CN214671077U - Embedded type geomagnetic detector with high pressure resistance - Google Patents

Abstract

The utility model discloses a formula of buryying earth magnetism detector that compressive capacity is strong, including the road ground, there is the installation hole in the road ground, has the cylinder in the installation hole of road ground bottom, and there is the protection main part on the cylinder top, has the protective frame in the protection main part lower part, and protection main part inner wall has prevention of seepage coating, has earth magnetism detector in the protective frame, and protective main part top has accepts the frame, and beneficial effect is: the spring and the damping rod can deform to release pressure and improve the pressure resistance of the protective equipment, so that the aim of not influencing data collection is fulfilled; a sealed space is formed by the stop block and the sealing gasket, and the anti-seepage coating can effectively block moisture and rainwater to protect equipment, so that the purpose of saving financial resources is achieved; the first electric push rod can be mechanically lifted by the whole equipment through the air cylinder, and can push the geomagnetic detector to slide to the opening, so that the purpose of saving time is achieved; through with worker's shape anti clamp plate and second c shape draw-in groove sliding connection, reach convenient to detach's purpose.

Description

Embedded type geomagnetic detector with high pressure resistance

Technical Field

The utility model relates to a geomagnetic detector, in particular to buried type geomagnetic detector that compressive capacity is strong belongs to the detection technology field.

Background

The geomagnetic detector is generally a machine which is buried underground to detect vehicles and then performs feedback analysis on data, and as people's lives gradually become better and vehicles gradually become more regular with the acceleration of social development, the road pressure gradually increases, and the traffic condition is worried, so that a machine which can collect the traffic flow of roads and perform feedback is needed to buffer the traffic condition.

The geomagnetic detector is continuously rolled along with a vehicle after being buried underground, and if the geomagnetic detector does not have strong pressure resistance, the data collection of the whole equipment is influenced; meanwhile, if the underground geomagnetic detector is insufficient in sealing property, underground moisture and rainy rainwater can permeate into the geomagnetic detector, and the whole device can be damaged to waste financial resources; the existing geomagnetic detector has no mechanical ascending structure after being placed underground, so that time is wasted due to the fact that the whole operation needs to be manually carried out when equipment has problems and needs to be replaced and maintained; the pressure-resistant structure is easy to damage due to too large pressure, but most of the current structures are inconvenient to disassemble, so that the parts are inconvenient to replace.

SUMMERY OF THE UTILITY MODEL

The technical problem to be solved by the utility model is to overcome the defects of the prior art and provide an embedded geomagnetic detector with strong compressive capacity, wherein a spring and a damping rod are connected to the top end of a protection main body outside the geomagnetic detector, and the spring and the damping rod can deform to release pressure, so that the safety of compressive capacity protection equipment of the whole structure can be improved, and thus, the collection of data cannot be influenced; the opening of the protection main body is provided with the stop block, then the stop block is contacted with the sealing gasket to form a completely sealed space, and meanwhile, the inner wall of the protection main body is coated with the anti-seepage coating, so that the space where moisture and rainwater do not permeate does not damage equipment, and the financial resources are saved; the bottom end of the protection main body is connected with the air cylinder, so that the whole device can be lifted mechanically, and meanwhile, the first electric push rod connected with the baffle can push the sliding blocks at the two ends of the baffle to slide to the opening in the sliding groove in the protection main body, so that the time can be saved; with worker's shape resistance to compression board and second c shape draw-in groove sliding connection, slide when appearing damaging like this and just can take off convenient to detach with worker's shape resistance to compression board.

In order to solve the technical problem, the utility model provides a following technical scheme:

the utility model relates to a formula of buryying earth magnetism detector that compressive capacity is strong, including the road foundation, be provided with the installation hole in the road foundation, fixedly connected with cylinder in the installation hole of road foundation bottom, cylinder top welded connection has the protection main part, be provided with the protection frame in the protection main part lower part, the prevention of seepage coating has evenly been paintd to protection main part inner wall, the centre gripping is connected with earth magnetism detector in the protection frame, protection main part top is provided with accepts the frame.

As a preferred technical scheme, the equal welded connection in middle part at the relative both ends in one side has first electric putter in protection main part lower part protection frame, first electric putter keeps away from the equal welded connection in protection main part one end and has the baffle, the baffle is kept away from first electric putter one side middle part and is provided with the recess, the equal welded connection in relative both ends that the baffle is close to the recess has second electric putter, second electric putter places connecting grooves, second electric putter is close to the equal welded connection in one end arc fixed block mutually, the arc fixed block is kept away from the equal centre gripping in second electric putter one side and is connected the earth magnetism detector.

As a preferred technical scheme of the utility model, the relative both ends that are close to the baffle in the protection main part lower part protective frame all are provided with the spout, equal sliding connection has the slider in the spout, the slider is close to the equal welded connection baffle in both ends mutually.

As a preferred technical scheme of the utility model, the middle part that first electric putter one side was kept away from to the protection main part is provided with the opening, the opening is close to first electric putter one side welded connection and is had the dog, opening female connection has the guard gate, the guard gate is close to dog one side and glues and is connected with sealed the pad, sealed pad is placed and is connected the dog, the relative both ends that sealed pad one side was kept away from to the guard gate all are provided with the draw-in groove, the equal welded connection in the relative both ends of draw-in groove has the handle.

As a preferred technical scheme of the utility model, the equal welded connection in relative both ends at the frame inner wall middle part has the spring, two is accepted to protection main part upper end all cup joint in the spring and is connected with the damping rod, the equal welded connection protection main part in damping rod bottom, the equal welded connection in protection main part one end middle part has the connecting block is kept away from to the damping rod, the equal welded connection in damping rod one end middle part has first c shape draw-in groove is kept away from to the connecting block, equal sliding connection has t shape fixture block in the first c shape draw-in groove top, equal welded connection has second c shape draw-in groove in first c shape draw-in groove one end middle part is kept away from to t shape fixture block, equal sliding connection has worker shape resistance to compression plate in the second c shape draw-in groove, the filling layer has been laid on worker shape resistance to compression plate top.

The utility model discloses the beneficial effect who reaches is: the spring and the damping rod can deform to release pressure, so that the safety of the pressure-resistant capacity protection equipment of the whole structure can be improved, and the aim of not influencing data collection is fulfilled; the opening of the protection main body is provided with the stop block, then the stop block is contacted with the sealing gasket to form a completely sealed space, and meanwhile, the inner wall of the protection main body is coated with the anti-seepage coating, so that the equipment cannot be damaged due to the fact that no seepage space exists between moisture and rainwater, and the purpose of saving financial resources is achieved; the whole equipment can be lifted mechanically by connecting the air cylinder to the bottom end of the protection main body, and meanwhile, the first electric push rod connected with the baffle can push the sliding blocks at the two ends of the baffle to slide to the opening in the sliding groove in the protection main body, so that the purpose of saving time is achieved; through will be good at shape resistance to compression board and second c shape draw-in groove sliding connection, slide when appearing damaging like this and just can take off good at shape resistance to compression board, reach convenient to detach's purpose.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention. In the drawings:

FIG. 1 is a front view of the device of the present invention;

FIG. 2 is a side view and sectional structure of the device of the present invention;

FIG. 3 is a schematic top sectional view of the protection frame of the present invention;

FIG. 4 is a schematic side view of the protection frame of the present invention;

fig. 5 is a schematic perspective view of the device of the present invention.

In the figure: 1. a road foundation; 2. installing a pit; 3. a cylinder; 4. a protective body; 5. a protective frame; 51. a first electric push rod; 52. a baffle plate; 53. a groove; 54. a second electric push rod; 55. an arc-shaped fixed block; 56. a chute; 57. a slider; 6. an anti-seepage coating; 7. a geomagnetic detector; 8. an opening; 81. a stopper; 82. a protective door; 83. a gasket; 84. a card slot; 85. a handle; 9. a bearing frame; 91. a spring; 92. a damping lever; 93. connecting blocks; 94. a first c-shaped card slot; 95. a t-shaped fixture block; 96. a second c-shaped slot; 97. an I-shaped pressure-resistant plate; 10. and (5) filling the layer.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example (b): as shown in fig. 1-5, an embedded geomagnetic detector with high pressure resistance comprises a road foundation 1, wherein an installation pit 2 is arranged in the road foundation 1, a cylinder 3 is fixedly connected in the installation pit 2 at the bottom end of the road foundation 1, a protection main body 4 is welded to the top end of the cylinder 3, a protection frame 5 is arranged in the lower portion of the protection main body 4, an anti-seepage coating 6 is uniformly coated on the inner wall of the protection main body 4, a geomagnetic detector 7 is clamped and connected in the protection frame 5, and a receiving frame 9 is arranged at the top end of the protection main body 4.

The middle parts of two opposite ends of one side in the lower protective frame 5 of the protective main body 4 are welded and connected with a first electric push rod 51, one end of the first electric push rod 51, which is far away from the protective main body 4, is welded and connected with a baffle plate 52, the middle part of one side of the baffle plate 52, which is far away from the first electric push rod 51, is provided with a groove 53, two opposite ends of the baffle plate 52, which is close to the groove 53, are welded and connected with a second electric push rod 54, the second electric push rod 54 is placed in the connection groove 53, one end, which is close to the second electric push rod 54, is welded and connected with an arc-shaped fixed block 55, one side of the arc-shaped fixed block 55, which is far away from the second electric push rod 54, is clamped and connected with a geomagnetic detector 7, the groove 54 is connected in the groove 53 of one side of the baffle plate 52, and can move relatively to control the diameter between the two opposite arc-shaped fixed blocks 55, so that the geomagnetic detector 7 can be fixed in the protective frame 5 of the protective main body 4, and two opposite ends, which are close to the baffle plate 52, in the lower protective frame 5 of the protective main body 4, are provided with chutes 56, the sliding block 57 is slidably connected in the sliding groove 56, the sliding block 57 is close to the baffle 52 welded at both ends, the baffle 52 can be pushed to slide in the protection main body 4 when the first electric push rod 51 extends by connecting the sliding block 57 at both ends of the baffle 52, the clamped geomagnetic detector 7 can be pushed to the opening 8, the opening 8 is arranged in the middle of one side of the protection main body 4 away from the first electric push rod 51, the stop 81 is welded at one side of the opening 8 close to the first electric push rod 51, the protection door 82 is in threaded connection with the opening 8, the sealing gasket 83 is in glued connection with one side of the protection door 82 close to the stop 81, the connecting stop 81 is placed on the sealing gasket 83, the clamping grooves 84 are arranged at both ends of the protection door 82 away from the sealing gasket 83, the handles 85 are welded at both ends of the clamping grooves 84, the opening 8 arranged at one side of the protection main body 4 can be convenient for taking out the geomagnetic detector 7, meanwhile, the inner wall of the protective main body 4 is provided with internal threads consistent with the external threads of the protective door 82, so that the protective door 82 can be conveniently installed, meanwhile, the sealing gasket 83 is connected with the stop block 81, so that water vapor can be effectively isolated to form a sealing environment, the handle 85 in the clamp groove 84 at the outer side of the protective door 82 can be convenient for people to support when exerting force, two opposite ends of the middle part of the inner wall of the bearing frame 9 at the upper end of the protective main body 4 are respectively welded and connected with springs 91, two damping rods 92 are respectively sleeved and connected in the springs 91, the bottom ends of the damping rods 92 are respectively welded and connected with the protective main body 4, the middle parts of the ends, far away from the protective main body 4, of the damping rods 92 are respectively welded and connected with connecting blocks 93, the middle parts of the ends, far away from the damping rods 92, are respectively welded and connected with a first c-shaped clamp groove 94, the top ends of the first c-shaped clamp grooves 94 are respectively slidably connected with t-shaped clamp blocks 95, and the middle parts of the ends, far away from the first c-shaped clamp grooves 94, of the t-shaped clamp blocks 95 are respectively welded and connected with a second c-shaped clamp groove 96, equal sliding connection has worker shape resistance to compression board 97 in the second c shape draw-in groove 96, and filling layer 10 has been laid on worker shape resistance to compression board 97 top, and spring 91 and damping rod 92 can effectually be alleviated through elastic deformation with applying the power on worker shape resistance to compression board 97, utilize second c shape draw-in groove 96 to cup joint worker shape resistance to compression board 97 like this can be convenient for change when worker shape resistance to compression board 97 appears damaging.

Specifically, during the use of the utility model, spring 91 and damping rod 92 of connecting block 93 bottom can be through elastic deformation with pressure buffer when the vehicle traveles in worker shape resistance board 97 upper end, the frame 9 of accepting that sets up in the upper end of protection main part 4 simultaneously can accept it when the rainwater is too much, prevent to permeate the operation that influences machinery in the protection frame 5, take away filling layer 10 when the damage needs to be changed appear in geomagnetic detector 7 and promote protection main part 4 to rise afterwards by the switch of opening cylinder 3, then hold handle 85 rotatory guard gate 82 and take off it and open first electric putter 51's switch this moment, slider 57 that utilizes baffle 52 both ends can slide in spout 56 then promote baffle 52 and move towards opening 8's direction, wait to move to opening 8 after opening 54 second electric putter 54 switches at centre gripping geomagnetic detector 7 both ends open, loosen arc fixed block 55 and take out geomagnetic detector 7 to maintain and change and accomplish and utilize above-mentioned step heavy switch The protective body 4 is installed again, if the H-shaped pressure-resistant plate 97 is damaged and needs to be replaced, the H-shaped pressure-resistant plate 97 slides out of the second c-shaped clamping groove 96 to be replaced, and after the replacement is completed, the switch of the air cylinder 3 is opened to move the protective body 4 downwards to shrink, and then the filling layer 10 is laid.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. The utility model provides a formula of buryying earth magnetism detector that compressive capacity is strong, a serial communication port, including road foundation (1), be provided with installation hole (2) in road foundation (1), fixedly connected with cylinder (3) in road foundation (1) bottom installation hole (2), cylinder (3) top welded connection has protection main part (4), be provided with in protection main part (4) lower part protection frame (5), prevention of seepage coating (6) have evenly been paintd to protection main part (4) inner wall, the clamp is connected with earth magnetism detector (7) in protection frame (5), protection main part (4) top is provided with accepts frame (9).

2. The buried geomagnetic detector with high pressure resistance according to claim 1, the middle parts of two opposite ends of one side in a lower protective frame (5) of the protective main body (4) are welded and connected with a first electric push rod (51), one end of the first electric push rod (51) far away from the protection main body (4) is welded with a baffle (52), a groove (53) is arranged in the middle of one side of the baffle (52) far away from the first electric push rod (51), two opposite ends of the baffle (52) close to the groove (53) are welded and connected with a second electric push rod (54), the second electric push rod (54) is placed in the connecting groove (53), the arc-shaped fixing blocks (55) are welded and connected to one end, close to the second electric push rod (54), and one side of the arc-shaped fixing block (55), which is far away from the second electric push rod (54), is clamped and connected with the geomagnetic detector (7).

3. The buried geomagnetic detector with high pressure resistance according to claim 2, wherein sliding grooves (56) are respectively formed in the lower protection frame (5) of the protection main body (4) and at two opposite ends close to the baffle (52), sliding blocks (57) are respectively slidably connected in the sliding grooves (56), and the sliding blocks (57) are respectively welded to the baffle (52) at two ends close to the baffle.

4. The embedded geomagnetic detector with high pressure resistance according to claim 2, wherein an opening (8) is formed in the middle of one side, away from the first electric push rod (51), of the protection body (4), a stop block (81) is welded and connected to one side, close to the first electric push rod (51), of the opening (8), a protection door (82) is connected to one side, close to the stop block (81), of the protection door (82) through a sealing gasket (83), the connecting stop block (81) is placed on the sealing gasket (83), clamping grooves (84) are formed in two opposite ends, away from one side, of the sealing gasket (83), of the protection door (82), and handles (85) are welded and connected to two opposite ends of the clamping grooves (84).

5. The embedded geomagnetic detector with high pressure resistance according to claim 1, wherein springs (91) are welded to two opposite ends of the middle portion of the inner wall of the bearing frame (9) at the upper end of the protection body (4), damping rods (92) are sleeved in the two springs (91), the bottom ends of the damping rods (92) are welded to the protection body (4), a connecting block (93) is welded to the middle portion of one end of the damping rods (92) far away from the protection body (4), a first c-shaped clamping groove (94) is welded to the middle portion of one end of the connecting block (93) far away from the damping rods (92), a t-shaped clamping block (95) is slidably connected to the top end of the first c-shaped clamping groove (94), a second c-shaped clamping groove (96) is welded to the middle portion of one end of the t-shaped clamping block (95) far away from the first c-shaped clamping groove (94), an I-shaped pressure resisting plate (97) is connected to the inside of the second c-shaped clamping groove (96) in a sliding mode, and a filling layer (10) is laid at the top end of the I-shaped pressure resisting plate (97).

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