the monitoring head is prevented from being covered by the surface of the monitoring head.

Description

Energy-saving monitoring device for water conservancy construction management

Technical Field

The invention relates to the field of water conservancy construction, in particular to an energy-saving monitoring device for water conservancy construction management.

Background

In hydraulic engineering work progress, influence the factor of construction quality is many, in the in-process of construction, need use monitoring devices to carry out real-time monitoring to the water level height in the hydraulic engineering, be convenient for manage the monitoring to the water level height of water conservancy, the water level can be and take measures once too high, avoid influencing the quality of hydraulic engineering, but because monitoring devices is in the in-process of carrying out monitoring to the water level height of water conservancy, monitoring devices's position adopts fixed mounting's mode to install in the top of water conservancy water level, the fluctuation is difficult to carry out comprehensive monitoring to the water level easily to the inside host computer chip of monitoring devices dispels the heat through the louvre, and the inside normal work that influences the host computer chip of monitoring devices of the moisture of in-process water conservancy of heat dissipation is entered into, the long-time exposure of monitoring head on the monitoring devices is in the air simultaneously, the surface of monitoring head is covered by the water smoke easily, lead to the accuracy of monitoring head monitoring water level to descend.

Disclosure of Invention

The technical scheme adopted for realizing the technical purpose of the invention is as follows: this energy-saving monitoring devices for water conservancy construction management, its structure includes unable adjustment base, supports pole setting, electric cabinet, noise monitor, solar panel, water level monitor, unable adjustment base up end middle part and support pole setting bottom looks welding, support pole setting mid-mounting has the electric cabinet, the electric cabinet is connected with the noise monitor electricity to noise monitor fixed mounting is on support pole setting top right side, solar panel installs in support pole setting top to solar panel is connected with the electric cabinet electricity, water level monitor installs in support pole setting top left side, water level monitor is connected with the electric cabinet electricity, water level monitor includes fixed pole, magnetism suction plate, electromagnetic rod, lateral shifting pole, monitoring host computer, fixed pole right-hand member welding is in support pole setting top left side to fixed pole right-hand member inside is equipped with magnetism suction plate, magnetism suction plate slidable mounting is at the electromagnetic rod right-hand member, electromagnetic rod fixed mounting is inside at fixed pole top right side, lateral shifting pole right-hand member slidable mounting is at fixed pole right side, and the electric cabinet is connected with two electric cabinet symmetry, two are connected with the electric cabinet is electric cabinet, two are welded with the monitoring host computer is mutually.

As a further improvement of the invention, the monitoring host comprises an outer shell, a transmitter, a host chip, a receiver, a heat dissipation mechanism and a protection mechanism, wherein the transmitter is arranged at the upper end inside the outer shell, the transmitter is electrically connected with the host chip, the host chip is electrically connected with the receiver, the receiver is electrically connected with the inside of the protection mechanism, the heat dissipation mechanism is arranged at the outer side of the host chip and is arranged inside the outer shell, the protection mechanism is positioned at the lower end of the outer shell, the outer sides of the right ends of the outer shell and the protection mechanism are welded with the left end of the transverse moving rod, and the two heat dissipation mechanisms are respectively arranged at two sides inside the outer shell and at two ends outside the host chip.

As a further improvement of the invention, the heat dissipation mechanism comprises a heat collection frame plate, a heat absorption block, a heat dissipation plate, an exhaust frame plate and a backflow prevention mechanism, wherein the heat collection frame plate is positioned at the outer side of a host chip, the heat absorption block is arranged in the heat collection frame plate, the heat absorption block is arranged at the left side of the heat dissipation plate, the heat dissipation plate is slidably arranged in the exhaust frame plate, the left end of the exhaust frame plate is welded with the right end of the heat collection frame plate and is communicated with the right end of the heat collection frame plate, the exhaust frame plate is arranged in the outer shell, the backflow prevention mechanism penetrates through the exhaust frame plate, the right end of the heat dissipation plate is arranged in the backflow prevention mechanism in a clearance fit manner, the heat absorption blocks are provided with three in total and are of a spherical structure, zinc metal materials are adopted, the heat absorption block has a good thermal expansion coefficient, and meanwhile, the heat dissipation plate is slidably arranged in the exhaust frame plate through spring rods at the upper end and the lower end.

As a further improvement of the invention, the anti-backflow mechanism comprises a heat dissipation hole, a torsion shaft and an opening and closing plate, wherein the heat dissipation hole penetrates through the right end of the exhaust frame plate, the opening and closing plate is hinged with the right end of the exhaust frame plate through the torsion shaft, the opening and closing plate is positioned in the heat dissipation hole, the left side of the opening and closing plate is abutted against the right end of the heat dissipation plate, the heat dissipation hole is of a cavity structure with a wide inlet and a narrow outlet, and the torsion shaft and the opening and closing plate are both provided with two and are symmetrically arranged in the heat dissipation hole.

As a further improvement of the invention, the protection mechanism comprises a protection shell, an electromagnetic slide rail, a slide shaft, a linkage rod, a monitoring head and a conduction mechanism, wherein the protection shell is arranged at the lower end of the outer shell, the electromagnetic slide rail is arranged in the protection shell, the slide shaft is arranged in the electromagnetic slide rail in a sliding manner, the slide shaft is arranged at the upper end of the linkage rod, the lower end of the linkage rod is hinged with the middle part of the upper end of the monitoring head, the monitoring head is arranged in the protection shell in a sliding manner, the monitoring head is electrically connected with the receiver through the conduction mechanism, the two slide shafts and the linkage rod are symmetrically arranged in a left-right manner, the two linkage rods form a V-shaped structure, and the lower ends of the two linkage rods are hinged with the middle part of the upper end of the monitoring head.

As a further improvement of the invention, the conduction mechanism comprises a fixed shell, a data wire, a winding roll and a spring piece, wherein the fixed shell is fixedly arranged at the upper end inside the protective shell, the data wire is arranged inside the fixed shell in a clearance fit manner, the monitoring head is electrically connected with the receiver through the data wire, the winding roll is arranged at the middle end inside the fixed shell, the data wire is wound outside the winding roll, the spring piece is arranged in the center inside the winding roll, and is of a spiral structure and made of spring steel material, so that the conduction mechanism has good resilience.

The invention has the beneficial effects that:

1. can be steady drive magnetism through two electromagnetic rods inhale the board and carry out the lateral sliding at fixed branch inside for monitor the host computer carries out the lateral sliding monitoring on the water level of water conservancy, improve the comprehensiveness to water level monitoring, the in-process that transmitter, host computer chip and receiver worked produces more heat, and the volume takes place to expand after the heat absorption piece absorbs the heat, promotes the heating panel and moves outside after the expansion for with heat outside exhaust speed, the heating panel resets after the heat dissipation is accomplished, makes the switching board close the louvre inside through torsion axle, thereby prevent that outside moisture from getting into the normal work that influences the host computer chip from the louvre.

2. The magnetic attraction is carried out on the sliding shaft through the electromagnetic sliding rail, so that the sliding shaft slides, the linkage rod is driven to carry out linkage, the monitoring head can carry out telescopic movement inside the lower end of the protective shell, the surface of the monitoring head can be protected, the surface of the monitoring head is prevented from being covered by water mist, the monitoring clarity of the monitoring head is improved, the monitoring head applies spiral elastic force to the inner center of the winding roll through the spring piece in the telescopic process, the winding roll automatically rotates, the data wire can be automatically wound and unwound, the data wire is always tightly connected between the monitoring head and the receiver, and normal transmission of the data monitored by the monitoring head is ensured.

Drawings

Fig. 1 is a schematic structural diagram of an energy-saving monitoring device for water conservancy construction management.

Fig. 2 is a schematic structural view of the water level monitor of the present invention.

Fig. 3 is a schematic diagram of an internal structure of a monitoring host according to the present invention.

Fig. 4 is a schematic diagram of an internal structure of the heat dissipation mechanism of the present invention.

Fig. 5 is a schematic view of a partial enlarged structure at a of fig. 4 according to the present invention.

Fig. 6 is a schematic view of the internal structure of the protection mechanism of the present invention.

Fig. 7 is a schematic view of the internal structure of the conduction mechanism of the present invention.

In the figure: the device comprises a fixed base-D, a supporting upright rod-G, an electric cabinet-X, a noise monitor-Z, a solar panel-T, a water level monitor-J, a fixed upright rod-J2, a magnetic attraction plate-J6, an electromagnetic rod-J8, a transverse moving rod-J3, a monitoring host machine-J5, an outer shell-J56, a transmitter-J52, a host chip-J55, a receiver-J58, a radiating mechanism-J51, a protection mechanism-J53, a heat collecting frame plate-1J, a heat absorbing block-1 p, a radiating plate-1 b, an exhaust frame plate-1 k, a backflow prevention mechanism-1 s, a radiating hole-s 6, a torsion shaft-s 2, an opening and closing plate-s 8, a protection shell-3 k, an electromagnetic slide rail-3D, a sliding shaft-3 h, a linkage rod-3G, a monitoring head-3J, a conducting mechanism-3 v, a fixed shell-v 4, a data line-v 9, a winding drum-v 6 and a spring piece-v 1.

Description of the embodiments

The invention is further described below with reference to the accompanying drawings:

examples

As shown in fig. 1 to 5:

the invention relates to an energy-saving monitoring device for water conservancy construction management, which structurally comprises a fixed base D, a supporting vertical rod G, an electric cabinet X, a noise monitor Z, a solar panel T and a water level monitor J, wherein the middle part of the upper end surface of the fixed base D is welded with the bottom of the supporting vertical rod G, the electric cabinet X is installed in the middle of the supporting vertical rod G and is electrically connected with the noise monitor Z, the noise monitor Z is fixedly installed on the right side of the top of the supporting vertical rod G, the solar panel T is installed on the top of the supporting vertical rod G and is electrically connected with the electric cabinet X, the water level monitor J is installed on the left side of the top of the supporting vertical rod G and is electrically connected with the electric cabinet X, the water level monitor J comprises a fixed supporting rod J2, a magnetic suction plate J6, an electromagnetic rod J8, a transverse moving rod J3 and a monitoring host J5, the right end of the fixed supporting rod J2 is welded on the left side of the top of the supporting vertical rod G, the right end of the fixed support rod J2 is internally provided with a magnetic attraction plate J6, the magnetic attraction plate J6 is slidably arranged at the right end of an electromagnetic rod J8, the electromagnetic rod J8 is fixedly arranged inside the fixed support rod J2, the right end of a transverse moving rod J3 is welded with the magnetic attraction plate J6, the right end of the transverse moving rod J3 is slidably arranged inside the right end of the fixed support rod J2, the left end of the transverse moving rod J3 is welded with the right side of a monitoring host machine J5, the monitoring host machine J5 is electrically connected with an electric cabinet X, the electromagnetic rods J8 are vertically symmetrically arranged, the two electromagnetic rods J8 are electrically connected with the monitoring host machine J5, the magnetic attraction plate J6 can be stably driven by the two electromagnetic rods J8 to transversely slide inside the fixed support rod J2, so that the transverse moving rod J3 is driven to transversely move, the monitoring host machine J5 can transversely slide and monitor the water level of water conservancy, the comprehensiveness of water level monitoring is improved.

The monitoring host j5 comprises an outer shell j56, a transmitter j52, a host chip j55, a receiver j58, a heat dissipation mechanism j51 and a protection mechanism j53, wherein the transmitter j52 is arranged at the upper end inside the outer shell j56, the transmitter j52 is electrically connected with the host chip j55, the host chip j55 is electrically connected with the receiver j58, the receiver j58 is electrically connected with the inside of the protection mechanism j53, the heat dissipation mechanism j51 is arranged outside the host chip j55, the heat dissipation mechanism j51 is arranged inside the outer shell j56, the protection mechanism j53 is positioned at the lower end of the outer shell j56, the outer shell j56 and the outer side of the right end of the protection mechanism j53 are welded with the left end of the transverse moving rod j3, the two heat dissipation mechanisms j51 are respectively arranged at two sides inside the outer shell j56, and are positioned at two ends outside the host chip j55, so that heat generated by the operation of the host chip j55 can be uniformly dispersed and discharged from two sides, and the heat dissipation effect on the host chip j55 is improved.

The heat dissipation mechanism j51 comprises a heat collection frame plate 1j, a heat absorption block 1p, a heat dissipation plate 1b, an exhaust frame plate 1k and a backflow prevention mechanism 1s, wherein the heat collection frame plate 1j is located on the outer side of a host chip j55, the heat absorption block 1p is arranged in the heat collection frame plate 1j, the heat absorption block 1p is arranged on the left side of the heat dissipation plate 1b, the heat dissipation plate 1b is slidably mounted in the exhaust frame plate 1k, the left end of the exhaust frame plate 1k is welded with the right end of the heat collection frame plate 1j and is communicated with the right end of the heat collection frame plate, the exhaust frame plate 1k is arranged in the outer shell j56, the backflow prevention mechanism 1s penetrates through the interior of the exhaust frame plate 1k, the right end of the heat dissipation plate 1b is mounted in the backflow prevention mechanism 1s in a clearance fit mode, the heat absorption block 1p is provided with three heat absorption blocks, and is of a spherical structure, a zinc metal material is adopted, meanwhile, the heat dissipation plate 1b is slidably mounted in the exhaust frame plate 1k through spring rods at the upper end and lower end, the spring rods are pushed by the heat absorption block 1p to absorb heat, and the heat quantity is discharged out of the heat dissipation plate 1b through the spring rods and the heat dissipation plate 1b can be reset.

The anti-backflow mechanism 1s comprises a heat dissipation hole s6, a torsion shaft s2 and an opening and closing plate s8, the heat dissipation hole s6 penetrates through the inside of the right end of the exhaust frame plate 1k, the opening and closing plate s8 is hinged with the inside of the right end of the exhaust frame plate 1k through the torsion shaft s2, the opening and closing plate s8 is positioned in the heat dissipation hole s6, the left side of the opening and closing plate s8 is in contact with the right end of the heat dissipation plate 1b, the heat dissipation hole s6 is of a cavity structure with a wide inlet and a narrow outlet, the torsion shaft s2 and the opening and closing plate s8 are both provided with two cavities, the two cavities are symmetrically arranged in the heat dissipation hole s6, the outside of the two opening and closing plates s8 are simultaneously applied with external thrust through the heat dissipation plate 1b, the opening and closing plate s8 rotates outwards, at the moment, the heat dissipation hole s6 is in a conducting state, the heat dissipation plate 1b is reset, the torsion force is applied to the opening and closing plate s8 is reset through the torsion shaft s2, and the inside of the opening and closing plate s6 is prevented from entering the heat dissipation hole s6 from the outside, and the normal operation of the host computer 55 j is prevented.

Specific use and action of the embodiment:

in the invention, when monitoring the water level of water conservancy, the fixing base D is fixedly arranged to enable the water level monitor J to be positioned above the water level of the water conservancy, solar light is received by the solar panel T to convert light energy into electric energy to supply power for the electric cabinet X, the electric cabinet X controls the water level monitor J to monitor the water level of the water conservancy, the electromagnetic rod J8 can magnetism the magnetic suction plate J6 in the monitoring process, the two electromagnetic rods J8 can stably drive the magnetic suction plate J6 to transversely slide in the fixing support rod J2 so as to drive the transverse moving rod J3 to transversely move, the monitoring host J5 can transversely slide on the water level of the water conservancy to monitor the water level, the comprehensiveness of monitoring the water level is improved, meanwhile, data monitored by the monitoring host J5 is transmitted to the host chip J55 for processing through the receiver J58, and carry out remote transmission with data through transmitter J52, host computer chip J55 and receiver J58 work in-process produces more heat, heat gets into heat collection frame board 1J inside by heat absorption piece 1p and heating panel 1b, heat absorption piece 1p absorbs the volume and expands behind the heat, promote heating panel 1b outside removal after the inflation, accelerate the speed of outwards discharging the heat, heating panel 1b outwards removes simultaneously and applys outside thrust to two switching boards s8, make switching board s8 outwards rotate, at this moment, heat dissipation hole s6 is the state of switching on, discharge the heat, on the contrary heat dissipation is accomplished back heating panel 1b and is reset, apply the torsion that resets for switching board s8 through torsion axle s2, make switching board s8 close the inside of heat dissipation hole s6, thereby prevent outside moisture from getting into from heat dissipation hole s6 and influence the normal work of host computer chip J55.

Examples

As shown in fig. 6 to 7:

the protection mechanism j53 comprises a protection shell 3k, an electromagnetic sliding rail 3d, a sliding shaft 3h, a linkage rod 3g, a monitoring head 3j and a transmission mechanism 3V, wherein the protection shell 3k is arranged at the lower end of an outer shell j56, the electromagnetic sliding rail 3d is internally provided with the electromagnetic sliding rail 3d, the sliding shaft 3h is arranged at the upper end of the linkage rod 3g, the lower end of the linkage rod 3g is hinged to the middle part of the upper end of the monitoring head 3j, the monitoring head 3j is slidably arranged inside the protection shell 3k, the monitoring head 3j is electrically connected with a receiver j58 through the transmission mechanism 3V, the sliding shaft 3h and the linkage rod 3g are both provided with two, the two linkage rods 3g form a V-shaped structure, the lower ends of the two linkage rods 3g are hinged to the middle part of the upper end of the monitoring head 3j, the sliding shaft 3h is magnetically attracted through the electromagnetic sliding rail 3d, the sliding shaft 3h slides, the linkage rod 3g is driven to enable the sliding shaft 3g to slide, the linkage rod 3j can enable the monitoring head 3j to move, and the monitoring head 3j can be prevented from being clearly and clearly covered by the monitoring head 3j, and the surface of the monitoring head 3j can be prevented from being clearly and clearly covered by the monitoring head 3 j.

The conduction mechanism 3v comprises a fixed shell v4, a data line v9, a winding roll v6 and a spring leaf v1, wherein the fixed shell v4 is fixedly arranged at the upper end inside a protective shell 3k, the data line v9 is arranged inside the fixed shell v4 in a clearance fit mode, the monitoring head 3j is electrically connected with a receiver j58 through the data line v9, the winding roll v6 is arranged at the middle end inside the fixed shell v4, the data line v9 is wound outside the winding roll v6, the spring leaf v1 is arranged in the center inside the winding roll v6, the spring leaf v1 is in a spiral structure, and is made of spring steel, the spring leaf v1 is used for applying spiral elastic force at the center inside the winding roll v6, so that the winding roll v6 can automatically rotate, automatically reel the data line v9, ensure that the data line v9 is tightly connected between the monitoring head 3j and the receiver j58 in the process of telescopic movement, and ensure normal transmission of data monitored by the monitoring head 3 j.

Specific use and action of the embodiment:

according to the invention, in the process of monitoring the water level in real time, the monitoring head 3j magnetically attracts the sliding shaft 3h through the electromagnetic sliding rail 3d, so that the sliding shaft 3h slides to drive the linkage rod 3g to be linked, the monitoring head 3j can stretch out and draw back in the lower end of the protective shell 3k, the monitoring head 3j stretches out of the protective shell 3k to monitor the water level, the monitoring head 3j retracts into the protective shell 3k to protect the surface of the monitoring head 3j, the surface of the monitoring head 3j is prevented from being covered by water mist, the monitoring definition of the monitoring head 3j is improved, spiral elastic force is applied to the inner center of the winding disc v6 through the spring sheet v1 in the stretching process, the winding disc v6 is automatically rotated, the data line v9 can be automatically wound and unwound, and the data line v9 is ensured to be tightly connected between the monitoring head 3j and the receiver 58 in the stretching process, and the normal transmission of the data monitored by the monitoring head 3j is ensured.

By utilizing the technical scheme of the invention or under the inspired by the technical scheme of the invention, a similar technical scheme is designed by a person skilled in the art, so that the technical effects are achieved, and the technical scheme falls into the protection scope of the invention.

Claims (6)

1. The utility model provides an energy-saving monitoring devices for water conservancy construction management, its structure includes unable adjustment base (D), supports pole setting (G), electric cabinet (X), noise monitor (Z), solar panel (T), water level monitor (J), unable adjustment base (D) up end middle part welds with supporting pole setting (G) bottom mutually, support pole setting (G) mid-mounting has electric cabinet (X), electric cabinet (X) are connected with noise monitor (Z) electricity to noise monitor (Z) fixed mounting is on supporting pole setting (G) top right side, solar panel (T) are installed at supporting pole setting (G) top to solar panel (T) are connected with electric cabinet (X) electricity, water level monitor (J) are installed in supporting pole setting (G) top left side, water level monitor (J) are connected with electric cabinet (X) electricity, its characterized in that:

the water level monitor (J) comprises a fixed support rod (J2), a magnetic attraction plate (J6), an electromagnetic rod (J8), a transverse moving rod (J3) and a monitoring host (J5), wherein the right end of the fixed support rod (J2) is welded on the left side of the top of a supporting vertical rod (G), the magnetic attraction plate (J6) is arranged inside the right end of the fixed support rod (J2), the magnetic attraction plate (J6) is slidably mounted on the right end of the electromagnetic rod (J8), the electromagnetic rod (J8) is fixedly mounted inside the fixed support rod (J2), the right end of the transverse moving rod (J3) is welded with the magnetic attraction plate (J6), the right end of the transverse moving rod (J3) is slidably mounted inside the right end of the fixed support rod (J2), the left end of the transverse moving rod (J3) is welded on the right side of the monitoring host (J5), and the monitoring host (J5) is electrically connected with an electric control box (X).

2. The energy-saving type monitoring device for water conservancy construction management according to claim 1, wherein: the monitoring host (j 5) comprises an outer shell (j 56), a transmitter (j 52), a host chip (j 55), a receiver (j 58), a heat dissipation mechanism (j 51) and a protection mechanism (j 53), wherein the transmitter (j 52) is arranged at the upper end inside the outer shell (j 56), the transmitter (j 52) is electrically connected with the host chip (j 55), the host chip (j 55) is electrically connected with the receiver (j 58), the receiver (j 58) is electrically connected with the inside of the protection mechanism (j 53), the heat dissipation mechanism (j 51) is arranged outside the host chip (j 55), the heat dissipation mechanism (j 51) is arranged inside the outer shell (j 56), the protection mechanism (j 53) is arranged at the lower end of the outer shell (j 56), and the outer shell (j 56) and the right end outside of the protection mechanism (j 53) are welded with the left end of a transverse moving rod (j 3).

3. The energy-saving type monitoring device for water conservancy construction management according to claim 2, wherein: the heat dissipation mechanism (j 51) comprises a heat collection frame plate (1 j), a heat absorption block (1 p), a heat dissipation plate (1 b), an exhaust frame plate (1 k) and a backflow prevention mechanism (1 s), wherein the heat collection frame plate (1 j) is located outside a host chip (j 55), the heat absorption block (1 p) is arranged inside the heat collection frame plate (1 j), the heat absorption block (1 p) is arranged on the left side of the heat dissipation plate (1 b), the heat dissipation plate (1 b) is slidably mounted inside the exhaust frame plate (1 k), the left end of the exhaust frame plate (1 k) is welded with the right end of the heat collection frame plate (1 j) and communicated with the right end of the heat collection frame plate, the exhaust frame plate (1 k) is arranged inside an outer casing (j 56), the backflow prevention mechanism (1 s) penetrates inside the exhaust frame plate (1 k), and the right end of the heat dissipation plate (1 b) is mounted inside the backflow prevention mechanism (1 s) in a clearance fit mode.

4. The energy-saving type monitoring device for water conservancy construction management according to claim 3, wherein: the anti-backflow mechanism (1 s) comprises a heat dissipation hole (s 6), a torsion shaft (s 2) and an opening and closing plate (s 8), wherein the heat dissipation hole (s 6) penetrates through the right end of the exhaust frame plate (1 k), the opening and closing plate (s 8) is hinged to the right end of the exhaust frame plate (1 k) through the torsion shaft (s 2), the opening and closing plate (s 8) is located in the heat dissipation hole (s 6), and the left side of the opening and closing plate (s 8) is in contact with the right end of the heat dissipation plate (1 b).

5. The energy-saving type monitoring device for water conservancy construction management according to claim 2, wherein: protection machanism (j 53) include shield shell (3 k), electromagnetism slide rail (3 d), slide shaft (3 h), trace (3 g), monitor head (3 j), conduction mechanism (3 v), shield shell (3 k) are established in outer casing (j 56) lower extreme to shield shell (3 k) internally mounted has electromagnetism slide rail (3 d), electromagnetism slide rail (3 d) internally mounted slidable mounting has slide shaft (3 h), slide shaft (3 h) are established in trace (3 g) upper end to trace (3 g) lower extreme is articulated mutually with monitor head (3 j) upper end middle part, monitor head (3 j) slidable mounting is inside shield shell (3 k), monitor head (3 j) are connected with receiver (j 58) electricity through conduction mechanism (3 v).

6. The energy-saving type monitoring device for water conservancy construction management according to claim 5, wherein: conduction mechanism (3 v) are including fixed shell (v 4), data line (v 9), take-up reel (v 6), spring leaf (v 1), fixed shell (v 4) fixed mounting is in the inside upper end of protecting crust (3 k) to data line (v 9) adopt clearance fit to install inside fixed shell (v 4), monitor head (3 j) is connected with receiver (j 58) electricity through data line (v 9), take-up reel (v 6) are installed in the inside middle-end of fixed shell (v 4), data line (v 9) twine in the take-up reel (v 6) outside, take-up reel (v 6) inside center is equipped with spring leaf (v 1).

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