CN218032366U - Omnidirectional monitoring device based on distributed power generation - Google Patents

Abstract

The utility model provides an all-round monitoring device based on distributed generation, include: a mounting seat and a camera; the sliding grooves are respectively arranged on two sides of the inner side surface of the mounting seat, a through groove is formed in one side of the sliding groove, a cavity is formed in one end of the through groove, sliding rods are fixedly mounted on two sides of the inner side surface of the cavity, a sliding plate is connected to the outer side surface of each sliding rod in a sliding mode, a push rod is fixedly mounted on one side of each sliding plate, the push rod is connected to the inner side surface of the through groove in a sliding mode, and an extrusion block is fixedly mounted on the other side of each sliding plate. The utility model provides a pair of all-round monitoring device based on distributed generation makes the push rod promote the joint piece and removes from the medial surface that runs through the groove through the extrusion of pressing the piece, so when needs are dismantled, the person of facilitating the use operates, has increased work efficiency, need not dismantle some parts, can prevent that the part from dropping from the high altitude and causing danger.

Description

Omnidirectional monitoring device based on distributed power generation

Technical Field

The utility model relates to a supervisory equipment technical field especially relates to an all-round monitoring device based on distributed generation.

Background

The photovoltaic is a solar photovoltaic power generation device for short, is a novel power generation device which directly converts solar radiation energy into electric energy by utilizing the photovoltaic effect of a solar cell semiconductor material, has two modes of independent operation and grid-connected operation, and has the advantage that for the application of novel energy, a corresponding photovoltaic transformer substation is required to be established to transmit the electric quantity obtained by the photovoltaic.

When the existing distributed photovoltaic power generation device is used for a long time, the damage phenomenon easily occurs, because photovoltaic power generation is a large-scale project, the number of solar panels contained in the photovoltaic power generation device is large, the existing photovoltaic power generation project cannot acquire good information of corresponding equipment, when corresponding photovoltaic power generation equipment is damaged, engineers cannot know the damage condition in time, the photovoltaic power generation device is maintained, the normal operation of the photovoltaic power generation device is influenced, in order to monitor the output condition of a distributed photovoltaic component, a photovoltaic power station is generally configured with a monitoring camera.

General monitoring device includes camera body and the mount pad that is used for installing the camera usually, camera among the prior art adopts the mode of screw or joint to fix the camera in the mount pad usually, but when the camera needs the maintenance or the trouble appears and need be changed, because the position of camera installation is relatively higher, maintenance person need dismantle the camera under relative high altitude state, and because what the camera adopted is the mode of screw fixed connection or joint fixed, maintenance person need consume the plenty of time and dismantle adapting unit such as screw, take off the camera again, the operation wastes time and energy more, the camera is not convenient for dismantle, be unfavorable for improving maintenance person's work efficiency, and maintenance person is in the high altitude state for a long time at the dismantlement in-process, the potential safety hazard has been increased, and the screw of dismantling causes easily and drops, influence safety.

Therefore, it is necessary to provide an omnidirectional monitoring apparatus based on distributed power generation to solve the above technical problems.

SUMMERY OF THE UTILITY MODEL

The utility model provides an all-round monitoring device based on distributed generation has solved inconvenient dismantlement, influences work efficiency and screw and drops and cause dangerous problem easily.

In order to solve the technical problem, the utility model provides a pair of all aspects monitoring device based on distributed generation, include:

a mounting seat and a camera;

the sliding grooves are respectively arranged on two sides of the inner side surface of the mounting seat, a through groove is formed in one side of each sliding groove, a cavity is formed in one end of each through groove, sliding rods are fixedly mounted on two sides of the inner side surface of each cavity, a sliding plate is connected to the outer side surface of each sliding rod in a sliding mode, a push rod is fixedly mounted on one side of each sliding plate, the push rod is connected to the inner side surface of the through groove in a sliding mode, and an extrusion block is fixedly mounted on the other side of each sliding plate;

the camera comprises a fixed frame, wherein the fixed frame is fixedly installed on two sides of the camera respectively, a second spring is fixedly installed on one side of the inner side surface of the fixed frame, a movable frame is fixedly installed on one end of the second spring, a clamping block is fixedly installed on one side of the movable frame, and the clamping block is clamped on the inner side surface of the through groove.

Preferably, the outer side surface of the sliding rod is sleeved with a first spring, the first spring is arranged on one side of the sliding plate, and the extrusion block is connected to the inner parts of the two sides of the mounting seat in a sliding manner.

Preferably, the side surface of the sliding plate is tightly attached to the inner side surface of the cavity.

Preferably, the moving frame is slidably connected to the inside of one side of the fixed frame, and the moving frame is slidably connected to the inner side surface of the sliding groove.

Preferably, a fixed block is fixedly mounted on one side of the top of the mounting seat, and a pull rope is fixedly mounted on the top of the fixed block.

Preferably, a rotating plate is fixedly mounted at one end of the pull rope, a threaded rod is fixedly mounted on one side of the rotating plate, and a threaded sleeve is connected to one end of the outer side face of the threaded rod in a threaded manner.

Preferably, the thread bush is fixedly mounted on one side of the camera.

Compared with the prior art, the utility model provides a pair of all aspects monitoring device based on distributed generation has following beneficial effect:

the utility model provides an all-round monitoring device based on distributed generation makes the push rod promote the joint piece and removes from the medial surface that runs through the groove through the extrusion according to the piece, so when needs are dismantled, the person of facilitating the use operates, has increased work efficiency, need not dismantle some parts, can prevent that the part from dropping from the high altitude and causing danger.

Drawings

Fig. 1 is a schematic structural diagram of a first embodiment of an omnidirectional monitoring apparatus based on distributed power generation according to the present invention;

FIG. 2 is a schematic view of the internal structure shown in FIG. 1;

FIG. 3 is a schematic top view of the portion of FIG. 1;

FIG. 4 is an enlarged view of portion A of FIG. 2;

fig. 5 is a schematic structural diagram of a second embodiment of an omnidirectional monitoring apparatus based on distributed power generation according to the present invention.

Reference numbers in the figures: 1. the camera comprises a mounting seat, 11, a sliding groove, 12, a cavity, 13, a through groove, 14, a sliding rod, 15, a first spring, 16, a sliding plate, 17, a push rod, 18, an extrusion block, 2, a camera, 21, a fixing frame, 22, a second spring, 23, a moving frame, 24, a clamping block, 3, a fixing block, 31, a pull rope, 32, a rotating plate, 33, a threaded rod, 34 and a threaded sleeve.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and embodiments.

First embodiment

Please refer to fig. 1, fig. 2, fig. 3 and fig. 4 in combination, wherein fig. 1 is a schematic structural diagram of a first embodiment of an omnidirectional monitoring apparatus based on distributed power generation according to the present invention; FIG. 2 is a schematic view of the internal structure shown in FIG. 1; FIG. 3 is a schematic top view of the portion of FIG. 1; fig. 4 is an enlarged view of the portion a shown in fig. 2. An omnidirectional monitoring device based on distributed power generation, comprising: the mounting base 1 and the camera 2;

the mounting structure comprises a sliding groove 11, wherein the sliding grooves 11 are respectively arranged on two sides of the inner side surface of the mounting base 1, a through groove 13 is arranged on one side of the sliding groove 11, a cavity 12 is arranged at one end of the through groove 13, sliding rods 14 are fixedly arranged on two sides of the inner side surface of the cavity 12, a sliding plate 16 is connected to the outer side surface of the sliding rod 14 in a sliding manner, a push rod 17 is fixedly arranged on one side of the sliding plate 16, the push rod 17 is connected to the inner side surface of the through groove 13 in a sliding manner, and an extrusion block 18 is fixedly arranged on the other side of the sliding plate 16;

the two ends of the through groove 13 are respectively penetrated through the sliding groove 11 and the cavity 12.

Fixed frame 21, fixed frame 21 respectively fixed mounting in the both sides of camera 2, one side fixed mounting of the medial surface of fixed frame 21 has second spring 22, the one end fixed mounting of second spring 22 has removal frame 23, one side fixed mounting of removal frame 23 has joint piece 24, joint piece 24 joint in run through the medial surface of groove 13.

The outer side surface of the sliding rod 14 is sleeved with a first spring 15, the first spring 15 is arranged on one side of the sliding plate 16, and the extrusion block 18 is slidably connected to the inner parts of two sides of the mounting base 1.

The first spring 15 always pushes the sliding plate 16 to the side away from the camera 2 when the camera is used, so that the user can use the camera next time.

The side surface of the sliding plate 16 is closely attached to the inner side surface of the cavity 12.

The movable frame 23 is slidably connected to the inside of one side of the fixed frame 21, and the movable frame 23 is slidably connected to the inner side surface of the sliding groove 11.

The utility model provides a pair of all-round monitoring device based on distributed generation's theory of operation as follows:

when the camera 2 needs to be repaired and disassembled, a user directly pushes the extrusion blocks 18 on two sides of the mounting base 1 to one side close to the mounting base 1, then the extrusion blocks 18 push the sliding plate 16 to move towards one side at the inner side surface of the cavity 12, one end of the push rod 17 pushes the clamping block 24 to move towards one side close to the camera 2, the moving frame 23 moves towards the inner side surface of the fixed frame 21, the second spring 22 contracts, the clamping block 24 moves out from the inner side surface of the through groove 13, and then the camera 2 loses clamping and slides out from the inner side surface of the mounting base 1;

when the camera 2 needs to be installed, the movable frame 23 is directly placed on the inner side face of the sliding groove 11, and then the camera 2 is slid until the clamping block 24 is clamped into the inner side face of the through groove 13 to fixedly install the camera 2.

Compared with the prior art, the utility model provides a pair of all aspects monitoring device based on distributed generation has following beneficial effect:

the extrusion through pressing the piece 18 makes push rod 17 promote joint piece 24 and remove from the medial surface that runs through groove 13, so when needs are dismantled, the person of facilitating the use operates, has increased work efficiency, need not dismantle some parts, can prevent that the part from dropping from the high altitude and causing danger.

Second embodiment

Referring to fig. 5, a second embodiment of the present application provides another omnidirectional monitoring apparatus based on distributed power generation based on an omnidirectional monitoring apparatus based on distributed power generation provided by a first embodiment of the present application. The second embodiment is only a preferred mode of the first embodiment, and the implementation of the second embodiment does not affect the implementation of the first embodiment alone.

Specifically, the difference of the omnidirectional monitoring device based on distributed power generation that the second embodiment of this application provided lies in, an omnidirectional monitoring device based on distributed power generation, one side fixed mounting at the top of mount pad 1 has fixed block 3, the top fixed mounting of fixed block 3 has stay cord 31.

A rotating plate 32 is fixedly mounted at one end of the pulling rope 31, a threaded rod 33 is fixedly mounted at one side of the rotating plate 32, and a threaded sleeve 34 is connected to one end of the outer side surface of the threaded rod 33 in a threaded manner.

The threaded sleeve 34 is fixedly mounted on one side of the camera 2.

The utility model provides a pair of all-round monitoring device based on distributed generation's theory of operation as follows:

when using, when the user need dismantle camera 2, can rotate threaded rod 33 through rotor plate 32 earlier, threaded connection fixes camera 2 at the medial surface of thread bush 34, then promotes extrusion piece 18 and dismantles camera 2, and camera 2 slides out from the medial surface of mount pad 1 this moment.

Compared with the prior art, the utility model provides a pair of all aspects monitoring device based on distributed generation has following beneficial effect:

pulling camera 2 through stay cord 31, when dismantling, can preventing that camera 2 from sliding out from the medial surface of mount pad 1, drop subaerially, cause camera 2's damage, play the effect to camera 2 protection.

The above only is the embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structures or equivalent processes of the present invention are used in the specification and the attached drawings, or directly or indirectly applied to other related technical fields, and the same principle is included in the protection scope of the present invention.

Claims (7)

1. An omnidirectional monitoring device based on distributed power generation is characterized by comprising:

a mounting seat and a camera;

the sliding grooves are respectively arranged on two sides of the inner side surface of the mounting seat, a through groove is formed in one side of each sliding groove, a cavity is formed in one end of the through groove, sliding rods are fixedly arranged on two sides of the inner side surface of the cavity, a sliding plate is connected to the outer side surface of each sliding rod in a sliding mode, a push rod is fixedly arranged on one side of each sliding plate, the push rod is connected to the inner side surface of the through groove in a sliding mode, and an extrusion block is fixedly arranged on the other side of each sliding plate;

the camera comprises a fixed frame, wherein the fixed frame is fixedly installed on two sides of the camera respectively, a second spring is fixedly installed on one side of the inner side surface of the fixed frame, a movable frame is fixedly installed on one end of the second spring, a clamping block is fixedly installed on one side of the movable frame, and the clamping block is clamped on the inner side surface of the through groove.

2. The device for monitoring the distributed power generation in all aspects according to claim 1, wherein a first spring is sleeved on an outer side surface of the sliding rod, the first spring is arranged on one side of the sliding plate, and the pressing block is slidably connected to the inner portion of the two sides of the mounting seat.

3. The omnidirectional monitoring device based on distributed power generation of claim 1, wherein the side surface of the sliding plate is tightly attached to the inner side surface of the cavity.

4. An omnidirectional monitoring apparatus based on distributed power generation as recited in claim 1, wherein said movable frame is slidably connected to an inside of one side of said fixed frame, and said movable frame is slidably connected to an inside surface of said sliding groove.

5. An omnidirectional monitoring device based on distributed power generation as defined in claim 1, wherein a fixing block is fixedly installed at one side of the top of the mounting seat, and a pulling rope is fixedly installed at the top of the fixing block.

6. An all-around monitoring device based on distributed power generation as claimed in claim 5, wherein a rotating plate is fixedly mounted at one end of the pulling rope, a threaded rod is fixedly mounted at one side of the rotating plate, and a threaded sleeve is connected to one end of the outer side surface of the threaded rod in a threaded manner.

7. An omnidirectional monitoring device based on distributed power generation as recited in claim 6, wherein the threaded sleeve is fixedly installed at one side of the camera.

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