CN114302593A - Industrial wireless sensor network device based on resource balancing strategy - Google Patents

Abstract

The invention discloses an industrial wireless sensor network device based on a resource balancing strategy, and relates to the technical field of wireless sensor networks. This industry wireless sensor network device based on resource equalization strategy, including the wireless sensor body, the upper end and the lower extreme movable mounting of wireless sensor body have the elastic plate, the left side and the right side movable mounting of wireless sensor body have fixed curb plate, the outside of wireless sensor body is provided with anticollision institution, the inboard of elastic plate is provided with buffer gear, anticollision institution includes crash bar, fixed strip and deformation, crash bar activity is pegged graft at the front and the back of fixed curb plate. This industry wireless sensor network device based on resource equalization strategy sets up anticollision institution and buffer gear, cushions the collision of wireless sensor node and ground, has avoided wireless sensor node to produce because of the collision and damages, influences the wireless monitoring data of device.

Description

Industrial wireless sensor network device based on resource balancing strategy

Technical Field

The invention relates to the technical field of wireless sensor networks, in particular to an industrial wireless sensor network device based on a resource balancing strategy.

Background

The sensor network system generally comprises sensor nodes, sink nodes and management nodes, wherein a large number of sensor nodes are randomly deployed in or near a monitoring area and can form a network in a self-organizing mode, in the application of the wireless sensor network, the initial arrangement of the nodes directly influences the subsequent network coverage, and in some cases, the nodes are difficult to be manually and accurately deployed and are randomly deployed in an expected area by an aerial throwing method to detect environmental data and wirelessly transmit the detected data.

When the wireless sensor node is thrown, the wireless sensor node can collide and impact with the ground, damage is easily caused, and the wireless sensor node is influenced to transmit environment monitoring data outwards.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides an industrial wireless sensor network device based on a resource balancing strategy, which buffers the collision between a wireless sensor node and the ground by matching an anti-collision mechanism with a buffer mechanism, thereby avoiding the damage of the wireless sensor node caused by the collision.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides an industry wireless sensor network device based on resource balancing tactics, includes the wireless sensor body, the upper end and the lower extreme movable mounting of wireless sensor body have the elastic plate, one side fixed mounting that the wireless sensor body was kept away from to the elastic plate has fixed lug, the left side and the right side movable mounting of wireless sensor body have fixed curb plate, the outside of wireless sensor body is provided with anticollision institution, the inboard of elastic plate is provided with buffer gear.

Preferably, the anticollision mechanism includes crash bar, fixed strip and deformation piece, crash bar activity grafting is in the front and the back of fixed curb plate, fixed strip movable mounting is in the inboard cavity of fixed curb plate, the fixed strip meets with the crash bar, the deformation piece sets up in the inboard cavity of fixed curb plate.

Preferably, the deformation piece includes fixed column, arc elastic strip and elastic contact piece, fixed column fixed mounting is in the one side that the crash bar was kept away from to the fixed strip, arc elastic strip fixed mounting is in the fixed column one end of keeping away from the fixed strip.

Preferably, buffer gear includes gas storage chamber, choked flow piece, goes out gas groove and buffer, the inboard at the elastic plate is seted up in the gas storage chamber, the choked flow piece sets up the inside at the gas storage chamber, go out the gas groove and set up the one side that is close to the wireless sensor body at the elastic plate, go out the gas groove and switch on mutually with the gas storage chamber, the bolster sets up the one side that is close to the wireless sensor body at the elastic plate.

Preferably, the choke piece includes elastic tube, bar mouth and ripple strip, elastic tube fixed mounting is in the inside of gas storage chamber, the surface at elastic tube is seted up to the bar mouth, ripple strip fixed mounting is at the inner wall of elastic tube, the ripple strip meets with bar mouth department.

Preferably, the bolster includes activity post, connecting plate, the elastic strip of buckling and grafting strip, activity post movable mounting is in the inside of giving vent to anger the groove, connecting plate fixed mounting is at the surface of activity post, the one end that the activity post was kept away from to the connecting plate meets with the lower extreme of elasticity contact piece, the connecting plate contacts with the surface of wireless sensor body, the elastic strip fixed mounting of buckling is in the one side that the connecting plate is close to the elastic plate, grafting strip fixed mounting is in the department of buckling of the elastic strip of buckling, the one end of grafting strip runs through the one side that the elastic strip of buckling kept away from the elastic plate.

The invention provides an industrial wireless sensor network device based on a resource balancing strategy. The method has the following beneficial effects:

(1) this industry wireless sensor network device based on resource equalization strategy sets up anticollision institution and buffer gear, cushions the collision of wireless sensor node and ground, has avoided the wireless sensor node to produce because of the collision and has damaged, influences the wireless monitoring data of device.

(2) This industry wireless sensor network device based on resource equalization strategy, when the elastic plate contact ground, the deformation takes place for the elastic plate atress, the inboard air of gas storage chamber is to going out the activity of air duct department under the extrusion, when the air passes through the choked flow piece, the inboard air flow rate of elastic tube accelerates, the ripple strip atress swings in the elastic tube this moment, to air production resistance, the flow velocity that makes the air slows down, and then slows down the deformation speed of elastic plate, do the buffering to the collision of elastic plate and ground.

(3) This industry wireless sensor network device based on resource equalization strategy, when the elastic plate takes place deformation, the activity post that is close to one side with ground is upwards movable in giving vent to anger the inslot, makes the contained angle increase between the connecting plate, has increased wireless sensor body and connecting plate area of contact, and then prevents that the wireless sensor body from taking place gliding the air outflow speed that makes the groove department of giving vent to anger and reducing, and then slows down the influence that elastic plate department deformation produced wireless sensor body by a wide margin.

(4) This industry wireless sensor network device based on resource equalization tactics, during the contained angle increase between the connecting plate, elasticity strip and the elastic plate of buckling take place the friction, when the contact of the department of buckling elasticity strip and elastic plate, the elasticity strip of buckling takes place deformation, the strip of pegging graft runs through the department activity at the elasticity strip of buckling this moment, when the elasticity strip of buckling resumes deformation, the strip of pegging graft takes place the friction with the elasticity strip of buckling, the elasticity strip of buckling takes place the friction with the elastic plate, the deformation recovery speed of the elasticity strip of buckling has been slowed down, the produced energy of collision has further been reduced.

(5) This industry wireless sensor network device based on resource equalization tactics, when crash bar and ground contact, the crash bar passes through the fixed strip and compresses arc elasticity strip in to fixed curb plate, during the compression of arc elasticity strip, the elastic restoring force that produces has reduced the speed of crash bar activity, and the arc elasticity strip of deformation produces the extrusion to elastic contact piece one side, make elastic contact piece and wireless sensor body press close to, avoided the wireless sensor body to take place to rock, prevented that the wireless sensor body from receiving too big impact because of the collision.

Drawings

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

FIG. 2 is a front cross-sectional view of the present invention;

FIG. 3 is an enlarged view of the structure of FIG. 2;

FIG. 4 is an enlarged view of the structure of FIG. 2 at B in accordance with the present invention;

FIG. 5 is a partial structural view of the buffering member of the present invention;

FIG. 6 is a schematic view of a portion of the deformable member of the present invention.

In the figure: 1. a wireless sensor body; 2. an elastic plate; 3. fixing the side plate; 4. an anti-collision mechanism; 41. an anti-collision bar; 42. a fixing strip; 43. a deformation member; 431. fixing a column; 432. an arc-shaped elastic strip; 433. an elastic contact piece; 5. a buffer mechanism; 51. a gas storage cavity; 52. a flow-impeding component; 521. an elastic cylinder; 522. a strip-shaped opening; 523. a corrugated strip; 53. an air outlet groove; 54. a buffer member; 541. a movable post; 542. a connecting plate; 543. bending the elastic strip; 544. and (4) inserting strips.

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.

Examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the invention and are not to be construed as limiting the invention.

Referring to fig. 1-6, the present invention provides a technical solution: the utility model provides an industry wireless sensor network device based on resource balancing tactics, includes wireless sensor body 1, the upper end and the lower extreme movable mounting of wireless sensor body 1 have elastic plate 2, and one side fixed mounting that wireless sensor body 1 was kept away from to elastic plate 2 has fixed lug, and the left side and the right side movable mounting of wireless sensor body 1 have fixed curb plate 3, and the outside of wireless sensor body 1 is provided with anticollision institution 4, and the inboard of elastic plate 2 is provided with buffer gear 5.

The anticollision mechanism 4 comprises an anticollision rod 41, a fixed strip 42 and a deformation piece 43, the anticollision rod 41 is movably inserted into the front face and the back face of the fixed side plate 3, the fixed strip 42 is movably installed in the inner side cavity of the fixed side plate 3, the fixed strip 42 is connected with the anticollision rod 41, the deformation piece 43 is arranged in the inner side cavity of the fixed side plate 3, the deformation piece 43 comprises a fixed column 431, an arc-shaped elastic strip 432 and an elastic contact piece 433, the fixed column 431 is fixedly installed on one side, away from the anticollision rod 41, of the fixed strip 42, and the arc-shaped elastic strip 432 is fixedly installed on one end, away from the fixed strip 42, of the fixed column 431.

The buffer mechanism 5 comprises an air storage cavity 51, a flow blocking piece 52, an air outlet groove 53 and a buffer piece 54, the air storage cavity 51 is arranged at the inner side of the elastic plate 2, the flow blocking piece 52 is arranged inside the air storage cavity 51, the flow blocking piece 52 comprises an elastic cylinder 521, a strip-shaped opening 522 and a corrugated strip 523, the elastic cylinder 521 is fixedly arranged inside the air storage cavity 51, the strip-shaped opening 522 is arranged on the outer surface of the elastic cylinder 521, the corrugated strip 523 is fixedly arranged on the inner wall of the elastic cylinder 521, the corrugated strip 523 is connected with the strip-shaped opening 522, the air outlet groove 53 is arranged at one side of the elastic plate 2 close to the wireless sensor body 1, the air outlet groove 53 is communicated with the air storage cavity 51, the buffer piece 54 is arranged at one side of the elastic plate 2 close to the wireless sensor body 1, the buffer piece 54 comprises a movable column 541, a connecting plate 542, a bending elastic strip 543 and an inserting strip, the movable column 541 is movably arranged inside the air outlet groove 53, the connecting plate 542 is fixedly arranged at the outer surface of the movable column 541, one end of the connecting plate 542, which is far away from the movable post 541, is connected with the lower end of the elastic contact piece 433, the connecting plate 542 is in contact with the outer surface of the wireless sensor body 1, the bending elastic strip 543 is fixedly installed on one side of the connecting plate 542, which is close to the elastic plate 2, the inserting strip 544 is fixedly installed on the bending position of the bending elastic strip 543, and one end of the inserting strip 544 penetrates through one side of the bending elastic strip 543, which is far away from the elastic plate 2.

When the wireless sensor is used, the wireless sensor body 1 is placed on the inner side of the device, the device is put in high altitude, when the elastic plate 2 contacts the ground, the elastic plate 2 is stressed to deform, air on the inner side of the air storage cavity 51 moves towards the air outlet groove 53 under extrusion, when the air passes through the flow blocking piece 52, the air flow rate on the inner side of the elastic cylinder 521 is accelerated, at the moment, the corrugated strip 523 is stressed to swing in the elastic cylinder 521 to generate resistance to the air, so that the air flow speed is reduced, the deformation speed of the elastic plate 2 is reduced, the collision between the elastic plate 2 and the ground is buffered, when the elastic plate 2 deforms, the movable 541 column close to one side of the ground moves upwards in the air outlet groove 53, the included angle between the connecting plates 542 is increased, the contact area between the wireless sensor body 1 and the connecting plates 542 is increased, and the air outflow speed at the air outlet groove 53 is reduced while the wireless sensor body 1 is prevented from sliding, further greatly reducing the influence of the deformation of the elastic plate 2 on the wireless sensor body 1, when the included angle between the connecting plates 542 is increased, the bending elastic strip 543 rubs against the elastic plate 2, when the bending elastic strip 543 contacts the bending part of the elastic plate 2, the bending elastic strip 543 deforms, at this time, the insertion strip 544 moves at the penetrating part of the bending elastic strip 543, when the bending elastic strip 543 recovers deformation, the insertion strip 544 rubs against the bending elastic strip 543, the bending elastic strip 543 rubs against the elastic plate 2, the deformation recovery speed of the bending elastic strip 543 is reduced, the energy generated by collision is further reduced, when the crash bar 41 contacts the ground, the crash bar 41 compresses the arc-shaped elastic strip 432 into the fixed side plate 3 through the fixing strip 42, when the arc-shaped elastic strip 432 compresses, the generated elastic restoring force reduces the moving speed of the crash bar 41, and the deformed arc-shaped elastic strip 432 extrudes one side of the elastic strip 433, make elasticity contact piece 433 press close to with wireless sensor body 1, avoided wireless sensor body 1 to take place to rock, prevented that wireless sensor body 1 from receiving too big impact because of the collision.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (6)

1. An industrial wireless sensor network device based on resource balancing strategy comprises a wireless sensor body (1), and is characterized in that: the upper end and the lower extreme movable mounting of wireless sensor body (1) have elastic plate (2), one side fixed mounting that wireless sensor body (1) was kept away from in elastic plate (2) has fixed lug, the left side and the right side movable mounting of wireless sensor body (1) have fixed curb plate (3), the outside of wireless sensor body (1) is provided with anticollision institution (4), the inboard of elastic plate (2) is provided with buffer gear (5).

2. The industrial wireless sensor network device based on the resource balancing strategy according to claim 1, wherein: the anti-collision mechanism (4) comprises an anti-collision rod (41), a fixing strip (42) and a deformation piece (43), the anti-collision rod (41) is movably inserted into the front and the back of the fixing side plate (3), the fixing strip (42) is movably installed in an inner side cavity of the fixing side plate (3), the fixing strip (42) is connected with the anti-collision rod (41), and the deformation piece (43) is arranged in the inner side cavity of the fixing side plate (3).

3. The industrial wireless sensor network device based on the resource balancing strategy according to claim 2, wherein: the deformation piece (43) comprises a fixing column (431), an arc-shaped elastic strip (432) and an elastic contact piece (433), the fixing column (431) is fixedly installed on one side, away from the anti-collision rod (41), of the fixing strip (42), and the arc-shaped elastic strip (432) is fixedly installed on one end, away from the fixing strip (42), of the fixing column (431).

4. The industrial wireless sensor network device based on the resource balancing strategy according to claim 2, wherein: buffer gear (5) are including gas storage chamber (51), choker piece (52), go out gas groove (53) and buffer (54), the inboard in elastic plate (2) is seted up in gas storage chamber (51), choker piece (52) set up the inside in gas storage chamber (51), go out gas groove (53) and set up the one side that is close to wireless sensor body (1) in elastic plate (2), go out gas groove (53) and switch on mutually with gas storage chamber (51), bolster (54) set up the one side that is close to wireless sensor body (1) in elastic plate (2).

5. The industrial wireless sensor network device based on the resource balancing strategy according to claim 4, wherein: the choke piece (52) comprises an elastic cylinder (521), a strip-shaped opening (522) and a corrugated strip (523), the elastic cylinder (521) is fixedly installed inside the air storage cavity (51), the strip-shaped opening (522) is formed in the outer surface of the elastic cylinder (521), the corrugated strip (523) is fixedly installed on the inner wall of the elastic cylinder (521), and the corrugated strip (523) is connected with the strip-shaped opening (522).

6. The industrial wireless sensor network device based on the resource balancing strategy according to claim 4, wherein: bolster (54) are including activity post (541), connecting plate (542), the elastic strip of buckling (543) and grafting strip (544), activity post (541) movable mounting is in the inside of going out gas tank (53), connecting plate (542) fixed mounting is in the surface of activity post (541), the one end that movable post (541) was kept away from in connecting plate (542) meets with the lower extreme of elastic contact piece (433), connecting plate (542) contacts with the surface of wireless sensor body (1), the elastic strip of buckling (543) fixed mounting is in the one side that elastic plate (2) are close to in connecting plate (542), grafting strip (544) fixed mounting is in the department of buckling of bending elastic strip (543), the one end of grafting strip (544) runs through the one side that elastic strip (543) of buckling kept away from elastic plate (2).

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