CN216721772U - Protective housing of geological disaster monitoring equipment - Google Patents

Abstract

The utility model discloses a protective shell of geological disaster monitoring equipment, which comprises a shell, wherein a cabinet door is arranged on the end surface of the shell through two groups of hinges. Has the advantages that: the rainwater drainage device adopts the water filtering net pipe, when rainwater gathered on the ground flows towards the direction of the shell, the rainwater enters a gap between the shell and the bottom plate through the water filtering net pipe, and then flows into the underground water pipe through the water guide pipe to finish the drainage work of the rainwater.

Description

Protective housing of geological disaster monitoring equipment

Technical Field

The utility model relates to the technical field of protection of monitoring equipment, in particular to a protective shell of geological disaster monitoring equipment.

Background

The geological disaster is a natural disaster with geological dynamic activity or geological environment abnormal change as a main cause, in the geological disaster, geological disaster monitoring equipment is mostly used, the deformation dynamic state of a disaster body is mastered in time, the stability of the disaster body is analyzed, prediction and forecast are made in advance, and the disaster is prevented.

However, the protective housing of the existing geological disaster monitoring equipment, in the rainwater weather in summer, the rainwater level of ground gathering gradually increases, when contacting the protective housing of the geological disaster monitoring equipment, the rainwater can enter the interior of the protective housing, which causes the short circuit damage of the internal power structure, hidden troubles are brought to the protective use of the protective housing of the geological disaster monitoring equipment, secondly, because the protective housing of the geological disaster monitoring equipment is used outdoors, therefore, birds stay on the upper part of the protective housing of the geological disaster monitoring equipment, when the excrement produced by the birds falls on the upper part of the protective housing of the geological disaster monitoring equipment, hot weather can produce pungent smell, and the mixed bacteria are generated, and inconvenience is brought to the clean use of the protective housing of the geological disaster monitoring equipment.

An effective solution to the problems in the related art has not been proposed yet.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

In order to overcome the defects in the prior art, the utility model provides the protective shell of the geological disaster monitoring equipment, which has the advantages of preventing rainwater from entering the interior of the protective shell of the geological disaster monitoring equipment and preventing birds from staying on the upper part of the protective shell of the geological disaster monitoring equipment, and further solves the problems in the background art.

(II) technical scheme

In order to realize the advantages that rainwater can be prevented from entering the interior of the protective shell of the geological disaster monitoring equipment and birds can be prevented from staying on the upper part of the protective shell of the geological disaster monitoring equipment, the utility model adopts the following specific technical scheme:

the utility model provides a geological disaster monitoring facilities's protective housing, includes the casing, the terminal surface of casing has the cabinet door through two sets of hinges installations, and the terminal surface of cabinet door installs the handle, the drainage network pipe is installed to the lower part of casing, the floating plug is installed to the top of casing.

Further, the lower part fixed mounting of drainage network pipe has the bottom plate, and the upper portion fixed mounting of bottom plate has two sets of bracing pieces, and two sets of the one end tip of bracing piece and the lower part fixed connection of casing, the upper portion of bottom plate is fixed to be run through and is installed the aqueduct, built-in annular protruding type groove has been seted up to the upper end lateral wall of casing, and the inside of built-in annular protruding type groove cup joints and installs the cover and connect the ring to the fixed rotatory ring that cup joints of the outside lateral wall of cover and connect the ring, multiunit ball socket has been seted up to rotatory lower part, and the multiunit the inside of ball socket all is provided with the ball, rotatory outside lateral wall fixed mounting of ring has four group connecting rods, and four groups the equal fixed mounting of one end tip of connecting rod has the choke plate, rotatory lower part fixed mounting has two sets of ripples poles.

Furthermore, the vertical section size of the opening of the built-in annular convex groove is smaller than that of the sleeving ring.

Furthermore, four groups of support columns are installed below the shell, and one end parts of the four groups of support columns are fixedly connected with the lower part of the bottom plate.

Further, the upper portion fixed mounting of casing has the water tank, and the inside bottom surface fixed mounting of water tank has the first puncture awl of multiunit, the open end fixed mounting of water tank has the first puncture awl of multiunit second, the first through-hole of multiunit and multiunit second through hole have been seted up on the upper portion of floating plug, the multiunit is run through respectively to the one end of first puncture awl first through-hole, the multiunit the one end of second puncture awl runs through multiunit second through hole respectively, the inside lateral wall of water tank has seted up the ring channel, the lateral wall fixed cup joint of floating plug is installed the spacing ring, the limbers has been seted up to one side of water tank, and the inside of limbers runs through and installs the limbers.

Furthermore, the limiting ring is located inside the annular groove, and the size of the cross section of the limiting ring is the same as that of the cross section of the annular groove.

Furthermore, the vertical section size of the cabinet door is larger than that of the opening of the shell.

(III) advantageous effects

Compared with the prior art, the utility model provides the protective shell of the geological disaster monitoring equipment, which has the following beneficial effects:

(1) the utility model adopts the water filtering net pipe, when rainwater gathered on the ground flows towards the direction of the shell, the rainwater enters a gap between the shell and the bottom plate through the water filtering net pipe, and then flows into the underground water pipe through the water guide pipe to finish the drainage work of the rainwater, as the wind power in the rainwater weather is larger, when flowing air contacts one group of wind blocking plates, a thrust is generated to the wind blocking plates, the sleeving ring and the rotating ring rotate to work, the rotating ring drives the two groups of fluctuation rods to do synchronous motion, the two groups of fluctuation rods clear impurities adsorbed on the outer side wall of the water filtering net pipe, the rainwater is prevented from blocking the water filtering net pipe, when the rotating ring rotates, the friction force of the shell is utilized, the multiple groups of balls roll in the interiors of the multiple groups of ball sockets respectively, as the surfaces of the multiple groups of balls are smooth, the friction force between the water filtering net pipe and the shell is reduced, and the rainwater can be prevented from entering the interior of the protective shell of the geological disaster monitoring equipment through the arranged water filtering net pipe, the protective shell of the geological disaster monitoring equipment is protected and used to provide a guarantee.

(2) The utility model adopts the floating plug, before the protective shell of the geological disaster monitoring equipment is actually used, an operator firstly connects one end of the water pipe with the water pipe, then adds clear water into the water tank through the water pipe, after the addition is finished, the floating plug floats by utilizing the buoyancy of the clear water, the upper part of the limit ring is contacted with the inner top surface of the annular groove, when birds fall on the upper part of the floating plug, the gravity of the floating plug is increased and vertically sinks, the sharp ends of a plurality of groups of first puncture cones and a plurality of groups of second puncture cones are externally provided with a plurality of groups of first through holes and a plurality of groups of second through holes, the birds cannot stay on the upper part of the floating plug due to the collision of the plurality of groups of first puncture cones and the plurality of groups of second puncture cones, bird droppings generated by the birds staying for a long time are prevented from falling on the upper part of the floating plug, and the arranged floating plug can prevent the birds from staying on the upper part of the protective shell of the geological disaster monitoring equipment, the protective shell of the geological disaster monitoring equipment is convenient to clean and use.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a protective casing of a geological disaster monitoring device according to the present invention;

FIG. 2 is a front view of a protective enclosure of a geological disaster monitoring facility in accordance with the present invention;

fig. 3 is a perspective view of a water filter mesh tube according to the present invention;

FIG. 4 is an enlarged view of A of FIG. 1 according to the present invention

FIG. 5 is an enlarged view of B of FIG. 1 in accordance with the present invention;

fig. 6 is an enlarged view of C of fig. 1 according to the present invention.

In the figure:

1. a housing; 2. a cabinet door; 3. a handle; 4. a water filtering net pipe; 5. a floating plug; 6. a base plate; 7. a support bar; 8. a water conduit; 9. an annular convex groove is arranged inside; 10. a sleeving connection ring; 11. a rotating ring; 12. a ball socket; 13. A ball bearing; 14. a connecting rod; 15. a choke plate; 16. a wave bar; 17. a water tank; 18. a first piercing cone; 19. A second piercing cone; 20. a first through hole; 21. a second through hole; 22. an annular groove; 23. a limiting ring; 24. A water through hole; 25. a water pipe.

Detailed Description

For further explanation of the various embodiments, the drawings which form a part of the disclosure and which are incorporated in and constitute a part of this specification, illustrate embodiments and, together with the description, serve to explain the principles of operation of the embodiments, and to enable others of ordinary skill in the art to understand the various embodiments and advantages of the utility model, and, by reference to these figures, reference is made to the accompanying drawings, which are not to scale and wherein like reference numerals generally refer to like elements.

According to an embodiment of the utility model, a protective casing for a geological disaster monitoring device is provided.

The utility model is further described with reference to the accompanying drawings and the detailed description, and as shown in fig. 1 to 6, according to the protective housing of the geological disaster monitoring equipment in the embodiment of the utility model, the protective housing includes a housing 1, a cabinet door 2 is installed on an end surface of the housing 1 through two sets of hinges, a handle 3 is installed on an end surface of the cabinet door 2, a water filtering net pipe 4 is installed on a lower portion of the housing 1, a floating plug 5 is installed above the housing 1, and the housing 1 and the cabinet door 2 are both of the existing structure, which is not described in detail herein.

In one embodiment, a bottom plate 6 is fixedly installed on the lower portion of the water filtering net pipe 4, two sets of support rods 7 are fixedly installed on the upper portion of the bottom plate 6, one end portions of the two sets of support rods 7 are fixedly connected with the lower portion of the housing 1, a water conduit 8 is fixedly installed on the upper portion of the bottom plate 6 in a penetrating manner, a built-in annular convex groove 9 is formed in the upper end side wall of the housing 1, a sleeving ring 10 is sleeved inside the built-in annular convex groove 9, a rotating ring 11 is fixedly sleeved on the outer side wall of the sleeving ring 10, a plurality of ball sockets 12 are formed in the lower portion of the rotating ring 11, balls 13 are arranged inside the plurality of ball sockets 12, four sets of connecting rods 14 are fixedly installed on the outer side wall of the rotating ring 11, a choke plate 15 is fixedly installed on one end portion of each of the four sets of connecting rods 14, two sets of corrugated rods 16 are fixedly installed on the lower portion of the rotating ring 11, when rainwater gathered on the ground flows towards the housing 1, rainwater enters a gap between the shell 1 and the bottom plate 6 through the filter screen pipe 4, the rainwater flows into an underground water pipe through the water guide pipe 8 to finish the drainage work of the rainwater, when flowing air contacts a group of wind-blocking plates 15 due to the large wind force in the rainwater weather, a thrust is generated on the flowing air, so that the sleeving ring 10 and the rotating ring 11 rotate, the rotating ring 11 drives the two groups of fluctuation rods 16 to synchronously move, the two groups of fluctuation rods 16 clear impurities adsorbed on the outer side wall of the filter screen pipe 4, the rainwater is prevented from being blocked by the filter screen pipe 4, when the rotating ring 11 rotates, the plurality of groups of balls 13 respectively roll in the plurality of groups of ball sockets 12 by using the friction force of the shell 1, and as the surfaces of the plurality of groups of balls 13 are smooth, the friction force between the rotating ring 11 and the shell 1 is reduced, and the rainwater can be prevented from entering the interior of the protective shell of the geological disaster monitoring equipment through the arranged filter screen pipe 4, the protective shell of the geological disaster monitoring equipment is protected and used to provide a guarantee.

In one embodiment, the vertical cross-sectional dimension at the opening of the built-in annular convex groove 9 is smaller than the vertical cross-sectional dimension of the coupling ring 10, so that the coupling ring 10 is prevented from being separated from the inside of the built-in annular convex groove 9.

In one embodiment, four sets of support columns are installed below the casing 1, and one end of each support column is fixedly connected with the lower part of the bottom plate 6, and the four sets of support columns play a role in supporting and fixing a protective shell of the geological disaster monitoring equipment.

In one embodiment, a water tank 17 is fixedly installed on the upper portion of the housing 1, a plurality of sets of first piercing cones 18 are fixedly installed on the inner bottom surface of the water tank 17, a plurality of sets of second piercing cones 19 are fixedly installed on the open end of the water tank 17, a plurality of sets of first through holes 20 and a plurality of sets of second through holes 21 are opened on the upper portion of the floating plug 5, one ends of the plurality of sets of first piercing cones 18 respectively penetrate through the plurality of sets of first through holes 20, one ends of the plurality of sets of second piercing cones 19 respectively penetrate through the plurality of sets of second through holes 21, an annular groove 22 is opened on the inner side wall of the water tank 17, a limit ring 23 is fixedly sleeved on the side wall of the floating plug 5, a water through hole 24 is opened on one side of the water tank 17, a water through pipe 25 is installed inside the water through hole 24, before the protective housing of the geological disaster monitoring equipment is actually used, an operator first connects one end of the water pipe 25 to the water pipe, and then adds clean water to the inside of the water tank 17 through the water pipe 25, after the bird dropping device is added, the floating plug 5 floats by utilizing the buoyancy of clear water, the upper part of the limiting ring 23 is in contact with the inner top surface of the annular groove 22, when birds fall on the upper part of the floating plug 5, the gravity of the floating plug 5 is increased and vertically sinks, the sharp ends of the multiple groups of first puncture cones 18 and the multiple groups of second puncture cones 19 are externally provided with the multiple groups of first through holes 20 and the multiple groups of second through holes 21, and are collided by the multiple groups of first puncture cones 18 and the multiple groups of second puncture cones 19, so that the birds cannot stay on the upper part of the floating plug 5, bird droppings generated by long-time stay of the birds are prevented from falling on the upper part of the floating plug 5, and the bird dropping device can be prevented from staying on the upper part of the protective shell of the geological disaster monitoring equipment through the arranged floating plug 5, and convenience is brought to the cleaning of the protective shell of the geological disaster monitoring equipment.

In one embodiment, the stop collar 23 is located inside the annular groove 22, and the cross-sectional dimension of the stop collar 23 is the same as the cross-sectional dimension of the annular groove 22, preventing the stop collar 23 from escaping from the inside of the annular groove 22.

In one embodiment, the vertical sectional dimension of the cabinet door 2 is larger than the vertical sectional dimension of the opening of the housing 1, so that the situation that the opening of the housing 1 cannot be sealed due to the fact that the vertical sectional dimension of the cabinet door 2 is small is avoided.

The working principle is as follows:

when rainwater gathered on the ground flows towards the direction of the shell 1, the rainwater enters a gap between the shell 1 and the bottom plate 6 through the filtering water network pipe 4, the rainwater flows into an underground water pipe through the water guide pipe 8 to finish the drainage work of the rainwater, when flowing air contacts a group of choke plates 15 due to large wind force in rainwater weather, a thrust is generated on the group of choke plates to ensure that the socket ring 10 and the rotating ring 11 rotate, the rotating ring 11 drives the two groups of fluctuation rods 16 to synchronously move, the two groups of fluctuation rods 16 remove impurities adsorbed on the outer side wall of the filtering water network pipe 4 to prevent the impurities from obstructing the rainwater from passing through the filtering water network pipe 4, when the rotating ring 11 rotates, the plurality of groups of balls 13 roll in the plurality of groups of ball sockets 12 respectively by utilizing the friction force of the shell 1, and because the surfaces of the plurality of groups of balls 13 are smooth, the friction force between the rotating ring 11 and the shell 1 is reduced, through the arranged filtering water network pipe 4, meanwhile, before the protective shell of the geological disaster monitoring equipment is actually used, an operator firstly connects one end of the water pipe 25 with the water pipe and then adds clean water into the water tank 17 through the water pipe 25, after the water is added, the floating plug 5 floats up by using the buoyancy of the clean water, the upper part of the limit ring 23 is in contact with the inner top surface of the annular groove 22, when birds fall on the upper part of the floating plug 5, the gravity of the floating plug 5 is increased and vertically sinks, the sharp ends of the groups of first puncture cones 18 and the groups of second puncture cones 19 are abutted by the groups of first puncture cones 18 and the groups of second puncture cones 19, and the birds cannot stay on the upper part of the floating plug 5, the bird droppings generated by long-time staying of birds are prevented from falling on the upper portion of the floating plug 5, and through the arranged floating plug 5, the birds can be prevented from staying on the upper portion of the protective shell of the geological disaster monitoring equipment, so that convenience is brought to clean use of the protective shell of the geological disaster monitoring equipment.

In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "disposed," "connected," "secured," "screwed" and the like are to be construed broadly, e.g., as meaning fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; the terms may be directly connected or indirectly connected through an intermediate, and may be communication between two elements or interaction relationship between two elements, unless otherwise specifically limited, and the specific meaning of the terms in the present invention will be understood by those skilled in the art according to specific situations.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and should not be taken as limiting the scope of the present invention, which is intended to cover any modifications, equivalents, improvements, etc. within the spirit and scope of the present invention.

Claims (7)

1. The utility model provides a geological disaster monitoring facilities's protective housing, a serial communication port, including casing (1), cabinet door (2) are installed through two sets of hinges to the terminal surface of casing (1), and handle (3) are installed to the terminal surface of cabinet door (2), drainage network pipe (4) are installed to the lower part of casing (1), floating plug (5) are installed to the top of casing (1).

2. The protective casing of a geological disaster monitoring equipment according to claim 1, characterized in that a bottom plate (6) is fixedly installed at the lower part of the water filtering net pipe (4), two sets of support rods (7) are fixedly installed at the upper part of the bottom plate (6), one end of each of the two sets of support rods (7) is fixedly connected with the lower part of the casing (1), a water guide pipe (8) is fixedly installed at the upper part of the bottom plate (6) in a penetrating manner, a built-in annular convex groove (9) is formed on the side wall of the upper end of the casing (1), a sleeving connection ring (10) is sleeved inside the built-in annular convex groove (9), a rotating ring (11) is fixedly sleeved on the outer side wall of the sleeving connection ring (10), a plurality of ball sockets (12) are formed at the lower part of the rotating ring (11), and balls (13) are arranged inside the plurality of ball sockets (12), four groups of connecting rods (14) are fixedly mounted on the outer side wall of the rotating ring (11), a choke plate (15) is fixedly mounted at one end of each of the four groups of connecting rods (14), and two groups of fluctuating rods (16) are fixedly mounted at the lower part of the rotating ring (11).

3. A protective casing for a geological disaster monitoring equipment according to claim 2 characterized in that the vertical cross section size at the opening of said built-in annular convex groove (9) is smaller than the vertical cross section size of the collar (10).

4. A protective casing for a geological disaster monitoring equipment according to claim 2 characterized in that four groups of supporting columns are installed under the casing (1), and one end of each group of supporting columns is fixedly connected with the lower part of the bottom plate (6).

5. The protective shell of geological disaster monitoring equipment according to claim 1, characterized in that a water tank (17) is fixedly installed on the upper portion of the shell (1), a plurality of groups of first puncture cones (18) are fixedly installed on the bottom surface of the interior of the water tank (17), a plurality of groups of second puncture cones (19) are fixedly installed on the open end of the water tank (17), a plurality of groups of first through holes (20) and a plurality of groups of second through holes (21) are opened on the upper portion of the floating plug (5), one end of each group of first puncture cones (18) respectively penetrates through the plurality of groups of first through holes (20), one end of each group of second puncture cones (19) respectively penetrates through the plurality of groups of second through holes (21), an annular groove (22) is opened on the side wall of the interior of the water tank (17), a limit ring (23) is fixedly sleeved on the side wall of the floating plug (5), a water through hole (24) is opened on one side of the water tank (17), and a water pipe (25) is installed in the water through hole (24) in a penetrating way.

6. A protective casing for a geological disaster monitoring equipment according to claim 5 characterized in that said stop collar (23) is located inside the annular groove (22), the cross section of said stop collar (23) having the same size as the cross section of the annular groove (22).

7. A protective casing for a geological disaster monitoring equipment according to claim 1 characterized by that the vertical cross-sectional dimension of the cabinet door (2) is bigger than the vertical cross-sectional dimension at the opening of the casing (1).

Images