阅读说明：本技术 一种具有远处监控功能的箱式变电站 (Box-type substation with remote monitoring function ) 是由 梅文龙 谢仁龙 于 2021-08-09 设计创作，主要内容包括：本发明公开了一种具有远处监控功能的箱式变电站,包括框体、固定块和拉杆,所述框体的底壁均匀安装有多组伸缩弹簧,所述框体的顶部安装有顶盖,所述框体的顶部设置有环形嵌合槽,所述顶盖的顶部安装有挡雨板；所述挡雨板的顶部安装有屋脊,所述屋脊的顶部设置有两组并排布置的槽洞,所述槽洞的底壁安装有圆筒。本发明中安装的两组监控摄像头呈高低布置,继而可实现高低监控,方便进行远近区域监控,且两组监控摄像头可进行旋转监控,增加监控范围,且框体内部可通过温度传感器实时监测其内部的温度状况,当其内部温度超过设定数值时,可扩展通道,增加散热效率,装置之中的门板闭合时,可采用顶杆和插杆加固门板,避免门板受到较大风力的影响。(The invention discloses a box-type substation with a remote monitoring function, which comprises a frame body, a fixed block and a pull rod, wherein a plurality of groups of telescopic springs are uniformly arranged on the bottom wall of the frame body; a roof ridge is installed at the top of the rain baffle, two groups of groove holes which are arranged side by side are formed in the top of the roof ridge, and a cylinder is installed on the bottom wall of each groove hole. The two groups of monitoring cameras are arranged in a high-low mode, so that high-low monitoring can be achieved, far and near area monitoring is convenient to carry out, the two groups of monitoring cameras can carry out rotary monitoring, the monitoring range is enlarged, the temperature condition inside the frame body can be monitored in real time through the temperature sensor, when the internal temperature exceeds a set value, the channel can be expanded, the heat dissipation efficiency is improved, and when the door panel in the device is closed, the door panel can be reinforced through the ejector rod and the inserted rod, so that the door panel is prevented from being influenced by large wind power.)

1. The utility model provides a box-type substation with monitor function in a distance, includes framework (1), fixed block (2) and pull rod (3), its characterized in that: a plurality of groups of telescopic springs (5) are uniformly arranged on the bottom wall of the frame body (1), a top cover (6) is arranged on the top of the frame body (1), an annular embedding groove (7) is formed in the top of the frame body (1), and a rain shield (8) is arranged on the top of the top cover (6);

roof ridge (9) are installed at the top of weather shield (8), the top of roof ridge (9) is provided with two sets of parallel arrangement's slot hole, drum (901) is installed to the diapire of slot hole, and the inside of slot hole is extended to the top of drum (901), rotation motor (902) is installed to the diapire of drum (901), the pivot is installed to the output of rotation motor (902), plectane (903) is installed at the top of pivot, and the inside of plectane (903) and the outer wall laminating of drum (901), electronic telescopic cylinder (904) is installed at the top of plectane (903), surveillance camera (905) is installed at the top of electronic telescopic cylinder (904).

2. A box substation with remote monitoring according to claim 1, characterized in that: two sets of radiator fans (601) arranged in parallel are installed at the bottom of the top cover (6), a temperature sensor (602) is installed on the back face of the frame body (1), and driving fans (603) are installed on the front wall and the rear wall of the frame body (1).

3. A box substation with remote monitoring according to claim 1, characterized in that: four groups of electric telescopic rods (701) which are arranged in a square mode are evenly installed on the bottom wall of the annular embedding groove (7), the tops of the electric telescopic rods (701) extend into the top cover (6), ventilation baffles (702) are installed on the outer wall of one side of each of the four groups of electric telescopic rods (701), and the four groups of ventilation baffles (702) and the four groups of electric telescopic rods (701) are arranged at intervals in a square mode.

4. A box substation with remote monitoring according to claim 1, characterized in that: two sets of door plant (102) that the laminating was arranged are installed in the front of framework (1), four group's block (105) that are rectangle and arrange are evenly installed in the front of framework (1), and four group's block (105) are located the top and the below of two sets of door plant (102) respectively, two sets of fixed block (2) of arranging side by side are installed in the front of framework (1), the front of fixed block (2) is provided with square groove (201), the inside of fixed block (2) is extended to one side outer wall of square groove (201), the bottom of square groove (201) is provided with the notch, ejector pin (202) are all installed to the bottom of two sets of fixed blocks (2), and the inside of wherein two sets of block (105) is run through respectively to the top of two sets of ejector pin (202).

5. A box substation with remote monitoring according to claim 4, characterized in that: two sets of pull rod (3) are all installed to the bottom of fixed block (2), and the top of pull rod (3) is provided with recess (301), and the back mounting of pull rod (3) has interception piece (302) and places piece (303), and the back of intercepting piece (302) and placing piece (303) all laminates with the front of door plant (102), and places the below that piece (303) are located interception piece (302).

6. A box substation with remote monitoring according to claim 5, characterized in that: the bottom of two sets of pull rod (3) all installs linkage plate (4), and inserted bar (401) are all installed at the top of two sets of linkage plate (4), and the inside of other two sets of block piece (105) is run through respectively to the bottom of two sets of inserted bar (401).

7. A box substation with remote monitoring according to claim 1, characterized in that: the bottom of framework (1) evenly installs multiunit lifting piece (101) of arranging side by side, and the both sides outer wall of framework (1) and the front of two sets of door plant (102) all are provided with multiunit from last logical groove (103) of down arranging in proper order, and logical groove (103) keep away from one side of framework (1) and install ash blocking frame (104).

8. A box substation with remote monitoring according to claim 1, characterized in that: the bottom of framework (1) is evenly installed multiunit flexible post (501), and flexible post (501) are located expanding spring (5) and encircle to enclose synthetic space inside, and plane board (502) are installed at the top of expanding spring (5) and flexible post (501), and transformer component (503) are installed at the top of plane board (502), and storage battery is installed at the top of transformer component (503).

9. A box substation with remote monitoring according to claim 1, characterized in that: eight groups of supporting rods (801) which are uniformly arranged are installed at the top of the rain shielding plate (8), two groups of solar panels (802) which are arranged front and back are installed at the top of the eight groups of supporting rods (801), a rain and snow sensor (803) is installed at the top of the rain shielding plate (8), and the rain and snow sensor (803) is located on one side of the supporting rods (801).

10. A substation according to any of claims 1 to 9, wherein: the working steps of the device are as follows:

s1, when the device runs, two groups of monitoring cameras (905) are synchronously started, wherein the two groups of monitoring cameras (905) are arranged in a high-low mode, the monitoring camera (905) in a higher position space can be used for monitoring a space position in a far position, otherwise, the other group of monitoring cameras (905) are used for monitoring an area near the box-type substation, the monitoring range can be effectively increased, meanwhile, two groups of electric telescopic cylinders (904) can be correspondingly started according to the actual application requirement, can be used for adjusting upwards or downwards, and then the comprehensive height of the device is changed and is used for adjusting the height difference between the two groups of monitoring cameras (905);

s2, simultaneously starting a rotating motor (902), and driving a rotating shaft arranged at the output end to rotate according to a set rotating speed after the rotating motor is started, and then driving a circular plate (903) arranged at the top of the rotating shaft, an electric telescopic cylinder (904) and a monitoring camera (905) to keep rotating at the same rotating speed in the same direction;

s3, two groups of solar panels (802) in the device absorb light energy through photoelectric materials arranged in the device and then perform photoelectric conversion reaction, and then electric energy is led into a storage battery electrically connected with the solar panels, wherein the storage battery can provide electric energy for electric components such as a monitoring camera (905), a rotating motor (902), a rain and snow sensor (803), a temperature sensor (602), a cooling fan (601) and the like in the device so as to maintain the operation of the storage battery;

s4, a temperature sensor (602) arranged in the device can sense the temperature condition in the frame body (1), when the internal temperature changes, a thermistor in the temperature sensor (602) can correspondingly change, then the change of the resistance is converted into a voltage analog signal, then the analog signal is converted into a digital signal, then a processor converts the corresponding temperature value, the temperature sensor (602) is electrically connected with the radiating fan (601) and the driving fan (603), when the temperature sensed by the temperature sensor (602) reaches a set value, the radiating fan (601) and the driving fan (603) can be started, the two drive fan blades to rotate through power parts in the radiating fan (601) and the driving fan (603), so as to stir the surrounding air, accelerate the flowing speed of the air and further promote the hot air in the device to flow outwards from the groups of through grooves (103), when the temperature sensed by the temperature sensor (602) exceeds a set value, the electric telescopic rod (701) electrically connected with the temperature sensor can be started, the electric telescopic rod extends upwards to reach the length of the electric telescopic rod, then the top cover (6) installed at the top of the electric telescopic rod (701) and all parts at the top of the electric telescopic rod are driven to move upwards, the tops of the four groups of ventilation baffles (702) can extend out of the annular embedding groove (7), a certain distance is reserved between the bottom of the top cover (6) and the top of the frame body (1), the heat in the frame body (1) can be allowed to flow outwards from the four groups of ventilation baffles (702), and the heat dissipation efficiency can be improved;

s5, the rain and snow sensor (803) senses whether rainfall exists outside by using the conductive characteristic of rain and snow and adopting a surface grid electrode, the rain and snow sensor is electrically connected with the electric telescopic rod (701), and when the rain and snow sensor (803) detects that rain and snow exist, if the temperature detected by the temperature sensor (602) in the frame body (1) exceeds a set value, the electric telescopic rod (701) is not allowed to be started.

Technical Field

The invention relates to the technical field of transformer substations, in particular to a box type transformer substation with a remote monitoring function.

Background

The box-type transformer substation is widely applied to residential districts, urban public transformer substations, busy cities, construction power supplies, wind power generation farms, solar power generation farms and the like, along with the rapid development of modern construction of China cities and the continuous updating and transformation of urban power distribution networks, the box-type transformer substation is widely applied, and users can select the box-type transformer substations according to different use conditions and load grades, so that the use selectivity of the box-type transformer substations is increased.

The existing transformer substation device has the defects that:

1. the reference CN113013767A discloses a box substation, "comprising a backplane, a box body is fixed above the bottom plate, a first heat dissipation groove is arranged on one side of the box body, a second heat dissipation groove is arranged on one side of the box body adjacent to the first heat dissipation groove, the first heat dissipation groove is rotatably connected with a swing plate, a support plate is fixed in the box body, a servo motor is fixed on the support plate, a drawing structure for drawing the swinging plate to move in a fanning manner is arranged in the box body, a first fanning structure is arranged on one surface of the box body, which is opposite to the second heat dissipation groove, a second fan structure is arranged on one surface, opposite to the first heat dissipation groove, in the box body, and a linkage structure which drives the traction structure, the first fan structure and the second fan structure to move through the servo motor is further arranged in the box body; this box-type substation has good heat-sinking capability. However, the box-type substation is lack of components for monitoring areas near and far from the substation, and if someone destroys the substation, workers are difficult to determine information of a destroyer, so that the warning effect of the device is reduced to a certain extent;

2. the comparison document CN112332232A discloses a box-type substation, which comprises a top cover, a substation main body and a base, wherein heat dissipation holes are formed in the side wall of the substation main body, the heat dissipation holes are communicated with an evaporation cooling channel, a filter screen is fixedly arranged inside the heat dissipation holes, a rotary drum is movably arranged inside a water collection tank, one side of the rotary drum close to a pushing tank is movably penetrated through a threaded screw rod, one side of the rotary drum close to the evaporation cooling channel is movably penetrated through a push rod, a connecting spring is movably connected between the push rod and the threaded screw rod, and one end of an insulating column far away from a conductive column is fixedly connected with a baffle plate. And the damage to electronic elements caused by water entering the transformer substation is avoided. However, the heat dissipation manner in the transformer substation is complicated, the transformer substation is cooled by water, the heat dissipation strength is low, the interior of the transformer substation cannot be uniformly dissipated, and the heat dissipation channel cannot be correspondingly increased by a temperature value;

3. reference CN112787249A discloses a box-type substation with real-time monitoring and alarming functions, which comprises a substation, the outer surface of the substation is movably connected with four box doors, a first chute is formed in the lower surface of the inner wall of the box door, a first sliding block is slidably connected in the first chute, and the right side surface of the inner wall of the box door is fixedly connected with the right side surface of a motor. The invention drives the heat dissipation mechanism to perform the work of heat dissipation in a left-right and up-down reciprocating manner, so that the multi-angle and multi-azimuth heat dissipation work is achieved, the uniformity of heat dissipation of devices in the transformer substation is ensured, the heat dissipation area is enlarged, meanwhile, the temperature monitoring work of the temperature sensor on each part can be ensured, the monitoring and heat dissipation work by using a plurality of temperature sensors and a plurality of heat dissipation mechanisms is avoided, the subsequent maintenance work is relatively convenient, and the cost input is reduced. However, when the door panel in the device is closed, the connection with the device is not increased, and when the device is in a strong wind environment, the door panel can be blown to deform by wind force;

4. reference CN210518631U discloses a 5G-based box-type substation video and environment monitoring device, "including box-type substation, the upper end of box-type substation is equipped with a top cover, and the outer wall of the upper portion of box-type substation is equipped with a plurality of 5G environment video monitoring assemblies fastened with the lower end of the top cover by bolts. The 5G environment video monitoring assembly comprises a camera, a video monitoring mounting assembly is arranged between the camera and the top cover, and a lens dust wiping assembly in movable contact with the camera is arranged in the video monitoring mounting assembly. Has the characteristics of timely cleaning, time and labor saving, good running stability and long service life. The problem that the definition is influenced by the dust deposition of the monitoring camera is solved. The effectiveness of transformer substation monitoring is improved, and the delay of finding potential safety hazard conditions caused by the unclear lens is avoided. However, the monitoring device in the device is installed at a fixed point, and can only monitor a specific angle, and the side and the back of the monitoring device cannot be taken into consideration, so that the monitoring device has more dead angles.

Disclosure of Invention

The present invention is directed to a box-type substation with remote monitoring function, so as to solve the above mentioned problems in the background art.

In order to achieve the purpose, the invention provides the following technical scheme: a box-type substation with a remote monitoring function comprises a frame body, a fixed block and a pull rod, wherein a plurality of groups of telescopic springs are uniformly arranged on the bottom wall of the frame body, a top cover is arranged at the top of the frame body, an annular embedding groove is formed in the top of the frame body, and a rain baffle is arranged at the top of the top cover;

the roof is installed at the top of weather shield, the top of roof is provided with two sets of slot holes of arranging side by side, the drum is installed to the diapire of slot hole, and the inside of slot hole is extended at the top of drum, the rotation motor is installed to the diapire of drum, the pivot is installed to the output of rotation motor, the plectane is installed at the top of pivot, and the inside of plectane and the outer wall laminating of drum, electronic telescopic cylinder is installed at the top of plectane, monitoring camera is installed at the top of electronic telescopic cylinder.

Preferably, two sets of heat dissipation fans arranged in parallel are mounted at the bottom of the top cover, a temperature sensor is mounted on the back surface of the frame, and driving fans are mounted on the front wall and the rear wall of the frame.

Preferably, four groups of electric telescopic rods which are arranged in a square shape are uniformly installed on the bottom wall of the annular embedding groove, the tops of the electric telescopic rods extend into the top cover, the outer wall of one side of each of the four groups of electric telescopic rods is provided with a ventilation baffle, and the four groups of ventilation baffles and the four groups of electric telescopic rods are arranged at intervals in a square shape.

Preferably, the door plant that two sets of laminating were arranged is installed in the front of framework, and four sets of block that are rectangle and arrange are evenly installed in the front of framework, and four sets of block are located the top and the below of two sets of door plants respectively, and two sets of fixed blocks of arranging side by side are installed in the front of framework, and the front of fixed block is provided with square groove, and the inside of fixed block is extended to one side outer wall in square groove, and the bottom in square groove is provided with the notch, and the ejector pin is all installed to the bottom of two sets of fixed blocks, and wherein the inside of two sets of block is run through respectively to the top of two sets of ejector pin.

Preferably, the bottom of the two groups of fixed blocks is provided with a pull rod, the top of the pull rod is provided with a groove, the back of the pull rod is provided with an interception block and a placement block, the back of the interception block and the back of the placement block are both attached to the front of the door panel, and the placement block is positioned below the interception block.

Preferably, the bottom of the two groups of pull rods is provided with a connecting plate, the top of the two groups of connecting plates is provided with an inserting rod, and the bottom of the two groups of inserting rods penetrates through the inside of the other two groups of clamping blocks respectively.

Preferably, the bottom of framework evenly installs the lifting piece that the multiunit was arranged side by side, and the both sides outer wall of framework and the front of two sets of door plants all are provided with the logical groove that the multiunit was arranged from last down in proper order, lead to the groove and keep away from one side of framework and install the ash blocking frame.

Preferably, a plurality of groups of telescopic columns are uniformly installed at the bottom of the frame body, the telescopic columns are located inside a space surrounded by the telescopic springs, a plane plate is installed at the tops of the telescopic springs and the telescopic columns, a power transformation component is installed at the top of the plane plate, and a storage battery pack is installed at the top of the power transformation component.

Preferably, eight groups of supporting rods which are uniformly arranged are installed at the top of the rain shielding plate, two groups of solar panels which are arranged front and back are installed at the tops of the eight groups of supporting rods, a rain and snow sensor is installed at the top of the rain shielding plate, and the rain and snow sensor is located on one side of the supporting rods.

Preferably, the working steps of the device are as follows:

s1, when the device runs, two groups of monitoring cameras are synchronously started, the two groups of monitoring cameras are arranged in a high-low mode, the monitoring camera located in a higher space can be used for monitoring a space position at a far position, otherwise, the other group of monitoring cameras are used for monitoring an area near the box-type substation, the monitoring range can be effectively increased, meanwhile, two groups of electric telescopic cylinders can be correspondingly started according to the actual application requirements, the electric telescopic cylinders can be adjusted upwards or downwards, and then the comprehensive height of the electric telescopic cylinders is changed and is used for adjusting the height difference between the two groups of monitoring cameras;

s2, simultaneously starting a rotating motor, driving a rotating shaft arranged at the output end to rotate according to a set rotating speed after the rotating motor is started, and then driving a circular plate, an electric telescopic cylinder and a monitoring camera arranged at the top of the rotating motor to rotate at the same rotating speed in the same direction;

s3, two groups of solar panels in the device absorb light energy through photoelectric materials arranged in the solar panels to generate photoelectric conversion reaction, and then the electric energy is led into a storage battery pack electrically connected with the solar panels, and the storage battery pack can provide electric energy for electric components such as a monitoring camera, a rotating motor, a rain and snow sensor, a temperature sensor and a cooling fan in the device so as to maintain the operation of the storage battery pack;

s4, a temperature sensor arranged in the device can sense the temperature condition in the frame body, when the internal temperature changes, a thermistor in the temperature sensor can correspondingly change, then the change of the resistance is converted into a voltage analog signal, then the analog signal is converted into a digital signal, then a corresponding temperature value is converted by a processor, the temperature sensor is electrically connected with the radiating fan and the driving fan, when the temperature sensed by the temperature sensor reaches a set value, the radiating fan and the driving fan can be started, the radiating fan and the driving fan drive the fan blades to rotate through a power component in the radiating fan and the driving fan to stir ambient air, the flowing speed of the air is accelerated, hot air in the device can be enabled to flow outwards from the plurality of groups of through grooves, and when the temperature sensed by the temperature sensor exceeds the set value, an electric telescopic rod electrically connected with the radiating fan can be started, the top cover extends upwards to reach the length of the top cover, the top cover is mounted on the top of the electric telescopic rod, and all parts on the top of the electric telescopic rod are driven to move upwards;

s5, the rain and snow sensor senses whether rainfall exists outside or not by using the conductive characteristic of rain and snow and adopting the surface grid-shaped electrode, the rain and snow sensor is electrically connected with the electric telescopic rod, and when the rain and snow sensor detects that rain and snow exist, if the temperature detected by the temperature sensor in the frame body exceeds a set value, the electric telescopic rod is not allowed to be started.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, the two groups of monitoring cameras have functions of photographing, shooting and the like, a warning effect can be added to the device, the heights of the electric telescopic cylinders arranged below the two groups of monitoring cameras are different, so that the two groups of monitoring cameras are arranged in a high-low mode, so that a height difference is formed between the two groups of monitoring cameras, the monitoring camera positioned in a higher position space can be used for monitoring a space position at a far position, otherwise, the other group of monitoring camera is used for monitoring a region near the box-type substation, the monitoring range can be effectively increased, and the height difference of the two groups of monitoring cameras can be correspondingly increased or reduced by adjusting the two groups of electric telescopic cylinders;

2. when the temperature sensed by the temperature sensor exceeds a set value, the electric telescopic rod can extend upwards to the length, then each part mounted on the top is driven to move upwards, the tops of the four groups of ventilation baffles can extend out of the annular embedding groove, a certain distance is reserved between the bottom of the top cover and the top of the frame body, and the heat in the frame body can be allowed to flow outwards from the four groups of ventilation baffles, and then, the channel for the air flowing inside and outside the frame body is increased, and the heat dissipation efficiency can be improved.

3. In the use process, after the door panel is closed, two groups of ejector rods are required to be respectively inserted into the clamping blocks positioned above, and two groups of insertion rods are required to be respectively inserted into the two groups of clamping blocks positioned below, so that the contact between the adjacent positions of the junctions of the two groups of door panels and the frame body can be increased, the installation stability between the door panels and the frame body is further increased when the door panels are closed, and the influence of external strong wind on the closing of the door panels can be reduced;

4. in the use process of the invention, after the rotating motor is started, the rotating shaft arranged at the output end can be driven to rotate according to the set rotating speed set direction, then the circular plate, the electric telescopic cylinder and the monitoring camera arranged at the top of the rotating motor are driven to keep rotating at the same rotating speed in the same direction, and the rotating shafts arranged at the output ends of the two groups of rotating motors rotate in opposite directions, so that the monitoring range of the monitoring camera can be enlarged, and the monitoring dead angle can be reduced.

Drawings

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

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

FIG. 3 is a schematic sectional view of an L-shaped side of the present invention;

FIG. 4 is a schematic view of the mounting structure of the engaging block, the fixing block and the ejector rod of the present invention;

FIG. 5 is a schematic view of the mounting structure of the tie rods, connector plates and insert rods of the present invention;

FIG. 6 is a schematic view of the mounting structure of the frame, the annular engaging groove and the electric telescopic rod according to the present invention;

FIG. 7 is a schematic view of an installation structure of the electric telescopic rod and the ventilation baffle of the present invention;

FIG. 8 is a schematic view of the installation structure of the cylinder, the rotating motor and the circular plate according to the present invention.

In the figure: 1. a frame body; 101. lifting the block; 102. a door panel; 103. a through groove; 104. a dust blocking frame; 105. a clamping block; 2. a fixed block; 201. a square groove; 202. a top rod; 3. a pull rod; 301. a groove; 302. an intercepting block; 303. placing the blocks; 4. a connector tile; 401. inserting a rod; 5. a tension spring; 501. a telescopic column; 502. a flat plate; 503. a power transformation component; 6. a top cover; 601. a heat radiation fan; 602. a temperature sensor; 603. driving a fan; 7. an annular fitting groove; 701. an electric telescopic rod; 702. a ventilation baffle; 8. a rain shield; 801. a support bar; 802. a solar panel; 803. a rain and snow sensor; 9. a roof ridge; 901. a cylinder; 902. rotating the motor; 903. a circular plate; 904. an electric telescopic cylinder; 905. a monitoring camera.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The first embodiment is as follows:

as shown in fig. 1, 3 and 8, a box-type substation with a remote monitoring function comprises a frame body 1, a fixed block 2 and a pull rod 3, wherein a plurality of groups of telescopic springs 5 are uniformly arranged on the bottom wall of the frame body 1, a top cover 6 is arranged on the top of the frame body 1, an annular embedding groove 7 is arranged on the top of the frame body 1, and a rain shield 8 is arranged on the top of the top cover 6;

specifically, the frame body 1 can increase the safeguard function to each part in it, avoid it to receive influences such as external collision, expanding spring 5 itself has certain elastic deformation ability and the effect of restoring to the throne, when the component 503 that becomes electricity when moving, can produce certain vibration, when its vibration downwardly transmitted, can be absorbed by the elastic action of expanding spring 5 self-bring, then reduce resonance, the produced noise when having reduced the device operation, top cap 6 can be used to seal the top of frame body 1, annular gomphosis groove 7 is used for the installation of multiunit electric telescopic handle 701 and ventilation baffle 702, the border department of weather shield 8 surpasss the border of top cap 6, and it looks from the side, constitute by two sets of hang plates, the position that two sets of hang plates connect is the peak, can be convenient for the rainwater from its face up down the landing.

Roof 9 is installed at the top of weather shield 8, roof 9's top is provided with two sets of slot holes of arranging side by side, drum 901 is installed to the diapire of slot hole, and the inside of slot hole is extended out at the top of drum 901, rotation motor 902 is installed to the diapire of drum 901, the pivot is installed to rotation motor 902's output, plectane 903 is installed at the top of pivot, and plectane 903's inside and the outer wall laminating of drum 901, electronic telescopic cylinder 904 is installed at the top of plectane 903, surveillance camera 905 is installed at the top of electronic telescopic cylinder 904.

Specifically, the ridge 9 is used as a middle line of the rain shield 8, and can be used for installing two groups of cylinders 901, so that the installation firmness of the cylinders 901 can be improved, the cylinders 901 provide a stable place for installing the rotating motor 902, the external interference during the operation of the rotating motor can be avoided, when the rotating motor 902 is started, the rotating shaft installed at the output end of the rotating motor can be driven to rotate according to the set rotating speed in the set direction, then the circular plate 903 arranged at the top of the rotating shaft is driven to rotate, the circular plate 903 provides a stable place for installing the electric telescopic cylinder 904, when the electric telescopic cylinder 904 is started, the upward extension or the downward contraction operation can be selected, so that the comprehensive length is changed, then the monitoring cameras 905 installed at the top of the electric telescopic cylinder can be driven to adjust the spatial height position up and down, the two groups of electric telescopic cylinders 904 in the device are arranged in a high-low mode, so that a height difference is formed between the two groups of monitoring cameras 905, therefore, two groups of monitoring cameras 905 can be prompted to monitor different distance areas, the monitoring cameras 905 have the functions of photographing, shooting and the like, and the warning function can be added to the device.

The bottom of framework 1 evenly installs the lifting piece 101 that the multiunit was arranged side by side, and the both sides outer wall of framework 1 and the front of two sets of door plant 102 all are provided with the logical groove 103 that the multiunit was arranged from last down in proper order, and logical groove 103 keeps away from one side of framework 1 and installs ash blocking frame 104.

It is specific, lifting piece 101 has a take the altitude, can be used to lifting framework 1, avoid its bottom direct with place the mesa contact, then effectively stop its bottom surface and receive wearing and tearing, it link up each other with the outside to lead to the setting of groove 103 being convenient for framework 1 inside, then be convenient for the flow of inside and outside air, the installation of ash blocking frame 104 can be convenient for outside air from its below flow to its inside, then get into the inside to framework 1 through leading to groove 103, inside reducible dust entering device, avoid influencing the operation of the inside each part of device.

The bottom of framework 1 evenly installs multiunit telescopic column 501, and telescopic column 501 is located telescopic spring 5 and encircles inside enclosing synthetic space, and the top of telescopic spring 5 and telescopic column 501 is installed plane board 502, and power transformation component 503 is installed to the top of plane board 502, and storage battery is installed at the top of power transformation component 503.

Specifically, the telescopic column 501 can be driven by external force to perform telescopic operation so as to change the self comprehensive length, and can be used for limiting the path of the telescopic spring 5 during contraction, avoiding the dislocation phenomenon during contraction and influencing the service life of the telescopic spring, the plane plate 502 is used for installing the power transformation component 503, the power transformation component 503 is a main component of the device, the storage battery pack is electrically connected with the two groups of solar panels 802, and the storage battery pack can be used for storing electric energy converted by the solar panels 802 and then providing electric energy for each electric component in the device so as to maintain the operation of the device.

Example two:

as shown in fig. 2, 3, 6 and 7, two sets of heat dissipation fans 601 arranged in parallel are mounted on the bottom of the top cover 6, a temperature sensor 602 is mounted on the back surface of the housing 1, and a driving fan 603 is mounted on both the front wall and the rear wall of the housing 1.

Specifically, when the temperature around the temperature sensor 602 changes, the thermistor inside the temperature sensor can change correspondingly, then the change of the resistance can be converted into a voltage analog signal, and finally the voltage analog signal is converted into a corresponding temperature value, which can be used for monitoring the temperature condition inside the frame 1 in real time, so that reaction measures in different temperature stages can be made in time, the cooling fan 601 and the driving fan 603 are both electrically connected with the temperature sensor 602, when the temperature sensed by the temperature sensor 602 reaches a set value, the cooling fan 601 and the driving fan 603 can be started, and the two drive the fan blades to rotate through the power component inside the cooling fan 603 for stirring the surrounding air, so that wind power is generated to accelerate the air flow speed, and then the hot air inside the device can flow outwards from the groups of through grooves 103 quickly, and then the purpose of cooling is achieved.

Four groups of electric telescopic rods 701 which are arranged in a square shape are uniformly installed on the bottom wall of the annular embedding groove 7, the tops of the electric telescopic rods 701 extend into the top cover 6, ventilation baffles 702 are installed on the outer wall of one side of each of the four groups of electric telescopic rods 701, and the four groups of ventilation baffles 702 and the four groups of electric telescopic rods 701 are arranged at intervals in a square shape.

Specifically, electric connection between electric telescopic handle 701 and temperature sensor 602, when the temperature that the perception through temperature sensor 602 exceeded the settlement numerical value, four group electric telescopic handle 701 can be corresponding upwards extend the operation, be used for upwards promoting each part at its top, then impel to produce certain interval between top cap 6 and the framework 1, drive the inside that four group ventilation baffle 702's top extended annular gomphosis groove 7 simultaneously, the inside and the outside gaseous flow path of multiplicable framework 1 this moment, simultaneously, ventilation baffle 702 has the effect of intercepting the dust, its surface evenly sets up by multiunit through-hole, can intercept great graininess debris when admitting air circulation, avoid its inside that gets into the device.

Eight groups of supporting rods 801 which are uniformly arranged are installed at the top of the rain shielding plate 8, two groups of solar panels 802 which are arranged front and back are installed at the tops of the eight groups of supporting rods 801, a rain and snow sensor 803 is installed at the top of the rain shielding plate 8, and the rain and snow sensor 803 is located on one side of the supporting rods 801.

Specifically, the support bar 801 is used for mounting a solar panel 802, the solar panel 802 absorbs light energy through a photoelectric material mounted inside the solar panel 802 to perform a photoelectric conversion reaction, and then the electric energy is introduced into a storage battery electrically connected to the solar panel 802, the storage battery can provide electric energy for each electrical component in the device to maintain the normal operation of the electrical component, and the rain and snow sensor 803 can utilize the conductive property of rain and snow and simultaneously adopt a surface grid electrode to sense whether there is rainfall outside.

Example three:

as shown in fig. 1, fig. 4 and fig. 5, two sets of door panels 102 arranged in a laminating manner are installed on the front surface of the frame body 1, four sets of rectangular clamping blocks 105 are evenly installed on the front surface of the frame body 1, the four sets of clamping blocks 105 are respectively located above and below the two sets of door panels 102, two sets of fixed blocks 2 arranged side by side are installed on the front surface of the frame body 1, a square groove 201 is arranged on the front surface of the fixed block 2, the outer wall of one side of the square groove 201 extends out of the inside of the fixed block 2, a notch is formed in the bottom of the square groove 201, push rods 202 are installed at the bottom of the two sets of fixed blocks 2, and the tops of the two sets of push rods 202 respectively penetrate through the inside of the two sets of clamping blocks 105.

Specifically, adopt hinge connection between door plant 102 and the framework 1, it can be opened from the front of framework 1, then be convenient for overhaul its inside each part, wherein two sets of block 105 that are located more top can be convenient for insert of ejector pin 202, two sets of block 105 that are located more below can be convenient for insert of inserted bar 401, when inserted bar 401 and block 105 all run through block 105, the steadiness between multiplicable door plant 102 and the framework 1, avoid external strong wind to cause the influence to the closure of door plant 102.

The pull rods 3 are mounted at the bottoms of the two groups of fixed blocks 2, grooves 301 are formed in the tops of the pull rods 3, blocking blocks 302 and placing blocks 303 are mounted on the back faces of the pull rods 3, the back faces of the blocking blocks 302 and the back faces of the placing blocks 303 are attached to the front face of the door panel 102, and the placing blocks 303 are located below the blocking blocks 302.

Specifically, the pull rod 3 can be conveniently held by a user to apply a pulling force to the door panel 102, then the unlocked door panel 102 can be conveniently adjusted from a closed state to an open state, the arrangement of the groove 301 facilitates the adjustment of the ejector rod 202 from the inside penetrating through the clamping block 105 to the position separated from the clamping block 105, the intercepting block 302 can be used for placing the ejector rod 202, the top of the intercepting block is provided with a circular groove which can be used for clamping the bottom of the ejector rod 202, and then the ejector rod 202 is prevented from falling off from the intercepting block 302, the top of the placing block 303 is provided with a movable groove, when the user needs to open the door panel 102, an upward pulling force needs to be applied to the insertion rod 401 to enable the top of the insertion rod 401 to penetrate through the inside of the placing block 303, then a certain rotating force is applied to the insertion rod 401 to enable the top of the insertion rod 401 and the movable groove arranged on the placing block 303 in a staggered manner, and at this time, the insertion rod 401 cannot fall off the placing block 303.

The bottom of two sets of pull rods 3 all installs linking plate 4, and inserted bar 401 is all installed at the top of two sets of linking plate 4, and the inside of other two sets of block 105 is run through respectively to the bottom of two sets of inserted bar 401.

Specifically, the connecting plate 4 is used for fixing the bottom of the pull rod 3 to the door panel 102, so as to increase the installation stability of the pull rod 3, and when the inserting rod 401 is used, the bottom of the inserting rod can be inserted into the lower engaging block 105 for increasing the installation firmness between the door panel 102 and the frame 1 when the door panel is in the closed state.

Specifically, the working steps of the device are as follows:

s1, when the device runs, two groups of monitoring cameras 905 are synchronously started, the two groups of monitoring cameras 905 are arranged in a high-low mode, the monitoring camera 905 in a higher position space can be used for monitoring a space position in a far position, otherwise, the other group of monitoring cameras 905 is used for monitoring an area nearby the box-type substation, the monitoring range can be effectively increased, meanwhile, two groups of electric telescopic cylinders 904 can be correspondingly started according to the actual application requirements, upward or downward adjustment can be carried out, then the comprehensive height of the electric telescopic cylinders can be changed, and the height difference between the two groups of monitoring cameras 905 can be adjusted;

s2, simultaneously starting a rotating motor 902, and driving a rotating shaft arranged at an output end to rotate according to a set rotating speed after the rotating motor is started, and then driving a circular plate 903, an electric telescopic cylinder 904 and a monitoring camera 905 arranged at the top of the rotating shaft to rotate at the same rotating speed in the same direction;

s3, two groups of solar panels 802 in the device absorb light energy through photoelectric materials arranged in the device and then perform photoelectric conversion reaction, and then electric energy is led into a storage battery pack electrically connected with the solar panels, wherein the storage battery pack can provide electric energy for electric components in the device, such as a monitoring camera 905, a rotating motor 902, a rain and snow sensor 803, a temperature sensor 602, a cooling fan 601 and the like, so as to maintain the operation of the storage battery pack;

s4, a temperature sensor 602 arranged in the device can sense the temperature condition in the frame 1, when the internal temperature changes, a thermistor in the temperature sensor 602 can correspondingly change, then the change of the resistance is converted into a voltage analog signal, then the analog signal is converted into a digital signal, then a corresponding temperature value is converted by a processor, the temperature sensor 602 is electrically connected with the radiating fan 601 and the driving fan 603, when the temperature sensed by the temperature sensor 602 reaches a set value, the radiating fan 601 and the driving fan 603 can be started, the two drive the blades to rotate through a power component in the radiating fan 601 and the driving fan 603 to stir ambient air, the flowing speed of the air is accelerated, and then hot air in the device can rapidly flow outwards from the groups of through grooves 103, when the temperature sensed by the temperature sensor 602 exceeds the set value, the electric telescopic rod 701 electrically connected with the electric telescopic rod can be started, the electric telescopic rod extends upwards to reach the length of the electric telescopic rod, then the top cover 6 mounted at the top of the electric telescopic rod 701 and all parts at the top of the electric telescopic rod are driven to move upwards, the tops of the four groups of ventilation baffles 702 can extend out of the annular embedding groove 7, a certain distance is reserved between the bottom of the top cover 6 and the top of the frame body 1, the heat in the frame body 1 can be allowed to flow outwards from the four groups of ventilation baffles 702, and the heat dissipation efficiency can be improved;

s5, the rain and snow sensor 803 senses whether rainfall exists outside by using the conductive property of rain and snow and adopting a surface grid electrode, the rain and snow sensor is electrically connected with the electric telescopic rod 701, and when the rain and snow sensor 803 detects that rain and snow exist, if the temperature detected by the temperature sensor 602 in the frame body 1 exceeds a set value, the electric telescopic rod 701 cannot be started.

The working principle is as follows: two groups of monitoring cameras 905 are arranged in a high-low mode, the monitoring camera 905 in a higher space can be used for monitoring a space position in a far position, the monitoring camera 905 in a lower space position is used for monitoring a region near the box-type substation, the two monitoring cameras are combined for use, the monitoring range can be effectively increased, two groups of electric telescopic cylinders 904 are started, the height difference between the two groups of monitoring cameras 905 can be adjusted, meanwhile, a rotating motor 902 is started, a rotating shaft arranged at an output end can drive a circular plate 903, the electric telescopic cylinders 904 and the monitoring cameras 905 to rotate according to a set direction and a set rotating speed, a temperature sensor 602 arranged in the device can monitor the temperature condition in the frame body 1 in real time and is electrically connected with the cooling fan 601 and the driving fan 603, when the temperature sensed by the temperature sensor 602 reaches a set value, the cooling fan 601 and the driving fan 603 can be started, the two make its inside power part drive the flabellum to rotate, in order to accelerate the air flow velocity, accelerate the heat that the device runs and produce to flow from the outer to outside of the multi-group through slot 103 fast, and then reach the goal of lowering the temperature, and the electric connection between temperature sensor 602 and the electric telescopic handle 701, when the temperature that the temperature sensor 602 perceives exceeds the settlement figure, the electric telescopic handle 701 extends its length upwards, then drive each part that its top was installed and the ventilation baffle 702 that both sides were installed to move upwards, there is certain interval in the bottom of the top cap 6 and top of the framework 1 at this moment, the heat that can allow the inside framework 1 flows from the outer of the four groups ventilation baffle 702, can raise the radiating efficiency.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention 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.