CN117403939A

CN117403939A - Monitoring station room with anti-seismic function

Info

Publication number: CN117403939A
Application number: CN202311713466.1A
Authority: CN
Inventors: 陈志伟; 张春伟; 郑立飞; 杜彦生
Original assignee: Hebei Leige Technology Development Co ltd
Current assignee: Hebei Leige Technology Development Co ltd
Priority date: 2023-12-14
Filing date: 2023-12-14
Publication date: 2024-01-16
Anticipated expiration: 2043-12-14
Also published as: CN117403939B

Abstract

The invention relates to the technical field of monitoring stations and provides a monitoring station room with an anti-seismic function, which comprises a supporting main body, a first supporting block, a supporting frame and an elastic piece, wherein the supporting main body is provided with an inner cavity, and the side walls around the supporting main body are provided with a plurality of sliding grooves; the first supporting block is arranged in the sliding groove in a sliding way; the supporting frame is arranged in the inner cavity in a floating way, and the station house is arranged on the supporting frame; one end of the elastic piece acts on the first supporting block, and the other end of the elastic piece acts on the side wall of the supporting frame. Through above-mentioned technical scheme, the mobile monitoring station room among the prior art has been solved lacks earthquake-resistant structure, can't guarantee the problem of monitoring data's safety.

Description

Monitoring station room with anti-seismic function

Technical Field

The invention relates to the technical field of monitoring stations, in particular to a monitoring station room with an anti-seismic function.

Background

The monitoring station house can be used for monitoring air quality and water quality data of surrounding environment, and plays an important role in environmental quality monitoring and water quality resource management. The monitoring station house should be as close to the position of the sampling point as possible to ensure the accuracy of the monitoring data. Therefore, the site selection conditions of the monitoring station rooms are various, and various conditions such as complex hydrologic conditions, loose soil and the like can be faced. Once the landform condition changes, the construction position of the monitoring station room also needs to be transferred. In order to ensure the safety of monitoring equipment during construction of a monitoring station house, the monitoring station house is required to have the characteristics of durability, earthquake resistance and uneven settlement prevention. However, the existing earthquake-resistant method of the monitoring station room mainly comprises the steps of hardening the foundation of the monitoring station room through cement, concrete and the like, and removing the monitoring station room only after violent breaking and dismantling due to permanent building once the flexibility of the monitoring station room is poor. The movable monitoring station house has the advantages of convenient movement and better flexibility, but lacks a corresponding anti-seismic structure, if geological disasters occur, the safety of monitoring equipment cannot be ensured, and once the monitoring data is not timely backed up, the monitoring data can be permanently lost.

Disclosure of Invention

The invention provides a monitoring station room with an anti-seismic function, which solves the problems that a mobile monitoring station room in the related art lacks an anti-seismic structure and cannot guarantee the safety of monitoring data.

The technical scheme of the invention is as follows:

a monitoring station room with anti-seismic function, comprising:

the support body is provided with an inner cavity, and a plurality of sliding grooves are formed in the side walls of the periphery of the support body;

the first supporting block is arranged in the sliding groove in a sliding way;

the support frame is arranged in the inner cavity in a floating mode, and the station house is arranged on the support frame;

and one end of the elastic piece acts on the first supporting block, and the other end of the elastic piece acts on the side wall of the supporting frame.

As a further technical scheme, the method further comprises:

the rotating piece is rotatably arranged on the supporting frame;

the connecting block is connected with one end, close to the supporting frame, of the elastic piece;

and one end of the supporting rod is arranged on the connecting block, and the other end of the supporting rod is in threaded connection with the rotating piece.

As a further technical scheme, still include the shock insulation piece, the shock insulation piece array sets up support the main part with between the support frame, the shock insulation piece includes:

a first fixed block disposed within the support body;

the second fixing block is arranged on the lower surface of the supporting frame;

and two ends of the elastic shock insulation block are respectively connected with the first fixed block and the second fixed block.

As a further technical solution, the supporting frame has a containing cavity, and further includes:

the dividing frame is arranged in the accommodating cavity, the accommodating cavity is divided into a central cavity and a peripheral cavity by the dividing frame, the peripheral cavity surrounds the central cavity, and the supporting rod penetrates through the supporting frame and is positioned in the peripheral cavity;

a balloon disposed within the central cavity;

the gas storage bottle is arranged in the peripheral cavity;

the air valve is arranged in the peripheral cavity and is used for controlling the on-off of the air bag and the air storage bottle;

the supporting plate is arranged in the accommodating cavity in a lifting mode, after the air bag is inflated, the supporting plate moves upwards and is separated from the supporting frame, and the station house is arranged on the supporting plate.

As a further technical scheme, the cross-sectional shape of holding the chamber is V font, hold the big end in chamber towards the backup pad, the cross-sectional shape of backup pad with hold the cross-sectional shape looks adaptation in chamber.

As a further technical scheme, the upper end of support main part has the apron, have the through-hole on the apron, the station room runs through the through-hole, the station room includes:

the isolation plate is arranged on the supporting plate, and the bottom area of the isolation plate is smaller than the upper surface area of the supporting plate;

the buckle plate is arranged on the isolation plate, the cross section shape of the buckle plate is matched with the shape of the through hole, and the buckle plate is inserted in the through hole;

the monitoring station main body is arranged on the pinch plate.

As a further technical scheme, the shape of the through hole is reverse V-shaped.

As a further technical scheme, the side wall of the buckle plate is provided with a step, and the step is abutted with the upper surface of the cover plate.

As a further technical scheme, there is the holding tank on the outer wall of support main part, the holding tank with sliding tray one-to-one, the holding tank with corresponding form the step between the sliding tray and lead to the groove, still include:

the limiting block is arranged in the accommodating groove in a sliding mode, the limiting block is connected with the first supporting block, and one end, close to the first supporting block, of the limiting block is abutted to the outer surface of the sliding groove.

As a further technical scheme, the method further comprises:

the dust guard, the dust guard sets up the outside of holding tank, the dust guard with the shape looks adaptation of holding tank.

The working principle and the beneficial effects of the invention are as follows:

in order to solve the problems that a movable monitoring station house in the related art lacks an anti-seismic structure and cannot guarantee the safety of monitoring data, a supporting foundation of the station house is formed by a supporting main body and a supporting frame, a plurality of sliding grooves are formed in the side wall of the supporting main body, a first supporting block is slidably arranged in each sliding groove, the supporting frame is connected with the first supporting block through an elastic piece, flexible connection between the first supporting block and the supporting frame is realized through the elastic piece, and when the impact on the supporting main body is large, the first supporting block can slide in the sliding grooves, so that the rigid movement of the supporting frame in the supporting main body is reduced. The sliding tray distributes the lateral wall around supporting body, makes the support frame can slide in the supporting body in the horizontal direction, and then can bear the impact of a plurality of directions, and the elastic component also has deflection in vertical direction, makes the supporting body when receiving the impact of vertical direction, and the elastic component also can play the cushioning effect, and the station room setting is on the support frame, through the cooperation of elastic component and first supporting shoe, reduces the impact that the support frame received, and then reduces the impact to the influence of station room internal equipment, guarantees the security of monitoring data. The support main body is provided with an inner cavity, the weight is lighter, the prefabrication and the forming are convenient, and compared with the common anti-seismic structure cast in situ by cement, concrete and the like, the forming is more convenient, and the site construction is also convenient.

The invention has the working principle that sliding grooves are uniformly formed on the side wall of a supporting main body, the supporting main body is pre-buried in a foundation during construction after being prefabricated and formed, a first supporting block is slidably arranged in each sliding groove, the first supporting block and a supporting frame are connected through an elastic piece, and finally, a station house is fixed on the supporting frame. Because the sliding grooves are uniformly distributed on the support main body, the support main body is embedded into the foundation, the elastic coefficient and the length of each elastic piece are the same, and when the support main body is not impacted, the support frame is stressed and balanced, and can keep a relatively stable position relation with the support main body, namely, the support frame is stable when a standing room is placed on the support frame. When the support frame receives the impact, the elastic component can take place deformation at first, absorbs the energy that the impact brought, and first supporting shoe slides along the sliding tray, can further cushion the impact, avoids taking place rigid motion between support main part and the support frame, keeps the stability of support frame, and then guarantees the security of equipment and detection data in the station room.

Drawings

The invention will be described in further detail with reference to the drawings and the detailed description.

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

FIG. 2 is an enlarged schematic view of the structure of FIG. 1A according to the present invention;

FIG. 3 is a cross-sectional view of the structure of the present invention;

FIG. 4 is an enlarged schematic view of the structure of FIG. 3B according to the present invention;

FIG. 5 is a schematic view of a partial structure of the present invention;

FIG. 6 is a schematic view of a shock insulator according to the present invention;

in the figure: 1. the support body, 2, the inner chamber, 3, the sliding tray, 4, first supporting shoe, 5, the support frame, 6, the station room, 7, the elastic component, 8, the rotating component, 9, the connecting block, 10, the bracing piece, 11, the shock insulation piece, 12, first fixed block, 13, second fixed block, 14, the elastic shock insulation piece, 15, the holding cavity, 16, split frame, 17, the central cavity, 18, the cavity all around, 19, the gasbag, 20, the gas bomb, 21, the pneumatic valve, 22, the backup pad, 23, the apron, 24, the through-hole, 25, the division board, 26, the buckle, 27, the monitoring station body, 28, the step, 29, the holding tank, 30, the stopper, 31, the dust guard.

Detailed Description

The technical solutions of the embodiments of the present invention will be clearly and completely described below in conjunction with the embodiments of the present invention, and it is apparent that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

As shown in fig. 1-6, the present embodiment proposes

A monitoring station room with anti-seismic function, comprising:

the support body 1 is provided with an inner cavity 2, and a plurality of sliding grooves 3 are formed in the side walls of the periphery of the support body 1;

the first supporting block 4 is arranged in the sliding groove 3 in a sliding way;

the support frame 5 is arranged in the inner cavity 2 in a floating mode, and the station house 6 is arranged on the support frame 5;

and one end of the elastic piece 7 acts on the first supporting block 4, and the other end of the elastic piece 7 acts on the side wall of the supporting frame 5.

In this embodiment, in order to solve the portable monitoring station room 6 among the related art lack the shock-resistant structure, can't guarantee the problem of monitoring data safety, constitute the support basis of station room 6 through supporting main part 1 and support frame 5 two parts, there is a plurality of sliding tray 3 on the lateral wall of supporting main part 1, every sliding tray 3 all slides and is provided with first supporting shoe 4, support frame 5 is connected with first supporting shoe 4 through elastic component 7, realize the flexonics between first supporting shoe 4 and the support frame 5 through elastic component 7, elastic component 7 is connected with the damping piece, absorb the energy of impact through the damping piece. When the impact on the support body 1 is large, the first support block 4 can slide in the sliding groove 3, and rigid movement of the support frame 5 in the support body 1 is reduced. The sliding tray 3 distributes the lateral wall around supporting body 1, makes support frame 5 can horizontal slip in supporting body 1, and then can bear the impact of a plurality of directions, and elastic component 7 also has deflection in vertical direction, makes supporting body 1 when receiving the impact of vertical direction, and elastic component 7 also can play the cushioning effect, and station room 6 sets up on support frame 5, through the cooperation of elastic component 7 and first supporting shoe 4, reduces the impact that support frame 5 received, and then reduces the impact to the influence of the interior equipment of station room 6, guarantees monitoring data's security. The supporting main body 1 is provided with the inner cavity 2, has lighter weight, is convenient for prefabrication and forming, and is more convenient for forming and site construction compared with the common anti-seismic structure cast in situ by cement, concrete and the like.

Specifically, evenly be provided with sliding tray 3 on the lateral wall of supporting body 1, after supporting body 1 prefabricates the shaping, pre-buried in the ground when the construction, all slide in every sliding tray 3 and be provided with first supporting shoe 4, get up first supporting shoe 4 and support frame 5 through elastic component 7, with station house 6 fixed on support frame 5 at last can. Because the sliding grooves 3 are uniformly distributed on the support main body 1, the support main body 1 is embedded into the foundation, the elastic coefficient and the length of each elastic piece 7 are the same, when the support main body 1 is not impacted, the support frame 5 is stressed and balanced, and the relatively stable position relation between the support frame 5 and the support main body 1 can be kept, namely, the station house 6 is kept stable on the support frame 5. When the support frame 5 receives the impact, the elastic component 7 at first takes place deformation, absorbs the energy that the impact brought, and first supporting shoe 4 slides along sliding tray 3, can further cushion the impact, avoids taking place rigid motion between support main part 1 and the support frame 5, keeps the stability of support frame 5, and then guarantees the security of equipment and detected data in the station room 6.

Further, the method further comprises the following steps:

the rotating piece 8 is rotatably arranged on the supporting frame 5;

the connecting block 9 is connected with one end of the elastic piece 7, which is close to the supporting frame 5;

the bracing piece 10, bracing piece 10 one end sets up on connecting block 9, and the other end and the rotating member 8 threaded connection of bracing piece 10.

In this embodiment, when natural disasters such as earthquake take place, in order to further reduce the impact that support frame 5 received, support frame 5 links together with elastic component 7 through rotating piece 8, connecting block 9 and bracing piece 10, elastic component 7 and connecting block 9 are connected, bracing piece 10 one end is connected with connecting block 9, the other end and the rotating piece 8 threaded connection of bracing piece 10, when elastic component 7 takes place deformation, can drive bracing piece 10 to be close to or keep away from support frame 5 one side motion, at this moment because support frame 5 has restricted the removal of rotating piece 8, rotating piece 8 begins to rotate on support frame 5, because the threaded connection relation between bracing piece 10 and the rotating piece 8, can avoid elastic component 7 to drive support frame 5 suddenly and take place to remove, the reaction time of extension support frame 5, further avoid support frame 5 to receive the impact suddenly, guarantee the security of equipment and monitoring data in the station room 6.

Further, still include shock insulation piece 11, shock insulation piece 11 array sets up between support main part 1 and support frame 5, and shock insulation piece 11 includes:

a first fixed block 12, the first fixed block 12 being disposed within the support body 1;

the second fixed block 13 is arranged on the lower surface of the supporting frame 5;

the elastic shock insulation block 14, the both ends of the elastic shock insulation block 14 are connected with the first fixed block 12 and the second fixed block 13 respectively.

In this embodiment, shock insulation piece 11 sets up in the bottom of support frame 5, is located between support main part 1 and support frame 5, can further improve the supportability of support frame 5, avoids leading to elastic component 7 to take place to damage because of station room 6 excessive weight, reduces elastic component 7's life. The first fixing block 12 and the second fixing block 13 are respectively connected with the support body 1 and the support frame 5, and when the support body 1 is impacted, the elastic shock-insulating block 14 can absorb the impact energy together with the elastic piece 7.

Further, the supporting frame 5 has a receiving chamber 15, and further includes:

the division frame 16 is arranged in the accommodating cavity 15, the division frame 16 divides the accommodating cavity 15 into a central cavity 17 and a peripheral cavity 18, the peripheral cavity 18 surrounds the central cavity 17, and the support rod 10 penetrates through the support frame 5 and is positioned in the peripheral cavity 18;

a balloon 19, the balloon 19 being disposed within the central lumen 17;

a gas cylinder 20, the gas cylinder 20 being disposed within the peripheral cavity 18;

the air valve 21 is arranged in the peripheral cavity 18, and the air valve 21 is used for controlling the on-off of the air bag 19 and the air storage bottle 20;

the support plate 22, the support plate 22 lift sets up in holding the chamber 15, and after the gasbag 19 aerifys, the support plate 22 moves upwards and separates with support frame 5, and station room 6 sets up on the support plate 22.

In this embodiment, when the device detects that a severe earthquake occurs and the impact on the supporting body 1 is too large, the air valve 21 is opened to introduce the air in the air bottle 20 into the air bag 19, so that the air bag 19 is inflated, the air bag 19 can jack up the supporting plate 22 after being higher than the partition frame 16, the supporting plate 22 slides upwards in the accommodating cavity 15, and after the supporting plate 22 is separated from the supporting frame 5, flexible connection is established between the station room 6 and the supporting frame 5 through the air bag 19, so that the station room 6 is kept relatively independent relative to the supporting frame 5 and the supporting body 1, and the impact on the device in the station room 6 is further reduced. The division frame 16 divides the accommodating cavity 15 into a central cavity 17 and a peripheral cavity 18, one end of the supporting rod 10 is positioned in the peripheral cavity 18, and the division frame 16 can protect an air bag 19 in the central cavity 17, so that the supporting rod 10 is prevented from puncturing the air bag 19 in the moving process, and the running reliability of equipment in the station room 6 is further affected.

Further, the cross-sectional shape of the accommodating chamber 15 is V-shaped, the large end of the accommodating chamber 15 faces the support plate 22, and the cross-sectional shape of the support plate 22 is adapted to the cross-sectional shape of the accommodating chamber 15.

In this embodiment, after the accommodating cavity 15 is set to be V-shaped with the large end facing the supporting plate 22, the supporting plate 22 can be naturally abutted in the accommodating cavity 15 under the action of gravity, and no additional fixing mechanism is needed, so that after the air bag 19 is inflated, the air bag 19 is also convenient to jack up the supporting plate 22, and the supporting plate 22 is convenient to move.

Further, the upper end of the support body 1 has a cover plate 23, the cover plate 23 has a through hole 24, the station building 6 penetrates the through hole 24, and the station building 6 includes:

a partition plate 25, the partition plate 25 being disposed on the support plate 22, the bottom area of the partition plate 25 being smaller than the upper surface area of the support plate 22;

the buckling plate 26 is arranged on the isolation plate 25, the cross section shape of the buckling plate 26 is matched with the shape of the through hole 24, and the buckling plate 26 is inserted into the through hole 24;

the monitoring station main body 27, the monitoring station main body 27 is arranged on the buckle 26.

In this embodiment, in order to protect the inside of supporting body 1, avoid debris such as dust to fall into inner chamber 2, and then influence the antidetonation of standing room 6, set up apron 23 on the upper portion of supporting body 1, behind standing room 6 run through hole 24, the equipment in standing room 6 is located the top of supporting body 1, avoids supporting body 1 to influence monitoring data's accuracy. The division board 25 can separate a section distance between backup pad 22 and the buckle 26, leaves the space for the mobile device of portable monitoring station room, avoids backup pad 22 in portable monitoring station room to take place to interfere, is convenient for arrange different portable monitoring station rooms according to needs in backup pad 22 top. The buckle 26 is matched with the shape of the through hole 24, so that sundries can be prevented from falling into the support body 1 from the through hole 24 when the support body 1 is in a stable state. The monitoring station body 27 is located on the pinch plate 26, i.e. outside the support body 1, and the operation of the equipment inside the monitoring station body 27 is not affected by the support body 1.

Further, the shape of the through hole 24 is an inverted V shape.

In this embodiment, in order to facilitate the installation of the clip 26 in the through hole 24, the shape of the through hole 24 is set to be inverted V-shape, so that even if the shapes of the through hole 24 and the clip 26 deviate, the clip 26 can be installed on the partition plate 25, and the fault tolerance of the installation of the station house 6 is improved.

Further, the side wall of the buckle plate 26 has a step 28, and the step 28 abuts against the upper surface of the cover plate 23.

In this embodiment, the through hole 24 can be further closed by the step 28, and the inside of the support body 1 can be kept clean.

Further, there is an accommodation groove 29 on the outer wall of the support body 1, the accommodation groove 29 corresponds to the sliding groove 3 one by one, a step-shaped through groove is formed between the accommodation groove 29 and the corresponding sliding groove 3, and the support further comprises:

the stopper 30, stopper 30 sliding arrangement is in holding tank 29, and stopper 30 is connected with first supporting shoe 4, and the one end that stopper 30 is close to first supporting shoe 4 and the surface butt of sliding tray 3.

In this embodiment, the accommodating groove 29 is disposed outside the sliding groove 3, and the stopper 30 can slide inside the accommodating groove 29 after being connected with the first supporting block 4, and the stopper 30 abuts against the outer surface of the sliding groove 3 during the sliding process, so that the stability of the first supporting block 4 during sliding along the sliding groove 3 can be maintained. Meanwhile, the area of the accommodating groove 29 is larger than that of the sliding groove 3, so that the support body 1 is convenient to manufacture, and the limiting block 30 and the first support block 4 are convenient to install.

Further, the method further comprises the following steps:

the dust guard 31, dust guard 31 sets up in the outside of holding tank 29, and dust guard 31 and holding tank 29's shape looks adaptation.

In this embodiment, since the first supporting block 4 needs to be pre-buried underground, in order to avoid sundries entering the sliding groove 3 and the accommodating groove 29, the sliding stability and smoothness of the first supporting block 4 and the limiting block 30 are affected, and a dust-proof plate 31 is arranged on the outer side of the accommodating groove 29, the dust-proof plate 31, the cover plate 23 and the buckle plate 26 are matched together to keep the inside of the supporting main body 1 clean, so that the stability of other structural movements is prevented from being affected after sundries enter.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the invention.

Claims

1. A monitoring station room with antidetonation function, characterized by comprising:

the support comprises a support main body (1), wherein the support main body (1) is provided with an inner cavity (2), and a plurality of sliding grooves (3) are formed in the peripheral side walls of the support main body (1);

the first supporting block (4) is arranged in the sliding groove (3) in a sliding way;

the support frame (5), the said support frame (5) floats and sets up in the said inner chamber (2), the station house (6) is set up on said support frame (5);

and one end of the elastic piece (7) acts on the first supporting block (4), and the other end of the elastic piece (7) acts on the side wall of the supporting frame (5).

2. A monitoring station room with anti-seismic function according to claim 1, further comprising:

the rotating piece (8), the said rotating piece (8) rotates and sets up on the said support frame (5);

the connecting block (9), the connecting block (9) is connected with one end of the elastic piece (7) close to the supporting frame (5);

the support rod (10), one end of the support rod (10) is arranged on the connecting block (9), and the other end of the support rod (10) is in threaded connection with the rotating piece (8).

3. The monitoring station building with anti-seismic function according to claim 1, further comprising a shock insulation member (11), the array of shock insulation members (11) being arranged between the support body (1) and the support frame (5), the shock insulation member (11) comprising:

a first fixed block (12), the first fixed block (12) being disposed within the support body (1);

the second fixing block (13) is arranged on the lower surface of the supporting frame (5);

and the two ends of the elastic shock insulation block (14) are respectively connected with the first fixed block (12) and the second fixed block (13).

4. A monitoring station room with anti-seismic function according to claim 2, characterized in that said supporting frame (5) has a housing cavity (15), further comprising:

the division frame (16), the division frame (16) is arranged in the accommodating cavity (15), the division frame (16) divides the accommodating cavity (15) into a central cavity (17) and a peripheral cavity (18), the peripheral cavity (18) surrounds the central cavity (17), and the supporting rod (10) penetrates through the supporting frame (5) and then is positioned in the peripheral cavity (18);

-a balloon (19), said balloon (19) being arranged within said central cavity (17);

a gas cylinder (20), the gas cylinder (20) being arranged in the peripheral cavity (18);

the air valve (21) is arranged in the peripheral cavity (18), and the air valve (21) is used for controlling the on-off of the air bottle (20) and the air bag (19);

the supporting plate (22), the supporting plate (22) goes up and down to set up in holding chamber (15), after gasbag (19) are inflated, backup pad (22) shift up and with support frame (5) separation, standing room (6) set up on supporting plate (22).

5. The monitoring station house with the anti-seismic function according to claim 4, wherein the cross-sectional shape of the accommodating cavity (15) is V-shaped, the large end of the accommodating cavity (15) faces the supporting plate (22), and the cross-sectional shape of the supporting plate (22) is matched with the cross-sectional shape of the accommodating cavity (15).

6. A monitoring station room with anti-seismic function according to claim 4, characterized in that the upper end of the supporting body (1) is provided with a cover plate (23), the cover plate (23) is provided with a through hole (24), the station room (6) penetrates through the through hole (24), and the station room (6) comprises:

a partition plate (25), the partition plate (25) being provided on the support plate (22), the bottom area of the partition plate (25) being smaller than the upper surface area of the support plate (22);

the buckle plate (26) is arranged on the isolation plate (25), the cross section shape of the buckle plate (26) is matched with the shape of the through hole (24), and the buckle plate (26) is inserted into the through hole (24);

the monitoring station main body (27), the monitoring station main body (27) is arranged on the buckle plate (26).

7. A monitoring station room with anti-seismic function according to claim 6, characterized in that the through hole (24) is of inverted V-shape.

8. A monitoring station room with anti-seismic function according to claim 6, characterized in that the side wall of the pinch plate (26) has a step (28), said step (28) being in abutment with the upper surface of the cover plate (23).

9. The monitoring station room with anti-seismic function according to claim 1, characterized in that the outer wall of the supporting main body (1) is provided with accommodating grooves (29), the accommodating grooves (29) are in one-to-one correspondence with the sliding grooves (3), and step-shaped through grooves are formed between the accommodating grooves (29) and the corresponding sliding grooves (3), and the monitoring station room further comprises:

the limiting block (30), the limiting block (30) slides and sets up in holding tank (29), limiting block (30) with first supporting shoe (4) are connected, limiting block (30) be close to one end of first supporting shoe (4) with the surface butt of sliding tray (3).

10. The monitoring station building with anti-seismic function of claim 9, further comprising:

the dustproof plate (31), the dustproof plate (31) is arranged on the outer side of the accommodating groove (29), and the dustproof plate (31) is matched with the shape of the accommodating groove (29).