Marine environment monitoring equipment installation device with anticollision function
Technical Field
The utility model relates to the technical field of installation devices, in particular to an installation device of marine environment monitoring equipment with an anti-collision function.
Background
Marine environment monitoring equipment generally needs to run under abominable ocean condition, therefore the installation device that has crashproof function is crucial, so ensure the security and the reliability of equipment, but current installation device function is comparatively single, crashproof effect is poor, can not prevent effectively that equipment from being bumped by marine life or nearby ship, lead to equipment damage rate higher, and the height can not be adjusted, unable adaptation environment changes, therefore we need to add the structure that can adjust the height in a flexible way according to the environment changes, guarantee the normal operating of equipment, increase crashproof protection's structure again, avoid equipment to lead to inside damage because of the striking of outside, the condition of unable use.
Disclosure of Invention
In order to overcome the problems that in the using process of the installation device, the function is single, the anti-collision effect is poor, the equipment cannot be effectively prevented from being collided by marine organisms or nearby ships, the equipment damage rate is high, the height cannot be adjusted, and the environment cannot be adapted to the change of the environment.
The technical scheme of the utility model is as follows: the marine environment monitoring equipment installation device with the anti-collision function comprises a device installation bottom plate, a height adjusting assembly, an environment monitoring equipment placing plate, a side end anti-collision and anti-collision assembly and an equipment fixing assembly; the upper end part of the device mounting bottom plate is provided with a height adjusting component for flexibly adjusting the height of marine environment monitoring equipment; the upper end part of the height adjusting component is provided with an environment monitoring equipment placing plate; the side end part of the environment monitoring equipment placing plate is provided with a side end anti-collision and anti-impact assembly for reducing external impact and avoiding equipment damage; the side end of the environmental monitoring equipment placement plate is provided with an equipment fixing component for fixing the internal equipment to prevent the internal equipment from shaking and damaging.
Preferably, in the use of the installation device, the height adjusting component at the upper end of the installation device can adjust the height of the equipment according to the change of the marine environment, so that the sensor or instrument in the installation device can normally operate, when in a region with larger tidal change, the equipment can automatically adjust the height according to the tidal height so as to ensure the accuracy and stability of data, and the side anti-collision component can absorb and buffer external force, so that the impact on the equipment is reduced, thereby reducing the risk of equipment damage, protecting the integrity of the equipment, reducing the maintenance requirement of the equipment, reducing the maintenance cost and frequency, ensuring that the equipment is firmly fixed at a designated position, preventing the equipment from being interfered by external force, improving the stability of the equipment, effectively preventing the unnecessary movement of the equipment, and further maintaining the reliability of the data.
Preferably, the height adjusting assembly comprises a double-shaft motor, a driving screw, a bottom end mounting plate, a limit fixing sleeve, a sliding pillar, a limit sliding groove, a transmission link rod, an auxiliary supporting plate and a fixed connection supporting plate; the upper end part of the device mounting bottom plate is provided with a double-shaft motor, and the output end of the double-shaft motor is provided with a driving screw; the upper end part of the device mounting bottom plate is provided with a bottom mounting plate; the drive screw outer end threaded connection has spacing fixed sleeve, and biax motor can drive screw and rotate for the spacing fixed sleeve that outside cover was established can move about in the bottom mounting panel.
Preferably, the side end part of the limit fixing sleeve is fixedly connected with a sliding support; a limiting sliding groove used for being matched with the sliding support column is formed in the side end part of the bottom end mounting plate; the outer end part of the sliding pillar is connected with a drive link rod in a sliding way; the inner side end of the drive link rod is hinged with an auxiliary supporting plate for increasing the structural strength; the upper end part of the drive link rod is hinged with a fixed connection support plate; the fixed connection extension board upper end and environmental monitoring equipment place board fixed connection, the slip pillar cooperation of spacing fixed sleeve side enables its stable slip of spacing sliding tray, and spacing fixed sleeve's activity is used through drive link and auxiliary stay cooperation, can place the board to environmental monitoring equipment and carry out the lifting adjustment of height.
Preferably, the side end anti-collision and anti-impact assembly comprises a C-shaped fixed connecting block, a fixed shaft lever, a compression-resistant linkage plate, a first connecting rotating shaft, a second connecting rotating shaft, a first anti-collision baffle, a groove, a buffer spring and a piston conducting rod; the end part of the side of the environmental monitoring equipment placement plate is fixedly connected with a C-shaped fixed connecting block; a fixed shaft lever is arranged in the C-shaped fixed connecting block; the outside of the fixed shaft lever is sleeved with a compression-resistant linkage plate, and the compression-resistant linkage plate is provided with two groups symmetrically up and down; the side end part of the compression-resistant linkage plate is provided with a first connecting rotating shaft; the front end part of the compression-resistant linkage plate is provided with a second connecting rotating shaft; the first connecting rotating shaft and the second connecting rotating shaft are connected with the first anti-collision baffle plate, the compression-resistant linkage plate can move through the fixed shaft rod inside the C-shaped fixed connecting block, and when the first anti-collision baffle plate receives extrusion, the first connecting rotating shaft and the second connecting rotating shaft can conduct external force to the piston conducting rod.
Preferably, the outer side end of the environment monitoring equipment placing plate is provided with a groove; a buffer spring is arranged in the groove; the buffer spring side end part is elastically connected with the piston conducting rod, the piston conducting rod is connected to the inner side end of the compression-resistant linkage plate, and the buffer spring in the groove is matched with the piston conducting rod to play a role in buffering and damping.
Preferably, the equipment fixing component comprises a side end bearing support plate, a second anti-collision baffle, an adjusting screw, an adjusting knob, a guide rod, a clamping plate and a buffering foam pad; the upper end part of the environmental monitoring equipment placing plate is fixedly connected with a side end bearing supporting plate; the upper end part of the side end bearing support plate is fixedly connected with a second anti-collision baffle; an adjusting screw is arranged in the second anti-collision baffle; the adjusting screw side end is provided with adjust knob, and the inside adjusting screw of second crashproof baffle can adjust the grip block position under adjust knob's drive. Preferably, the side end of the adjusting screw is provided with a guide rod; clamping plates are connected to the side ends of the adjusting screw and the guide rod; the inside cushioning foam pad that is provided with of board is placed to environmental monitoring equipment, and the guide bar can increase structural stability, and cushioning foam pad can reduce the injury that equipment collision caused.
The utility model has the beneficial effects that:
1. the existing installation device has the advantages that in the use process, the function is single, the anti-collision effect is poor, equipment damage rate is high due to incapability of effectively preventing equipment from being collided by marine organisms or nearby ships, the height cannot be adjusted, and environment change cannot be adapted, so that the height of the equipment can be adjusted by utilizing the height adjusting component according to the change of the marine environment, a sensor or an instrument in the equipment can normally operate, when the equipment can automatically adjust the height according to the tidal height in an area with large tidal change, the accuracy and the stability of data are ensured, the side anti-collision component can absorb and buffer external force, the impact to which the equipment is subjected is reduced, the risk of equipment damage is reduced, the integrity of the equipment is protected, meanwhile, the maintenance requirement of the equipment is also reduced, the maintenance cost and the frequency are reduced, the equipment fixing component can ensure that the equipment is firmly fixed at a designated position and is prevented from being interfered by external force, so that the stability of the equipment is improved, unnecessary movement of the equipment is effectively prevented, and the reliability of the data is kept;
2. the biax motor can drive the drive screw and rotate for the spacing fixed sleeve that outside cover was established can be moved in the bottom mounting panel, and the slip pillar cooperation spacing sliding tray of spacing fixed sleeve side can make its stable slip, and spacing fixed sleeve's activity is used through drive link and auxiliary stay cooperation, can place the lifting adjustment of board height to environmental monitoring equipment.
3. The inside fixed axostylus axostyle of C shape fixed connection piece enables the resistance to compression linkage board and moves about, and when first crashproof baffle received the extrusion, first connection pivot and second connection pivot can be with external power conduction to the piston conducting rod on, and the inside buffer spring cooperation piston conducting rod of recess can play buffering cushioning's effect.
4. The clamping plate position can be adjusted under the drive of adjusting knob to the inside adjusting screw of second crashproof baffle, and the guide bar can increase structural stability, and the injury that the cushioning foam pad can reduce equipment collision and cause.
Drawings
FIG. 1 shows a schematic perspective view of a mounting device of the present utility model;
FIG. 2 shows a schematic perspective view of a height adjustment assembly of the mounting device of the present utility model;
FIG. 3 is a schematic perspective view showing the environment monitoring equipment placement plate of the mounting device of the present utility model;
fig. 4 shows a schematic perspective view of a side end impact protection assembly of the mounting device of the present utility model.
Reference numerals illustrate: 1. a device mounting base plate; 2. a height adjustment assembly; 3. an environmental monitoring equipment placement board; 4. a side end anti-collision and anti-impact assembly; 5. a device securing assembly; 201. a biaxial motor; 202. driving a screw; 203. a bottom mounting plate; 204. a limit fixing sleeve; 205. a sliding pillar; 206. a limit sliding groove; 207. a drive link; 208. an auxiliary supporting plate; 209. fixedly connecting a support plate; 401. c-shaped fixed connecting blocks; 402. fixing the shaft lever; 403. a compression-resistant linkage plate; 404. a first connecting rotating shaft; 405. the second connecting rotating shaft; 406. a first impact shield; 407. a groove; 408. a buffer spring; 409. a piston conductive rod; 501. a side end bearing support plate; 502. a second anti-collision baffle; 503. adjusting a screw; 504. an adjustment knob; 505. a guide rod; 506. a clamping plate; 507. cushioning the foam pad.
Detailed Description
The utility model is further described below with reference to the drawings and examples.
Referring to fig. 1-2, the present utility model provides an embodiment: the marine environment monitoring equipment installation device with the anti-collision function comprises a device installation bottom plate 1, a height adjusting assembly 2, an environment monitoring equipment placing plate 3, a side end anti-collision and anti-collision assembly 4 and an equipment fixing assembly 5; the upper end part of the device mounting bottom plate 1 is provided with a height adjusting component 2 for flexibly adjusting the height of marine environment monitoring equipment; the upper end part of the height adjusting component 2 is provided with an environment monitoring equipment placing plate 3; the side end part of the environment monitoring equipment placing plate 3 is provided with a side end anti-collision and anti-impact assembly 4 for reducing external impact and avoiding equipment damage; the side end part of the environment monitoring equipment placing plate 3 is provided with an equipment fixing component 5 for fixing the internal equipment to prevent the internal equipment from shaking and damaging, and the height adjusting component 2 comprises a double-shaft motor 201, a driving screw 202, a bottom end mounting plate 203, a limiting fixing sleeve 204, a sliding pillar 205, a limiting sliding groove 206, a transmission link 207, an auxiliary supporting plate 208 and a fixed connection supporting plate 209; the upper end part of the device mounting base plate 1 is provided with a double-shaft motor 201, and the output end of the double-shaft motor 201 is provided with a driving screw 202; the upper end part of the device mounting bottom plate 1 is provided with a bottom end mounting plate 203; the outer end part of the driving screw 202 is in threaded connection with a limit fixing sleeve 204, the double-shaft motor 201 can drive the driving screw 202 to rotate, so that the limit fixing sleeve 204 sleeved outside can move in the bottom end mounting plate 203, and the side end part of the limit fixing sleeve 204 is fixedly connected with a sliding support 205; a limit sliding groove 206 used for being matched with the sliding support 205 is formed in the side end part of the bottom end mounting plate 203; the outer end part of the sliding pillar 205 is connected with a drive link 207 in a sliding way; an auxiliary supporting plate 208 for increasing structural strength is hinged to the inner end of the drive link 207; the upper end part of the drive link rod 207 is hinged with a fixed connection support plate 209; the upper end of the fixed connection support plate 209 is fixedly connected with the environmental monitoring equipment placing plate 3, the sliding support 205 at the side end of the limiting fixed sleeve 204 is matched with the limiting sliding groove 206 to enable the sliding to be stable, and the movement of the limiting fixed sleeve 204 is matched with the auxiliary support plate 208 through the transmission link 207, so that the lifting adjustment of the height of the environmental monitoring equipment placing plate 3 can be performed.
Referring to fig. 3-4, in the present embodiment, the side end anti-collision and anti-impact assembly 4 includes a C-shaped fixed connection block 401, a fixed shaft 402, a compression-resistant linkage plate 403, a first connection shaft 404, a second connection shaft 405, a first anti-collision baffle 406, a recess 407, a buffer spring 408, and a piston conductive rod 409; the end part of the side of the environment monitoring equipment placing plate 3 is fixedly connected with a C-shaped fixed connection block 401; a fixed shaft lever 402 is arranged inside the C-shaped fixed connection block 401; the outside of the fixed shaft lever 402 is sleeved with a compression-resistant linkage plate 403, and the compression-resistant linkage plate 403 is provided with two groups symmetrically up and down; the side end part of the compression-resistant linkage plate 403 is provided with a first connecting rotating shaft 404; the front end part of the compression-resistant linkage plate 403 is provided with a second connecting rotating shaft 405; the side ends of the first connecting rotating shaft 404 and the second connecting rotating shaft 405 are connected with a first anti-collision baffle 406, the fixed shaft rod 402 in the C-shaped fixed connecting block 401 can enable the compression-resistant linkage plate 403 to move, when the first anti-collision baffle 406 is extruded, the first connecting rotating shaft 404 and the second connecting rotating shaft 405 can transmit external force to the piston conducting rod 409, and the outer side end of the environment monitoring equipment placing plate 3 is provided with a groove 407; the buffer spring 408 is arranged in the concave groove 407; the side end part of the buffer spring 408 is elastically connected with a piston conducting rod 409, the piston conducting rod 409 is connected to the inner side end of the compression-resistant linkage plate 403, and the buffer spring 408 in the groove 407 can play a role of buffering and damping by matching with the piston conducting rod 409, and the equipment fixing assembly 5 comprises a side end compression-resistant supporting plate 501, a second anti-collision baffle 502, an adjusting screw 503, an adjusting knob 504, a guide rod 505, a clamping plate 506 and a buffering foam pad 507; the upper end part of the environment monitoring equipment placing plate 3 is fixedly connected with a side end bearing supporting plate 501; the upper end part of the side end bearing support plate 501 is fixedly connected with a second anti-collision baffle 502; an adjusting screw 503 is arranged inside the second anti-collision baffle 502; an adjusting knob 504 is arranged at the side end part of the adjusting screw 503, the adjusting screw 503 in the second anti-collision baffle 502 can be driven by the adjusting knob 504 to adjust the position of the clamping plate 506, and a guide rod 505 is arranged at the side end part of the adjusting screw 503; clamping plates 506 are connected to side ends of the adjusting screw 503 and the guide rod 505; the cushioning foam pad 507 is arranged inside the environment monitoring equipment placing plate 3, the guide rod 505 can increase structural stability, and the cushioning foam pad 507 can reduce damage caused by equipment collision.
When the environment monitoring equipment placing plate 3 works, the double-shaft motor 201 can be utilized to drive the driving screw 202 to rotate, so that the externally sleeved limiting fixed sleeve 204 can move in the bottom end mounting plate 203, the sliding support 205 at the side end of the limiting fixed sleeve 204 is matched with the limiting sliding groove 206 to enable the limiting fixed sleeve to stably slide, and the movement of the limiting fixed sleeve 204 is matched with the auxiliary supporting plate 208 through the transmission link 207, so that the height of the environment monitoring equipment placing plate 3 can be adjusted in a lifting manner;
then, the compression-resistant linkage plate 403 can be moved by utilizing the fixed shaft rod 402 in the C-shaped fixed connection block 401, when the first anti-collision baffle 406 is extruded, the first connection rotating shaft 404 and the second connection rotating shaft 405 can transmit external force to the piston conducting rod 409, and the buffer spring 408 in the groove 407 is matched with the piston conducting rod 409 to play a role in buffering and damping;
finally, the position of the clamping plate 506 can be adjusted by utilizing the adjusting screw 503 in the second anti-collision baffle 502 under the driving of the adjusting knob 504, the guide rod 505 can increase the structural stability, and the cushioning foam pad 507 can reduce the damage caused by equipment collision.
Through the steps, in the use process of the installation device, the height adjusting component 2 at the upper end of the installation device can adjust the height of equipment according to the change of marine environment, so that a sensor or instrument in the installation device can normally operate, when in a region with large tidal change, the equipment can automatically adjust the height according to the tidal height so as to ensure the accuracy and stability of data, the side anti-collision component 4 can absorb and buffer external force, reduce the impact on the equipment, thereby reducing the risk of equipment damage, protecting the integrity of the equipment, reducing the maintenance requirement of the equipment, reducing the maintenance cost and frequency, ensuring that the equipment is firmly fixed at a designated position, preventing the equipment from being disturbed by external force, improving the stability of the equipment, effectively preventing unnecessary movement of the equipment, further keeping the reliability of the data, being beneficial to improving the accuracy of the data and reducing the maintenance cost.
The embodiments of the present utility model have been described in detail with reference to the drawings, but the present utility model is not limited to the above embodiments, and various changes can be made within the knowledge of those skilled in the art without departing from the spirit of the present utility model.